wangxinze/Verilog_data · Datasets at Hugging Face

module_content stringlengths 18 1.05M
module SCB_P4_v1_20_0 ( sclk, interrupt, clock); output sclk; output interrupt; input clock; wire Net_427; wire Net_416; wire Net_245; wire Net_676; wire Net_452; wire Net_459; wire Net_496; wire Net_660; wire Net_656; wire Net_687; wire Net_703; wire Net_682; wire Net_422; wire Net_379; wire Net_555; wire Net_387; wire uncfg_rx_irq; wire Net_458; wire Net_596; wire Net_252; wire Net_547; wire rx_irq; wire [3:0] ss; wire Net_467; wire Net_655; wire Net_663; wire Net_581; wire Net_474; wire Net_651; wire Net_580; wire Net_654; wire Net_653; wire Net_652; wire Net_284; cy_clock_v1_0 #(.id("1ec6effd-8f31-4dd5-a825-0c49238d524e/81fcee8a-3b8b-4be1-9a5f-a5e2e619a938"), .source_clock_id(""), .divisor(0), .period("723379629.62963"), .is_direct(0), .is_digital(0)) SCBCLK (.clock_out(Net_284)); ZeroTerminal ZeroTerminal_5 ( .z(Net_459)); // select_s_VM (cy_virtualmux_v1_0) assign Net_652 = Net_459; ZeroTerminal ZeroTerminal_4 ( .z(Net_452)); ZeroTerminal ZeroTerminal_3 ( .z(Net_676)); ZeroTerminal ZeroTerminal_2 ( .z(Net_245)); ZeroTerminal ZeroTerminal_1 ( .z(Net_416)); // rx_VM (cy_virtualmux_v1_0) assign Net_654 = Net_379; // rx_wake_VM (cy_virtualmux_v1_0) assign Net_682 = uncfg_rx_irq; // clock_VM (cy_virtualmux_v1_0) assign Net_655 = Net_284; // sclk_s_VM (cy_virtualmux_v1_0) assign Net_653 = Net_416; // mosi_s_VM (cy_virtualmux_v1_0) assign Net_651 = Net_676; // miso_m_VM (cy_virtualmux_v1_0) assign Net_663 = Net_245; wire [0:0] tmpOE__tx_net; wire [0:0] tmpFB_0__tx_net; wire [0:0] tmpIO_0__tx_net; wire [0:0] tmpINTERRUPT_0__tx_net; electrical [0:0] tmpSIOVREF__tx_net; cy_psoc3_pins_v1_10 #(.id("1ec6effd-8f31-4dd5-a825-0c49238d524e/23b8206d-1c77-4e61-be4a-b4037d5de5fc"), .drive_mode(3'b110), .ibuf_enabled(1'b0), .init_dr_st(1'b1), .input_clk_en(0), .input_sync(1'b0), .input_sync_mode(1'b0), .intr_mode(2'b00), .invert_in_clock(0), .invert_in_clock_en(0), .invert_in_reset(0), .invert_out_clock(0), .invert_out_clock_en(0), .invert_out_reset(0), .io_voltage(""), .layout_mode("CONTIGUOUS"), .oe_conn(1'b0), .oe_reset(0), .oe_sync(1'b0), .output_clk_en(0), .output_clock_mode(1'b0), .output_conn(1'b1), .output_mode(1'b0), .output_reset(0), .output_sync(1'b0), .pa_in_clock(-1), .pa_in_clock_en(-1), .pa_in_reset(-1), .pa_out_clock(-1), .pa_out_clock_en(-1), .pa_out_reset(-1), .pin_aliases(""), .pin_mode("B"), .por_state(4), .sio_group_cnt(0), .sio_hyst(1'b0), .sio_ibuf(""), .sio_info(2'b00), .sio_obuf(""), .sio_refsel(""), .sio_vtrip(""), .slew_rate(1'b0), .spanning(0), .use_annotation(1'b0), .vtrip(2'b00), .width(1)) tx (.oe(tmpOE__tx_net), .y({Net_656}), .fb({tmpFB_0__tx_net[0:0]}), .io({tmpIO_0__tx_net[0:0]}), .siovref(tmpSIOVREF__tx_net), .interrupt({tmpINTERRUPT_0__tx_net[0:0]}), .in_clock({1'b0}), .in_clock_en({1'b1}), .in_reset({1'b0}), .out_clock({1'b0}), .out_clock_en({1'b1}), .out_reset({1'b0})); assign tmpOE__tx_net = (`CYDEV_CHIP_MEMBER_USED == `CYDEV_CHIP_MEMBER_3A && `CYDEV_CHIP_REVISION_USED < `CYDEV_CHIP_REVISION_3A_ES3) ? ~{1'b1} : {1'b1}; ZeroTerminal ZeroTerminal_7 ( .z(Net_427)); assign sclk = Net_284 \| Net_427; wire [0:0] tmpOE__rx_net; wire [0:0] tmpIO_0__rx_net; wire [0:0] tmpINTERRUPT_0__rx_net; electrical [0:0] tmpSIOVREF__rx_net; cy_psoc3_pins_v1_10 #(.id("1ec6effd-8f31-4dd5-a825-0c49238d524e/78e33e5d-45ea-4b75-88d5-73274e8a7ce4"), .drive_mode(3'b001), .ibuf_enabled(1'b1), .init_dr_st(1'b0), .input_clk_en(0), .input_sync(1'b0), .input_sync_mode(1'b0), .intr_mode(2'b00), .invert_in_clock(0), .invert_in_clock_en(0), .invert_in_reset(0), .invert_out_clock(0), .invert_out_clock_en(0), .invert_out_reset(0), .io_voltage(""), .layout_mode("CONTIGUOUS"), .oe_conn(1'b0), .oe_reset(0), .oe_sync(1'b0), .output_clk_en(0), .output_clock_mode(1'b0), .output_conn(1'b0), .output_mode(1'b0), .output_reset(0), .output_sync(1'b0), .pa_in_clock(-1), .pa_in_clock_en(-1), .pa_in_reset(-1), .pa_out_clock(-1), .pa_out_clock_en(-1), .pa_out_reset(-1), .pin_aliases(""), .pin_mode("I"), .por_state(4), .sio_group_cnt(0), .sio_hyst(1'b0), .sio_ibuf(""), .sio_info(2'b00), .sio_obuf(""), .sio_refsel(""), .sio_vtrip(""), .slew_rate(1'b0), .spanning(0), .use_annotation(1'b0), .vtrip(2'b00), .width(1)) rx (.oe(tmpOE__rx_net), .y({1'b0}), .fb({Net_379}), .io({tmpIO_0__rx_net[0:0]}), .siovref(tmpSIOVREF__rx_net), .interrupt({tmpINTERRUPT_0__rx_net[0:0]}), .in_clock({1'b0}), .in_clock_en({1'b1}), .in_reset({1'b0}), .out_clock({1'b0}), .out_clock_en({1'b1}), .out_reset({1'b0})); assign tmpOE__rx_net = (`CYDEV_CHIP_MEMBER_USED == `CYDEV_CHIP_MEMBER_3A && `CYDEV_CHIP_REVISION_USED < `CYDEV_CHIP_REVISION_3A_ES3) ? ~{1'b1} : {1'b1}; cy_m0s8_scb_v1_0 SCB ( .rx(Net_654), .miso_m(Net_663), .clock(Net_655), .select_m(ss[3:0]), .sclk_m(Net_687), .mosi_s(Net_651), .select_s(Net_652), .sclk_s(Net_653), .mosi_m(Net_660), .scl(Net_580), .sda(Net_581), .tx(Net_656), .miso_s(Net_703), .interrupt(interrupt)); defparam SCB.scb_mode = 2; endmodule
module IDAC_P4_v1_0_1 ( Iout); inout Iout; electrical Iout; wire Net_3; cy_psoc4_csidac_v1_0 cy_psoc4_idac ( .en(Net_3), .iout(Iout)); defparam cy_psoc4_idac.resolution = 7; OneTerminal OneTerminal_1 ( .o(Net_3)); endmodule
module IDAC_P4_v1_0_2 ( Iout); inout Iout; electrical Iout; wire Net_3; cy_psoc4_csidac_v1_0 cy_psoc4_idac ( .en(Net_3), .iout(Iout)); defparam cy_psoc4_idac.resolution = 8; OneTerminal OneTerminal_1 ( .o(Net_3)); endmodule
module CapSense_CSD_P4_v2_0_3 ( sclk2); output sclk2; wire Net_534; wire Net_474; wire Net_540; wire Net_329; wire Net_312; wire Net_104; wire Net_328; electrical Net_398; electrical Net_241; electrical Net_246; wire Net_420; wire Net_429; electrical [3:0] Net_245; wire Net_248; electrical Net_270; cy_psoc4_csd_v1_0 CSD_FFB ( .source(Net_245[3:0]), .csh(Net_246), .shield(Net_241), .cmod(Net_398), .sample_out(Net_328), .sense_in(Net_104), .clk1(Net_429), .clk2(Net_420), .irq(Net_248), .sample_in(Net_312), .sense_out(Net_329), .amuxa(Net_270)); defparam CSD_FFB.sensors_count = 4; defparam CSD_FFB.shield_count = 1; cy_clock_v1_0 #(.id("3c8c7eac-aaf5-41b9-9d0a-e31e77bfd8ce/74063576-f256-4f8f-8a82-9abdee876261"), .source_clock_id("413DE2EF-D9F2-4233-A808-DFAF137FD877"), .divisor(255), .period("0"), .is_direct(0), .is_digital(0)) SampleClk (.clock_out(Net_420)); wire [0:0] tmpOE__Cmod_net; wire [0:0] tmpFB_0__Cmod_net; wire [0:0] tmpIO_0__Cmod_net; wire [0:0] tmpINTERRUPT_0__Cmod_net; electrical [0:0] tmpSIOVREF__Cmod_net; cy_psoc3_pins_v1_10 #(.id("3c8c7eac-aaf5-41b9-9d0a-e31e77bfd8ce/899719c0-e797-4403-a44f-07a66de2cbeb"), .drive_mode(3'b000), .ibuf_enabled(1'b0), .init_dr_st(1'b1), .input_clk_en(0), .input_sync(1'b1), .input_sync_mode(1'b0), .intr_mode(2'b00), .invert_in_clock(0), .invert_in_clock_en(0), .invert_in_reset(0), .invert_out_clock(0), .invert_out_clock_en(0), .invert_out_reset(0), .io_voltage(""), .layout_mode("CONTIGUOUS"), .oe_conn(1'b0), .oe_reset(0), .oe_sync(1'b0), .output_clk_en(0), .output_clock_mode(1'b0), .output_conn(1'b0), .output_mode(1'b0), .output_reset(0), .output_sync(1'b0), .pa_in_clock(-1), .pa_in_clock_en(-1), .pa_in_reset(-1), .pa_out_clock(-1), .pa_out_clock_en(-1), .pa_out_reset(-1), .pin_aliases("Cmod"), .pin_mode("A"), .por_state(4), .sio_group_cnt(0), .sio_hyst(1'b0), .sio_ibuf(""), .sio_info(2'b00), .sio_obuf(""), .sio_refsel(""), .sio_vtrip(""), .slew_rate(1'b0), .spanning(0), .use_annotation(1'b0), .vtrip(2'b10), .width(1)) Cmod (.oe(tmpOE__Cmod_net), .y({1'b0}), .fb({tmpFB_0__Cmod_net[0:0]}), .analog({Net_398}), .io({tmpIO_0__Cmod_net[0:0]}), .siovref(tmpSIOVREF__Cmod_net), .interrupt({tmpINTERRUPT_0__Cmod_net[0:0]}), .in_clock({1'b0}), .in_clock_en({1'b1}), .in_reset({1'b0}), .out_clock({1'b0}), .out_clock_en({1'b1}), .out_reset({1'b0})); assign tmpOE__Cmod_net = (`CYDEV_CHIP_MEMBER_USED == `CYDEV_CHIP_MEMBER_3A && `CYDEV_CHIP_REVISION_USED < `CYDEV_CHIP_REVISION_3A_ES3) ? ~{1'b1} : {1'b1}; cy_isr_v1_0 #(.int_type(2'b10)) ISR (.int_signal(Net_248)); IDAC_P4_v1_0_1 IDAC2 ( .Iout(Net_270)); wire [3:0] tmpOE__Sns_net; wire [3:0] tmpFB_3__Sns_net; wire [3:0] tmpIO_3__Sns_net; wire [0:0] tmpINTERRUPT_0__Sns_net; electrical [0:0] tmpSIOVREF__Sns_net; cy_psoc3_pins_v1_10 #(.id("3c8c7eac-aaf5-41b9-9d0a-e31e77bfd8ce/73b612cd-240c-4d8e-8340-ea28aabf4b11"), .drive_mode(12'b000_000_000_000), .ibuf_enabled(4'b0_0_0_0), .init_dr_st(4'b1_1_1_1), .input_clk_en(0), .input_sync(4'b1_1_1_1), .input_sync_mode(4'b0_0_0_0), .intr_mode(8'b00_00_00_00), .invert_in_clock(0), .invert_in_clock_en(0), .invert_in_reset(0), .invert_out_clock(0), .invert_out_clock_en(0), .invert_out_reset(0), .io_voltage(",,,"), .layout_mode("NONCONTIGUOUS"), .oe_conn(4'b0_0_0_0), .oe_reset(0), .oe_sync(4'b0_0_0_0), .output_clk_en(0), .output_clock_mode(4'b0_0_0_0), .output_conn(4'b0_0_0_0), .output_mode(4'b0_0_0_0), .output_reset(0), .output_sync(4'b0_0_0_0), .pa_in_clock(-1), .pa_in_clock_en(-1), .pa_in_reset(-1), .pa_out_clock(-1), .pa_out_clock_en(-1), .pa_out_reset(-1), .pin_aliases("Button0__BTN,Button1__BTN,Button2__BTN,Button3__BTN"), .pin_mode("AAAA"), .por_state(4), .sio_group_cnt(0), .sio_hyst(4'b0_0_0_0), .sio_ibuf(""), .sio_info(8'b00_00_00_00), .sio_obuf(""), .sio_refsel(""), .sio_vtrip(""), .slew_rate(4'b0_0_0_0), .spanning(1), .use_annotation(4'b0_0_0_0), .vtrip(8'b10_10_10_10), .width(4)) Sns (.oe(tmpOE__Sns_net), .y({4'b0}), .fb({tmpFB_3__Sns_net[3:0]}), .analog({Net_245[3:0]}), .io({tmpIO_3__Sns_net[3:0]}), .siovref(tmpSIOVREF__Sns_net), .interrupt({tmpINTERRUPT_0__Sns_net[0:0]}), .in_clock({1'b0}), .in_clock_en({1'b1}), .in_reset({1'b0}), .out_clock({1'b0}), .out_clock_en({1'b1}), .out_reset({1'b0})); assign tmpOE__Sns_net = (`CYDEV_CHIP_MEMBER_USED == `CYDEV_CHIP_MEMBER_3A && `CYDEV_CHIP_REVISION_USED < `CYDEV_CHIP_REVISION_3A_ES3) ? ~{4'b1111} : {4'b1111}; IDAC_P4_v1_0_2 IDAC1 ( .Iout(Net_270)); ZeroTerminal ZeroTerminal_1 ( .z(Net_312)); ZeroTerminal ZeroTerminal_2 ( .z(Net_104)); assign sclk2 = Net_420 \| Net_474; ZeroTerminal ZeroTerminal_7 ( .z(Net_474)); cy_clock_v1_0 #(.id("3c8c7eac-aaf5-41b9-9d0a-e31e77bfd8ce/9a635726-510c-483c-9c5c-3e233ee2906a"), .source_clock_id("413DE2EF-D9F2-4233-A808-DFAF137FD877"), .divisor(255), .period("0"), .is_direct(0), .is_digital(0)) SenseClk (.clock_out(Net_429)); endmodule
module SCB_P4_v1_20_4 ( sclk, interrupt, clock); output sclk; output interrupt; input clock; wire Net_427; wire Net_416; wire Net_245; wire Net_676; wire Net_452; wire Net_459; wire Net_496; wire Net_660; wire Net_656; wire Net_687; wire Net_703; wire Net_682; wire Net_422; wire Net_379; wire Net_555; wire Net_387; wire uncfg_rx_irq; wire Net_458; wire Net_596; wire Net_252; wire Net_547; wire rx_irq; wire [3:0] ss; wire Net_467; wire Net_655; wire Net_663; wire Net_581; wire Net_474; wire Net_651; wire Net_580; wire Net_654; wire Net_653; wire Net_652; wire Net_284; cy_clock_v1_0 #(.id("4ee47aff-a351-4cef-924e-4fb02af36bdf/81fcee8a-3b8b-4be1-9a5f-a5e2e619a938"), .source_clock_id(""), .divisor(0), .period("156250000"), .is_direct(0), .is_digital(0)) SCBCLK (.clock_out(Net_284)); ZeroTerminal ZeroTerminal_5 ( .z(Net_459)); // select_s_VM (cy_virtualmux_v1_0) assign Net_652 = Net_459; ZeroTerminal ZeroTerminal_4 ( .z(Net_452)); ZeroTerminal ZeroTerminal_3 ( .z(Net_676)); ZeroTerminal ZeroTerminal_2 ( .z(Net_245)); ZeroTerminal ZeroTerminal_1 ( .z(Net_416)); // rx_VM (cy_virtualmux_v1_0) assign Net_654 = Net_452; // rx_wake_VM (cy_virtualmux_v1_0) assign Net_682 = uncfg_rx_irq; // clock_VM (cy_virtualmux_v1_0) assign Net_655 = Net_284; // sclk_s_VM (cy_virtualmux_v1_0) assign Net_653 = Net_416; // mosi_s_VM (cy_virtualmux_v1_0) assign Net_651 = Net_676; // miso_m_VM (cy_virtualmux_v1_0) assign Net_663 = Net_245; wire [0:0] tmpOE__sda_net; wire [0:0] tmpFB_0__sda_net; wire [0:0] tmpINTERRUPT_0__sda_net; electrical [0:0] tmpSIOVREF__sda_net; cy_psoc3_pins_v1_10 #(.id("4ee47aff-a351-4cef-924e-4fb02af36bdf/5382e105-1382-4a2e-b9f4-3bb2feba71e0"), .drive_mode(3'b100), .ibuf_enabled(1'b1), .init_dr_st(1'b1), .input_clk_en(0), .input_sync(1'b0), .input_sync_mode(1'b0), .intr_mode(2'b00), .invert_in_clock(0), .invert_in_clock_en(0), .invert_in_reset(0), .invert_out_clock(0), .invert_out_clock_en(0), .invert_out_reset(0), .io_voltage(""), .layout_mode("CONTIGUOUS"), .oe_conn(1'b0), .oe_reset(0), .oe_sync(1'b0), .output_clk_en(0), .output_clock_mode(1'b0), .output_conn(1'b0), .output_mode(1'b0), .output_reset(0), .output_sync(1'b0), .pa_in_clock(-1), .pa_in_clock_en(-1), .pa_in_reset(-1), .pa_out_clock(-1), .pa_out_clock_en(-1), .pa_out_reset(-1), .pin_aliases(""), .pin_mode("B"), .por_state(4), .sio_group_cnt(0), .sio_hyst(1'b0), .sio_ibuf(""), .sio_info(2'b00), .sio_obuf(""), .sio_refsel(""), .sio_vtrip(""), .slew_rate(1'b0), .spanning(0), .use_annotation(1'b0), .vtrip(2'b00), .width(1)) sda (.oe(tmpOE__sda_net), .y({1'b0}), .fb({tmpFB_0__sda_net[0:0]}), .io({Net_581}), .siovref(tmpSIOVREF__sda_net), .interrupt({tmpINTERRUPT_0__sda_net[0:0]}), .in_clock({1'b0}), .in_clock_en({1'b1}), .in_reset({1'b0}), .out_clock({1'b0}), .out_clock_en({1'b1}), .out_reset({1'b0})); assign tmpOE__sda_net = (`CYDEV_CHIP_MEMBER_USED == `CYDEV_CHIP_MEMBER_3A && `CYDEV_CHIP_REVISION_USED < `CYDEV_CHIP_REVISION_3A_ES3) ? ~{1'b1} : {1'b1}; wire [0:0] tmpOE__scl_net; wire [0:0] tmpFB_0__scl_net; wire [0:0] tmpINTERRUPT_0__scl_net; electrical [0:0] tmpSIOVREF__scl_net; cy_psoc3_pins_v1_10 #(.id("4ee47aff-a351-4cef-924e-4fb02af36bdf/22863ebe-a37b-476f-b252-6e49a8c00b12"), .drive_mode(3'b100), .ibuf_enabled(1'b1), .init_dr_st(1'b1), .input_clk_en(0), .input_sync(1'b0), .input_sync_mode(1'b0), .intr_mode(2'b00), .invert_in_clock(0), .invert_in_clock_en(0), .invert_in_reset(0), .invert_out_clock(0), .invert_out_clock_en(0), .invert_out_reset(0), .io_voltage(""), .layout_mode("CONTIGUOUS"), .oe_conn(1'b0), .oe_reset(0), .oe_sync(1'b0), .output_clk_en(0), .output_clock_mode(1'b0), .output_conn(1'b0), .output_mode(1'b0), .output_reset(0), .output_sync(1'b0), .pa_in_clock(-1), .pa_in_clock_en(-1), .pa_in_reset(-1), .pa_out_clock(-1), .pa_out_clock_en(-1), .pa_out_reset(-1), .pin_aliases(""), .pin_mode("B"), .por_state(4), .sio_group_cnt(0), .sio_hyst(1'b0), .sio_ibuf(""), .sio_info(2'b00), .sio_obuf(""), .sio_refsel(""), .sio_vtrip(""), .slew_rate(1'b0), .spanning(0), .use_annotation(1'b0), .vtrip(2'b00), .width(1)) scl (.oe(tmpOE__scl_net), .y({1'b0}), .fb({tmpFB_0__scl_net[0:0]}), .io({Net_580}), .siovref(tmpSIOVREF__scl_net), .interrupt({tmpINTERRUPT_0__scl_net[0:0]}), .in_clock({1'b0}), .in_clock_en({1'b1}), .in_reset({1'b0}), .out_clock({1'b0}), .out_clock_en({1'b1}), .out_reset({1'b0})); assign tmpOE__scl_net = (`CYDEV_CHIP_MEMBER_USED == `CYDEV_CHIP_MEMBER_3A && `CYDEV_CHIP_REVISION_USED < `CYDEV_CHIP_REVISION_3A_ES3) ? ~{1'b1} : {1'b1}; ZeroTerminal ZeroTerminal_7 ( .z(Net_427)); assign sclk = Net_284 \| Net_427; cy_isr_v1_0 #(.int_type(2'b10)) SCB_IRQ (.int_signal(interrupt)); cy_m0s8_scb_v1_0 SCB ( .rx(Net_654), .miso_m(Net_663), .clock(Net_655), .select_m(ss[3:0]), .sclk_m(Net_687), .mosi_s(Net_651), .select_s(Net_652), .sclk_s(Net_653), .mosi_m(Net_660), .scl(Net_580), .sda(Net_581), .tx(Net_656), .miso_s(Net_703), .interrupt(interrupt)); defparam SCB.scb_mode = 0; endmodule
module top ; wire Net_21; wire Net_20; wire Net_19; wire Net_27; wire Net_3; wire Net_2; wire Net_1; SCB_P4_v1_20_0 UART ( .sclk(Net_1), .interrupt(Net_2), .clock(1'b0)); CapSense_CSD_P4_v2_0_3 CapSense ( .sclk2(Net_27)); SCB_P4_v1_20_4 SCB_1 ( .sclk(Net_19), .interrupt(Net_20), .clock(1'b0)); endmodule
module sky130_fd_sc_lp__and4b ( X , A_N, B , C , D ); output X ; input A_N; input B ; input C ; input D ; // Voltage supply signals supply1 VPWR; supply0 VGND; supply1 VPB ; supply0 VNB ; endmodule
module hamming_distance ( input wire clock, input wire [7:0] val_a, val_b, output reg [3:0] distance ); wire [7:0] bit_diff; assign bit_diff = val_a ^ val_b; always @(posedge clock) begin // Unless I misunderstood him, Marshall said this should work distance = bit_diff[0] + bit_diff[1] + bit_diff[2] + bit_diff[3] + bit_diff[4] + bit_diff[5] + bit_diff[6] + bit_diff[7]; end endmodule
module populate_candidates ( input wire clock, input wire [7:0] code, input wire [7:0] base_candidate_addr, output reg [7:0] addr_candidates, input wire [7:0] read_candidates, input wire [7:0] candidate_len, input wire [7:0] base_next_cand_addr, output reg [7:0] addr_next_cand, output reg [7:0] data_next_cand, output wire wren_next_cand, output reg [7:0] next_cand_len, input wire [3:0] min_dist, input wire start, output wire complete ); wire [3:0] distance; reg [7:0] ham_in_a, ham_in_b; hamming_distance hd ( .clock ( clock), .val_a ( ham_in_a ), .val_b ( ham_in_b ), .distance ( distance ) ); reg done; assign complete = (done == 1 \|\| state == ST_DONE); reg write_cand; assign wren_next_cand = write_cand; reg [7:0] icand, inext; reg start_1, start_2; reg [5:0] state; parameter [5:0] ST_RST = 6'h00, ST_IDLE = 6'h01, ST_DONE = 6'h07; always @(posedge clock) begin {start_2, start_1} <= {start_1, start}; case(state) ST_RST: begin done <= 0; state <= ST_IDLE; end ST_IDLE: begin if( start_2 ) begin ham_in_a <= code; icand <= 0; inext <= 0; state <= 3; done <= 0; end end // Read next candidate 3: begin addr_candidates <= base_candidate_addr + icand; state <= 4; end // 4: begin ham_in_b <= read_candidates; state <= 5; end 5: begin if ( distance >= min_dist ) begin data_next_cand <= read_candidates; addr_next_cand <= base_next_cand_addr + inext; write_cand <= 1; end state <= 6; end 6: begin // Unsure if I need to wait until here to increment inext if ( distance >= min_dist ) begin inext <= inext + 1; end write_cand <= 0; icand <= icand + 1; if ( icand > candidate_len ) begin done <= 1; next_cand_len <= inext; state <= 7; end else begin state <= 3; end end ST_DONE: begin state <= ST_IDLE; end endcase end endmodule
module find_iso ( input clock, input wire start, output wire complete ); reg start_1, start_2; reg [5:0] state; parameter [5:0] ST_RST = 6'h00, ST_IDLE = 6'h01; always @(posedge clock) begin {start_2, start_1} <= {start_1, start}; case(state) ST_RST: begin state <= ST_IDLE; end ST_IDLE: begin if( start_2 ) begin state <= 3; end end 3: begin state <= 4; end 4: begin state <= 5; end 5: begin state <= 6; end 6: begin state <= ST_IDLE; end endcase end endmodule
module find_best_iso ( input wire clock, input wire [7:0] min_hd, input wire [7:0] min_iso, input wire start_process, output reg complete ); parameter n = 5; parameter MAX_N = 8; parameter MAX_CAND = 2**MAX_N; reg [5:0] state; parameter [5:0] ST_RST = 6'h00, ST_IDLE = 6'h01; reg [7:0] count, icand; reg [7:0] a_len, min_b_len; reg start_process_1, start_process_2; // Storage for sets of codes wire wren_codes; wire [7:0] read_codes; wire [10:0] addr_codes; wire [7:0] data_codes; icblbc_ram codes ( .address ( addr_codes ), .clock ( clock ), .data ( data_codes ), .wren ( wren_codes ), .q ( read_codes ) ); reg fi_en; find_iso fi ( .clock ( clock ), .start ( fi_en ), .complete ( fi_done ) ); always @(posedge clock) begin {start_process_2, start_process_1} <= {start_process_1, start_process}; case(state) ST_RST: begin state <= ST_IDLE; end ST_IDLE: begin if( start_process_2 ) begin state <= 3; a_len <= 1<<(n-1); min_b_len <= 2; end end 3: begin state <= 4; end 4: begin state <= 5; end 5: begin state <= 10; end // Wait for find_iso() to finish 10: begin fi_en <= 1; state <= 11; end 11: begin if( fi_done ) begin state <= 12; end end 12: begin state <= 13; end 20: begin state <= ST_IDLE; end endcase end endmodule
module sky130_fd_sc_lp__or2 ( X, A, B ); output X; input A; input B; // Voltage supply signals supply1 VPWR; supply0 VGND; supply1 VPB ; supply0 VNB ; endmodule
module TimeHoldOver_Qsys ( clk_clk, epcs_flash_controller_dclk, epcs_flash_controller_sce, epcs_flash_controller_sdo, epcs_flash_controller_data0, on_chip_rst_and_pps_switch_export, io_update_ctrl_export, ocxo_lock_export, pps_interrupt_export, reset_reset_n, sdram_controller_addr, sdram_controller_ba, sdram_controller_cas_n, sdram_controller_cke, sdram_controller_cs_n, sdram_controller_dq, sdram_controller_dqm, sdram_controller_ras_n, sdram_controller_we_n, timer_ecc_fault_itr_export, timer_interface_coe_sec_cnt_set_data_out, timer_interface_coe_sec_cnt_get_data_in, timer_interface_coe_ns_cnt_set_data_out, timer_interface_coe_ns_cnt_get_data_in, timer_interface_coe_ctrl_cnt_set_out, timer_interface_coe_ctrl_cnt_get_in, timer_interface_coe_err_cnt_in, timer_interface_coe_utc_time_in, timer_interface_coe_time_zone_set_out, timer_interface_coe_time_zone_get_in, timer_interface_coe_leap_cnt_set_out, timer_interface_coe_leap_cnt_get_in, timer_interface_coe_leap_occur_set_out, timer_interface_coe_leap_occur_get_in, timer_interface_coe_dst_ingress_set_out, timer_interface_coe_dst_ingress_get_in, timer_interface_coe_dst_engress_set_out, timer_interface_coe_dst_engress_get_in, timer_interface_coe_leap_direct_get_in, timer_interface_coe_leap_direct_set_out, timer_interface_coe_io_update_in, timer_interface_coe_time_quality_get_in, timer_interface_coe_time_quality_set_out, uart_0_external_connection_rxd, uart_0_external_connection_txd, uart_1_external_connection_rxd, uart_1_external_connection_txd, uart_2_external_connection_rxd, uart_2_external_connection_txd, uart_3_external_connection_rxd, uart_3_external_connection_txd); input clk_clk; output epcs_flash_controller_dclk; output epcs_flash_controller_sce; output epcs_flash_controller_sdo; input epcs_flash_controller_data0; output [8:0] on_chip_rst_and_pps_switch_export; output io_update_ctrl_export; input ocxo_lock_export; input pps_interrupt_export; input reset_reset_n; output [11:0] sdram_controller_addr; output [1:0] sdram_controller_ba; output sdram_controller_cas_n; output sdram_controller_cke; output sdram_controller_cs_n; inout [15:0] sdram_controller_dq; output [1:0] sdram_controller_dqm; output sdram_controller_ras_n; output sdram_controller_we_n; input timer_ecc_fault_itr_export; output [192:0] timer_interface_coe_sec_cnt_set_data_out; input [191:0] timer_interface_coe_sec_cnt_get_data_in; output [96:0] timer_interface_coe_ns_cnt_set_data_out; input [95:0] timer_interface_coe_ns_cnt_get_data_in; output [24:0] timer_interface_coe_ctrl_cnt_set_out; input [23:0] timer_interface_coe_ctrl_cnt_get_in; input [23:0] timer_interface_coe_err_cnt_in; input [55:0] timer_interface_coe_utc_time_in; output [8:0] timer_interface_coe_time_zone_set_out; input [7:0] timer_interface_coe_time_zone_get_in; output [16:0] timer_interface_coe_leap_cnt_set_out; input [15:0] timer_interface_coe_leap_cnt_get_in; output [64:0] timer_interface_coe_leap_occur_set_out; input [63:0] timer_interface_coe_leap_occur_get_in; output [64:0] timer_interface_coe_dst_ingress_set_out; input [63:0] timer_interface_coe_dst_ingress_get_in; output [64:0] timer_interface_coe_dst_engress_set_out; input [63:0] timer_interface_coe_dst_engress_get_in; input [7:0] timer_interface_coe_leap_direct_get_in; output [8:0] timer_interface_coe_leap_direct_set_out; input timer_interface_coe_io_update_in; input [7:0] timer_interface_coe_time_quality_get_in; output [8:0] timer_interface_coe_time_quality_set_out; input uart_0_external_connection_rxd; output uart_0_external_connection_txd; input uart_1_external_connection_rxd; output uart_1_external_connection_txd; input uart_2_external_connection_rxd; output uart_2_external_connection_txd; input uart_3_external_connection_rxd; output uart_3_external_connection_txd; endmodule
module sky130_fd_sc_hd__lpflow_inputiso1p ( X , A , SLEEP ); // Module ports output X ; input A ; input SLEEP; // Name Output Other arguments or or0 (X , A, SLEEP ); endmodule
module sky130_fd_sc_hdll__a22oi ( Y , A1, A2, B1, B2 ); // Module ports output Y ; input A1; input A2; input B1; input B2; // Module supplies supply1 VPWR; supply0 VGND; supply1 VPB ; supply0 VNB ; // Local signals wire nand0_out ; wire nand1_out ; wire and0_out_Y; // Name Output Other arguments nand nand0 (nand0_out , A2, A1 ); nand nand1 (nand1_out , B2, B1 ); and and0 (and0_out_Y, nand0_out, nand1_out); buf buf0 (Y , and0_out_Y ); endmodule
module sky130_fd_sc_ls__fah ( COUT, SUM , A , B , CI ); // Module ports output COUT; output SUM ; input A ; input B ; input CI ; // Local signals wire xor0_out_SUM; wire a_b ; wire a_ci ; wire b_ci ; wire or0_out_COUT; // Name Output Other arguments xor xor0 (xor0_out_SUM, A, B, CI ); buf buf0 (SUM , xor0_out_SUM ); and and0 (a_b , A, B ); and and1 (a_ci , A, CI ); and and2 (b_ci , B, CI ); or or0 (or0_out_COUT, a_b, a_ci, b_ci); buf buf1 (COUT , or0_out_COUT ); endmodule
module sky130_fd_sc_hvl__dlxtp ( //# {{data\|Data Signals}} input D , output Q , //# {{clocks\|Clocking}} input GATE ); // Voltage supply signals supply1 VPWR; supply0 VGND; supply1 VPB ; supply0 VNB ; endmodule
module sky130_fd_sc_lp__isolatch ( Q , D , SLEEP_B ); // Module ports output Q ; input D ; input SLEEP_B; // Module supplies supply1 KAPWR; supply1 VPWR ; supply0 VGND ; supply1 VPB ; supply0 VNB ; // Local signals wire buf_Q ; wire SLEEP_B_delayed; wire D_delayed ; reg notifier ; // Name Output Other arguments sky130_fd_sc_lp__udp_isolatch_pp$PKG$sN isolatch_pp0 (buf_Q , D_delayed, SLEEP_B_delayed, notifier, KAPWR, VGND, VPWR); buf buf0 (Q , buf_Q ); endmodule
module VGA_Control ( input clk, input rst, input [7:0]snake, input [7:0]apple_x, input [7:0]apple_y, output reg[9:0]x_pos, output reg[9:0]y_pos, output reg hsync, output reg vsync, output reg [11:0] color_out ); reg [19:0]clk_cnt; reg [9:0]line_cnt; reg clk_25M; localparam NONE = 7'b0000_000; localparam HEAD = 7'b0000_001; localparam BODY = 7'b0000_010; localparam WALL = 7'b0000_011; localparam HEAD_COLOR = 12'b0000_1111_0000; localparam BODY_COLOR = 12'b0000_1111_1111; reg [3:0]lox; reg [3:0]loy; always@(posedge clk or posedge rst) begin if(rst) begin clk_cnt <= 0; line_cnt <= 0; hsync <= 1; vsync <= 1; end else begin x_pos <= clk_cnt - 144; y_pos <= line_cnt - 33; if(clk_cnt == 0) begin hsync <= 0; clk_cnt <= clk_cnt + 1; end else if(clk_cnt == 96) begin hsync <= 1; clk_cnt <= clk_cnt + 1; end else if(clk_cnt == 799) begin clk_cnt <= 0; line_cnt <= line_cnt + 1; end else clk_cnt <= clk_cnt + 1; if(line_cnt == 0) begin vsync <= 0; end else if(line_cnt == 2) begin vsync <= 1; end else if(line_cnt == 521) begin line_cnt <= 0; vsync <= 0; end if(x_pos >= 0 && x_pos < 640 && y_pos >= 0 && y_pos < 480) begin lox = x_pos[3:0]; loy = y_pos[3:0]; if(x_pos[9:4] == apple_x && y_pos[9:4] == apple_y) case({loy,lox}) 8'b0000_0000:color_out = 12'b0000_0000_0000; default:color_out = 12'b0000_0000_1111; endcase else if(snake == NONE) color_out = 12'b0000_0000_0000; else if(snake == WALL) color_out = 3'b101; else if(snake == HEAD\|snake == BODY) begin //¸ù¾Ýµ±Ç°É¨Ãèµ½µÄµãÊÇÄÄÒ»²¿·ÖÊä³öÏàÓ¦ÑÕÉ« case({lox,loy}) 8'b0000_0000:color_out = 12'b0000_0000_0000; default:color_out = (snake == HEAD) ? HEAD_COLOR : BODY_COLOR; endcase end end else color_out = 12'b0000_0000_0000; end end endmodule
module TX_PLL ( areset, inclk0, c0, locked); input areset; input inclk0; output c0; output locked; `ifndef ALTERA_RESERVED_QIS // synopsys translate_off `endif tri0 areset; `ifndef ALTERA_RESERVED_QIS // synopsys translate_on `endif endmodule
module 32 wire [31:0] sbox = `Sbox(addmod32); // S-box replacing wire [31:0] shift11 = {sbox[20:0],sbox[31:21]}; // <<11 always @(posedge clk) if(rst) {b,a} <= {64{1'b0}}; else if (pvalid && pready) // load plain text and start cipher cycles {b,a} <= pdata; else if (state == RUN) {b,a} <= {a, b^shift11}; always @(posedge clk) if (state == READY) cdata <= {a,b}; always @(posedge clk) if (state == READY) cvalid <= 1'b1; else cvalid <= 1'b0; always @(posedge clk) if ((state == RUN) \|\| (state == READY)) pready <= 1'b0; else if (cready) pready <= 1'b1; /// else if (state == RUN) /// pready <= 1'b0; //////////////////////////////////////////////////////////////////////////////// endmodule
module sky130_fd_sc_hdll__o21ba ( X , A1 , A2 , B1_N, VPWR, VGND, VPB , VNB ); // Module ports output X ; input A1 ; input A2 ; input B1_N; input VPWR; input VGND; input VPB ; input VNB ; // Local signals wire nor0_out ; wire nor1_out_X ; wire pwrgood_pp0_out_X; // Name Output Other arguments nor nor0 (nor0_out , A1, A2 ); nor nor1 (nor1_out_X , B1_N, nor0_out ); sky130_fd_sc_hdll__udp_pwrgood_pp$PG pwrgood_pp0 (pwrgood_pp0_out_X, nor1_out_X, VPWR, VGND); buf buf0 (X , pwrgood_pp0_out_X ); endmodule
module sdram_clk_gen_exdes #( parameter TCQ = 100 ) (// Clock in ports input CLK_IN1, // Reset that only drives logic in example design input COUNTER_RESET, output [1:1] CLK_OUT, // High bits of counters driven by clocks output COUNT ); // Parameters for the counters //------------------------------- // Counter width localparam C_W = 16; // Create reset for the counters wire reset_int = COUNTER_RESET; reg rst_sync; reg rst_sync_int; reg rst_sync_int1; reg rst_sync_int2; // Declare the clocks and counter wire clk_int; wire clk_n; wire clk; reg [C_W-1:0] counter; // Instantiation of the clocking network //-------------------------------------- sdram_clk_gen clknetwork (// Clock in ports .clk_in (CLK_IN1), // Clock out ports .clk_out (clk_int)); assign clk_n = ~clk; ODDR2 clkout_oddr (.Q (CLK_OUT[1]), .C0 (clk), .C1 (clk_n), .CE (1'b1), .D0 (1'b1), .D1 (1'b0), .R (1'b0), .S (1'b0)); // Connect the output clocks to the design //----------------------------------------- assign clk = clk_int; // Reset synchronizer //----------------------------------- always @(posedge reset_int or posedge clk) begin if (reset_int) begin rst_sync <= 1'b1; rst_sync_int <= 1'b1; rst_sync_int1 <= 1'b1; rst_sync_int2 <= 1'b1; end else begin rst_sync <= 1'b0; rst_sync_int <= rst_sync; rst_sync_int1 <= rst_sync_int; rst_sync_int2 <= rst_sync_int1; end end // Output clock sampling //----------------------------------- always @(posedge clk or posedge rst_sync_int2) begin if (rst_sync_int2) begin counter <= #TCQ { C_W { 1'b 0 } }; end else begin counter <= #TCQ counter + 1'b 1; end end // alias the high bit to the output assign COUNT = counter[C_W-1]; endmodule
module rom_shared_ipv4 ( aclr, address_a, address_b, clock, rden_a, rden_b, q_a, q_b); input aclr; input [11:0] address_a; input [11:0] address_b; input clock; input rden_a; input rden_b; output [31:0] q_a; output [31:0] q_b; `ifndef ALTERA_RESERVED_QIS // synopsys translate_off `endif tri0 aclr; tri1 clock; tri1 rden_a; tri1 rden_b; `ifndef ALTERA_RESERVED_QIS // synopsys translate_on `endif wire [31:0] sub_wire0; wire [31:0] sub_wire1; wire sub_wire2 = 1'h0; wire [31:0] sub_wire3 = 32'h0; wire [31:0] q_a = sub_wire0[31:0]; wire [31:0] q_b = sub_wire1[31:0]; altsyncram altsyncram_component ( .clock0 (clock), .wren_a (sub_wire2), .address_b (address_b), .data_b (sub_wire3), .rden_a (rden_a), .wren_b (sub_wire2), .aclr0 (aclr), .address_a (address_a), .data_a (sub_wire3), .rden_b (rden_b), .q_a (sub_wire0), .q_b (sub_wire1) // synopsys translate_off , .aclr1 (), .addressstall_a (), .addressstall_b (), .byteena_a (), .byteena_b (), .clock1 (), .clocken0 (), .clocken1 (), .clocken2 (), .clocken3 (), .eccstatus () // synopsys translate_on ); defparam altsyncram_component.address_reg_b = "CLOCK0", altsyncram_component.clock_enable_input_a = "BYPASS", altsyncram_component.clock_enable_input_b = "BYPASS", altsyncram_component.clock_enable_output_a = "BYPASS", altsyncram_component.clock_enable_output_b = "BYPASS", altsyncram_component.indata_reg_b = "CLOCK0", altsyncram_component.init_file = "output_IPV4.mif", altsyncram_component.intended_device_family = "Stratix IV", altsyncram_component.lpm_type = "altsyncram", altsyncram_component.numwords_a = 4096, altsyncram_component.numwords_b = 4096, altsyncram_component.operation_mode = "BIDIR_DUAL_PORT", altsyncram_component.outdata_aclr_a = "CLEAR0", altsyncram_component.outdata_aclr_b = "CLEAR0", altsyncram_component.outdata_reg_a = "UNREGISTERED", altsyncram_component.outdata_reg_b = "UNREGISTERED", altsyncram_component.power_up_uninitialized = "FALSE", altsyncram_component.widthad_a = 12, altsyncram_component.widthad_b = 12, altsyncram_component.width_a = 32, altsyncram_component.width_b = 32, altsyncram_component.width_byteena_a = 1, altsyncram_component.width_byteena_b = 1, altsyncram_component.wrcontrol_wraddress_reg_b = "CLOCK0"; endmodule
module feedforward ( ap_clk, ap_rst_n, P_config_V_TDATA, P_config_V_TVALID, P_config_V_TREADY, P_WandB_TDATA, P_WandB_TVALID, P_WandB_TREADY, P_uOut_TDATA, P_uOut_TVALID, P_uOut_TREADY, P_netIn_TDATA, P_netIn_TVALID, P_netIn_TREADY, P_netOut_V_TDATA, P_netOut_V_TVALID, P_netOut_V_TREADY, s_axi_AXILiteS_AWVALID, s_axi_AXILiteS_AWREADY, s_axi_AXILiteS_AWADDR, s_axi_AXILiteS_WVALID, s_axi_AXILiteS_WREADY, s_axi_AXILiteS_WDATA, s_axi_AXILiteS_WSTRB, s_axi_AXILiteS_ARVALID, s_axi_AXILiteS_ARREADY, s_axi_AXILiteS_ARADDR, s_axi_AXILiteS_RVALID, s_axi_AXILiteS_RREADY, s_axi_AXILiteS_RDATA, s_axi_AXILiteS_RRESP, s_axi_AXILiteS_BVALID, s_axi_AXILiteS_BREADY, s_axi_AXILiteS_BRESP, interrupt ); parameter ap_const_logic_1 = 1'b1; parameter ap_const_logic_0 = 1'b0; parameter ap_ST_st1_fsm_0 = 149'b1; parameter ap_ST_st2_fsm_1 = 149'b10; parameter ap_ST_st3_fsm_2 = 149'b100; parameter ap_ST_st4_fsm_3 = 149'b1000; parameter ap_ST_st5_fsm_4 = 149'b10000; parameter ap_ST_st6_fsm_5 = 149'b100000; parameter ap_ST_st7_fsm_6 = 149'b1000000; parameter ap_ST_st8_fsm_7 = 149'b10000000; parameter ap_ST_st9_fsm_8 = 149'b100000000; parameter ap_ST_st10_fsm_9 = 149'b1000000000; parameter ap_ST_st11_fsm_10 = 149'b10000000000; parameter ap_ST_st12_fsm_11 = 149'b100000000000; parameter ap_ST_st13_fsm_12 = 149'b1000000000000; parameter ap_ST_st14_fsm_13 = 149'b10000000000000; parameter ap_ST_st15_fsm_14 = 149'b100000000000000; parameter ap_ST_st16_fsm_15 = 149'b1000000000000000; parameter ap_ST_st17_fsm_16 = 149'b10000000000000000; parameter ap_ST_st18_fsm_17 = 149'b100000000000000000; parameter ap_ST_st19_fsm_18 = 149'b1000000000000000000; parameter ap_ST_st20_fsm_19 = 149'b10000000000000000000; parameter ap_ST_st21_fsm_20 = 149'b100000000000000000000; parameter ap_ST_st22_fsm_21 = 149'b1000000000000000000000; parameter ap_ST_st23_fsm_22 = 149'b10000000000000000000000; parameter ap_ST_st24_fsm_23 = 149'b100000000000000000000000; parameter ap_ST_st25_fsm_24 = 149'b1000000000000000000000000; parameter ap_ST_st26_fsm_25 = 149'b10000000000000000000000000; parameter ap_ST_st27_fsm_26 = 149'b100000000000000000000000000; parameter ap_ST_st28_fsm_27 = 149'b1000000000000000000000000000; parameter ap_ST_st29_fsm_28 = 149'b10000000000000000000000000000; parameter ap_ST_st30_fsm_29 = 149'b100000000000000000000000000000; parameter ap_ST_st31_fsm_30 = 149'b1000000000000000000000000000000; parameter ap_ST_st32_fsm_31 = 149'b10000000000000000000000000000000; parameter ap_ST_st33_fsm_32 = 149'b100000000000000000000000000000000; parameter ap_ST_st34_fsm_33 = 149'b1000000000000000000000000000000000; parameter ap_ST_st35_fsm_34 = 149'b10000000000000000000000000000000000; parameter ap_ST_st36_fsm_35 = 149'b100000000000000000000000000000000000; parameter ap_ST_st37_fsm_36 = 149'b1000000000000000000000000000000000000; parameter ap_ST_st38_fsm_37 = 149'b10000000000000000000000000000000000000; parameter ap_ST_st39_fsm_38 = 149'b100000000000000000000000000000000000000; parameter ap_ST_st40_fsm_39 = 149'b1000000000000000000000000000000000000000; parameter ap_ST_st41_fsm_40 = 149'b10000000000000000000000000000000000000000; parameter ap_ST_st42_fsm_41 = 149'b100000000000000000000000000000000000000000; parameter ap_ST_st43_fsm_42 = 149'b1000000000000000000000000000000000000000000; parameter ap_ST_st44_fsm_43 = 149'b10000000000000000000000000000000000000000000; parameter ap_ST_st45_fsm_44 = 149'b100000000000000000000000000000000000000000000; parameter ap_ST_st46_fsm_45 = 149'b1000000000000000000000000000000000000000000000; parameter ap_ST_st47_fsm_46 = 149'b10000000000000000000000000000000000000000000000; parameter ap_ST_st48_fsm_47 = 149'b100000000000000000000000000000000000000000000000; parameter ap_ST_st49_fsm_48 = 149'b1000000000000000000000000000000000000000000000000; parameter ap_ST_st50_fsm_49 = 149'b10000000000000000000000000000000000000000000000000; parameter ap_ST_st51_fsm_50 = 149'b100000000000000000000000000000000000000000000000000; parameter ap_ST_st52_fsm_51 = 149'b1000000000000000000000000000000000000000000000000000; parameter ap_ST_st53_fsm_52 = 149'b10000000000000000000000000000000000000000000000000000; parameter ap_ST_st54_fsm_53 = 149'b100000000000000000000000000000000000000000000000000000; parameter ap_ST_st55_fsm_54 = 149'b1000000000000000000000000000000000000000000000000000000; parameter ap_ST_st56_fsm_55 = 149'b10000000000000000000000000000000000000000000000000000000; parameter ap_ST_st57_fsm_56 = 149'b100000000000000000000000000000000000000000000000000000000; parameter ap_ST_st58_fsm_57 = 149'b1000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st59_fsm_58 = 149'b10000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st60_fsm_59 = 149'b100000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st61_fsm_60 = 149'b1000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st62_fsm_61 = 149'b10000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st63_fsm_62 = 149'b100000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st64_fsm_63 = 149'b1000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st65_fsm_64 = 149'b10000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st66_fsm_65 = 149'b100000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st67_fsm_66 = 149'b1000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st68_fsm_67 = 149'b10000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st69_fsm_68 = 149'b100000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st70_fsm_69 = 149'b1000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st71_fsm_70 = 149'b10000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st72_fsm_71 = 149'b100000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st73_fsm_72 = 149'b1000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st74_fsm_73 = 149'b10000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st75_fsm_74 = 149'b100000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st76_fsm_75 = 149'b1000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st77_fsm_76 = 149'b10000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st78_fsm_77 = 149'b100000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st79_fsm_78 = 149'b1000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st80_fsm_79 = 149'b10000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st81_fsm_80 = 149'b100000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st82_fsm_81 = 149'b1000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st83_fsm_82 = 149'b10000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st84_fsm_83 = 149'b100000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st85_fsm_84 = 149'b1000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st86_fsm_85 = 149'b10000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st87_fsm_86 = 149'b100000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st88_fsm_87 = 149'b1000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st89_fsm_88 = 149'b10000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st90_fsm_89 = 149'b100000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st91_fsm_90 = 149'b1000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st92_fsm_91 = 149'b10000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st93_fsm_92 = 149'b100000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st94_fsm_93 = 149'b1000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st95_fsm_94 = 149'b10000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st96_fsm_95 = 149'b100000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st97_fsm_96 = 149'b1000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st98_fsm_97 = 149'b10000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st99_fsm_98 = 149'b100000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st100_fsm_99 = 149'b1000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st101_fsm_100 = 149'b10000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st102_fsm_101 = 149'b100000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st103_fsm_102 = 149'b1000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st104_fsm_103 = 149'b10000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st105_fsm_104 = 149'b100000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st106_fsm_105 = 149'b1000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st107_fsm_106 = 149'b10000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st108_fsm_107 = 149'b100000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st109_fsm_108 = 149'b1000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st110_fsm_109 = 149'b10000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st111_fsm_110 = 149'b100000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st112_fsm_111 = 149'b1000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st113_fsm_112 = 149'b10000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st114_fsm_113 = 149'b100000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st115_fsm_114 = 149'b1000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st116_fsm_115 = 149'b10000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st117_fsm_116 = 149'b100000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st118_fsm_117 = 149'b1000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st119_fsm_118 = 149'b10000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st120_fsm_119 = 149'b100000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st121_fsm_120 = 149'b1000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st122_fsm_121 = 149'b10000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st123_fsm_122 = 149'b100000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st124_fsm_123 = 149'b1000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st125_fsm_124 = 149'b10000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st126_fsm_125 = 149'b100000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st127_fsm_126 = 149'b1000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st128_fsm_127 = 149'b10000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st129_fsm_128 = 149'b100000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st130_fsm_129 = 149'b1000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st131_fsm_130 = 149'b10000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st132_fsm_131 = 149'b100000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st133_fsm_132 = 149'b1000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st134_fsm_133 = 149'b10000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st135_fsm_134 = 149'b100000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st136_fsm_135 = 149'b1000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st137_fsm_136 = 149'b10000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st138_fsm_137 = 149'b100000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st139_fsm_138 = 149'b1000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st140_fsm_139 = 149'b10000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st141_fsm_140 = 149'b100000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st142_fsm_141 = 149'b1000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st143_fsm_142 = 149'b10000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st144_fsm_143 = 149'b100000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st145_fsm_144 = 149'b1000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st146_fsm_145 = 149'b10000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st147_fsm_146 = 149'b100000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st148_fsm_147 = 149'b1000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st149_fsm_148 = 149'b10000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_const_lv32_0 = 32'b00000000000000000000000000000000; parameter ap_const_lv1_1 = 1'b1; parameter ap_const_lv8_0 = 8'b00000000; parameter C_S_AXI_AXILITES_DATA_WIDTH = 32; parameter ap_const_int64_8 = 8; parameter C_S_AXI_AXILITES_ADDR_WIDTH = 5; parameter C_S_AXI_DATA_WIDTH = 32; parameter ap_const_lv32_5 = 32'b101; parameter ap_const_lv32_4F = 32'b1001111; parameter ap_const_lv32_78 = 32'b1111000; parameter ap_const_lv32_8B = 32'b10001011; parameter ap_const_lv32_E = 32'b1110; parameter ap_const_lv32_58 = 32'b1011000; parameter ap_const_lv32_8 = 32'b1000; parameter ap_const_lv32_52 = 32'b1010010; parameter ap_const_lv32_D = 32'b1101; parameter ap_const_lv32_57 = 32'b1010111; parameter ap_const_lv32_13 = 32'b10011; parameter ap_const_lv32_5D = 32'b1011101; parameter ap_const_lv32_14 = 32'b10100; parameter ap_const_lv32_5E = 32'b1011110; parameter ap_const_lv32_26 = 32'b100110; parameter ap_const_lv32_70 = 32'b1110000; parameter ap_const_lv32_4B = 32'b1001011; parameter ap_const_lv32_71 = 32'b1110001; parameter ap_const_lv1_0 = 1'b0; parameter ap_const_lv32_1 = 32'b1; parameter ap_const_lv32_2 = 32'b10; parameter ap_const_lv32_3 = 32'b11; parameter ap_const_lv32_4 = 32'b100; parameter ap_const_lv32_2B = 32'b101011; parameter ap_const_lv32_4A = 32'b1001010; parameter ap_const_lv32_4D = 32'b1001101; parameter ap_const_lv32_4E = 32'b1001110; parameter ap_const_lv32_76 = 32'b1110110; parameter ap_const_lv32_77 = 32'b1110111; parameter ap_const_lv32_88 = 32'b10001000; parameter ap_const_lv32_8A = 32'b10001010; parameter ap_const_lv32_8C = 32'b10001100; parameter ap_const_lv32_8D = 32'b10001101; parameter ap_const_lv32_8E = 32'b10001110; parameter ap_const_lv32_90 = 32'b10010000; parameter ap_const_lv32_91 = 32'b10010001; parameter ap_const_lv2_2 = 2'b10; parameter ap_const_lv2_1 = 2'b1; parameter ap_const_lv32_92 = 32'b10010010; parameter ap_const_lv32_93 = 32'b10010011; parameter ap_const_lv32_94 = 32'b10010100; parameter ap_const_lv8_1 = 8'b1; parameter ap_const_lv32_4C = 32'b1001100; parameter ap_const_lv32_89 = 32'b10001001; parameter ap_const_lv14_0 = 14'b00000000000000; parameter ap_const_lv32_8F = 32'b10001111; parameter ap_const_lv2_0 = 2'b00; parameter ap_const_lv32_72 = 32'b1110010; parameter ap_const_lv32_9 = 32'b1001; parameter ap_const_lv32_F = 32'b1111; parameter ap_const_lv32_53 = 32'b1010011; parameter ap_const_lv32_59 = 32'b1011001; parameter ap_const_lv64_3FF0000000000000 = 64'b11111111110000000000000000000000000000000000000000000000000000; parameter ap_const_lv8_2 = 8'b10; parameter ap_const_lv15_23 = 15'b100011; parameter ap_const_lv8_FF = 8'b11111111; parameter ap_const_lv9_23 = 9'b100011; parameter ap_const_lv9_1FF = 9'b111111111; parameter ap_const_lv16_23 = 16'b100011; parameter ap_const_lv9_1FE = 9'b111111110; parameter ap_const_lv5_0 = 5'b00000; parameter ap_const_lv32_80000000 = 32'b10000000000000000000000000000000; parameter ap_const_lv8_3 = 8'b11; parameter ap_const_lv14_23 = 14'b100011; parameter ap_const_lv32_17 = 32'b10111; parameter ap_const_lv32_1E = 32'b11110; parameter ap_const_lv23_0 = 23'b00000000000000000000000; parameter ap_const_lv2_3 = 2'b11; parameter ap_const_lv9_1 = 9'b1; parameter ap_const_lv5_2 = 5'b10; parameter ap_const_lv64_0 = 64'b0000000000000000000000000000000000000000000000000000000000000000; parameter ap_true = 1'b1; parameter C_S_AXI_AXILITES_WSTRB_WIDTH = (C_S_AXI_AXILITES_DATA_WIDTH / ap_const_int64_8); parameter C_S_AXI_WSTRB_WIDTH = (C_S_AXI_DATA_WIDTH / ap_const_int64_8); input ap_clk; input ap_rst_n; input [7:0] P_config_V_TDATA; input P_config_V_TVALID; output P_config_V_TREADY; input [31:0] P_WandB_TDATA; input P_WandB_TVALID; output P_WandB_TREADY; output [31:0] P_uOut_TDATA; output P_uOut_TVALID; input P_uOut_TREADY; input [31:0] P_netIn_TDATA; input P_netIn_TVALID; output P_netIn_TREADY; output [7:0] P_netOut_V_TDATA; output P_netOut_V_TVALID; input P_netOut_V_TREADY; input s_axi_AXILiteS_AWVALID; output s_axi_AXILiteS_AWREADY; input [C_S_AXI_AXILITES_ADDR_WIDTH - 1 : 0] s_axi_AXILiteS_AWADDR; input s_axi_AXILiteS_WVALID; output s_axi_AXILiteS_WREADY; input [C_S_AXI_AXILITES_DATA_WIDTH - 1 : 0] s_axi_AXILiteS_WDATA; input [C_S_AXI_AXILITES_WSTRB_WIDTH - 1 : 0] s_axi_AXILiteS_WSTRB; input s_axi_AXILiteS_ARVALID; output s_axi_AXILiteS_ARREADY; input [C_S_AXI_AXILITES_ADDR_WIDTH - 1 : 0] s_axi_AXILiteS_ARADDR; output s_axi_AXILiteS_RVALID; input s_axi_AXILiteS_RREADY; output [C_S_AXI_AXILITES_DATA_WIDTH - 1 : 0] s_axi_AXILiteS_RDATA; output [1:0] s_axi_AXILiteS_RRESP; output s_axi_AXILiteS_BVALID; input s_axi_AXILiteS_BREADY; output [1:0] s_axi_AXILiteS_BRESP; output interrupt; reg P_config_V_TREADY; reg P_WandB_TREADY; reg P_uOut_TVALID; reg P_netIn_TREADY; reg P_netOut_V_TVALID; reg ap_rst_n_inv; wire ap_start; reg ap_done; reg ap_idle; (* fsm_encoding = "none" ) reg [148:0] ap_CS_fsm = 149'b1; reg ap_sig_cseq_ST_st1_fsm_0; reg ap_sig_bdd_167; reg ap_ready; wire [7:0] P_mode_V; reg [7:0] ST_numLayer_V = 8'b00000000; reg [7:0] ST_layerSize_V_0 = 8'b00000000; reg [7:0] ST_layerSize_V_1 = 8'b00000000; reg [7:0] ST_layerSize_V_2 = 8'b00000000; reg [7:0] ST_layerSize_V_3 = 8'b00000000; reg [12:0] ST_WandB_address0; reg ST_WandB_ce0; reg ST_WandB_we0; wire [31:0] ST_WandB_d0; wire [31:0] ST_WandB_q0; wire feedforward_AXILiteS_s_axi_U_ap_dummy_ce; wire [31:0] p_uOut_q0; reg [31:0] reg_565; reg ap_sig_cseq_ST_st6_fsm_5; reg ap_sig_bdd_249; reg ap_sig_cseq_ST_st80_fsm_79; reg ap_sig_bdd_256; reg ap_sig_cseq_ST_st121_fsm_120; reg ap_sig_bdd_264; reg ap_sig_cseq_ST_st140_fsm_139; reg ap_sig_bdd_272; reg [31:0] reg_572; reg ap_sig_cseq_ST_st15_fsm_14; reg ap_sig_bdd_281; reg ap_sig_cseq_ST_st89_fsm_88; reg ap_sig_bdd_290; wire [31:0] grp_fu_513_p2; reg [31:0] reg_578; reg ap_sig_cseq_ST_st9_fsm_8; reg ap_sig_bdd_300; reg ap_sig_cseq_ST_st83_fsm_82; reg ap_sig_bdd_307; wire [31:0] grp_fu_506_p2; reg ap_sig_cseq_ST_st14_fsm_13; reg ap_sig_bdd_317; reg ap_sig_cseq_ST_st88_fsm_87; reg ap_sig_bdd_324; reg [31:0] reg_589; reg ap_sig_cseq_ST_st20_fsm_19; reg ap_sig_bdd_333; reg ap_sig_cseq_ST_st94_fsm_93; reg ap_sig_bdd_340; wire [63:0] grp_fu_527_p1; reg [63:0] reg_594; reg ap_sig_cseq_ST_st21_fsm_20; reg ap_sig_bdd_350; reg ap_sig_cseq_ST_st95_fsm_94; reg ap_sig_bdd_357; wire [63:0] grp_fu_544_p2; reg [63:0] reg_599; reg ap_sig_cseq_ST_st39_fsm_38; reg ap_sig_bdd_367; reg ap_sig_cseq_ST_st113_fsm_112; reg ap_sig_bdd_374; wire [31:0] grp_fu_524_p1; reg [31:0] reg_605; reg ap_sig_cseq_ST_st76_fsm_75; reg ap_sig_bdd_384; reg ap_sig_cseq_ST_st114_fsm_113; reg ap_sig_bdd_391; reg [7:0] P_mode_V_read_reg_1437; wire [0:0] tmp_fu_611_p2; reg ap_sig_bdd_404; reg [0:0] tmp_reg_1442; reg [7:0] ST_numLayer_V_load_reg_1446; wire [0:0] tmp_1_fu_621_p2; reg [0:0] tmp_1_reg_1454; reg [7:0] ST_layerSize_V_0_load_reg_1458; reg [7:0] P_config_V_read_reg_1463; wire [7:0] i_8_fu_638_p2; reg ap_sig_cseq_ST_st2_fsm_1; reg ap_sig_bdd_428; wire [0:0] exitcond1_fu_633_p2; reg ap_sig_bdd_434; wire [31:0] tmp_62_cast_fu_664_p1; reg [31:0] tmp_62_cast_reg_1479; reg ap_sig_cseq_ST_st3_fsm_2; reg ap_sig_bdd_444; wire [0:0] tmp_7_fu_649_p2; wire [1:0] tmp_6_fu_668_p1; reg [1:0] tmp_6_reg_1484; wire [8:0] tmp_16_fu_682_p2; reg [8:0] tmp_16_reg_1489; wire [1:0] tmp_20_fu_688_p1; reg [1:0] tmp_20_reg_1494; wire [8:0] tmp_24_fu_711_p1; reg [8:0] tmp_24_reg_1499; wire signed [32:0] tmp_64_cast_fu_715_p1; reg signed [32:0] tmp_64_cast_reg_1506; wire [1:0] tmp_26_fu_719_p1; reg [1:0] tmp_26_reg_1511; wire [8:0] tmp_33_fu_729_p2; reg [8:0] tmp_33_reg_1516; wire [1:0] tmp_35_fu_735_p1; reg [1:0] tmp_35_reg_1521; wire [31:0] j_5_fu_762_p2; reg [31:0] j_5_reg_1529; reg ap_sig_cseq_ST_st4_fsm_3; reg ap_sig_bdd_474; wire [7:0] tmp_19_fu_768_p6; reg [7:0] tmp_19_reg_1534; wire [0:0] tmp_14_fu_756_p2; wire [13:0] tmp_60_fu_815_p2; reg [13:0] tmp_60_reg_1540; reg [7:0] p_uOut_addr_1_reg_1546; wire [7:0] i_10_fu_821_p2; wire [7:0] k_3_fu_832_p2; reg [7:0] k_3_reg_1559; reg ap_sig_cseq_ST_st5_fsm_4; reg ap_sig_bdd_496; wire [0:0] exitcond2_fu_827_p2; wire [63:0] grp_fu_534_p2; reg [63:0] tmp_30_reg_1579; reg ap_sig_cseq_ST_st44_fsm_43; reg ap_sig_bdd_516; wire [63:0] grp_fu_539_p2; reg [63:0] tmp_31_reg_1584; reg ap_sig_cseq_ST_st75_fsm_74; reg ap_sig_bdd_525; wire [7:0] tmp_15_fu_894_p6; reg [7:0] tmp_15_reg_1589; reg ap_sig_cseq_ST_st78_fsm_77; reg ap_sig_bdd_534; wire [31:0] i_12_fu_917_p2; reg [31:0] i_12_reg_1598; wire [7:0] tmp_23_fu_923_p6; reg [7:0] tmp_23_reg_1603; wire [0:0] tmp_18_fu_911_p2; wire [13:0] tmp_64_fu_974_p2; reg [13:0] tmp_64_reg_1609; reg [7:0] p_uOut_addr_3_reg_1615; wire [7:0] j_6_fu_985_p2; reg [7:0] j_6_reg_1623; reg ap_sig_cseq_ST_st79_fsm_78; reg ap_sig_bdd_555; wire [0:0] exitcond3_fu_980_p2; reg ap_sig_cseq_ST_st119_fsm_118; reg ap_sig_bdd_574; wire [7:0] i_11_fu_1037_p2; reg [7:0] i_11_reg_1651; reg ap_sig_cseq_ST_st120_fsm_119; reg ap_sig_bdd_583; reg [7:0] p_uOut_addr_5_reg_1656; wire [0:0] exitcond4_fu_1032_p2; wire [0:0] tmp_41_fu_1057_p2; reg [0:0] tmp_41_reg_1661; wire [31:0] grp_fu_519_p2; reg [31:0] tmp_43_reg_1665; reg ap_sig_cseq_ST_st137_fsm_136; reg ap_sig_bdd_601; reg ap_sig_cseq_ST_st139_fsm_138; reg ap_sig_bdd_610; wire [0:0] tmp_44_fu_1062_p2; reg ap_sig_ioackin_P_netOut_V_TREADY; wire [8:0] tmp_74_fu_1095_p1; reg [8:0] tmp_74_reg_1683; wire [13:0] next_mul_fu_1099_p2; reg [13:0] next_mul_reg_1688; wire [7:0] i_14_fu_1110_p2; reg [7:0] i_14_reg_1696; wire [1:0] tmp_75_fu_1116_p1; reg [1:0] tmp_75_reg_1701; wire [0:0] exitcond_fu_1105_p2; wire [31:0] p_uOut_q1; reg [31:0] p_uOut_load_4_reg_1706; wire [0:0] tmp_56_fu_1197_p2; reg [0:0] tmp_56_reg_1712; reg ap_sig_cseq_ST_st141_fsm_140; reg ap_sig_bdd_654; wire [7:0] p_netOut_V_1_fu_1203_p3; reg ap_sig_cseq_ST_st142_fsm_141; reg ap_sig_bdd_663; wire [7:0] i_15_fu_1210_p2; wire [31:0] j_7_fu_1239_p2; reg [31:0] j_7_reg_1730; reg ap_sig_cseq_ST_st143_fsm_142; reg ap_sig_bdd_674; wire [0:0] tmp_59_fu_1233_p2; wire [0:0] tmp_9_fu_1259_p2; reg [0:0] tmp_9_reg_1740; reg ap_sig_cseq_ST_st145_fsm_144; reg ap_sig_bdd_689; wire [31:0] tmp_61_cast_fu_1274_p1; reg [31:0] tmp_61_cast_reg_1744; wire [1:0] tmp_4_fu_1278_p1; reg [1:0] tmp_4_reg_1749; wire [1:0] tmp_7_t_fu_1282_p2; reg [1:0] tmp_7_t_reg_1753; wire [31:0] j_4_fu_1288_p2; reg [31:0] j_4_reg_1758; reg ap_sig_cseq_ST_st146_fsm_145; reg ap_sig_bdd_707; wire [13:0] tmp_46_fu_1333_p2; reg [13:0] tmp_46_reg_1781; reg ap_sig_cseq_ST_st147_fsm_146; reg ap_sig_bdd_732; wire [0:0] tmp_11_fu_1298_p2; wire [7:0] i_9_fu_1339_p2; wire [31:0] k_2_fu_1392_p2; reg ap_sig_cseq_ST_st148_fsm_147; reg ap_sig_bdd_748; wire [0:0] tmp_22_fu_1386_p2; reg ap_sig_bdd_755; wire [0:0] exitcond5_fu_1398_p2; reg [0:0] exitcond5_reg_1799; reg ap_sig_cseq_ST_st149_fsm_148; reg ap_sig_bdd_765; reg ap_sig_bdd_769; wire [7:0] i_7_fu_1403_p2; reg [7:0] p_uOut_address0; reg p_uOut_ce0; reg p_uOut_we0; reg [31:0] p_uOut_d0; reg [7:0] p_uOut_address1; reg p_uOut_ce1; reg [7:0] i_2_reg_277; reg [7:0] i_3_reg_288; reg [31:0] j_1_reg_300; reg ap_sig_cseq_ST_st77_fsm_76; reg ap_sig_bdd_800; reg [31:0] sum_reg_311; reg [7:0] k_1_reg_323; reg [31:0] sumsoft_reg_334; reg [31:0] i_4_reg_346; reg [31:0] sum_1_reg_357; reg [7:0] j_2_reg_369; reg [7:0] i_5_reg_380; reg ap_sig_cseq_ST_st138_fsm_137; reg ap_sig_bdd_821; reg [7:0] p_s_reg_391; reg [7:0] p_netOut_V_reg_404; reg [7:0] i_6_reg_416; reg [13:0] phi_mul_reg_427; reg [31:0] j_3_reg_438; reg ap_sig_cseq_ST_st144_fsm_143; reg ap_sig_bdd_847; reg ap_sig_ioackin_P_uOut_TREADY; reg [7:0] i_1_reg_449; reg [31:0] j_reg_461; reg [7:0] ST_layerSize_V_load_1_phi_reg_473; reg [31:0] k_reg_484; reg [7:0] i_reg_495; wire [63:0] tmp_8_fu_644_p1; wire signed [63:0] tmp_70_cast_fu_786_p1; wire [63:0] tmp_80_cast_fu_851_p1; wire signed [63:0] tmp_81_cast_fu_861_p1; wire [63:0] tmp_79_cast_fu_874_p1; wire signed [63:0] tmp_74_cast_fu_945_p1; wire [63:0] tmp_83_cast_fu_1004_p1; wire signed [63:0] tmp_84_cast_fu_1014_p1; wire [63:0] tmp_82_cast_fu_1027_p1; wire signed [63:0] tmp_85_cast_fu_1052_p1; wire signed [63:0] tmp_87_cast_fu_1076_p1; wire signed [63:0] tmp_88_cast_fu_1090_p1; wire [63:0] tmp_89_cast_fu_1254_p1; wire [63:0] tmp_78_cast_fu_1354_p1; wire [1:0] tmp_2_fu_1409_p1; reg ap_reg_ioackin_P_netOut_V_TREADY = 1'b0; reg ap_reg_ioackin_P_uOut_TREADY = 1'b0; reg ap_sig_cseq_ST_st115_fsm_114; reg ap_sig_bdd_963; reg [31:0] grp_fu_506_p0; reg [31:0] grp_fu_506_p1; reg ap_sig_cseq_ST_st10_fsm_9; reg ap_sig_bdd_987; reg ap_sig_cseq_ST_st16_fsm_15; reg ap_sig_bdd_994; reg ap_sig_cseq_ST_st84_fsm_83; reg ap_sig_bdd_1002; reg ap_sig_cseq_ST_st90_fsm_89; reg ap_sig_bdd_1009; reg [63:0] grp_fu_524_p0; reg [31:0] grp_fu_527_p0; wire [31:0] tmp_27_fu_889_p1; wire [7:0] tmp_5_fu_658_p1; wire [14:0] tmp_5_fu_658_p2; wire [7:0] tmp_3_fu_672_p2; wire [7:0] tmp_16_fu_682_p1; wire [8:0] lhs_V_1_cast_fu_692_p1; wire [8:0] r_V_1_fu_695_p2; wire signed [8:0] tmp_21_fu_705_p1; wire [15:0] tmp_21_fu_705_p2; wire signed [8:0] r_V_2_fu_723_p2; wire [7:0] tmp_12_fu_739_p6; wire [31:0] tmp_13_fu_752_p1; wire [31:0] tmp_47_fu_781_p2; wire [8:0] tmp_49_fu_791_p1; wire [11:0] tmp_51_fu_803_p1; wire [13:0] p_shl2_cast_fu_795_p3; wire [13:0] p_shl3_cast_fu_807_p3; wire [13:0] tmp_33_cast_fu_842_p1; wire [13:0] tmp_69_fu_846_p2; wire [8:0] tmp_33_cast7_fu_838_p1; wire [8:0] tmp_70_fu_856_p2; wire [13:0] tmp_26_cast_fu_866_p1; wire [13:0] tmp_68_fu_869_p2; wire [31:0] tmp_35_to_int_fu_879_p1; wire [31:0] tmp_35_neg_fu_883_p2; wire [31:0] tmp_17_fu_907_p1; wire signed [32:0] tmp_24_cast_fu_936_p1; wire [32:0] tmp_61_fu_940_p2; wire [8:0] tmp_62_fu_950_p1; wire [11:0] tmp_63_fu_962_p1; wire [13:0] p_shl4_cast_fu_954_p3; wire [13:0] p_shl5_cast_fu_966_p3; wire [13:0] tmp_39_cast_fu_995_p1; wire [13:0] tmp_72_fu_999_p2; wire [8:0] tmp_39_cast6_fu_991_p1; wire [8:0] tmp_73_fu_1009_p2; wire [13:0] tmp_35_cast_fu_1019_p1; wire [13:0] tmp_71_fu_1022_p2; wire [8:0] tmp_42_cast_fu_1043_p1; wire [8:0] tmp_67_fu_1047_p2; wire [8:0] tmp_46_cast_fu_1067_p1; wire [8:0] tmp_76_fu_1071_p2; wire [8:0] tmp_47_cast_fu_1081_p1; wire [8:0] tmp_77_fu_1085_p2; wire [31:0] p_uOut_load_3_to_int_fu_1120_p1; wire [31:0] p_uOut_load_4_to_int_fu_1138_p1; wire [7:0] tmp_48_fu_1124_p4; wire [22:0] tmp_78_fu_1134_p1; wire [0:0] notrhs_fu_1161_p2; wire [0:0] notlhs_fu_1155_p2; wire [7:0] tmp_50_fu_1141_p4; wire [22:0] tmp_79_fu_1151_p1; wire [0:0] notrhs1_fu_1179_p2; wire [0:0] notlhs1_fu_1173_p2; wire [0:0] tmp_52_fu_1167_p2; wire [0:0] tmp_53_fu_1185_p2; wire [0:0] tmp_54_fu_1191_p2; wire [0:0] tmp_55_fu_530_p2; wire [7:0] tmp_57_fu_1216_p6; wire [31:0] tmp_58_fu_1229_p1; wire [8:0] tmp_80_fu_1245_p1; wire [8:0] tmp_81_fu_1249_p2; wire [7:0] tmp_s_fu_1268_p1; wire [14:0] tmp_s_fu_1268_p2; wire [31:0] tmp_10_fu_1294_p1; wire [31:0] tmp_39_fu_1304_p2; wire [8:0] tmp_42_fu_1309_p1; wire [11:0] tmp_45_fu_1321_p1; wire [13:0] p_shl_cast_fu_1313_p3; wire [13:0] p_shl1_cast_fu_1325_p3; wire [13:0] tmp_65_fu_1345_p1; wire [13:0] tmp_66_fu_1349_p2; wire [7:0] tmp_25_fu_1359_p6; wire [8:0] lhs_V_cast_fu_1372_p1; wire [8:0] r_V_fu_1376_p2; wire [31:0] tmp_21_cast_fu_1382_p1; wire grp_fu_506_ce; wire grp_fu_513_ce; wire grp_fu_519_ce; wire [4:0] tmp_55_fu_530_opcode; wire grp_fu_534_ce; wire grp_fu_539_ce; wire grp_fu_544_ce; reg [148:0] ap_NS_fsm; wire [8:0] tmp_16_fu_682_p10; wire [14:0] tmp_5_fu_658_p10; wire [14:0] tmp_s_fu_1268_p10; reg ap_sig_bdd_724; reg ap_sig_bdd_942; feedforward_ST_WandB #( .DataWidth( 32 ), .AddressRange( 5040 ), .AddressWidth( 13 )) ST_WandB_U( .clk( ap_clk ), .reset( ap_rst_n_inv ), .address0( ST_WandB_address0 ), .ce0( ST_WandB_ce0 ), .we0( ST_WandB_we0 ), .d0( ST_WandB_d0 ), .q0( ST_WandB_q0 ) ); feedforward_AXILiteS_s_axi #( .C_S_AXI_ADDR_WIDTH( C_S_AXI_AXILITES_ADDR_WIDTH ), .C_S_AXI_DATA_WIDTH( C_S_AXI_AXILITES_DATA_WIDTH )) feedforward_AXILiteS_s_axi_U( .AWVALID( s_axi_AXILiteS_AWVALID ), .AWREADY( s_axi_AXILiteS_AWREADY ), .AWADDR( s_axi_AXILiteS_AWADDR ), .WVALID( s_axi_AXILiteS_WVALID ), .WREADY( s_axi_AXILiteS_WREADY ), .WDATA( s_axi_AXILiteS_WDATA ), .WSTRB( s_axi_AXILiteS_WSTRB ), .ARVALID( s_axi_AXILiteS_ARVALID ), .ARREADY( s_axi_AXILiteS_ARREADY ), .ARADDR( s_axi_AXILiteS_ARADDR ), .RVALID( s_axi_AXILiteS_RVALID ), .RREADY( s_axi_AXILiteS_RREADY ), .RDATA( s_axi_AXILiteS_RDATA ), .RRESP( s_axi_AXILiteS_RRESP ), .BVALID( s_axi_AXILiteS_BVALID ), .BREADY( s_axi_AXILiteS_BREADY ), .BRESP( s_axi_AXILiteS_BRESP ), .ACLK( ap_clk ), .ARESET( ap_rst_n_inv ), .ACLK_EN( feedforward_AXILiteS_s_axi_U_ap_dummy_ce ), .ap_start( ap_start ), .interrupt( interrupt ), .ap_ready( ap_ready ), .ap_done( ap_done ), .ap_idle( ap_idle ), .P_mode_V( P_mode_V ) ); feedforward_p_uOut #( .DataWidth( 32 ), .AddressRange( 140 ), .AddressWidth( 8 )) p_uOut_U( .clk( ap_clk ), .reset( ap_rst_n_inv ), .address0( p_uOut_address0 ), .ce0( p_uOut_ce0 ), .we0( p_uOut_we0 ), .d0( p_uOut_d0 ), .q0( p_uOut_q0 ), .address1( p_uOut_address1 ), .ce1( p_uOut_ce1 ), .q1( p_uOut_q1 ) ); feedforward_fadd_32ns_32ns_32_5_full_dsp #( .ID( 1 ), .NUM_STAGE( 5 ), .din0_WIDTH( 32 ), .din1_WIDTH( 32 ), .dout_WIDTH( 32 )) feedforward_fadd_32ns_32ns_32_5_full_dsp_U0( .clk( ap_clk ), .reset( ap_rst_n_inv ), .din0( grp_fu_506_p0 ), .din1( grp_fu_506_p1 ), .ce( grp_fu_506_ce ), .dout( grp_fu_506_p2 ) ); feedforward_fmul_32ns_32ns_32_4_max_dsp #( .ID( 1 ), .NUM_STAGE( 4 ), .din0_WIDTH( 32 ), .din1_WIDTH( 32 ), .dout_WIDTH( 32 )) feedforward_fmul_32ns_32ns_32_4_max_dsp_U1( .clk( ap_clk ), .reset( ap_rst_n_inv ), .din0( p_uOut_q0 ), .din1( ST_WandB_q0 ), .ce( grp_fu_513_ce ), .dout( grp_fu_513_p2 ) ); feedforward_fdiv_32ns_32ns_32_16 #( .ID( 1 ), .NUM_STAGE( 16 ), .din0_WIDTH( 32 ), .din1_WIDTH( 32 ), .dout_WIDTH( 32 )) feedforward_fdiv_32ns_32ns_32_16_U2( .clk( ap_clk ), .reset( ap_rst_n_inv ), .din0( reg_565 ), .din1( sumsoft_reg_334 ), .ce( grp_fu_519_ce ), .dout( grp_fu_519_p2 ) ); feedforward_fptrunc_64ns_32_1 #( .ID( 1 ), .NUM_STAGE( 1 ), .din0_WIDTH( 64 ), .dout_WIDTH( 32 )) feedforward_fptrunc_64ns_32_1_U3( .din0( grp_fu_524_p0 ), .dout( grp_fu_524_p1 ) ); feedforward_fpext_32ns_64_1 #( .ID( 1 ), .NUM_STAGE( 1 ), .din0_WIDTH( 32 ), .dout_WIDTH( 64 )) feedforward_fpext_32ns_64_1_U4( .din0( grp_fu_527_p0 ), .dout( grp_fu_527_p1 ) ); feedforward_fcmp_32ns_32ns_1_1 #( .ID( 1 ), .NUM_STAGE( 1 ), .din0_WIDTH( 32 ), .din1_WIDTH( 32 ), .dout_WIDTH( 1 )) feedforward_fcmp_32ns_32ns_1_1_U5( .din0( reg_565 ), .din1( p_uOut_load_4_reg_1706 ), .opcode( tmp_55_fu_530_opcode ), .dout( tmp_55_fu_530_p2 ) ); feedforward_dadd_64ns_64ns_64_5_full_dsp #( .ID( 1 ), .NUM_STAGE( 5 ), .din0_WIDTH( 64 ), .din1_WIDTH( 64 ), .dout_WIDTH( 64 )) feedforward_dadd_64ns_64ns_64_5_full_dsp_U6( .clk( ap_clk ), .reset( ap_rst_n_inv ), .din0( reg_599 ), .din1( ap_const_lv64_3FF0000000000000 ), .ce( grp_fu_534_ce ), .dout( grp_fu_534_p2 ) ); feedforward_ddiv_64ns_64ns_64_31 #( .ID( 1 ), .NUM_STAGE( 31 ), .din0_WIDTH( 64 ), .din1_WIDTH( 64 ), .dout_WIDTH( 64 )) feedforward_ddiv_64ns_64ns_64_31_U7( .clk( ap_clk ), .reset( ap_rst_n_inv ), .din0( ap_const_lv64_3FF0000000000000 ), .din1( tmp_30_reg_1579 ), .ce( grp_fu_539_ce ), .dout( grp_fu_539_p2 ) ); feedforward_dexp_64ns_64ns_64_18_full_dsp #( .ID( 1 ), .NUM_STAGE( 18 ), .din0_WIDTH( 64 ), .din1_WIDTH( 64 ), .dout_WIDTH( 64 )) feedforward_dexp_64ns_64ns_64_18_full_dsp_U8( .clk( ap_clk ), .reset( ap_rst_n_inv ), .din0( ap_const_lv64_0 ), .din1( reg_594 ), .ce( grp_fu_544_ce ), .dout( grp_fu_544_p2 ) ); feedforward_mux_4to1_sel2_8_1 #( .ID( 1 ), .NUM_STAGE( 1 ), .din1_WIDTH( 8 ), .din2_WIDTH( 8 ), .din3_WIDTH( 8 ), .din4_WIDTH( 8 ), .din5_WIDTH( 2 ), .dout_WIDTH( 8 )) feedforward_mux_4to1_sel2_8_1_U9( .din1( ST_layerSize_V_0 ), .din2( ST_layerSize_V_1 ), .din3( ST_layerSize_V_2 ), .din4( ST_layerSize_V_3 ), .din5( tmp_6_reg_1484 ), .dout( tmp_12_fu_739_p6 ) ); feedforward_mux_4to1_sel2_8_1 #( .ID( 1 ), .NUM_STAGE( 1 ), .din1_WIDTH( 8 ), .din2_WIDTH( 8 ), .din3_WIDTH( 8 ), .din4_WIDTH( 8 ), .din5_WIDTH( 2 ), .dout_WIDTH( 8 )) feedforward_mux_4to1_sel2_8_1_U10( .din1( ST_layerSize_V_0 ), .din2( ST_layerSize_V_1 ), .din3( ST_layerSize_V_2 ), .din4( ST_layerSize_V_3 ), .din5( tmp_20_reg_1494 ), .dout( tmp_19_fu_768_p6 ) ); feedforward_mux_4to1_sel2_8_1 #( .ID( 1 ), .NUM_STAGE( 1 ), .din1_WIDTH( 8 ), .din2_WIDTH( 8 ), .din3_WIDTH( 8 ), .din4_WIDTH( 8 ), .din5_WIDTH( 2 ), .dout_WIDTH( 8 )) feedforward_mux_4to1_sel2_8_1_U11( .din1( ST_layerSize_V_0 ), .din2( ST_layerSize_V_1 ), .din3( ST_layerSize_V_2 ), .din4( ST_layerSize_V_3 ), .din5( tmp_26_reg_1511 ), .dout( tmp_15_fu_894_p6 ) ); feedforward_mux_4to1_sel2_8_1 #( .ID( 1 ), .NUM_STAGE( 1 ), .din1_WIDTH( 8 ), .din2_WIDTH( 8 ), .din3_WIDTH( 8 ), .din4_WIDTH( 8 ), .din5_WIDTH( 2 ), .dout_WIDTH( 8 )) feedforward_mux_4to1_sel2_8_1_U12( .din1( ST_layerSize_V_0 ), .din2( ST_layerSize_V_1 ), .din3( ST_layerSize_V_2 ), .din4( ST_layerSize_V_3 ), .din5( tmp_35_reg_1521 ), .dout( tmp_23_fu_923_p6 ) ); feedforward_mux_4to1_sel2_8_1 #( .ID( 1 ), .NUM_STAGE( 1 ), .din1_WIDTH( 8 ), .din2_WIDTH( 8 ), .din3_WIDTH( 8 ), .din4_WIDTH( 8 ), .din5_WIDTH( 2 ), .dout_WIDTH( 8 )) feedforward_mux_4to1_sel2_8_1_U13( .din1( ST_layerSize_V_0 ), .din2( ST_layerSize_V_1 ), .din3( ST_layerSize_V_2 ), .din4( ST_layerSize_V_3 ), .din5( tmp_75_reg_1701 ), .dout( tmp_57_fu_1216_p6 ) ); feedforward_mux_4to1_sel2_8_1 #( .ID( 1 ), .NUM_STAGE( 1 ), .din1_WIDTH( 8 ), .din2_WIDTH( 8 ), .din3_WIDTH( 8 ), .din4_WIDTH( 8 ), .din5_WIDTH( 2 ), .dout_WIDTH( 8 )) feedforward_mux_4to1_sel2_8_1_U14( .din1( ST_layerSize_V_0 ), .din2( ST_layerSize_V_1 ), .din3( ST_layerSize_V_2 ), .din4( ST_layerSize_V_3 ), .din5( tmp_7_t_reg_1753 ), .dout( tmp_25_fu_1359_p6 ) ); always @ (posedge ap_clk) begin : ap_ret_ap_CS_fsm if (ap_rst_n_inv == 1'b1) begin ap_CS_fsm <= ap_ST_st1_fsm_0; end else begin ap_CS_fsm <= ap_NS_fsm; end end always @ (posedge ap_clk) begin : ap_ret_ap_reg_ioackin_P_netOut_V_TREADY if (ap_rst_n_inv == 1'b1) begin ap_reg_ioackin_P_netOut_V_TREADY <= ap_const_logic_0; end else begin if (ap_sig_bdd_942) begin if (~((ap_const_lv1_0 == tmp_reg_1442) & (ap_const_lv1_0 == tmp_1_reg_1454) & (ap_const_lv1_0 == tmp_41_reg_1661) & (ap_const_lv1_0 == tmp_44_fu_1062_p2) & (ap_const_logic_0 == ap_sig_ioackin_P_netOut_V_TREADY))) begin ap_reg_ioackin_P_netOut_V_TREADY <= ap_const_logic_0; end else if ((ap_const_logic_1 == P_netOut_V_TREADY)) begin ap_reg_ioackin_P_netOut_V_TREADY <= ap_const_logic_1; end end end end always @ (posedge ap_clk) begin : ap_ret_ap_reg_ioackin_P_uOut_TREADY if (ap_rst_n_inv == 1'b1) begin ap_reg_ioackin_P_uOut_TREADY <= ap_const_logic_0; end else begin if ((ap_const_logic_1 == ap_sig_cseq_ST_st144_fsm_143)) begin if (~(ap_const_logic_0 == ap_sig_ioackin_P_uOut_TREADY)) begin ap_reg_ioackin_P_uOut_TREADY <= ap_const_logic_0; end else if ((ap_const_logic_1 == P_uOut_TREADY)) begin ap_reg_ioackin_P_uOut_TREADY <= ap_const_logic_1; end end end end always @ (posedge ap_clk) begin if ((ap_const_logic_1 == ap_sig_cseq_ST_st146_fsm_145)) begin if (ap_sig_bdd_724) begin ST_layerSize_V_load_1_phi_reg_473 <= ST_layerSize_V_3; end else if ((tmp_4_reg_1749 == ap_const_lv2_2)) begin ST_layerSize_V_load_1_phi_reg_473 <= ST_layerSize_V_2; end else if ((tmp_4_reg_1749 == ap_const_lv2_1)) begin ST_layerSize_V_load_1_phi_reg_473 <= ST_layerSize_V_1; end end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st1_fsm_0) & (tmp_fu_611_p2 == ap_const_lv1_0) & ~ap_sig_bdd_404 & ~(ap_const_lv1_0 == tmp_1_fu_621_p2))) begin i_1_reg_449 <= ap_const_lv8_1; end else if (((ap_const_logic_1 == ap_sig_cseq_ST_st147_fsm_146) & (ap_const_lv1_0 == tmp_11_fu_1298_p2))) begin i_1_reg_449 <= i_9_fu_1339_p2; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st1_fsm_0) & (tmp_fu_611_p2 == ap_const_lv1_0) & ~ap_sig_bdd_404 & (ap_const_lv1_0 == tmp_1_fu_621_p2))) begin i_2_reg_277 <= ap_const_lv8_0; end else if (((ap_const_logic_1 == ap_sig_cseq_ST_st2_fsm_1) & (ap_const_lv1_0 == exitcond1_fu_633_p2) & ~ap_sig_bdd_434)) begin i_2_reg_277 <= i_8_fu_638_p2; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st2_fsm_1) & ~ap_sig_bdd_434 & ~(ap_const_lv1_0 == exitcond1_fu_633_p2))) begin i_3_reg_288 <= ap_const_lv8_1; end else if (((ap_const_logic_1 == ap_sig_cseq_ST_st4_fsm_3) & (ap_const_lv1_0 == tmp_14_fu_756_p2))) begin i_3_reg_288 <= i_10_fu_821_p2; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st3_fsm_2) & (ap_const_lv1_0 == tmp_7_fu_649_p2))) begin i_4_reg_346 <= ap_const_lv32_0; end else if ((ap_const_logic_1 == ap_sig_cseq_ST_st119_fsm_118)) begin i_4_reg_346 <= i_12_reg_1598; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st78_fsm_77) & (ap_const_lv1_0 == tmp_18_fu_911_p2))) begin i_5_reg_380 <= ap_const_lv8_0; end else if ((ap_const_logic_1 == ap_sig_cseq_ST_st138_fsm_137)) begin i_5_reg_380 <= i_11_reg_1651; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st143_fsm_142) & (ap_const_lv1_0 == tmp_59_fu_1233_p2))) begin i_6_reg_416 <= i_14_reg_1696; end else if (((ap_const_logic_1 == ap_sig_cseq_ST_st120_fsm_119) & ~(ap_const_lv1_0 == exitcond4_fu_1032_p2) & ~(ap_const_lv1_0 == tmp_41_fu_1057_p2))) begin i_6_reg_416 <= ap_const_lv8_0; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st149_fsm_148) & (ap_const_lv1_0 == exitcond5_fu_1398_p2) & ~ap_sig_bdd_769)) begin i_reg_495 <= i_7_fu_1403_p2; end else if (((ap_const_logic_1 == ap_sig_cseq_ST_st1_fsm_0) & ~(tmp_fu_611_p2 == ap_const_lv1_0) & ~ap_sig_bdd_404)) begin i_reg_495 <= ap_const_lv8_0; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st3_fsm_2) & ~(ap_const_lv1_0 == tmp_7_fu_649_p2))) begin j_1_reg_300 <= ap_const_lv32_0; end else if ((ap_const_logic_1 == ap_sig_cseq_ST_st77_fsm_76)) begin j_1_reg_300 <= j_5_reg_1529; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st78_fsm_77) & ~(ap_const_lv1_0 == tmp_18_fu_911_p2))) begin j_2_reg_369 <= ap_const_lv8_0; end else if ((ap_const_logic_1 == ap_sig_cseq_ST_st88_fsm_87)) begin j_2_reg_369 <= j_6_reg_1623; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st139_fsm_138) & (ap_const_lv1_0 == tmp_reg_1442) & (ap_const_lv1_0 == tmp_1_reg_1454) & ~((ap_const_lv1_0 == tmp_reg_1442) & (ap_const_lv1_0 == tmp_1_reg_1454) & (ap_const_lv1_0 == tmp_41_reg_1661) & (ap_const_lv1_0 == tmp_44_fu_1062_p2) & (ap_const_logic_0 == ap_sig_ioackin_P_netOut_V_TREADY)) & ~(ap_const_lv1_0 == tmp_41_reg_1661) & (ap_const_lv1_0 == exitcond_fu_1105_p2))) begin j_3_reg_438 <= ap_const_lv32_0; end else if (((ap_const_logic_1 == ap_sig_cseq_ST_st144_fsm_143) & ~(ap_const_logic_0 == ap_sig_ioackin_P_uOut_TREADY))) begin j_3_reg_438 <= j_7_reg_1730; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st148_fsm_147) & (ap_const_lv1_0 == tmp_22_fu_1386_p2) & ~ap_sig_bdd_755)) begin j_reg_461 <= j_4_reg_1758; end else if (((ap_const_logic_1 == ap_sig_cseq_ST_st145_fsm_144) & ~(ap_const_lv1_0 == tmp_9_fu_1259_p2))) begin j_reg_461 <= ap_const_lv32_0; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st4_fsm_3) & ~(ap_const_lv1_0 == tmp_14_fu_756_p2))) begin k_1_reg_323 <= ap_const_lv8_0; end else if ((ap_const_logic_1 == ap_sig_cseq_ST_st14_fsm_13)) begin k_1_reg_323 <= k_3_reg_1559; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st147_fsm_146) & ~(ap_const_lv1_0 == tmp_11_fu_1298_p2))) begin k_reg_484 <= ap_const_lv32_0; end else if (((ap_const_logic_1 == ap_sig_cseq_ST_st148_fsm_147) & ~(ap_const_lv1_0 == tmp_22_fu_1386_p2) & ~ap_sig_bdd_755)) begin k_reg_484 <= k_2_fu_1392_p2; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st120_fsm_119) & ~(ap_const_lv1_0 == exitcond4_fu_1032_p2) & (ap_const_lv1_0 == tmp_41_fu_1057_p2))) begin p_netOut_V_reg_404 <= ap_const_lv8_1; end else if ((ap_const_logic_1 == ap_sig_cseq_ST_st142_fsm_141)) begin p_netOut_V_reg_404 <= i_15_fu_1210_p2; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st120_fsm_119) & ~(ap_const_lv1_0 == exitcond4_fu_1032_p2) & (ap_const_lv1_0 == tmp_41_fu_1057_p2))) begin p_s_reg_391 <= ap_const_lv8_0; end else if ((ap_const_logic_1 == ap_sig_cseq_ST_st142_fsm_141)) begin p_s_reg_391 <= p_netOut_V_1_fu_1203_p3; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st143_fsm_142) & (ap_const_lv1_0 == tmp_59_fu_1233_p2))) begin phi_mul_reg_427 <= next_mul_reg_1688; end else if (((ap_const_logic_1 == ap_sig_cseq_ST_st120_fsm_119) & ~(ap_const_lv1_0 == exitcond4_fu_1032_p2) & ~(ap_const_lv1_0 == tmp_41_fu_1057_p2))) begin phi_mul_reg_427 <= ap_const_lv14_0; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st78_fsm_77) & ~(ap_const_lv1_0 == tmp_18_fu_911_p2))) begin sum_1_reg_357 <= ap_const_lv32_0; end else if ((ap_const_logic_1 == ap_sig_cseq_ST_st88_fsm_87)) begin sum_1_reg_357 <= grp_fu_506_p2; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st4_fsm_3) & ~(ap_const_lv1_0 == tmp_14_fu_756_p2))) begin sum_reg_311 <= ap_const_lv32_0; end else if ((ap_const_logic_1 == ap_sig_cseq_ST_st14_fsm_13)) begin sum_reg_311 <= grp_fu_506_p2; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st3_fsm_2) & (ap_const_lv1_0 == tmp_7_fu_649_p2))) begin sumsoft_reg_334 <= ap_const_lv32_0; end else if ((ap_const_logic_1 == ap_sig_cseq_ST_st119_fsm_118)) begin sumsoft_reg_334 <= grp_fu_506_p2; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st1_fsm_0) & ~(tmp_fu_611_p2 == ap_const_lv1_0) & ~ap_sig_bdd_404)) begin P_config_V_read_reg_1463 <= P_config_V_TDATA; ST_numLayer_V <= P_config_V_TDATA; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st1_fsm_0) & ~ap_sig_bdd_404)) begin P_mode_V_read_reg_1437 <= P_mode_V; ST_numLayer_V_load_reg_1446 <= ST_numLayer_V; tmp_reg_1442 <= tmp_fu_611_p2; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st149_fsm_148) & (ap_const_lv1_0 == exitcond5_fu_1398_p2) & ~ap_sig_bdd_769 & (tmp_2_fu_1409_p1 == ap_const_lv2_0))) begin ST_layerSize_V_0 <= P_config_V_TDATA; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st1_fsm_0) & (tmp_fu_611_p2 == ap_const_lv1_0) & ~ap_sig_bdd_404 & (ap_const_lv1_0 == tmp_1_fu_621_p2))) begin ST_layerSize_V_0_load_reg_1458 <= ST_layerSize_V_0; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st149_fsm_148) & (ap_const_lv1_0 == exitcond5_fu_1398_p2) & ~ap_sig_bdd_769 & (ap_const_lv2_1 == tmp_2_fu_1409_p1))) begin ST_layerSize_V_1 <= P_config_V_TDATA; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st149_fsm_148) & (ap_const_lv1_0 == exitcond5_fu_1398_p2) & ~ap_sig_bdd_769 & (ap_const_lv2_2 == tmp_2_fu_1409_p1))) begin ST_layerSize_V_2 <= P_config_V_TDATA; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st149_fsm_148) & (ap_const_lv1_0 == exitcond5_fu_1398_p2) & ~ap_sig_bdd_769 & ~(ap_const_lv2_2 == tmp_2_fu_1409_p1) & ~(ap_const_lv2_1 == tmp_2_fu_1409_p1) & ~(tmp_2_fu_1409_p1 == ap_const_lv2_0))) begin ST_layerSize_V_3 <= P_config_V_TDATA; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st149_fsm_148) & ~ap_sig_bdd_769)) begin exitcond5_reg_1799 <= exitcond5_fu_1398_p2; end end always @ (posedge ap_clk) begin if ((ap_const_logic_1 == ap_sig_cseq_ST_st120_fsm_119)) begin i_11_reg_1651 <= i_11_fu_1037_p2; end end always @ (posedge ap_clk) begin if ((ap_const_logic_1 == ap_sig_cseq_ST_st78_fsm_77)) begin i_12_reg_1598 <= i_12_fu_917_p2; tmp_15_reg_1589 <= tmp_15_fu_894_p6; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st139_fsm_138) & (ap_const_lv1_0 == tmp_reg_1442) & (ap_const_lv1_0 == tmp_1_reg_1454) & ~((ap_const_lv1_0 == tmp_reg_1442) & (ap_const_lv1_0 == tmp_1_reg_1454) & (ap_const_lv1_0 == tmp_41_reg_1661) & (ap_const_lv1_0 == tmp_44_fu_1062_p2) & (ap_const_logic_0 == ap_sig_ioackin_P_netOut_V_TREADY)) & ~(ap_const_lv1_0 == tmp_41_reg_1661))) begin i_14_reg_1696 <= i_14_fu_1110_p2; next_mul_reg_1688 <= next_mul_fu_1099_p2; tmp_74_reg_1683 <= tmp_74_fu_1095_p1; end end always @ (posedge ap_clk) begin if ((ap_const_logic_1 == ap_sig_cseq_ST_st146_fsm_145)) begin j_4_reg_1758 <= j_4_fu_1288_p2; end end always @ (posedge ap_clk) begin if ((ap_const_logic_1 == ap_sig_cseq_ST_st4_fsm_3)) begin j_5_reg_1529 <= j_5_fu_762_p2; end end always @ (posedge ap_clk) begin if ((ap_const_logic_1 == ap_sig_cseq_ST_st79_fsm_78)) begin j_6_reg_1623 <= j_6_fu_985_p2; end end always @ (posedge ap_clk) begin if ((ap_const_logic_1 == ap_sig_cseq_ST_st143_fsm_142)) begin j_7_reg_1730 <= j_7_fu_1239_p2; end end always @ (posedge ap_clk) begin if ((ap_const_logic_1 == ap_sig_cseq_ST_st5_fsm_4)) begin k_3_reg_1559 <= k_3_fu_832_p2; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st4_fsm_3) & ~(ap_const_lv1_0 == tmp_14_fu_756_p2))) begin p_uOut_addr_1_reg_1546 <= tmp_70_cast_fu_786_p1; tmp_19_reg_1534 <= tmp_19_fu_768_p6; tmp_60_reg_1540[13 : 2] <= tmp_60_fu_815_p2[13 : 2]; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st78_fsm_77) & ~(ap_const_lv1_0 == tmp_18_fu_911_p2))) begin p_uOut_addr_3_reg_1615 <= tmp_74_cast_fu_945_p1; tmp_23_reg_1603 <= tmp_23_fu_923_p6; tmp_64_reg_1609[13 : 2] <= tmp_64_fu_974_p2[13 : 2]; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st120_fsm_119) & (ap_const_lv1_0 == exitcond4_fu_1032_p2))) begin p_uOut_addr_5_reg_1656 <= tmp_85_cast_fu_1052_p1; end end always @ (posedge ap_clk) begin if ((ap_const_logic_1 == ap_sig_cseq_ST_st140_fsm_139)) begin p_uOut_load_4_reg_1706 <= p_uOut_q1; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st6_fsm_5) \| (ap_const_logic_1 == ap_sig_cseq_ST_st80_fsm_79) \| (ap_const_logic_1 == ap_sig_cseq_ST_st121_fsm_120) \| (ap_const_logic_1 == ap_sig_cseq_ST_st140_fsm_139))) begin reg_565 <= p_uOut_q0; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st6_fsm_5) \| (ap_const_logic_1 == ap_sig_cseq_ST_st80_fsm_79) \| (ap_const_logic_1 == ap_sig_cseq_ST_st15_fsm_14) \| (ap_const_logic_1 == ap_sig_cseq_ST_st89_fsm_88))) begin reg_572 <= ST_WandB_q0; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st9_fsm_8) \| (ap_const_logic_1 == ap_sig_cseq_ST_st83_fsm_82))) begin reg_578 <= grp_fu_513_p2; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st20_fsm_19) \| (ap_const_logic_1 == ap_sig_cseq_ST_st94_fsm_93))) begin reg_589 <= grp_fu_506_p2; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st21_fsm_20) \| (ap_const_logic_1 == ap_sig_cseq_ST_st95_fsm_94))) begin reg_594 <= grp_fu_527_p1; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st39_fsm_38) \| (ap_const_logic_1 == ap_sig_cseq_ST_st113_fsm_112))) begin reg_599 <= grp_fu_544_p2; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st76_fsm_75) \| (ap_const_logic_1 == ap_sig_cseq_ST_st114_fsm_113))) begin reg_605 <= grp_fu_524_p1; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st3_fsm_2) & ~(ap_const_lv1_0 == tmp_7_fu_649_p2))) begin tmp_16_reg_1489 <= tmp_16_fu_682_p2; tmp_20_reg_1494 <= tmp_20_fu_688_p1; tmp_62_cast_reg_1479[14 : 0] <= tmp_62_cast_fu_664_p1[14 : 0]; tmp_6_reg_1484 <= tmp_6_fu_668_p1; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st1_fsm_0) & (tmp_fu_611_p2 == ap_const_lv1_0) & ~ap_sig_bdd_404)) begin tmp_1_reg_1454 <= tmp_1_fu_621_p2; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st3_fsm_2) & (ap_const_lv1_0 == tmp_7_fu_649_p2))) begin tmp_24_reg_1499 <= tmp_24_fu_711_p1; tmp_26_reg_1511 <= tmp_26_fu_719_p1; tmp_33_reg_1516 <= tmp_33_fu_729_p2; tmp_35_reg_1521 <= tmp_35_fu_735_p1; tmp_64_cast_reg_1506 <= tmp_64_cast_fu_715_p1; end end always @ (posedge ap_clk) begin if ((ap_const_logic_1 == ap_sig_cseq_ST_st44_fsm_43)) begin tmp_30_reg_1579 <= grp_fu_534_p2; end end always @ (posedge ap_clk) begin if ((ap_const_logic_1 == ap_sig_cseq_ST_st75_fsm_74)) begin tmp_31_reg_1584 <= grp_fu_539_p2; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st120_fsm_119) & ~(ap_const_lv1_0 == exitcond4_fu_1032_p2))) begin tmp_41_reg_1661 <= tmp_41_fu_1057_p2; end end always @ (posedge ap_clk) begin if ((ap_const_logic_1 == ap_sig_cseq_ST_st137_fsm_136)) begin tmp_43_reg_1665 <= grp_fu_519_p2; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st147_fsm_146) & ~(ap_const_lv1_0 == tmp_11_fu_1298_p2))) begin tmp_46_reg_1781[13 : 2] <= tmp_46_fu_1333_p2[13 : 2]; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st145_fsm_144) & ~(ap_const_lv1_0 == tmp_9_fu_1259_p2))) begin tmp_4_reg_1749 <= tmp_4_fu_1278_p1; tmp_61_cast_reg_1744[14 : 0] <= tmp_61_cast_fu_1274_p1[14 : 0]; tmp_7_t_reg_1753 <= tmp_7_t_fu_1282_p2; end end always @ (posedge ap_clk) begin if ((ap_const_logic_1 == ap_sig_cseq_ST_st141_fsm_140)) begin tmp_56_reg_1712 <= tmp_56_fu_1197_p2; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st139_fsm_138) & (ap_const_lv1_0 == tmp_reg_1442) & (ap_const_lv1_0 == tmp_1_reg_1454) & ~((ap_const_lv1_0 == tmp_reg_1442) & (ap_const_lv1_0 == tmp_1_reg_1454) & (ap_const_lv1_0 == tmp_41_reg_1661) & (ap_const_lv1_0 == tmp_44_fu_1062_p2) & (ap_const_logic_0 == ap_sig_ioackin_P_netOut_V_TREADY)) & ~(ap_const_lv1_0 == tmp_41_reg_1661) & (ap_const_lv1_0 == exitcond_fu_1105_p2))) begin tmp_75_reg_1701 <= tmp_75_fu_1116_p1; end end always @ (posedge ap_clk) begin if ((ap_const_logic_1 == ap_sig_cseq_ST_st145_fsm_144)) begin tmp_9_reg_1740 <= tmp_9_fu_1259_p2; end end always @ (ap_sig_cseq_ST_st148_fsm_147 or tmp_22_fu_1386_p2 or ap_sig_bdd_755) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st148_fsm_147) & ~(ap_const_lv1_0 == tmp_22_fu_1386_p2) & ~ap_sig_bdd_755)) begin P_WandB_TREADY = ap_const_logic_1; end else begin P_WandB_TREADY = ap_const_logic_0; end end always @ (ap_sig_cseq_ST_st1_fsm_0 or tmp_fu_611_p2 or ap_sig_bdd_404 or exitcond5_fu_1398_p2 or ap_sig_cseq_ST_st149_fsm_148 or ap_sig_bdd_769) begin if ((((ap_const_logic_1 == ap_sig_cseq_ST_st1_fsm_0) & ~(tmp_fu_611_p2 == ap_const_lv1_0) & ~ap_sig_bdd_404) \| ((ap_const_logic_1 == ap_sig_cseq_ST_st149_fsm_148) & (ap_const_lv1_0 == exitcond5_fu_1398_p2) & ~ap_sig_bdd_769))) begin P_config_V_TREADY = ap_const_logic_1; end else begin P_config_V_TREADY = ap_const_logic_0; end end always @ (ap_sig_cseq_ST_st2_fsm_1 or exitcond1_fu_633_p2 or ap_sig_bdd_434) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st2_fsm_1) & (ap_const_lv1_0 == exitcond1_fu_633_p2) & ~ap_sig_bdd_434)) begin P_netIn_TREADY = ap_const_logic_1; end else begin P_netIn_TREADY = ap_const_logic_0; end end always @ (tmp_reg_1442 or tmp_1_reg_1454 or tmp_41_reg_1661 or ap_sig_cseq_ST_st139_fsm_138 or tmp_44_fu_1062_p2 or ap_reg_ioackin_P_netOut_V_TREADY) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st139_fsm_138) & (ap_const_lv1_0 == tmp_reg_1442) & (ap_const_lv1_0 == tmp_1_reg_1454) & (ap_const_lv1_0 == tmp_41_reg_1661) & (ap_const_lv1_0 == tmp_44_fu_1062_p2) & (ap_const_logic_0 == ap_reg_ioackin_P_netOut_V_TREADY))) begin P_netOut_V_TVALID = ap_const_logic_1; end else begin P_netOut_V_TVALID = ap_const_logic_0; end end always @ (ap_sig_cseq_ST_st144_fsm_143 or ap_reg_ioackin_P_uOut_TREADY) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st144_fsm_143) & (ap_const_logic_0 == ap_reg_ioackin_P_uOut_TREADY))) begin P_uOut_TVALID = ap_const_logic_1; end else begin P_uOut_TVALID = ap_const_logic_0; end end always @ (ap_sig_cseq_ST_st5_fsm_4 or exitcond2_fu_827_p2 or ap_sig_cseq_ST_st79_fsm_78 or exitcond3_fu_980_p2 or ap_sig_cseq_ST_st148_fsm_147 or tmp_80_cast_fu_851_p1 or tmp_79_cast_fu_874_p1 or tmp_83_cast_fu_1004_p1 or tmp_82_cast_fu_1027_p1 or tmp_78_cast_fu_1354_p1) begin if ((ap_const_logic_1 == ap_sig_cseq_ST_st148_fsm_147)) begin ST_WandB_address0 = tmp_78_cast_fu_1354_p1; end else if (((ap_const_logic_1 == ap_sig_cseq_ST_st79_fsm_78) & ~(ap_const_lv1_0 == exitcond3_fu_980_p2))) begin ST_WandB_address0 = tmp_82_cast_fu_1027_p1; end else if (((ap_const_logic_1 == ap_sig_cseq_ST_st79_fsm_78) & (ap_const_lv1_0 == exitcond3_fu_980_p2))) begin ST_WandB_address0 = tmp_83_cast_fu_1004_p1; end else if (((ap_const_logic_1 == ap_sig_cseq_ST_st5_fsm_4) & ~(ap_const_lv1_0 == exitcond2_fu_827_p2))) begin ST_WandB_address0 = tmp_79_cast_fu_874_p1; end else if (((ap_const_logic_1 == ap_sig_cseq_ST_st5_fsm_4) & (ap_const_lv1_0 == exitcond2_fu_827_p2))) begin ST_WandB_address0 = tmp_80_cast_fu_851_p1; end else begin ST_WandB_address0 = 'bx; end end always @ (ap_sig_cseq_ST_st5_fsm_4 or exitcond2_fu_827_p2 or ap_sig_cseq_ST_st79_fsm_78 or exitcond3_fu_980_p2 or ap_sig_cseq_ST_st148_fsm_147 or ap_sig_bdd_755) begin if ((((ap_const_logic_1 == ap_sig_cseq_ST_st5_fsm_4) & (ap_const_lv1_0 == exitcond2_fu_827_p2)) \| ((ap_const_logic_1 == ap_sig_cseq_ST_st5_fsm_4) & ~(ap_const_lv1_0 == exitcond2_fu_827_p2)) \| ((ap_const_logic_1 == ap_sig_cseq_ST_st79_fsm_78) & (ap_const_lv1_0 == exitcond3_fu_980_p2)) \| ((ap_const_logic_1 == ap_sig_cseq_ST_st79_fsm_78) & ~(ap_const_lv1_0 == exitcond3_fu_980_p2)) \| ((ap_const_logic_1 == ap_sig_cseq_ST_st148_fsm_147) & ~ap_sig_bdd_755))) begin ST_WandB_ce0 = ap_const_logic_1; end else begin ST_WandB_ce0 = ap_const_logic_0; end end always @ (ap_sig_cseq_ST_st148_fsm_147 or tmp_22_fu_1386_p2 or ap_sig_bdd_755) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st148_fsm_147) & ~(ap_const_lv1_0 == tmp_22_fu_1386_p2) & ~ap_sig_bdd_755)) begin ST_WandB_we0 = ap_const_logic_1; end else begin ST_WandB_we0 = ap_const_logic_0; end end always @ (tmp_reg_1442 or tmp_1_reg_1454 or tmp_41_reg_1661 or ap_sig_cseq_ST_st139_fsm_138 or tmp_44_fu_1062_p2 or ap_sig_ioackin_P_netOut_V_TREADY or exitcond_fu_1105_p2 or tmp_9_reg_1740 or exitcond5_reg_1799) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st139_fsm_138) & ~((ap_const_lv1_0 == tmp_reg_1442) & (ap_const_lv1_0 == tmp_1_reg_1454) & (ap_const_lv1_0 == tmp_41_reg_1661) & (ap_const_lv1_0 == tmp_44_fu_1062_p2) & (ap_const_logic_0 == ap_sig_ioackin_P_netOut_V_TREADY)) & (((ap_const_lv1_0 == tmp_reg_1442) & (ap_const_lv1_0 == tmp_1_reg_1454) & (ap_const_lv1_0 == tmp_41_reg_1661) & (ap_const_lv1_0 == tmp_44_fu_1062_p2)) \| (~(ap_const_lv1_0 == tmp_reg_1442) & ~(ap_const_lv1_0 == exitcond5_reg_1799)) \| ((ap_const_lv1_0 == tmp_reg_1442) & ~(ap_const_lv1_0 == tmp_1_reg_1454) & (ap_const_lv1_0 == tmp_9_reg_1740)) \| ((ap_const_lv1_0 == tmp_reg_1442) & (ap_const_lv1_0 == tmp_1_reg_1454) & ~(ap_const_lv1_0 == tmp_41_reg_1661) & ~(ap_const_lv1_0 == exitcond_fu_1105_p2))))) begin ap_done = ap_const_logic_1; end else begin ap_done = ap_const_logic_0; end end always @ (ap_start or ap_sig_cseq_ST_st1_fsm_0) begin if ((~(ap_const_logic_1 == ap_start) & (ap_const_logic_1 == ap_sig_cseq_ST_st1_fsm_0))) begin ap_idle = ap_const_logic_1; end else begin ap_idle = ap_const_logic_0; end end always @ (tmp_reg_1442 or tmp_1_reg_1454 or tmp_41_reg_1661 or ap_sig_cseq_ST_st139_fsm_138 or tmp_44_fu_1062_p2 or ap_sig_ioackin_P_netOut_V_TREADY or exitcond_fu_1105_p2 or tmp_9_reg_1740 or exitcond5_reg_1799) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st139_fsm_138) & ~((ap_const_lv1_0 == tmp_reg_1442) & (ap_const_lv1_0 == tmp_1_reg_1454) & (ap_const_lv1_0 == tmp_41_reg_1661) & (ap_const_lv1_0 == tmp_44_fu_1062_p2) & (ap_const_logic_0 == ap_sig_ioackin_P_netOut_V_TREADY)) & (((ap_const_lv1_0 == tmp_reg_1442) & (ap_const_lv1_0 == tmp_1_reg_1454) & (ap_const_lv1_0 == tmp_41_reg_1661) & (ap_const_lv1_0 == tmp_44_fu_1062_p2)) \| (~(ap_const_lv1_0 == tmp_reg_1442) & ~(ap_const_lv1_0 == exitcond5_reg_1799)) \| ((ap_const_lv1_0 == tmp_reg_1442) & ~(ap_const_lv1_0 == tmp_1_reg_1454) & (ap_const_lv1_0 == tmp_9_reg_1740)) \| ((ap_const_lv1_0 == tmp_reg_1442) & (ap_const_lv1_0 == tmp_1_reg_1454) & ~(ap_const_lv1_0 == tmp_41_reg_1661) & ~(ap_const_lv1_0 == exitcond_fu_1105_p2))))) begin ap_ready = ap_const_logic_1; end else begin ap_ready = ap_const_logic_0; end end always @ (ap_sig_bdd_987) begin if (ap_sig_bdd_987) begin ap_sig_cseq_ST_st10_fsm_9 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st10_fsm_9 = ap_const_logic_0; end end always @ (ap_sig_bdd_374) begin if (ap_sig_bdd_374) begin ap_sig_cseq_ST_st113_fsm_112 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st113_fsm_112 = ap_const_logic_0; end end always @ (ap_sig_bdd_391) begin if (ap_sig_bdd_391) begin ap_sig_cseq_ST_st114_fsm_113 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st114_fsm_113 = ap_const_logic_0; end end always @ (ap_sig_bdd_963) begin if (ap_sig_bdd_963) begin ap_sig_cseq_ST_st115_fsm_114 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st115_fsm_114 = ap_const_logic_0; end end always @ (ap_sig_bdd_574) begin if (ap_sig_bdd_574) begin ap_sig_cseq_ST_st119_fsm_118 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st119_fsm_118 = ap_const_logic_0; end end always @ (ap_sig_bdd_583) begin if (ap_sig_bdd_583) begin ap_sig_cseq_ST_st120_fsm_119 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st120_fsm_119 = ap_const_logic_0; end end always @ (ap_sig_bdd_264) begin if (ap_sig_bdd_264) begin ap_sig_cseq_ST_st121_fsm_120 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st121_fsm_120 = ap_const_logic_0; end end always @ (ap_sig_bdd_601) begin if (ap_sig_bdd_601) begin ap_sig_cseq_ST_st137_fsm_136 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st137_fsm_136 = ap_const_logic_0; end end always @ (ap_sig_bdd_821) begin if (ap_sig_bdd_821) begin ap_sig_cseq_ST_st138_fsm_137 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st138_fsm_137 = ap_const_logic_0; end end always @ (ap_sig_bdd_610) begin if (ap_sig_bdd_610) begin ap_sig_cseq_ST_st139_fsm_138 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st139_fsm_138 = ap_const_logic_0; end end always @ (ap_sig_bdd_272) begin if (ap_sig_bdd_272) begin ap_sig_cseq_ST_st140_fsm_139 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st140_fsm_139 = ap_const_logic_0; end end always @ (ap_sig_bdd_654) begin if (ap_sig_bdd_654) begin ap_sig_cseq_ST_st141_fsm_140 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st141_fsm_140 = ap_const_logic_0; end end always @ (ap_sig_bdd_663) begin if (ap_sig_bdd_663) begin ap_sig_cseq_ST_st142_fsm_141 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st142_fsm_141 = ap_const_logic_0; end end always @ (ap_sig_bdd_674) begin if (ap_sig_bdd_674) begin ap_sig_cseq_ST_st143_fsm_142 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st143_fsm_142 = ap_const_logic_0; end end always @ (ap_sig_bdd_847) begin if (ap_sig_bdd_847) begin ap_sig_cseq_ST_st144_fsm_143 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st144_fsm_143 = ap_const_logic_0; end end always @ (ap_sig_bdd_689) begin if (ap_sig_bdd_689) begin ap_sig_cseq_ST_st145_fsm_144 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st145_fsm_144 = ap_const_logic_0; end end always @ (ap_sig_bdd_707) begin if (ap_sig_bdd_707) begin ap_sig_cseq_ST_st146_fsm_145 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st146_fsm_145 = ap_const_logic_0; end end always @ (ap_sig_bdd_732) begin if (ap_sig_bdd_732) begin ap_sig_cseq_ST_st147_fsm_146 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st147_fsm_146 = ap_const_logic_0; end end always @ (ap_sig_bdd_748) begin if (ap_sig_bdd_748) begin ap_sig_cseq_ST_st148_fsm_147 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st148_fsm_147 = ap_const_logic_0; end end always @ (ap_sig_bdd_765) begin if (ap_sig_bdd_765) begin ap_sig_cseq_ST_st149_fsm_148 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st149_fsm_148 = ap_const_logic_0; end end always @ (ap_sig_bdd_317) begin if (ap_sig_bdd_317) begin ap_sig_cseq_ST_st14_fsm_13 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st14_fsm_13 = ap_const_logic_0; end end always @ (ap_sig_bdd_281) begin if (ap_sig_bdd_281) begin ap_sig_cseq_ST_st15_fsm_14 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st15_fsm_14 = ap_const_logic_0; end end always @ (ap_sig_bdd_994) begin if (ap_sig_bdd_994) begin ap_sig_cseq_ST_st16_fsm_15 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st16_fsm_15 = ap_const_logic_0; end end always @ (ap_sig_bdd_167) begin if (ap_sig_bdd_167) begin ap_sig_cseq_ST_st1_fsm_0 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st1_fsm_0 = ap_const_logic_0; end end always @ (ap_sig_bdd_333) begin if (ap_sig_bdd_333) begin ap_sig_cseq_ST_st20_fsm_19 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st20_fsm_19 = ap_const_logic_0; end end always @ (ap_sig_bdd_350) begin if (ap_sig_bdd_350) begin ap_sig_cseq_ST_st21_fsm_20 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st21_fsm_20 = ap_const_logic_0; end end always @ (ap_sig_bdd_428) begin if (ap_sig_bdd_428) begin ap_sig_cseq_ST_st2_fsm_1 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st2_fsm_1 = ap_const_logic_0; end end always @ (ap_sig_bdd_367) begin if (ap_sig_bdd_367) begin ap_sig_cseq_ST_st39_fsm_38 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st39_fsm_38 = ap_const_logic_0; end end always @ (ap_sig_bdd_444) begin if (ap_sig_bdd_444) begin ap_sig_cseq_ST_st3_fsm_2 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st3_fsm_2 = ap_const_logic_0; end end always @ (ap_sig_bdd_516) begin if (ap_sig_bdd_516) begin ap_sig_cseq_ST_st44_fsm_43 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st44_fsm_43 = ap_const_logic_0; end end always @ (ap_sig_bdd_474) begin if (ap_sig_bdd_474) begin ap_sig_cseq_ST_st4_fsm_3 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st4_fsm_3 = ap_const_logic_0; end end always @ (ap_sig_bdd_496) begin if (ap_sig_bdd_496) begin ap_sig_cseq_ST_st5_fsm_4 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st5_fsm_4 = ap_const_logic_0; end end always @ (ap_sig_bdd_249) begin if (ap_sig_bdd_249) begin ap_sig_cseq_ST_st6_fsm_5 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st6_fsm_5 = ap_const_logic_0; end end always @ (ap_sig_bdd_525) begin if (ap_sig_bdd_525) begin ap_sig_cseq_ST_st75_fsm_74 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st75_fsm_74 = ap_const_logic_0; end end always @ (ap_sig_bdd_384) begin if (ap_sig_bdd_384) begin ap_sig_cseq_ST_st76_fsm_75 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st76_fsm_75 = ap_const_logic_0; end end always @ (ap_sig_bdd_800) begin if (ap_sig_bdd_800) begin ap_sig_cseq_ST_st77_fsm_76 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st77_fsm_76 = ap_const_logic_0; end end always @ (ap_sig_bdd_534) begin if (ap_sig_bdd_534) begin ap_sig_cseq_ST_st78_fsm_77 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st78_fsm_77 = ap_const_logic_0; end end always @ (ap_sig_bdd_555) begin if (ap_sig_bdd_555) begin ap_sig_cseq_ST_st79_fsm_78 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st79_fsm_78 = ap_const_logic_0; end end always @ (ap_sig_bdd_256) begin if (ap_sig_bdd_256) begin ap_sig_cseq_ST_st80_fsm_79 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st80_fsm_79 = ap_const_logic_0; end end always @ (ap_sig_bdd_307) begin if (ap_sig_bdd_307) begin ap_sig_cseq_ST_st83_fsm_82 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st83_fsm_82 = ap_const_logic_0; end end always @ (ap_sig_bdd_1002) begin if (ap_sig_bdd_1002) begin ap_sig_cseq_ST_st84_fsm_83 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st84_fsm_83 = ap_const_logic_0; end end always @ (ap_sig_bdd_324) begin if (ap_sig_bdd_324) begin ap_sig_cseq_ST_st88_fsm_87 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st88_fsm_87 = ap_const_logic_0; end end always @ (ap_sig_bdd_290) begin if (ap_sig_bdd_290) begin ap_sig_cseq_ST_st89_fsm_88 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st89_fsm_88 = ap_const_logic_0; end end always @ (ap_sig_bdd_1009) begin if (ap_sig_bdd_1009) begin ap_sig_cseq_ST_st90_fsm_89 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st90_fsm_89 = ap_const_logic_0; end end always @ (ap_sig_bdd_340) begin if (ap_sig_bdd_340) begin ap_sig_cseq_ST_st94_fsm_93 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st94_fsm_93 = ap_const_logic_0; end end always @ (ap_sig_bdd_357) begin if (ap_sig_bdd_357) begin ap_sig_cseq_ST_st95_fsm_94 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st95_fsm_94 = ap_const_logic_0; end end always @ (ap_sig_bdd_300) begin if (ap_sig_bdd_300) begin ap_sig_cseq_ST_st9_fsm_8 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st9_fsm_8 = ap_const_logic_0; end end always @ (P_netOut_V_TREADY or ap_reg_ioackin_P_netOut_V_TREADY) begin if ((ap_const_logic_0 == ap_reg_ioackin_P_netOut_V_TREADY)) begin ap_sig_ioackin_P_netOut_V_TREADY = P_netOut_V_TREADY; end else begin ap_sig_ioackin_P_netOut_V_TREADY = ap_const_logic_1; end end always @ (P_uOut_TREADY or ap_reg_ioackin_P_uOut_TREADY) begin if ((ap_const_logic_0 == ap_reg_ioackin_P_uOut_TREADY)) begin ap_sig_ioackin_P_uOut_TREADY = P_uOut_TREADY; end else begin ap_sig_ioackin_P_uOut_TREADY = ap_const_logic_1; end end always @ (sum_reg_311 or sumsoft_reg_334 or sum_1_reg_357 or ap_sig_cseq_ST_st115_fsm_114 or ap_sig_cseq_ST_st10_fsm_9 or ap_sig_cseq_ST_st16_fsm_15 or ap_sig_cseq_ST_st84_fsm_83 or ap_sig_cseq_ST_st90_fsm_89) begin if ((ap_const_logic_1 == ap_sig_cseq_ST_st115_fsm_114)) begin grp_fu_506_p0 = sumsoft_reg_334; end else if (((ap_const_logic_1 == ap_sig_cseq_ST_st84_fsm_83) \| (ap_const_logic_1 == ap_sig_cseq_ST_st90_fsm_89))) begin grp_fu_506_p0 = sum_1_reg_357; end else if (((ap_const_logic_1 == ap_sig_cseq_ST_st10_fsm_9) \| (ap_const_logic_1 == ap_sig_cseq_ST_st16_fsm_15))) begin grp_fu_506_p0 = sum_reg_311; end else begin grp_fu_506_p0 = 'bx; end end always @ (reg_572 or reg_578 or reg_605 or ap_sig_cseq_ST_st115_fsm_114 or ap_sig_cseq_ST_st10_fsm_9 or ap_sig_cseq_ST_st16_fsm_15 or ap_sig_cseq_ST_st84_fsm_83 or ap_sig_cseq_ST_st90_fsm_89) begin if ((ap_const_logic_1 == ap_sig_cseq_ST_st115_fsm_114)) begin grp_fu_506_p1 = reg_605; end else if (((ap_const_logic_1 == ap_sig_cseq_ST_st16_fsm_15) \| (ap_const_logic_1 == ap_sig_cseq_ST_st90_fsm_89))) begin grp_fu_506_p1 = reg_572; end else if (((ap_const_logic_1 == ap_sig_cseq_ST_st10_fsm_9) \| (ap_const_logic_1 == ap_sig_cseq_ST_st84_fsm_83))) begin grp_fu_506_p1 = reg_578; end else begin grp_fu_506_p1 = 'bx; end end always @ (reg_599 or ap_sig_cseq_ST_st76_fsm_75 or ap_sig_cseq_ST_st114_fsm_113 or tmp_31_reg_1584) begin if ((ap_const_logic_1 == ap_sig_cseq_ST_st114_fsm_113)) begin grp_fu_524_p0 = reg_599; end else if ((ap_const_logic_1 == ap_sig_cseq_ST_st76_fsm_75)) begin grp_fu_524_p0 = tmp_31_reg_1584; end else begin grp_fu_524_p0 = 'bx; end end always @ (reg_589 or ap_sig_cseq_ST_st21_fsm_20 or ap_sig_cseq_ST_st95_fsm_94 or tmp_27_fu_889_p1) begin if ((ap_const_logic_1 == ap_sig_cseq_ST_st95_fsm_94)) begin grp_fu_527_p0 = reg_589; end else if ((ap_const_logic_1 == ap_sig_cseq_ST_st21_fsm_20)) begin grp_fu_527_p0 = tmp_27_fu_889_p1; end else begin grp_fu_527_p0 = 'bx; end end always @ (ap_sig_cseq_ST_st2_fsm_1 or p_uOut_addr_1_reg_1546 or ap_sig_cseq_ST_st5_fsm_4 or p_uOut_addr_3_reg_1615 or ap_sig_cseq_ST_st79_fsm_78 or ap_sig_cseq_ST_st120_fsm_119 or p_uOut_addr_5_reg_1656 or ap_sig_cseq_ST_st139_fsm_138 or ap_sig_cseq_ST_st77_fsm_76 or ap_sig_cseq_ST_st138_fsm_137 or tmp_8_fu_644_p1 or tmp_81_cast_fu_861_p1 or tmp_84_cast_fu_1014_p1 or tmp_85_cast_fu_1052_p1 or tmp_87_cast_fu_1076_p1 or ap_sig_cseq_ST_st115_fsm_114) begin if ((ap_const_logic_1 == ap_sig_cseq_ST_st138_fsm_137)) begin p_uOut_address0 = p_uOut_addr_5_reg_1656; end else if ((ap_const_logic_1 == ap_sig_cseq_ST_st115_fsm_114)) begin p_uOut_address0 = p_uOut_addr_3_reg_1615; end else if ((ap_const_logic_1 == ap_sig_cseq_ST_st77_fsm_76)) begin p_uOut_address0 = p_uOut_addr_1_reg_1546; end else if ((ap_const_logic_1 == ap_sig_cseq_ST_st2_fsm_1)) begin p_uOut_address0 = tmp_8_fu_644_p1; end else if ((ap_const_logic_1 == ap_sig_cseq_ST_st139_fsm_138)) begin p_uOut_address0 = tmp_87_cast_fu_1076_p1; end else if ((ap_const_logic_1 == ap_sig_cseq_ST_st120_fsm_119)) begin p_uOut_address0 = tmp_85_cast_fu_1052_p1; end else if ((ap_const_logic_1 == ap_sig_cseq_ST_st79_fsm_78)) begin p_uOut_address0 = tmp_84_cast_fu_1014_p1; end else if ((ap_const_logic_1 == ap_sig_cseq_ST_st5_fsm_4)) begin p_uOut_address0 = tmp_81_cast_fu_861_p1; end else begin p_uOut_address0 = 'bx; end end always @ (ap_sig_cseq_ST_st139_fsm_138 or ap_sig_cseq_ST_st143_fsm_142 or tmp_88_cast_fu_1090_p1 or tmp_89_cast_fu_1254_p1) begin if ((ap_const_logic_1 == ap_sig_cseq_ST_st143_fsm_142)) begin p_uOut_address1 = tmp_89_cast_fu_1254_p1; end else if ((ap_const_logic_1 == ap_sig_cseq_ST_st139_fsm_138)) begin p_uOut_address1 = tmp_88_cast_fu_1090_p1; end else begin p_uOut_address1 = 'bx; end end always @ (tmp_reg_1442 or tmp_1_reg_1454 or ap_sig_cseq_ST_st2_fsm_1 or ap_sig_bdd_434 or ap_sig_cseq_ST_st5_fsm_4 or ap_sig_cseq_ST_st79_fsm_78 or ap_sig_cseq_ST_st120_fsm_119 or tmp_41_reg_1661 or ap_sig_cseq_ST_st139_fsm_138 or tmp_44_fu_1062_p2 or ap_sig_ioackin_P_netOut_V_TREADY or ap_sig_cseq_ST_st77_fsm_76 or ap_sig_cseq_ST_st138_fsm_137 or ap_sig_cseq_ST_st115_fsm_114) begin if ((((ap_const_logic_1 == ap_sig_cseq_ST_st2_fsm_1) & ~ap_sig_bdd_434) \| (ap_const_logic_1 == ap_sig_cseq_ST_st5_fsm_4) \| (ap_const_logic_1 == ap_sig_cseq_ST_st79_fsm_78) \| (ap_const_logic_1 == ap_sig_cseq_ST_st120_fsm_119) \| ((ap_const_logic_1 == ap_sig_cseq_ST_st139_fsm_138) & ~((ap_const_lv1_0 == tmp_reg_1442) & (ap_const_lv1_0 == tmp_1_reg_1454) & (ap_const_lv1_0 == tmp_41_reg_1661) & (ap_const_lv1_0 == tmp_44_fu_1062_p2) & (ap_const_logic_0 == ap_sig_ioackin_P_netOut_V_TREADY))) \| (ap_const_logic_1 == ap_sig_cseq_ST_st77_fsm_76) \| (ap_const_logic_1 == ap_sig_cseq_ST_st138_fsm_137) \| (ap_const_logic_1 == ap_sig_cseq_ST_st115_fsm_114))) begin p_uOut_ce0 = ap_const_logic_1; end else begin p_uOut_ce0 = ap_const_logic_0; end end always @ (tmp_reg_1442 or tmp_1_reg_1454 or tmp_41_reg_1661 or ap_sig_cseq_ST_st139_fsm_138 or tmp_44_fu_1062_p2 or ap_sig_ioackin_P_netOut_V_TREADY or ap_sig_cseq_ST_st143_fsm_142) begin if ((((ap_const_logic_1 == ap_sig_cseq_ST_st139_fsm_138) & ~((ap_const_lv1_0 == tmp_reg_1442) & (ap_const_lv1_0 == tmp_1_reg_1454) & (ap_const_lv1_0 == tmp_41_reg_1661) & (ap_const_lv1_0 == tmp_44_fu_1062_p2) & (ap_const_logic_0 == ap_sig_ioackin_P_netOut_V_TREADY))) \| (ap_const_logic_1 == ap_sig_cseq_ST_st143_fsm_142))) begin p_uOut_ce1 = ap_const_logic_1; end else begin p_uOut_ce1 = ap_const_logic_0; end end always @ (P_netIn_TDATA or reg_605 or ap_sig_cseq_ST_st2_fsm_1 or tmp_43_reg_1665 or ap_sig_cseq_ST_st77_fsm_76 or ap_sig_cseq_ST_st138_fsm_137 or ap_sig_cseq_ST_st115_fsm_114) begin if ((ap_const_logic_1 == ap_sig_cseq_ST_st138_fsm_137)) begin p_uOut_d0 = tmp_43_reg_1665; end else if (((ap_const_logic_1 == ap_sig_cseq_ST_st77_fsm_76) \| (ap_const_logic_1 == ap_sig_cseq_ST_st115_fsm_114))) begin p_uOut_d0 = reg_605; end else if ((ap_const_logic_1 == ap_sig_cseq_ST_st2_fsm_1)) begin p_uOut_d0 = P_netIn_TDATA; end else begin p_uOut_d0 = 'bx; end end always @ (ap_sig_cseq_ST_st2_fsm_1 or exitcond1_fu_633_p2 or ap_sig_bdd_434 or ap_sig_cseq_ST_st77_fsm_76 or ap_sig_cseq_ST_st138_fsm_137 or ap_sig_cseq_ST_st115_fsm_114) begin if ((((ap_const_logic_1 == ap_sig_cseq_ST_st2_fsm_1) & (ap_const_lv1_0 == exitcond1_fu_633_p2) & ~ap_sig_bdd_434) \| (ap_const_logic_1 == ap_sig_cseq_ST_st77_fsm_76) \| (ap_const_logic_1 == ap_sig_cseq_ST_st138_fsm_137) \| (ap_const_logic_1 == ap_sig_cseq_ST_st115_fsm_114))) begin p_uOut_we0 = ap_const_logic_1; end else begin p_uOut_we0 = ap_const_logic_0; end end always @ (ap_CS_fsm or tmp_fu_611_p2 or ap_sig_bdd_404 or tmp_reg_1442 or tmp_1_fu_621_p2 or tmp_1_reg_1454 or exitcond1_fu_633_p2 or ap_sig_bdd_434 or tmp_7_fu_649_p2 or tmp_14_fu_756_p2 or exitcond2_fu_827_p2 or tmp_18_fu_911_p2 or exitcond3_fu_980_p2 or exitcond4_fu_1032_p2 or tmp_41_reg_1661 or tmp_44_fu_1062_p2 or ap_sig_ioackin_P_netOut_V_TREADY or exitcond_fu_1105_p2 or tmp_59_fu_1233_p2 or tmp_9_fu_1259_p2 or tmp_9_reg_1740 or tmp_11_fu_1298_p2 or tmp_22_fu_1386_p2 or ap_sig_bdd_755 or exitcond5_fu_1398_p2 or exitcond5_reg_1799 or ap_sig_bdd_769 or ap_sig_ioackin_P_uOut_TREADY) begin case (ap_CS_fsm) ap_ST_st1_fsm_0 : begin if ((~(tmp_fu_611_p2 == ap_const_lv1_0) & ~ap_sig_bdd_404)) begin ap_NS_fsm = ap_ST_st149_fsm_148; end else if (((tmp_fu_611_p2 == ap_const_lv1_0) & ~ap_sig_bdd_404 & (ap_const_lv1_0 == tmp_1_fu_621_p2))) begin ap_NS_fsm = ap_ST_st2_fsm_1; end else if (((tmp_fu_611_p2 == ap_const_lv1_0) & ~ap_sig_bdd_404 & ~(ap_const_lv1_0 == tmp_1_fu_621_p2))) begin ap_NS_fsm = ap_ST_st145_fsm_144; end else begin ap_NS_fsm = ap_ST_st1_fsm_0; end end ap_ST_st2_fsm_1 : begin if (((ap_const_lv1_0 == exitcond1_fu_633_p2) & ~ap_sig_bdd_434)) begin ap_NS_fsm = ap_ST_st2_fsm_1; end else if ((~ap_sig_bdd_434 & ~(ap_const_lv1_0 == exitcond1_fu_633_p2))) begin ap_NS_fsm = ap_ST_st3_fsm_2; end else begin ap_NS_fsm = ap_ST_st2_fsm_1; end end ap_ST_st3_fsm_2 : begin if ((ap_const_lv1_0 == tmp_7_fu_649_p2)) begin ap_NS_fsm = ap_ST_st78_fsm_77; end else begin ap_NS_fsm = ap_ST_st4_fsm_3; end end ap_ST_st4_fsm_3 : begin if ((ap_const_lv1_0 == tmp_14_fu_756_p2)) begin ap_NS_fsm = ap_ST_st3_fsm_2; end else begin ap_NS_fsm = ap_ST_st5_fsm_4; end end ap_ST_st5_fsm_4 : begin if (~(ap_const_lv1_0 == exitcond2_fu_827_p2)) begin ap_NS_fsm = ap_ST_st15_fsm_14; end else begin ap_NS_fsm = ap_ST_st6_fsm_5; end end ap_ST_st6_fsm_5 : begin ap_NS_fsm = ap_ST_st7_fsm_6; end ap_ST_st7_fsm_6 : begin ap_NS_fsm = ap_ST_st8_fsm_7; end ap_ST_st8_fsm_7 : begin ap_NS_fsm = ap_ST_st9_fsm_8; end ap_ST_st9_fsm_8 : begin ap_NS_fsm = ap_ST_st10_fsm_9; end ap_ST_st10_fsm_9 : begin ap_NS_fsm = ap_ST_st11_fsm_10; end ap_ST_st11_fsm_10 : begin ap_NS_fsm = ap_ST_st12_fsm_11; end ap_ST_st12_fsm_11 : begin ap_NS_fsm = ap_ST_st13_fsm_12; end ap_ST_st13_fsm_12 : begin ap_NS_fsm = ap_ST_st14_fsm_13; end ap_ST_st14_fsm_13 : begin ap_NS_fsm = ap_ST_st5_fsm_4; end ap_ST_st15_fsm_14 : begin ap_NS_fsm = ap_ST_st16_fsm_15; end ap_ST_st16_fsm_15 : begin ap_NS_fsm = ap_ST_st17_fsm_16; end ap_ST_st17_fsm_16 : begin ap_NS_fsm = ap_ST_st18_fsm_17; end ap_ST_st18_fsm_17 : begin ap_NS_fsm = ap_ST_st19_fsm_18; end ap_ST_st19_fsm_18 : begin ap_NS_fsm = ap_ST_st20_fsm_19; end ap_ST_st20_fsm_19 : begin ap_NS_fsm = ap_ST_st21_fsm_20; end ap_ST_st21_fsm_20 : begin ap_NS_fsm = ap_ST_st22_fsm_21; end ap_ST_st22_fsm_21 : begin ap_NS_fsm = ap_ST_st23_fsm_22; end ap_ST_st23_fsm_22 : begin ap_NS_fsm = ap_ST_st24_fsm_23; end ap_ST_st24_fsm_23 : begin ap_NS_fsm = ap_ST_st25_fsm_24; end ap_ST_st25_fsm_24 : begin ap_NS_fsm = ap_ST_st26_fsm_25; end ap_ST_st26_fsm_25 : begin ap_NS_fsm = ap_ST_st27_fsm_26; end ap_ST_st27_fsm_26 : begin ap_NS_fsm = ap_ST_st28_fsm_27; end ap_ST_st28_fsm_27 : begin ap_NS_fsm = ap_ST_st29_fsm_28; end ap_ST_st29_fsm_28 : begin ap_NS_fsm = ap_ST_st30_fsm_29; end ap_ST_st30_fsm_29 : begin ap_NS_fsm = ap_ST_st31_fsm_30; end ap_ST_st31_fsm_30 : begin ap_NS_fsm = ap_ST_st32_fsm_31; end ap_ST_st32_fsm_31 : begin ap_NS_fsm = ap_ST_st33_fsm_32; end ap_ST_st33_fsm_32 : begin ap_NS_fsm = ap_ST_st34_fsm_33; end ap_ST_st34_fsm_33 : begin ap_NS_fsm = ap_ST_st35_fsm_34; end ap_ST_st35_fsm_34 : begin ap_NS_fsm = ap_ST_st36_fsm_35; end ap_ST_st36_fsm_35 : begin ap_NS_fsm = ap_ST_st37_fsm_36; end ap_ST_st37_fsm_36 : begin ap_NS_fsm = ap_ST_st38_fsm_37; end ap_ST_st38_fsm_37 : begin ap_NS_fsm = ap_ST_st39_fsm_38; end ap_ST_st39_fsm_38 : begin ap_NS_fsm = ap_ST_st40_fsm_39; end ap_ST_st40_fsm_39 : begin ap_NS_fsm = ap_ST_st41_fsm_40; end ap_ST_st41_fsm_40 : begin ap_NS_fsm = ap_ST_st42_fsm_41; end ap_ST_st42_fsm_41 : begin ap_NS_fsm = ap_ST_st43_fsm_42; end ap_ST_st43_fsm_42 : begin ap_NS_fsm = ap_ST_st44_fsm_43; end ap_ST_st44_fsm_43 : begin ap_NS_fsm = ap_ST_st45_fsm_44; end ap_ST_st45_fsm_44 : begin ap_NS_fsm = ap_ST_st46_fsm_45; end ap_ST_st46_fsm_45 : begin ap_NS_fsm = ap_ST_st47_fsm_46; end ap_ST_st47_fsm_46 : begin ap_NS_fsm = ap_ST_st48_fsm_47; end ap_ST_st48_fsm_47 : begin ap_NS_fsm = ap_ST_st49_fsm_48; end ap_ST_st49_fsm_48 : begin ap_NS_fsm = ap_ST_st50_fsm_49; end ap_ST_st50_fsm_49 : begin ap_NS_fsm = ap_ST_st51_fsm_50; end ap_ST_st51_fsm_50 : begin ap_NS_fsm = ap_ST_st52_fsm_51; end ap_ST_st52_fsm_51 : begin ap_NS_fsm = ap_ST_st53_fsm_52; end ap_ST_st53_fsm_52 : begin ap_NS_fsm = ap_ST_st54_fsm_53; end ap_ST_st54_fsm_53 : begin ap_NS_fsm = ap_ST_st55_fsm_54; end ap_ST_st55_fsm_54 : begin ap_NS_fsm = ap_ST_st56_fsm_55; end ap_ST_st56_fsm_55 : begin ap_NS_fsm = ap_ST_st57_fsm_56; end ap_ST_st57_fsm_56 : begin ap_NS_fsm = ap_ST_st58_fsm_57; end ap_ST_st58_fsm_57 : begin ap_NS_fsm = ap_ST_st59_fsm_58; end ap_ST_st59_fsm_58 : begin ap_NS_fsm = ap_ST_st60_fsm_59; end ap_ST_st60_fsm_59 : begin ap_NS_fsm = ap_ST_st61_fsm_60; end ap_ST_st61_fsm_60 : begin ap_NS_fsm = ap_ST_st62_fsm_61; end ap_ST_st62_fsm_61 : begin ap_NS_fsm = ap_ST_st63_fsm_62; end ap_ST_st63_fsm_62 : begin ap_NS_fsm = ap_ST_st64_fsm_63; end ap_ST_st64_fsm_63 : begin ap_NS_fsm = ap_ST_st65_fsm_64; end ap_ST_st65_fsm_64 : begin ap_NS_fsm = ap_ST_st66_fsm_65; end ap_ST_st66_fsm_65 : begin ap_NS_fsm = ap_ST_st67_fsm_66; end ap_ST_st67_fsm_66 : begin ap_NS_fsm = ap_ST_st68_fsm_67; end ap_ST_st68_fsm_67 : begin ap_NS_fsm = ap_ST_st69_fsm_68; end ap_ST_st69_fsm_68 : begin ap_NS_fsm = ap_ST_st70_fsm_69; end ap_ST_st70_fsm_69 : begin ap_NS_fsm = ap_ST_st71_fsm_70; end ap_ST_st71_fsm_70 : begin ap_NS_fsm = ap_ST_st72_fsm_71; end ap_ST_st72_fsm_71 : begin ap_NS_fsm = ap_ST_st73_fsm_72; end ap_ST_st73_fsm_72 : begin ap_NS_fsm = ap_ST_st74_fsm_73; end ap_ST_st74_fsm_73 : begin ap_NS_fsm = ap_ST_st75_fsm_74; end ap_ST_st75_fsm_74 : begin ap_NS_fsm = ap_ST_st76_fsm_75; end ap_ST_st76_fsm_75 : begin ap_NS_fsm = ap_ST_st77_fsm_76; end ap_ST_st77_fsm_76 : begin ap_NS_fsm = ap_ST_st4_fsm_3; end ap_ST_st78_fsm_77 : begin if (~(ap_const_lv1_0 == tmp_18_fu_911_p2)) begin ap_NS_fsm = ap_ST_st79_fsm_78; end else begin ap_NS_fsm = ap_ST_st120_fsm_119; end end ap_ST_st79_fsm_78 : begin if (~(ap_const_lv1_0 == exitcond3_fu_980_p2)) begin ap_NS_fsm = ap_ST_st89_fsm_88; end else begin ap_NS_fsm = ap_ST_st80_fsm_79; end end ap_ST_st80_fsm_79 : begin ap_NS_fsm = ap_ST_st81_fsm_80; end ap_ST_st81_fsm_80 : begin ap_NS_fsm = ap_ST_st82_fsm_81; end ap_ST_st82_fsm_81 : begin ap_NS_fsm = ap_ST_st83_fsm_82; end ap_ST_st83_fsm_82 : begin ap_NS_fsm = ap_ST_st84_fsm_83; end ap_ST_st84_fsm_83 : begin ap_NS_fsm = ap_ST_st85_fsm_84; end ap_ST_st85_fsm_84 : begin ap_NS_fsm = ap_ST_st86_fsm_85; end ap_ST_st86_fsm_85 : begin ap_NS_fsm = ap_ST_st87_fsm_86; end ap_ST_st87_fsm_86 : begin ap_NS_fsm = ap_ST_st88_fsm_87; end ap_ST_st88_fsm_87 : begin ap_NS_fsm = ap_ST_st79_fsm_78; end ap_ST_st89_fsm_88 : begin ap_NS_fsm = ap_ST_st90_fsm_89; end ap_ST_st90_fsm_89 : begin ap_NS_fsm = ap_ST_st91_fsm_90; end ap_ST_st91_fsm_90 : begin ap_NS_fsm = ap_ST_st92_fsm_91; end ap_ST_st92_fsm_91 : begin ap_NS_fsm = ap_ST_st93_fsm_92; end ap_ST_st93_fsm_92 : begin ap_NS_fsm = ap_ST_st94_fsm_93; end ap_ST_st94_fsm_93 : begin ap_NS_fsm = ap_ST_st95_fsm_94; end ap_ST_st95_fsm_94 : begin ap_NS_fsm = ap_ST_st96_fsm_95; end ap_ST_st96_fsm_95 : begin ap_NS_fsm = ap_ST_st97_fsm_96; end ap_ST_st97_fsm_96 : begin ap_NS_fsm = ap_ST_st98_fsm_97; end ap_ST_st98_fsm_97 : begin ap_NS_fsm = ap_ST_st99_fsm_98; end ap_ST_st99_fsm_98 : begin ap_NS_fsm = ap_ST_st100_fsm_99; end ap_ST_st100_fsm_99 : begin ap_NS_fsm = ap_ST_st101_fsm_100; end ap_ST_st101_fsm_100 : begin ap_NS_fsm = ap_ST_st102_fsm_101; end ap_ST_st102_fsm_101 : begin ap_NS_fsm = ap_ST_st103_fsm_102; end ap_ST_st103_fsm_102 : begin ap_NS_fsm = ap_ST_st104_fsm_103; end ap_ST_st104_fsm_103 : begin ap_NS_fsm = ap_ST_st105_fsm_104; end ap_ST_st105_fsm_104 : begin ap_NS_fsm = ap_ST_st106_fsm_105; end ap_ST_st106_fsm_105 : begin ap_NS_fsm = ap_ST_st107_fsm_106; end ap_ST_st107_fsm_106 : begin ap_NS_fsm = ap_ST_st108_fsm_107; end ap_ST_st108_fsm_107 : begin ap_NS_fsm = ap_ST_st109_fsm_108; end ap_ST_st109_fsm_108 : begin ap_NS_fsm = ap_ST_st110_fsm_109; end ap_ST_st110_fsm_109 : begin ap_NS_fsm = ap_ST_st111_fsm_110; end ap_ST_st111_fsm_110 : begin ap_NS_fsm = ap_ST_st112_fsm_111; end ap_ST_st112_fsm_111 : begin ap_NS_fsm = ap_ST_st113_fsm_112; end ap_ST_st113_fsm_112 : begin ap_NS_fsm = ap_ST_st114_fsm_113; end ap_ST_st114_fsm_113 : begin ap_NS_fsm = ap_ST_st115_fsm_114; end ap_ST_st115_fsm_114 : begin ap_NS_fsm = ap_ST_st116_fsm_115; end ap_ST_st116_fsm_115 : begin ap_NS_fsm = ap_ST_st117_fsm_116; end ap_ST_st117_fsm_116 : begin ap_NS_fsm = ap_ST_st118_fsm_117; end ap_ST_st118_fsm_117 : begin ap_NS_fsm = ap_ST_st119_fsm_118; end ap_ST_st119_fsm_118 : begin ap_NS_fsm = ap_ST_st78_fsm_77; end ap_ST_st120_fsm_119 : begin if (~(ap_const_lv1_0 == exitcond4_fu_1032_p2)) begin ap_NS_fsm = ap_ST_st139_fsm_138; end else begin ap_NS_fsm = ap_ST_st121_fsm_120; end end ap_ST_st121_fsm_120 : begin ap_NS_fsm = ap_ST_st122_fsm_121; end ap_ST_st122_fsm_121 : begin ap_NS_fsm = ap_ST_st123_fsm_122; end ap_ST_st123_fsm_122 : begin ap_NS_fsm = ap_ST_st124_fsm_123; end ap_ST_st124_fsm_123 : begin ap_NS_fsm = ap_ST_st125_fsm_124; end ap_ST_st125_fsm_124 : begin ap_NS_fsm = ap_ST_st126_fsm_125; end ap_ST_st126_fsm_125 : begin ap_NS_fsm = ap_ST_st127_fsm_126; end ap_ST_st127_fsm_126 : begin ap_NS_fsm = ap_ST_st128_fsm_127; end ap_ST_st128_fsm_127 : begin ap_NS_fsm = ap_ST_st129_fsm_128; end ap_ST_st129_fsm_128 : begin ap_NS_fsm = ap_ST_st130_fsm_129; end ap_ST_st130_fsm_129 : begin ap_NS_fsm = ap_ST_st131_fsm_130; end ap_ST_st131_fsm_130 : begin ap_NS_fsm = ap_ST_st132_fsm_131; end ap_ST_st132_fsm_131 : begin ap_NS_fsm = ap_ST_st133_fsm_132; end ap_ST_st133_fsm_132 : begin ap_NS_fsm = ap_ST_st134_fsm_133; end ap_ST_st134_fsm_133 : begin ap_NS_fsm = ap_ST_st135_fsm_134; end ap_ST_st135_fsm_134 : begin ap_NS_fsm = ap_ST_st136_fsm_135; end ap_ST_st136_fsm_135 : begin ap_NS_fsm = ap_ST_st137_fsm_136; end ap_ST_st137_fsm_136 : begin ap_NS_fsm = ap_ST_st138_fsm_137; end ap_ST_st138_fsm_137 : begin ap_NS_fsm = ap_ST_st120_fsm_119; end ap_ST_st139_fsm_138 : begin if ((~((ap_const_lv1_0 == tmp_reg_1442) & (ap_const_lv1_0 == tmp_1_reg_1454) & (ap_const_lv1_0 == tmp_41_reg_1661) & (ap_const_lv1_0 == tmp_44_fu_1062_p2) & (ap_const_logic_0 == ap_sig_ioackin_P_netOut_V_TREADY)) & (((ap_const_lv1_0 == tmp_reg_1442) & (ap_const_lv1_0 == tmp_1_reg_1454) & (ap_const_lv1_0 == tmp_41_reg_1661) & (ap_const_lv1_0 == tmp_44_fu_1062_p2)) \| (~(ap_const_lv1_0 == tmp_reg_1442) & ~(ap_const_lv1_0 == exitcond5_reg_1799)) \| ((ap_const_lv1_0 == tmp_reg_1442) & ~(ap_const_lv1_0 == tmp_1_reg_1454) & (ap_const_lv1_0 == tmp_9_reg_1740)) \| ((ap_const_lv1_0 == tmp_reg_1442) & (ap_const_lv1_0 == tmp_1_reg_1454) & ~(ap_const_lv1_0 == tmp_41_reg_1661) & ~(ap_const_lv1_0 == exitcond_fu_1105_p2))))) begin ap_NS_fsm = ap_ST_st1_fsm_0; end else if (((ap_const_lv1_0 == tmp_reg_1442) & (ap_const_lv1_0 == tmp_1_reg_1454) & ~((ap_const_lv1_0 == tmp_reg_1442) & (ap_const_lv1_0 == tmp_1_reg_1454) & (ap_const_lv1_0 == tmp_41_reg_1661) & (ap_const_lv1_0 == tmp_44_fu_1062_p2) & (ap_const_logic_0 == ap_sig_ioackin_P_netOut_V_TREADY)) & ~(ap_const_lv1_0 == tmp_41_reg_1661) & (ap_const_lv1_0 == exitcond_fu_1105_p2))) begin ap_NS_fsm = ap_ST_st143_fsm_142; end else if (((ap_const_lv1_0 == tmp_reg_1442) & (ap_const_lv1_0 == tmp_1_reg_1454) & (ap_const_lv1_0 == tmp_41_reg_1661) & ~((ap_const_lv1_0 == tmp_reg_1442) & (ap_const_lv1_0 == tmp_1_reg_1454) & (ap_const_lv1_0 == tmp_41_reg_1661) & (ap_const_lv1_0 == tmp_44_fu_1062_p2) & (ap_const_logic_0 == ap_sig_ioackin_P_netOut_V_TREADY)) & ~(ap_const_lv1_0 == tmp_44_fu_1062_p2))) begin ap_NS_fsm = ap_ST_st140_fsm_139; end else begin ap_NS_fsm = ap_ST_st139_fsm_138; end end ap_ST_st140_fsm_139 : begin ap_NS_fsm = ap_ST_st141_fsm_140; end ap_ST_st141_fsm_140 : begin ap_NS_fsm = ap_ST_st142_fsm_141; end ap_ST_st142_fsm_141 : begin ap_NS_fsm = ap_ST_st139_fsm_138; end ap_ST_st143_fsm_142 : begin if (~(ap_const_lv1_0 == tmp_59_fu_1233_p2)) begin ap_NS_fsm = ap_ST_st144_fsm_143; end else begin ap_NS_fsm = ap_ST_st139_fsm_138; end end ap_ST_st144_fsm_143 : begin if (~(ap_const_logic_0 == ap_sig_ioackin_P_uOut_TREADY)) begin ap_NS_fsm = ap_ST_st143_fsm_142; end else begin ap_NS_fsm = ap_ST_st144_fsm_143; end end ap_ST_st145_fsm_144 : begin if (~(ap_const_lv1_0 == tmp_9_fu_1259_p2)) begin ap_NS_fsm = ap_ST_st146_fsm_145; end else begin ap_NS_fsm = ap_ST_st139_fsm_138; end end ap_ST_st146_fsm_145 : begin ap_NS_fsm = ap_ST_st147_fsm_146; end ap_ST_st147_fsm_146 : begin if ((ap_const_lv1_0 == tmp_11_fu_1298_p2)) begin ap_NS_fsm = ap_ST_st145_fsm_144; end else begin ap_NS_fsm = ap_ST_st148_fsm_147; end end ap_ST_st148_fsm_147 : begin if ((~(ap_const_lv1_0 == tmp_22_fu_1386_p2) & ~ap_sig_bdd_755)) begin ap_NS_fsm = ap_ST_st148_fsm_147; end else if (((ap_const_lv1_0 == tmp_22_fu_1386_p2) & ~ap_sig_bdd_755)) begin ap_NS_fsm = ap_ST_st146_fsm_145; end else begin ap_NS_fsm = ap_ST_st148_fsm_147; end end ap_ST_st149_fsm_148 : begin if (((ap_const_lv1_0 == exitcond5_fu_1398_p2) & ~ap_sig_bdd_769)) begin ap_NS_fsm = ap_ST_st149_fsm_148; end else if ((~ap_sig_bdd_769 & ~(ap_const_lv1_0 == exitcond5_fu_1398_p2))) begin ap_NS_fsm = ap_ST_st139_fsm_138; end else begin ap_NS_fsm = ap_ST_st149_fsm_148; end end default : begin ap_NS_fsm = 'bx; end endcase end assign P_netOut_V_TDATA = p_s_reg_391; assign P_uOut_TDATA = p_uOut_q1; assign ST_WandB_d0 = P_WandB_TDATA; always @ (ap_rst_n) begin ap_rst_n_inv = ~ap_rst_n; end always @ (ap_CS_fsm) begin ap_sig_bdd_1002 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_53]); end always @ (ap_CS_fsm) begin ap_sig_bdd_1009 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_59]); end always @ (ap_CS_fsm) begin ap_sig_bdd_167 = (ap_CS_fsm[ap_const_lv32_0] == ap_const_lv1_1); end always @ (ap_CS_fsm) begin ap_sig_bdd_249 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_5]); end always @ (ap_CS_fsm) begin ap_sig_bdd_256 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_4F]); end always @ (ap_CS_fsm) begin ap_sig_bdd_264 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_78]); end always @ (ap_CS_fsm) begin ap_sig_bdd_272 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_8B]); end always @ (ap_CS_fsm) begin ap_sig_bdd_281 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_E]); end always @ (ap_CS_fsm) begin ap_sig_bdd_290 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_58]); end always @ (ap_CS_fsm) begin ap_sig_bdd_300 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_8]); end always @ (ap_CS_fsm) begin ap_sig_bdd_307 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_52]); end always @ (ap_CS_fsm) begin ap_sig_bdd_317 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_D]); end always @ (ap_CS_fsm) begin ap_sig_bdd_324 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_57]); end always @ (ap_CS_fsm) begin ap_sig_bdd_333 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_13]); end always @ (ap_CS_fsm) begin ap_sig_bdd_340 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_5D]); end always @ (ap_CS_fsm) begin ap_sig_bdd_350 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_14]); end always @ (ap_CS_fsm) begin ap_sig_bdd_357 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_5E]); end always @ (ap_CS_fsm) begin ap_sig_bdd_367 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_26]); end always @ (ap_CS_fsm) begin ap_sig_bdd_374 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_70]); end always @ (ap_CS_fsm) begin ap_sig_bdd_384 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_4B]); end always @ (ap_CS_fsm) begin ap_sig_bdd_391 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_71]); end always @ (ap_start or P_config_V_TVALID or tmp_fu_611_p2) begin ap_sig_bdd_404 = (((P_config_V_TVALID == ap_const_logic_0) & ~(tmp_fu_611_p2 == ap_const_lv1_0)) \| (ap_start == ap_const_logic_0)); end always @ (ap_CS_fsm) begin ap_sig_bdd_428 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_1]); end always @ (P_netIn_TVALID or exitcond1_fu_633_p2) begin ap_sig_bdd_434 = ((P_netIn_TVALID == ap_const_logic_0) & (ap_const_lv1_0 == exitcond1_fu_633_p2)); end always @ (ap_CS_fsm) begin ap_sig_bdd_444 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_2]); end always @ (ap_CS_fsm) begin ap_sig_bdd_474 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_3]); end always @ (ap_CS_fsm) begin ap_sig_bdd_496 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_4]); end always @ (ap_CS_fsm) begin ap_sig_bdd_516 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_2B]); end always @ (ap_CS_fsm) begin ap_sig_bdd_525 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_4A]); end always @ (ap_CS_fsm) begin ap_sig_bdd_534 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_4D]); end always @ (ap_CS_fsm) begin ap_sig_bdd_555 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_4E]); end always @ (ap_CS_fsm) begin ap_sig_bdd_574 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_76]); end always @ (ap_CS_fsm) begin ap_sig_bdd_583 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_77]); end always @ (ap_CS_fsm) begin ap_sig_bdd_601 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_88]); end always @ (ap_CS_fsm) begin ap_sig_bdd_610 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_8A]); end always @ (ap_CS_fsm) begin ap_sig_bdd_654 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_8C]); end always @ (ap_CS_fsm) begin ap_sig_bdd_663 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_8D]); end always @ (ap_CS_fsm) begin ap_sig_bdd_674 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_8E]); end always @ (ap_CS_fsm) begin ap_sig_bdd_689 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_90]); end always @ (ap_CS_fsm) begin ap_sig_bdd_707 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_91]); end always @ (tmp_4_reg_1749) begin ap_sig_bdd_724 = (~(tmp_4_reg_1749 == ap_const_lv2_2) & ~(tmp_4_reg_1749 == ap_const_lv2_1)); end always @ (ap_CS_fsm) begin ap_sig_bdd_732 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_92]); end always @ (ap_CS_fsm) begin ap_sig_bdd_748 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_93]); end always @ (P_WandB_TVALID or tmp_22_fu_1386_p2) begin ap_sig_bdd_755 = ((P_WandB_TVALID == ap_const_logic_0) & ~(ap_const_lv1_0 == tmp_22_fu_1386_p2)); end always @ (ap_CS_fsm) begin ap_sig_bdd_765 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_94]); end always @ (P_config_V_TVALID or exitcond5_fu_1398_p2) begin ap_sig_bdd_769 = ((P_config_V_TVALID == ap_const_logic_0) & (ap_const_lv1_0 == exitcond5_fu_1398_p2)); end always @ (ap_CS_fsm) begin ap_sig_bdd_800 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_4C]); end always @ (ap_CS_fsm) begin ap_sig_bdd_821 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_89]); end always @ (ap_CS_fsm) begin ap_sig_bdd_847 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_8F]); end always @ (tmp_reg_1442 or tmp_1_reg_1454 or tmp_41_reg_1661 or ap_sig_cseq_ST_st139_fsm_138 or tmp_44_fu_1062_p2) begin ap_sig_bdd_942 = ((ap_const_logic_1 == ap_sig_cseq_ST_st139_fsm_138) & (ap_const_lv1_0 == tmp_reg_1442) & (ap_const_lv1_0 == tmp_1_reg_1454) & (ap_const_lv1_0 == tmp_41_reg_1661) & (ap_const_lv1_0 == tmp_44_fu_1062_p2)); end always @ (ap_CS_fsm) begin ap_sig_bdd_963 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_72]); end always @ (ap_CS_fsm) begin ap_sig_bdd_987 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_9]); end always @ (ap_CS_fsm) begin ap_sig_bdd_994 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_F]); end assign exitcond1_fu_633_p2 = (i_2_reg_277 == ST_layerSize_V_0_load_reg_1458? 1'b1: 1'b0); assign exitcond2_fu_827_p2 = (k_1_reg_323 == tmp_19_reg_1534? 1'b1: 1'b0); assign exitcond3_fu_980_p2 = (j_2_reg_369 == tmp_23_reg_1603? 1'b1: 1'b0); assign exitcond4_fu_1032_p2 = (i_5_reg_380 == tmp_15_reg_1589? 1'b1: 1'b0); assign exitcond5_fu_1398_p2 = (i_reg_495 == P_config_V_read_reg_1463? 1'b1: 1'b0); assign exitcond_fu_1105_p2 = (i_6_reg_416 == ST_numLayer_V_load_reg_1446? 1'b1: 1'b0); assign feedforward_AXILiteS_s_axi_U_ap_dummy_ce = ap_const_logic_1; assign grp_fu_506_ce = ap_const_logic_1; assign grp_fu_513_ce = ap_const_logic_1; assign grp_fu_519_ce = ap_const_logic_1; assign grp_fu_534_ce = ap_const_logic_1; assign grp_fu_539_ce = ap_const_logic_1; assign grp_fu_544_ce = ap_const_logic_1; assign i_10_fu_821_p2 = (i_3_reg_288 + ap_const_lv8_1); assign i_11_fu_1037_p2 = (i_5_reg_380 + ap_const_lv8_1); assign i_12_fu_917_p2 = (i_4_reg_346 + ap_const_lv32_1); assign i_14_fu_1110_p2 = (ap_const_lv8_1 + i_6_reg_416); assign i_15_fu_1210_p2 = (ap_const_lv8_1 + p_netOut_V_reg_404); assign i_7_fu_1403_p2 = (i_reg_495 + ap_const_lv8_1); assign i_8_fu_638_p2 = (i_2_reg_277 + ap_const_lv8_1); assign i_9_fu_1339_p2 = (i_1_reg_449 + ap_const_lv8_1); assign j_4_fu_1288_p2 = (j_reg_461 + ap_const_lv32_1); assign j_5_fu_762_p2 = (j_1_reg_300 + ap_const_lv32_1); assign j_6_fu_985_p2 = (j_2_reg_369 + ap_const_lv8_1); assign j_7_fu_1239_p2 = (j_3_reg_438 + ap_const_lv32_1); assign k_2_fu_1392_p2 = (ap_const_lv32_1 + k_reg_484); assign k_3_fu_832_p2 = (k_1_reg_323 + ap_const_lv8_1); assign lhs_V_1_cast_fu_692_p1 = ST_numLayer_V_load_reg_1446; assign lhs_V_cast_fu_1372_p1 = tmp_25_fu_1359_p6; assign next_mul_fu_1099_p2 = (ap_const_lv14_23 + phi_mul_reg_427); assign notlhs1_fu_1173_p2 = (tmp_50_fu_1141_p4 != ap_const_lv8_FF? 1'b1: 1'b0); assign notlhs_fu_1155_p2 = (tmp_48_fu_1124_p4 != ap_const_lv8_FF? 1'b1: 1'b0); assign notrhs1_fu_1179_p2 = (tmp_79_fu_1151_p1 == ap_const_lv23_0? 1'b1: 1'b0); assign notrhs_fu_1161_p2 = (tmp_78_fu_1134_p1 == ap_const_lv23_0? 1'b1: 1'b0); assign p_netOut_V_1_fu_1203_p3 = ((tmp_56_reg_1712[0:0] === 1'b1) ? p_netOut_V_reg_404 : p_s_reg_391); assign p_shl1_cast_fu_1325_p3 = {{tmp_45_fu_1321_p1}, {ap_const_lv2_0}}; assign p_shl2_cast_fu_795_p3 = {{tmp_49_fu_791_p1}, {ap_const_lv5_0}}; assign p_shl3_cast_fu_807_p3 = {{tmp_51_fu_803_p1}, {ap_const_lv2_0}}; assign p_shl4_cast_fu_954_p3 = {{tmp_62_fu_950_p1}, {ap_const_lv5_0}}; assign p_shl5_cast_fu_966_p3 = {{tmp_63_fu_962_p1}, {ap_const_lv2_0}}; assign p_shl_cast_fu_1313_p3 = {{tmp_42_fu_1309_p1}, {ap_const_lv5_0}}; assign p_uOut_load_3_to_int_fu_1120_p1 = reg_565; assign p_uOut_load_4_to_int_fu_1138_p1 = p_uOut_load_4_reg_1706; assign r_V_1_fu_695_p2 = ($signed(ap_const_lv9_1FF) + $signed(lhs_V_1_cast_fu_692_p1)); assign r_V_2_fu_723_p2 = ($signed(ap_const_lv9_1FE) + $signed(lhs_V_1_cast_fu_692_p1)); assign r_V_fu_1376_p2 = (ap_const_lv9_1 + lhs_V_cast_fu_1372_p1); assign tmp_10_fu_1294_p1 = ST_layerSize_V_load_1_phi_reg_473; assign tmp_11_fu_1298_p2 = ($signed(j_reg_461) < $signed(tmp_10_fu_1294_p1)? 1'b1: 1'b0); assign tmp_13_fu_752_p1 = tmp_12_fu_739_p6; assign tmp_14_fu_756_p2 = ($signed(j_1_reg_300) < $signed(tmp_13_fu_752_p1)? 1'b1: 1'b0); assign tmp_16_fu_682_p1 = tmp_16_fu_682_p10; assign tmp_16_fu_682_p10 = tmp_3_fu_672_p2; assign tmp_16_fu_682_p2 = (ap_const_lv9_23 tmp_16_fu_682_p1); assign tmp_17_fu_907_p1 = tmp_15_fu_894_p6; assign tmp_18_fu_911_p2 = ($signed(i_4_reg_346) < $signed(tmp_17_fu_907_p1)? 1'b1: 1'b0); assign tmp_1_fu_621_p2 = (P_mode_V == ap_const_lv8_2? 1'b1: 1'b0); assign tmp_20_fu_688_p1 = tmp_3_fu_672_p2[1:0]; assign tmp_21_cast_fu_1382_p1 = r_V_fu_1376_p2; assign tmp_21_fu_705_p1 = r_V_1_fu_695_p2; assign tmp_21_fu_705_p2 = ($signed({{1'b0}, {ap_const_lv16_23}}) * $signed(tmp_21_fu_705_p1)); assign tmp_22_fu_1386_p2 = ($signed(k_reg_484) < $signed(tmp_21_cast_fu_1382_p1)? 1'b1: 1'b0); assign tmp_24_cast_fu_936_p1 = $signed(i_4_reg_346); assign tmp_24_fu_711_p1 = tmp_21_fu_705_p2[8:0]; assign tmp_26_cast_fu_866_p1 = tmp_19_reg_1534; assign tmp_26_fu_719_p1 = r_V_1_fu_695_p2[1:0]; assign tmp_27_fu_889_p1 = tmp_35_neg_fu_883_p2; assign tmp_2_fu_1409_p1 = i_reg_495[1:0]; assign tmp_33_cast7_fu_838_p1 = k_1_reg_323; assign tmp_33_cast_fu_842_p1 = k_1_reg_323; assign tmp_33_fu_729_p2 = ($signed({{1'b0}, {ap_const_lv9_23}}) * $signed(r_V_2_fu_723_p2)); assign tmp_35_cast_fu_1019_p1 = tmp_23_reg_1603; assign tmp_35_fu_735_p1 = r_V_2_fu_723_p2[1:0]; assign tmp_35_neg_fu_883_p2 = (tmp_35_to_int_fu_879_p1 ^ ap_const_lv32_80000000); assign tmp_35_to_int_fu_879_p1 = reg_589; assign tmp_39_cast6_fu_991_p1 = j_2_reg_369; assign tmp_39_cast_fu_995_p1 = j_2_reg_369; assign tmp_39_fu_1304_p2 = (j_reg_461 + tmp_61_cast_reg_1744); assign tmp_3_fu_672_p2 = ($signed(ap_const_lv8_FF) + $signed(i_3_reg_288)); assign tmp_41_fu_1057_p2 = (P_mode_V_read_reg_1437 == ap_const_lv8_3? 1'b1: 1'b0); assign tmp_42_cast_fu_1043_p1 = i_5_reg_380; assign tmp_42_fu_1309_p1 = tmp_39_fu_1304_p2[8:0]; assign tmp_44_fu_1062_p2 = (p_netOut_V_reg_404 < tmp_15_reg_1589? 1'b1: 1'b0); assign tmp_45_fu_1321_p1 = tmp_39_fu_1304_p2[11:0]; assign tmp_46_cast_fu_1067_p1 = p_netOut_V_reg_404; assign tmp_46_fu_1333_p2 = (p_shl_cast_fu_1313_p3 + p_shl1_cast_fu_1325_p3); assign tmp_47_cast_fu_1081_p1 = p_s_reg_391; assign tmp_47_fu_781_p2 = (j_1_reg_300 + tmp_62_cast_reg_1479); assign tmp_48_fu_1124_p4 = {{p_uOut_load_3_to_int_fu_1120_p1[ap_const_lv32_1E : ap_const_lv32_17]}}; assign tmp_49_fu_791_p1 = tmp_47_fu_781_p2[8:0]; assign tmp_4_fu_1278_p1 = i_1_reg_449[1:0]; assign tmp_50_fu_1141_p4 = {{p_uOut_load_4_to_int_fu_1138_p1[ap_const_lv32_1E : ap_const_lv32_17]}}; assign tmp_51_fu_803_p1 = tmp_47_fu_781_p2[11:0]; assign tmp_52_fu_1167_p2 = (notrhs_fu_1161_p2 \| notlhs_fu_1155_p2); assign tmp_53_fu_1185_p2 = (notrhs1_fu_1179_p2 \| notlhs1_fu_1173_p2); assign tmp_54_fu_1191_p2 = (tmp_52_fu_1167_p2 & tmp_53_fu_1185_p2); assign tmp_55_fu_530_opcode = ap_const_lv5_2; assign tmp_56_fu_1197_p2 = (tmp_54_fu_1191_p2 & tmp_55_fu_530_p2); assign tmp_58_fu_1229_p1 = tmp_57_fu_1216_p6; assign tmp_59_fu_1233_p2 = ($signed(j_3_reg_438) < $signed(tmp_58_fu_1229_p1)? 1'b1: 1'b0); assign tmp_5_fu_658_p1 = tmp_5_fu_658_p10; assign tmp_5_fu_658_p10 = i_3_reg_288; assign tmp_5_fu_658_p2 = (ap_const_lv15_23 * tmp_5_fu_658_p1); assign tmp_60_fu_815_p2 = (p_shl2_cast_fu_795_p3 + p_shl3_cast_fu_807_p3); assign tmp_61_cast_fu_1274_p1 = tmp_s_fu_1268_p2; assign tmp_61_fu_940_p2 = ($signed(tmp_24_cast_fu_936_p1) + $signed(tmp_64_cast_reg_1506)); assign tmp_62_cast_fu_664_p1 = tmp_5_fu_658_p2; assign tmp_62_fu_950_p1 = tmp_61_fu_940_p2[8:0]; assign tmp_63_fu_962_p1 = tmp_61_fu_940_p2[11:0]; assign tmp_64_cast_fu_715_p1 = $signed(tmp_21_fu_705_p2); assign tmp_64_fu_974_p2 = (p_shl4_cast_fu_954_p3 + p_shl5_cast_fu_966_p3); assign tmp_65_fu_1345_p1 = k_reg_484[13:0]; assign tmp_66_fu_1349_p2 = (tmp_46_reg_1781 + tmp_65_fu_1345_p1); assign tmp_67_fu_1047_p2 = (tmp_24_reg_1499 + tmp_42_cast_fu_1043_p1); assign tmp_68_fu_869_p2 = (tmp_60_reg_1540 + tmp_26_cast_fu_866_p1); assign tmp_69_fu_846_p2 = (tmp_60_reg_1540 + tmp_33_cast_fu_842_p1); assign tmp_6_fu_668_p1 = i_3_reg_288[1:0]; assign tmp_70_cast_fu_786_p1 = $signed(tmp_47_fu_781_p2); assign tmp_70_fu_856_p2 = (tmp_16_reg_1489 + tmp_33_cast7_fu_838_p1); assign tmp_71_fu_1022_p2 = (tmp_64_reg_1609 + tmp_35_cast_fu_1019_p1); assign tmp_72_fu_999_p2 = (tmp_64_reg_1609 + tmp_39_cast_fu_995_p1); assign tmp_73_fu_1009_p2 = (tmp_33_reg_1516 + tmp_39_cast6_fu_991_p1); assign tmp_74_cast_fu_945_p1 = $signed(tmp_61_fu_940_p2); assign tmp_74_fu_1095_p1 = phi_mul_reg_427[8:0]; assign tmp_75_fu_1116_p1 = i_6_reg_416[1:0]; assign tmp_76_fu_1071_p2 = (tmp_24_reg_1499 + tmp_46_cast_fu_1067_p1); assign tmp_77_fu_1085_p2 = (tmp_24_reg_1499 + tmp_47_cast_fu_1081_p1); assign tmp_78_cast_fu_1354_p1 = tmp_66_fu_1349_p2; assign tmp_78_fu_1134_p1 = p_uOut_load_3_to_int_fu_1120_p1[22:0]; assign tmp_79_cast_fu_874_p1 = tmp_68_fu_869_p2; assign tmp_79_fu_1151_p1 = p_uOut_load_4_to_int_fu_1138_p1[22:0]; assign tmp_7_fu_649_p2 = (i_3_reg_288 < ST_numLayer_V_load_reg_1446? 1'b1: 1'b0); assign tmp_7_t_fu_1282_p2 = ($signed(ap_const_lv2_3) + $signed(tmp_4_fu_1278_p1)); assign tmp_80_cast_fu_851_p1 = tmp_69_fu_846_p2; assign tmp_80_fu_1245_p1 = j_3_reg_438[8:0]; assign tmp_81_cast_fu_861_p1 = $signed(tmp_70_fu_856_p2); assign tmp_81_fu_1249_p2 = (tmp_74_reg_1683 + tmp_80_fu_1245_p1); assign tmp_82_cast_fu_1027_p1 = tmp_71_fu_1022_p2; assign tmp_83_cast_fu_1004_p1 = tmp_72_fu_999_p2; assign tmp_84_cast_fu_1014_p1 = $signed(tmp_73_fu_1009_p2); assign tmp_85_cast_fu_1052_p1 = $signed(tmp_67_fu_1047_p2); assign tmp_87_cast_fu_1076_p1 = $signed(tmp_76_fu_1071_p2); assign tmp_88_cast_fu_1090_p1 = $signed(tmp_77_fu_1085_p2); assign tmp_89_cast_fu_1254_p1 = tmp_81_fu_1249_p2; assign tmp_8_fu_644_p1 = i_2_reg_277; assign tmp_9_fu_1259_p2 = (i_1_reg_449 < ST_numLayer_V_load_reg_1446? 1'b1: 1'b0); assign tmp_fu_611_p2 = (P_mode_V == ap_const_lv8_1? 1'b1: 1'b0); assign tmp_s_fu_1268_p1 = tmp_s_fu_1268_p10; assign tmp_s_fu_1268_p10 = i_1_reg_449; assign tmp_s_fu_1268_p2 = (ap_const_lv15_23 * tmp_s_fu_1268_p1); always @ (posedge ap_clk) begin tmp_62_cast_reg_1479[31:15] <= 17'b00000000000000000; tmp_60_reg_1540[1:0] <= 2'b00; tmp_64_reg_1609[1:0] <= 2'b00; tmp_61_cast_reg_1744[31:15] <= 17'b00000000000000000; tmp_46_reg_1781[1:0] <= 2'b00; end endmodule
module sky130_fd_sc_lp__invkapwr_8 ( Y , A , VPWR , VGND , KAPWR, VPB , VNB ); output Y ; input A ; input VPWR ; input VGND ; input KAPWR; input VPB ; input VNB ; sky130_fd_sc_lp__invkapwr base ( .Y(Y), .A(A), .VPWR(VPWR), .VGND(VGND), .KAPWR(KAPWR), .VPB(VPB), .VNB(VNB) ); endmodule
module sky130_fd_sc_lp__invkapwr_8 ( Y, A ); output Y; input A; // Voltage supply signals supply1 VPWR ; supply0 VGND ; supply1 KAPWR; supply1 VPB ; supply0 VNB ; sky130_fd_sc_lp__invkapwr base ( .Y(Y), .A(A) ); endmodule
module rx (reset, clk, demodin, bitout, bitclk, rx_overflow_reset, trcal, rngbitout); input reset, clk, demodin; output bitout, bitclk, rx_overflow_reset, rngbitout; output [9:0] trcal; reg bitout, bitclk, rngbitout; reg [9:0] trcal, rtcal; // States parameter STATE_DELIMITER = 5'd0; parameter STATE_DATA0 = 5'd1; parameter STATE_RTCAL = 5'd2; parameter STATE_TRCAL = 5'd4; parameter STATE_BITS = 5'd8; reg [4:0] commstate; parameter STATE_WAIT_DEMOD_LOW = 4'd0; parameter STATE_WAIT_DEMOD_HIGH = 4'd1; parameter STATE_EVAL_BIT = 4'd2; parameter STATE_RESET_COUNTER = 4'd4; reg [3:0] evalstate; wire[9:0] count; wire clkb; assign clkb = ~clk; reg counterreset, counterenable; wire overflow; wire counter_reset_in; assign counter_reset_in = counterreset\|reset; counter10 counter (clkb, counter_reset_in, counterenable, count, overflow); assign rx_overflow_reset = overflow \| ((commstate == STATE_BITS) && (count > rtcal)); always @ (posedge clk or posedge reset) begin if( reset ) begin bitout <= 0; bitclk <= 0; rtcal <= 10'd0; trcal <= 10'd0; rngbitout <= 0; counterreset <= 0; counterenable <= 0; commstate <= STATE_DELIMITER; evalstate <= STATE_WAIT_DEMOD_LOW; // process normal operation end else begin if(evalstate == STATE_WAIT_DEMOD_LOW) begin if (demodin == 0) begin evalstate <= STATE_WAIT_DEMOD_HIGH; if(commstate != STATE_DELIMITER) counterenable <= 1; else counterenable <= 0; counterreset <= 0; end end else if(evalstate == STATE_WAIT_DEMOD_HIGH) begin if (demodin == 1) begin evalstate <= STATE_EVAL_BIT; counterenable <= 1; counterreset <= 0; end end else if(evalstate == STATE_EVAL_BIT) begin counterreset <= 1; evalstate <= STATE_RESET_COUNTER; bitclk <= 0; rngbitout <= count[0]; case(commstate) STATE_DELIMITER: begin commstate <= STATE_DATA0; end STATE_DATA0: begin commstate <= STATE_RTCAL; end STATE_RTCAL: begin rtcal <= count; commstate <= STATE_TRCAL; end STATE_TRCAL: begin if(count > rtcal) begin trcal <= count; end else if(count[8:0] > rtcal[9:1]) begin // divide rtcal by 2 bitout <= 1; commstate <= STATE_BITS; end else begin bitout <= 0; commstate <= STATE_BITS; end end STATE_BITS: begin if(count[8:0] > rtcal[9:1]) begin // data 1 (divide rtcal by 2) bitout <= 1; end else begin // data 0 bitout <= 0; end end default: begin counterreset <= 0; commstate <= 0; end endcase // case(mode) end else if(evalstate == STATE_RESET_COUNTER) begin if(commstate == STATE_BITS) begin bitclk <= 1; end counterreset <= 0; evalstate <= STATE_WAIT_DEMOD_LOW; end else begin // unknown state, reset. evalstate <= 0; end end // ~reset end // always @ clk endmodule
module sky130_fd_sc_ms__maj3 ( //# {{data\|Data Signals}} input A, input B, input C, output X ); // Voltage supply signals supply1 VPWR; supply0 VGND; supply1 VPB ; supply0 VNB ; endmodule
module top(); // Inputs are registered reg A; reg SLEEP_B; reg VPWR; reg VGND; reg VPB; reg VNB; // Outputs are wires wire X; initial begin // Initial state is x for all inputs. A = 1'bX; SLEEP_B = 1'bX; VGND = 1'bX; VNB = 1'bX; VPB = 1'bX; VPWR = 1'bX; #20 A = 1'b0; #40 SLEEP_B = 1'b0; #60 VGND = 1'b0; #80 VNB = 1'b0; #100 VPB = 1'b0; #120 VPWR = 1'b0; #140 A = 1'b1; #160 SLEEP_B = 1'b1; #180 VGND = 1'b1; #200 VNB = 1'b1; #220 VPB = 1'b1; #240 VPWR = 1'b1; #260 A = 1'b0; #280 SLEEP_B = 1'b0; #300 VGND = 1'b0; #320 VNB = 1'b0; #340 VPB = 1'b0; #360 VPWR = 1'b0; #380 VPWR = 1'b1; #400 VPB = 1'b1; #420 VNB = 1'b1; #440 VGND = 1'b1; #460 SLEEP_B = 1'b1; #480 A = 1'b1; #500 VPWR = 1'bx; #520 VPB = 1'bx; #540 VNB = 1'bx; #560 VGND = 1'bx; #580 SLEEP_B = 1'bx; #600 A = 1'bx; end sky130_fd_sc_hdll__inputiso0n dut (.A(A), .SLEEP_B(SLEEP_B), .VPWR(VPWR), .VGND(VGND), .VPB(VPB), .VNB(VNB), .X(X)); endmodule
module jt51_csr_ch( input rst, input clk, input cen, input [ 7:0] din, input up_rl_ch, input up_fb_ch, input up_con_ch, input up_kc_ch, input up_kf_ch, input up_ams_ch, input up_pms_ch, output [1:0] rl, output [2:0] fb, output [2:0] con, output [6:0] kc, output [5:0] kf, output [1:0] ams, output [2:0] pms ); wire [1:0] rl_in = din[7:6]; wire [2:0] fb_in = din[5:3]; wire [2:0] con_in = din[2:0]; wire [6:0] kc_in = din[6:0]; wire [5:0] kf_in = din[7:2]; wire [1:0] ams_in = din[1:0]; wire [2:0] pms_in = din[6:4]; wire [25:0] reg_in = { up_rl_ch ? rl_in : rl, up_fb_ch ? fb_in : fb, up_con_ch ? con_in : con, up_kc_ch ? kc_in : kc, up_kf_ch ? kf_in : kf, up_ams_ch ? ams_in : ams, up_pms_ch ? pms_in : pms }; wire [25:0] reg_out; assign { rl, fb, con, kc, kf, ams, pms } = reg_out; jt51_sh #( .width(26), .stages(8)) u_regop( .rst ( rst ), .clk ( clk ), .cen ( cen ), .din ( reg_in ), .drop ( reg_out ) ); endmodule
module clk_wiz_0 (// Clock in ports input clk_in1, // Clock out ports output clk_out1, output clk_out2, output clk_out3, // Status and control signals output locked ); // Input buffering //------------------------------------ IBUF clkin1_ibufg (.O (clk_in1_clk_wiz_0), .I (clk_in1)); // Clocking PRIMITIVE //------------------------------------ // Instantiation of the MMCM PRIMITIVE // * Unused inputs are tied off // * Unused outputs are labeled unused wire [15:0] do_unused; wire drdy_unused; wire psdone_unused; wire locked_int; wire clkfbout_clk_wiz_0; wire clkfbout_buf_clk_wiz_0; wire clkfboutb_unused; wire clkout0b_unused; wire clkout1b_unused; wire clkout2b_unused; wire clkout3_unused; wire clkout3b_unused; wire clkout4_unused; wire clkout5_unused; wire clkout6_unused; wire clkfbstopped_unused; wire clkinstopped_unused; MMCME2_ADV #(.BANDWIDTH ("OPTIMIZED"), .CLKOUT4_CASCADE ("FALSE"), .COMPENSATION ("ZHOLD"), .STARTUP_WAIT ("FALSE"), .DIVCLK_DIVIDE (1), .CLKFBOUT_MULT_F (10.000), .CLKFBOUT_PHASE (0.000), .CLKFBOUT_USE_FINE_PS ("FALSE"), .CLKOUT0_DIVIDE_F (10.000), .CLKOUT0_PHASE (0.000), .CLKOUT0_DUTY_CYCLE (0.500), .CLKOUT0_USE_FINE_PS ("FALSE"), .CLKOUT1_DIVIDE (40), .CLKOUT1_PHASE (0.000), .CLKOUT1_DUTY_CYCLE (0.500), .CLKOUT1_USE_FINE_PS ("FALSE"), .CLKOUT2_DIVIDE (5), .CLKOUT2_PHASE (0.000), .CLKOUT2_DUTY_CYCLE (0.500), .CLKOUT2_USE_FINE_PS ("FALSE"), .CLKIN1_PERIOD (10.0)) mmcm_adv_inst // Output clocks ( .CLKFBOUT (clkfbout_clk_wiz_0), .CLKFBOUTB (clkfboutb_unused), .CLKOUT0 (clk_out1_clk_wiz_0), .CLKOUT0B (clkout0b_unused), .CLKOUT1 (clk_out2_clk_wiz_0), .CLKOUT1B (clkout1b_unused), .CLKOUT2 (clk_out3_clk_wiz_0), .CLKOUT2B (clkout2b_unused), .CLKOUT3 (clkout3_unused), .CLKOUT3B (clkout3b_unused), .CLKOUT4 (clkout4_unused), .CLKOUT5 (clkout5_unused), .CLKOUT6 (clkout6_unused), // Input clock control .CLKFBIN (clkfbout_buf_clk_wiz_0), .CLKIN1 (clk_in1_clk_wiz_0), .CLKIN2 (1'b0), // Tied to always select the primary input clock .CLKINSEL (1'b1), // Ports for dynamic reconfiguration .DADDR (7'h0), .DCLK (1'b0), .DEN (1'b0), .DI (16'h0), .DO (do_unused), .DRDY (drdy_unused), .DWE (1'b0), // Ports for dynamic phase shift .PSCLK (1'b0), .PSEN (1'b0), .PSINCDEC (1'b0), .PSDONE (psdone_unused), // Other control and status signals .LOCKED (locked_int), .CLKINSTOPPED (clkinstopped_unused), .CLKFBSTOPPED (clkfbstopped_unused), .PWRDWN (1'b0), .RST (1'b0)); assign locked = locked_int; // Output buffering //----------------------------------- BUFG clkf_buf (.O (clkfbout_buf_clk_wiz_0), .I (clkfbout_clk_wiz_0)); BUFG clkout1_buf (.O (clk_out1), .I (clk_out1_clk_wiz_0)); BUFG clkout2_buf (.O (clk_out2), .I (clk_out2_clk_wiz_0)); BUFG clkout3_buf (.O (clk_out3), .I (clk_out3_clk_wiz_0)); endmodule
module header // Internal signals // // Generated Signal List // wire sc_sig_1; // __W_PORT_SIGNAL_MAP_REQ wire [31:0] sc_sig_2; // __W_PORT_SIGNAL_MAP_REQ // // End of Generated Signal List // // %COMPILER_OPTS% // // Generated Signal Assignments // assign p_mix_sc_sig_1_go = sc_sig_1; // __I_O_BIT_PORT assign p_mix_sc_sig_2_go = sc_sig_2; // __I_O_BUS_PORT // // Generated Instances and Port Mappings // // Generated Instance Port Map for inst_aba ent_aba inst_aba ( // is i_mic32_top / hier inst_ab inst_aba inst_ab .sc_p_1(sc_sig_1), // bad conection bits detected .sc_p_2(sc_sig_2) // reverse orderreverse order // multiline comments ); // End of Generated Instance Port Map for inst_aba endmodule
module sky130_fd_sc_hdll__o22ai ( Y , A1 , A2 , B1 , B2 , VPWR, VGND, VPB , VNB ); // Module ports output Y ; input A1 ; input A2 ; input B1 ; input B2 ; input VPWR; input VGND; input VPB ; input VNB ; // Local signals wire nor0_out ; wire nor1_out ; wire or0_out_Y ; wire pwrgood_pp0_out_Y; // Name Output Other arguments nor nor0 (nor0_out , B1, B2 ); nor nor1 (nor1_out , A1, A2 ); or or0 (or0_out_Y , nor1_out, nor0_out ); sky130_fd_sc_hdll__udp_pwrgood_pp$PG pwrgood_pp0 (pwrgood_pp0_out_Y, or0_out_Y, VPWR, VGND); buf buf0 (Y , pwrgood_pp0_out_Y ); endmodule
module CORDIC_sin_cos_test; //defination for Variables reg clk; reg reset; reg[7:0] cntr; //loop for test vectors reg signed[(`WIDTH-1):0] test_vector_w[(`LENGTH-1):0]; reg signed[(`WIDTH-1):0] test_vector_sin[(`LENGTH-1):0]; reg signed[(`WIDTH-1):0] test_vector_cos[(`LENGTH-1):0]; //Test Vector Value wire signed[(`WIDTH-1):0] cos_value; wire signed[(`WIDTH-1):0] sin_value; //middle signals wire signed[(`WIDTH-1):0] comp_sin; wire signed[(`WIDTH-1):0] comp_cos; //Results right? Comparision results wire[(`WIDTH2-1):0] op; wire[(`WIDTH2-1):0] res; wire signed[(`WIDTH-1):0] res_sin; wire signed[(`WIDTH-1):0] res_cos; wire [7:0] index; assign res_sin = res[`WIDTH -1 : 0]; assign res_cos = res[`WIDTH*2 -1 : `WIDTH]; assign op = {{(`WIDTH){1'b0}}, test_vector_w[cntr]}; assign index = (cntr - 1 - `ORDER) % `LENGTH; assign sin_value = test_vector_sin[index]; assign cos_value = test_vector_cos[index]; assign comp_sin = (res_sin - sin_value); assign comp_cos = (res_cos - cos_value); //Connection to the modules CORDIC #(.MODE(`MODE)) //CORDIC Mode C ( .CLK(clk), .RESET_n(reset), .operand(op), .results(res) ); //Clock generation initial begin clk = 0; //Reset forever begin #10 clk = !clk; //Reverse the clock in each 10ns end end //Reset operation initial begin reset = 0; //Reset enable #14 reset = 1; //Counter starts end //Load the test vectors initial begin $readmemh("angle_test_vector.txt", test_vector_w); $readmemh("sin_test_vector.txt", test_vector_sin); $readmemh("cos_test_vector.txt", test_vector_cos); end //Load the input of 0 order element //Comparision always @(posedge clk or negedge reset) begin if ( !reset) //reset statement: counter keeps at 0 begin cntr <= 8'h00; end else begin cntr <= cntr + 8'h01; end end endmodule
module FrameBuffer (clka, ena, wea, addra, dina, douta, clkb, web, addrb, dinb, doutb); (* x_interface_info = "xilinx.com:interface:bram:1.0 BRAM_PORTA CLK" ) input clka; ( x_interface_info = "xilinx.com:interface:bram:1.0 BRAM_PORTA EN" ) input ena; ( x_interface_info = "xilinx.com:interface:bram:1.0 BRAM_PORTA WE" ) input [0:0]wea; ( x_interface_info = "xilinx.com:interface:bram:1.0 BRAM_PORTA ADDR" ) input [13:0]addra; ( x_interface_info = "xilinx.com:interface:bram:1.0 BRAM_PORTA DIN" ) input [7:0]dina; ( x_interface_info = "xilinx.com:interface:bram:1.0 BRAM_PORTA DOUT" ) output [7:0]douta; ( x_interface_info = "xilinx.com:interface:bram:1.0 BRAM_PORTB CLK" ) input clkb; ( x_interface_info = "xilinx.com:interface:bram:1.0 BRAM_PORTB WE" ) input [0:0]web; ( x_interface_info = "xilinx.com:interface:bram:1.0 BRAM_PORTB ADDR" ) input [13:0]addrb; ( x_interface_info = "xilinx.com:interface:bram:1.0 BRAM_PORTB DIN" ) input [7:0]dinb; ( x_interface_info = "xilinx.com:interface:bram:1.0 BRAM_PORTB DOUT" ) output [7:0]doutb; wire [13:0]addra; wire [13:0]addrb; wire clka; wire clkb; wire [7:0]dina; wire [7:0]dinb; wire [7:0]douta; wire [7:0]doutb; wire ena; wire [0:0]wea; wire [0:0]web; wire NLW_U0_dbiterr_UNCONNECTED; wire NLW_U0_rsta_busy_UNCONNECTED; wire NLW_U0_rstb_busy_UNCONNECTED; wire NLW_U0_s_axi_arready_UNCONNECTED; wire NLW_U0_s_axi_awready_UNCONNECTED; wire NLW_U0_s_axi_bvalid_UNCONNECTED; wire NLW_U0_s_axi_dbiterr_UNCONNECTED; wire NLW_U0_s_axi_rlast_UNCONNECTED; wire NLW_U0_s_axi_rvalid_UNCONNECTED; wire NLW_U0_s_axi_sbiterr_UNCONNECTED; wire NLW_U0_s_axi_wready_UNCONNECTED; wire NLW_U0_sbiterr_UNCONNECTED; wire [13:0]NLW_U0_rdaddrecc_UNCONNECTED; wire [3:0]NLW_U0_s_axi_bid_UNCONNECTED; wire [1:0]NLW_U0_s_axi_bresp_UNCONNECTED; wire [13:0]NLW_U0_s_axi_rdaddrecc_UNCONNECTED; wire [7:0]NLW_U0_s_axi_rdata_UNCONNECTED; wire [3:0]NLW_U0_s_axi_rid_UNCONNECTED; wire [1:0]NLW_U0_s_axi_rresp_UNCONNECTED; ( C_ADDRA_WIDTH = "14" ) ( C_ADDRB_WIDTH = "14" ) ( C_ALGORITHM = "1" ) ( C_AXI_ID_WIDTH = "4" ) ( C_AXI_SLAVE_TYPE = "0" ) ( C_AXI_TYPE = "1" ) ( C_BYTE_SIZE = "8" ) ( C_COMMON_CLK = "0" ) ( C_COUNT_18K_BRAM = "1" ) ( C_COUNT_36K_BRAM = "2" ) ( C_CTRL_ECC_ALGO = "NONE" ) ( C_DEFAULT_DATA = "0" ) ( C_DISABLE_WARN_BHV_COLL = "0" ) ( C_DISABLE_WARN_BHV_RANGE = "0" ) ( C_ELABORATION_DIR = "./" ) ( C_ENABLE_32BIT_ADDRESS = "0" ) ( C_EN_DEEPSLEEP_PIN = "0" ) ( C_EN_ECC_PIPE = "0" ) ( C_EN_RDADDRA_CHG = "0" ) ( C_EN_RDADDRB_CHG = "0" ) ( C_EN_SAFETY_CKT = "0" ) ( C_EN_SHUTDOWN_PIN = "0" ) ( C_EN_SLEEP_PIN = "0" ) ( C_EST_POWER_SUMMARY = "Estimated Power for IP : 4.61856 mW" ) ( C_FAMILY = "artix7" ) ( C_HAS_AXI_ID = "0" ) ( C_HAS_ENA = "1" ) ( C_HAS_ENB = "0" ) ( C_HAS_INJECTERR = "0" ) ( C_HAS_MEM_OUTPUT_REGS_A = "0" ) ( C_HAS_MEM_OUTPUT_REGS_B = "1" ) ( C_HAS_MUX_OUTPUT_REGS_A = "0" ) ( C_HAS_MUX_OUTPUT_REGS_B = "0" ) ( C_HAS_REGCEA = "0" ) ( C_HAS_REGCEB = "0" ) ( C_HAS_RSTA = "0" ) ( C_HAS_RSTB = "0" ) ( C_HAS_SOFTECC_INPUT_REGS_A = "0" ) ( C_HAS_SOFTECC_OUTPUT_REGS_B = "0" ) ( C_INITA_VAL = "0" ) ( C_INITB_VAL = "0" ) ( C_INIT_FILE = "FrameBuffer.mem" ) ( C_INIT_FILE_NAME = "FrameBuffer.mif" ) ( C_INTERFACE_TYPE = "0" ) ( C_LOAD_INIT_FILE = "1" ) ( C_MEM_TYPE = "2" ) ( C_MUX_PIPELINE_STAGES = "0" ) ( C_PRIM_TYPE = "1" ) ( C_READ_DEPTH_A = "10240" ) ( C_READ_DEPTH_B = "10240" ) ( C_READ_WIDTH_A = "8" ) ( C_READ_WIDTH_B = "8" ) ( C_RSTRAM_A = "0" ) ( C_RSTRAM_B = "0" ) ( C_RST_PRIORITY_A = "CE" ) ( C_RST_PRIORITY_B = "CE" ) ( C_SIM_COLLISION_CHECK = "ALL" ) ( C_USE_BRAM_BLOCK = "0" ) ( C_USE_BYTE_WEA = "1" ) ( C_USE_BYTE_WEB = "1" ) ( C_USE_DEFAULT_DATA = "0" ) ( C_USE_ECC = "0" ) ( C_USE_SOFTECC = "0" ) ( C_USE_URAM = "0" ) ( C_WEA_WIDTH = "1" ) ( C_WEB_WIDTH = "1" ) ( C_WRITE_DEPTH_A = "10240" ) ( C_WRITE_DEPTH_B = "10240" ) ( C_WRITE_MODE_A = "WRITE_FIRST" ) ( C_WRITE_MODE_B = "WRITE_FIRST" ) ( C_WRITE_WIDTH_A = "8" ) ( C_WRITE_WIDTH_B = "8" ) ( C_XDEVICEFAMILY = "artix7" ) ( DONT_TOUCH ) ( downgradeipidentifiedwarnings = "yes" *) FrameBuffer_blk_mem_gen_v8_3_1 U0 (.addra(addra), .addrb(addrb), .clka(clka), .clkb(clkb), .dbiterr(NLW_U0_dbiterr_UNCONNECTED), .deepsleep(1'b0), .dina(dina), .dinb(dinb), .douta(douta), .doutb(doutb), .eccpipece(1'b0), .ena(ena), .enb(1'b0), .injectdbiterr(1'b0), .injectsbiterr(1'b0), .rdaddrecc(NLW_U0_rdaddrecc_UNCONNECTED[13:0]), .regcea(1'b0), .regceb(1'b0), .rsta(1'b0), .rsta_busy(NLW_U0_rsta_busy_UNCONNECTED), .rstb(1'b0), .rstb_busy(NLW_U0_rstb_busy_UNCONNECTED), .s_aclk(1'b0), .s_aresetn(1'b0), .s_axi_araddr({1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0}), .s_axi_arburst({1'b0,1'b0}), .s_axi_arid({1'b0,1'b0,1'b0,1'b0}), .s_axi_arlen({1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0}), .s_axi_arready(NLW_U0_s_axi_arready_UNCONNECTED), .s_axi_arsize({1'b0,1'b0,1'b0}), .s_axi_arvalid(1'b0), .s_axi_awaddr({1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0}), .s_axi_awburst({1'b0,1'b0}), .s_axi_awid({1'b0,1'b0,1'b0,1'b0}), .s_axi_awlen({1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0}), .s_axi_awready(NLW_U0_s_axi_awready_UNCONNECTED), .s_axi_awsize({1'b0,1'b0,1'b0}), .s_axi_awvalid(1'b0), .s_axi_bid(NLW_U0_s_axi_bid_UNCONNECTED[3:0]), .s_axi_bready(1'b0), .s_axi_bresp(NLW_U0_s_axi_bresp_UNCONNECTED[1:0]), .s_axi_bvalid(NLW_U0_s_axi_bvalid_UNCONNECTED), .s_axi_dbiterr(NLW_U0_s_axi_dbiterr_UNCONNECTED), .s_axi_injectdbiterr(1'b0), .s_axi_injectsbiterr(1'b0), .s_axi_rdaddrecc(NLW_U0_s_axi_rdaddrecc_UNCONNECTED[13:0]), .s_axi_rdata(NLW_U0_s_axi_rdata_UNCONNECTED[7:0]), .s_axi_rid(NLW_U0_s_axi_rid_UNCONNECTED[3:0]), .s_axi_rlast(NLW_U0_s_axi_rlast_UNCONNECTED), .s_axi_rready(1'b0), .s_axi_rresp(NLW_U0_s_axi_rresp_UNCONNECTED[1:0]), .s_axi_rvalid(NLW_U0_s_axi_rvalid_UNCONNECTED), .s_axi_sbiterr(NLW_U0_s_axi_sbiterr_UNCONNECTED), .s_axi_wdata({1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0}), .s_axi_wlast(1'b0), .s_axi_wready(NLW_U0_s_axi_wready_UNCONNECTED), .s_axi_wstrb(1'b0), .s_axi_wvalid(1'b0), .sbiterr(NLW_U0_sbiterr_UNCONNECTED), .shutdown(1'b0), .sleep(1'b0), .wea(wea), .web(web)); endmodule
module FrameBuffer_blk_mem_gen_generic_cstr (doutb, douta, clka, clkb, addra, addrb, dina, dinb, wea, web, ena); output [7:0]doutb; output [7:0]douta; input clka; input clkb; input [13:0]addra; input [13:0]addrb; input [7:0]dina; input [7:0]dinb; input [0:0]wea; input [0:0]web; input ena; wire [13:0]addra; wire [13:0]addrb; wire clka; wire clkb; wire [7:0]dina; wire [7:0]dinb; wire [7:0]douta; wire [7:0]doutb; wire ena; wire [7:0]ram_douta; wire [7:0]ram_doutb; wire \ramloop[1].ram.r_n_0 ; wire \ramloop[1].ram.r_n_1 ; wire \ramloop[1].ram.r_n_10 ; wire \ramloop[1].ram.r_n_11 ; wire \ramloop[1].ram.r_n_12 ; wire \ramloop[1].ram.r_n_13 ; wire \ramloop[1].ram.r_n_14 ; wire \ramloop[1].ram.r_n_15 ; wire \ramloop[1].ram.r_n_2 ; wire \ramloop[1].ram.r_n_3 ; wire \ramloop[1].ram.r_n_4 ; wire \ramloop[1].ram.r_n_5 ; wire \ramloop[1].ram.r_n_6 ; wire \ramloop[1].ram.r_n_7 ; wire \ramloop[1].ram.r_n_8 ; wire \ramloop[1].ram.r_n_9 ; wire \ramloop[2].ram.r_n_0 ; wire \ramloop[2].ram.r_n_1 ; wire \ramloop[2].ram.r_n_10 ; wire \ramloop[2].ram.r_n_11 ; wire \ramloop[2].ram.r_n_12 ; wire \ramloop[2].ram.r_n_13 ; wire \ramloop[2].ram.r_n_14 ; wire \ramloop[2].ram.r_n_15 ; wire \ramloop[2].ram.r_n_2 ; wire \ramloop[2].ram.r_n_3 ; wire \ramloop[2].ram.r_n_4 ; wire \ramloop[2].ram.r_n_5 ; wire \ramloop[2].ram.r_n_6 ; wire \ramloop[2].ram.r_n_7 ; wire \ramloop[2].ram.r_n_8 ; wire \ramloop[2].ram.r_n_9 ; wire [0:0]wea; wire [0:0]web; FrameBuffer_blk_mem_gen_mux \has_mux_a.A (.\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram ({\ramloop[1].ram.r_n_0 ,\ramloop[1].ram.r_n_1 ,\ramloop[1].ram.r_n_2 ,\ramloop[1].ram.r_n_3 ,\ramloop[1].ram.r_n_4 ,\ramloop[1].ram.r_n_5 ,\ramloop[1].ram.r_n_6 ,\ramloop[1].ram.r_n_7 }), .\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_0 (ram_douta), .DOADO({\ramloop[2].ram.r_n_0 ,\ramloop[2].ram.r_n_1 ,\ramloop[2].ram.r_n_2 ,\ramloop[2].ram.r_n_3 ,\ramloop[2].ram.r_n_4 ,\ramloop[2].ram.r_n_5 ,\ramloop[2].ram.r_n_6 ,\ramloop[2].ram.r_n_7 }), .addra(addra[13:11]), .clka(clka), .douta(douta), .ena(ena)); FrameBuffer_blk_mem_gen_mux__parameterized0 \has_mux_b.B (.\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram ({\ramloop[1].ram.r_n_8 ,\ramloop[1].ram.r_n_9 ,\ramloop[1].ram.r_n_10 ,\ramloop[1].ram.r_n_11 ,\ramloop[1].ram.r_n_12 ,\ramloop[1].ram.r_n_13 ,\ramloop[1].ram.r_n_14 ,\ramloop[1].ram.r_n_15 }), .\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_0 (ram_doutb), .DOBDO({\ramloop[2].ram.r_n_8 ,\ramloop[2].ram.r_n_9 ,\ramloop[2].ram.r_n_10 ,\ramloop[2].ram.r_n_11 ,\ramloop[2].ram.r_n_12 ,\ramloop[2].ram.r_n_13 ,\ramloop[2].ram.r_n_14 ,\ramloop[2].ram.r_n_15 }), .addrb(addrb[13:11]), .clkb(clkb), .doutb(doutb)); FrameBuffer_blk_mem_gen_prim_width \ramloop[0].ram.r (.addra(addra), .addrb(addrb), .clka(clka), .clkb(clkb), .dina(dina), .dinb(dinb), .\douta[7] (ram_douta), .\doutb[7] (ram_doutb), .ena(ena), .wea(wea), .web(web)); FrameBuffer_blk_mem_gen_prim_width__parameterized0 \ramloop[1].ram.r (.addra(addra), .addrb(addrb), .clka(clka), .clkb(clkb), .dina(dina), .dinb(dinb), .\douta[7] ({\ramloop[1].ram.r_n_0 ,\ramloop[1].ram.r_n_1 ,\ramloop[1].ram.r_n_2 ,\ramloop[1].ram.r_n_3 ,\ramloop[1].ram.r_n_4 ,\ramloop[1].ram.r_n_5 ,\ramloop[1].ram.r_n_6 ,\ramloop[1].ram.r_n_7 }), .\doutb[7] ({\ramloop[1].ram.r_n_8 ,\ramloop[1].ram.r_n_9 ,\ramloop[1].ram.r_n_10 ,\ramloop[1].ram.r_n_11 ,\ramloop[1].ram.r_n_12 ,\ramloop[1].ram.r_n_13 ,\ramloop[1].ram.r_n_14 ,\ramloop[1].ram.r_n_15 }), .ena(ena), .wea(wea), .web(web)); FrameBuffer_blk_mem_gen_prim_width__parameterized1 \ramloop[2].ram.r (.DOADO({\ramloop[2].ram.r_n_0 ,\ramloop[2].ram.r_n_1 ,\ramloop[2].ram.r_n_2 ,\ramloop[2].ram.r_n_3 ,\ramloop[2].ram.r_n_4 ,\ramloop[2].ram.r_n_5 ,\ramloop[2].ram.r_n_6 ,\ramloop[2].ram.r_n_7 }), .DOBDO({\ramloop[2].ram.r_n_8 ,\ramloop[2].ram.r_n_9 ,\ramloop[2].ram.r_n_10 ,\ramloop[2].ram.r_n_11 ,\ramloop[2].ram.r_n_12 ,\ramloop[2].ram.r_n_13 ,\ramloop[2].ram.r_n_14 ,\ramloop[2].ram.r_n_15 }), .addra(addra), .addrb(addrb), .clka(clka), .clkb(clkb), .dina(dina), .dinb(dinb), .ena(ena), .wea(wea), .web(web)); endmodule
module FrameBuffer_blk_mem_gen_mux (douta, DOADO, \DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram , \DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_0 , addra, ena, clka); output [7:0]douta; input [7:0]DOADO; input [7:0]\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram ; input [7:0]\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_0 ; input [2:0]addra; input ena; input clka; wire [7:0]\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram ; wire [7:0]\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_0 ; wire [7:0]DOADO; wire [2:0]addra; wire clka; wire [7:0]douta; wire ena; wire \no_softecc_sel_reg.ce_pri.sel_pipe[0]_i_1_n_0 ; wire \no_softecc_sel_reg.ce_pri.sel_pipe[1]_i_1_n_0 ; wire \no_softecc_sel_reg.ce_pri.sel_pipe[2]_i_1_n_0 ; wire [2:0]sel_pipe; LUT6 #( .INIT(64'h02FF020F02F00200)) \douta[0]_INST_0 (.I0(DOADO[0]), .I1(sel_pipe[0]), .I2(sel_pipe[1]), .I3(sel_pipe[2]), .I4(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram [0]), .I5(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_0 [0]), .O(douta[0])); LUT6 #( .INIT(64'h02FF020F02F00200)) \douta[1]_INST_0 (.I0(DOADO[1]), .I1(sel_pipe[0]), .I2(sel_pipe[1]), .I3(sel_pipe[2]), .I4(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram [1]), .I5(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_0 [1]), .O(douta[1])); LUT6 #( .INIT(64'h02FF020F02F00200)) \douta[2]_INST_0 (.I0(DOADO[2]), .I1(sel_pipe[0]), .I2(sel_pipe[1]), .I3(sel_pipe[2]), .I4(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram [2]), .I5(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_0 [2]), .O(douta[2])); LUT6 #( .INIT(64'h02FF020F02F00200)) \douta[3]_INST_0 (.I0(DOADO[3]), .I1(sel_pipe[0]), .I2(sel_pipe[1]), .I3(sel_pipe[2]), .I4(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram [3]), .I5(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_0 [3]), .O(douta[3])); LUT6 #( .INIT(64'h02FF020F02F00200)) \douta[4]_INST_0 (.I0(DOADO[4]), .I1(sel_pipe[0]), .I2(sel_pipe[1]), .I3(sel_pipe[2]), .I4(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram [4]), .I5(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_0 [4]), .O(douta[4])); LUT6 #( .INIT(64'h02FF020F02F00200)) \douta[5]_INST_0 (.I0(DOADO[5]), .I1(sel_pipe[0]), .I2(sel_pipe[1]), .I3(sel_pipe[2]), .I4(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram [5]), .I5(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_0 [5]), .O(douta[5])); LUT6 #( .INIT(64'h02FF020F02F00200)) \douta[6]_INST_0 (.I0(DOADO[6]), .I1(sel_pipe[0]), .I2(sel_pipe[1]), .I3(sel_pipe[2]), .I4(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram [6]), .I5(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_0 [6]), .O(douta[6])); LUT6 #( .INIT(64'h02FF020F02F00200)) \douta[7]_INST_0 (.I0(DOADO[7]), .I1(sel_pipe[0]), .I2(sel_pipe[1]), .I3(sel_pipe[2]), .I4(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram [7]), .I5(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_0 [7]), .O(douta[7])); LUT3 #( .INIT(8'hB8)) \no_softecc_sel_reg.ce_pri.sel_pipe[0]_i_1 (.I0(addra[0]), .I1(ena), .I2(sel_pipe[0]), .O(\no_softecc_sel_reg.ce_pri.sel_pipe[0]_i_1_n_0 )); (* SOFT_HLUTNM = "soft_lutpair0" ) LUT3 #( .INIT(8'hB8)) \no_softecc_sel_reg.ce_pri.sel_pipe[1]_i_1 (.I0(addra[1]), .I1(ena), .I2(sel_pipe[1]), .O(\no_softecc_sel_reg.ce_pri.sel_pipe[1]_i_1_n_0 )); ( SOFT_HLUTNM = "soft_lutpair0" *) LUT3 #( .INIT(8'hB8)) \no_softecc_sel_reg.ce_pri.sel_pipe[2]_i_1 (.I0(addra[2]), .I1(ena), .I2(sel_pipe[2]), .O(\no_softecc_sel_reg.ce_pri.sel_pipe[2]_i_1_n_0 )); FDRE #( .INIT(1'b0)) \no_softecc_sel_reg.ce_pri.sel_pipe_reg[0] (.C(clka), .CE(1'b1), .D(\no_softecc_sel_reg.ce_pri.sel_pipe[0]_i_1_n_0 ), .Q(sel_pipe[0]), .R(1'b0)); FDRE #( .INIT(1'b0)) \no_softecc_sel_reg.ce_pri.sel_pipe_reg[1] (.C(clka), .CE(1'b1), .D(\no_softecc_sel_reg.ce_pri.sel_pipe[1]_i_1_n_0 ), .Q(sel_pipe[1]), .R(1'b0)); FDRE #( .INIT(1'b0)) \no_softecc_sel_reg.ce_pri.sel_pipe_reg[2] (.C(clka), .CE(1'b1), .D(\no_softecc_sel_reg.ce_pri.sel_pipe[2]_i_1_n_0 ), .Q(sel_pipe[2]), .R(1'b0)); endmodule
module FrameBuffer_blk_mem_gen_mux__parameterized0 (doutb, DOBDO, \DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram , \DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_0 , addrb, clkb); output [7:0]doutb; input [7:0]DOBDO; input [7:0]\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram ; input [7:0]\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_0 ; input [2:0]addrb; input clkb; wire [7:0]\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram ; wire [7:0]\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_0 ; wire [7:0]DOBDO; wire [2:0]addrb; wire clkb; wire [7:0]doutb; wire \no_softecc_sel_reg.ce_pri.sel_pipe_reg_n_0_[0] ; wire \no_softecc_sel_reg.ce_pri.sel_pipe_reg_n_0_[1] ; wire \no_softecc_sel_reg.ce_pri.sel_pipe_reg_n_0_[2] ; wire [2:0]sel_pipe_d1; LUT6 #( .INIT(64'h02FF020F02F00200)) \doutb[0]_INST_0 (.I0(DOBDO[0]), .I1(sel_pipe_d1[0]), .I2(sel_pipe_d1[1]), .I3(sel_pipe_d1[2]), .I4(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram [0]), .I5(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_0 [0]), .O(doutb[0])); LUT6 #( .INIT(64'h02FF020F02F00200)) \doutb[1]_INST_0 (.I0(DOBDO[1]), .I1(sel_pipe_d1[0]), .I2(sel_pipe_d1[1]), .I3(sel_pipe_d1[2]), .I4(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram [1]), .I5(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_0 [1]), .O(doutb[1])); LUT6 #( .INIT(64'h02FF020F02F00200)) \doutb[2]_INST_0 (.I0(DOBDO[2]), .I1(sel_pipe_d1[0]), .I2(sel_pipe_d1[1]), .I3(sel_pipe_d1[2]), .I4(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram [2]), .I5(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_0 [2]), .O(doutb[2])); LUT6 #( .INIT(64'h02FF020F02F00200)) \doutb[3]_INST_0 (.I0(DOBDO[3]), .I1(sel_pipe_d1[0]), .I2(sel_pipe_d1[1]), .I3(sel_pipe_d1[2]), .I4(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram [3]), .I5(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_0 [3]), .O(doutb[3])); LUT6 #( .INIT(64'h02FF020F02F00200)) \doutb[4]_INST_0 (.I0(DOBDO[4]), .I1(sel_pipe_d1[0]), .I2(sel_pipe_d1[1]), .I3(sel_pipe_d1[2]), .I4(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram [4]), .I5(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_0 [4]), .O(doutb[4])); LUT6 #( .INIT(64'h02FF020F02F00200)) \doutb[5]_INST_0 (.I0(DOBDO[5]), .I1(sel_pipe_d1[0]), .I2(sel_pipe_d1[1]), .I3(sel_pipe_d1[2]), .I4(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram [5]), .I5(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_0 [5]), .O(doutb[5])); LUT6 #( .INIT(64'h02FF020F02F00200)) \doutb[6]_INST_0 (.I0(DOBDO[6]), .I1(sel_pipe_d1[0]), .I2(sel_pipe_d1[1]), .I3(sel_pipe_d1[2]), .I4(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram [6]), .I5(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_0 [6]), .O(doutb[6])); LUT6 #( .INIT(64'h02FF020F02F00200)) \doutb[7]_INST_0 (.I0(DOBDO[7]), .I1(sel_pipe_d1[0]), .I2(sel_pipe_d1[1]), .I3(sel_pipe_d1[2]), .I4(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram [7]), .I5(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_0 [7]), .O(doutb[7])); FDRE #( .INIT(1'b0)) \no_softecc_norm_sel2.has_mem_regs.WITHOUT_ECC_PIPE.ce_pri.sel_pipe_d1_reg[0] (.C(clkb), .CE(1'b1), .D(\no_softecc_sel_reg.ce_pri.sel_pipe_reg_n_0_[0] ), .Q(sel_pipe_d1[0]), .R(1'b0)); FDRE #( .INIT(1'b0)) \no_softecc_norm_sel2.has_mem_regs.WITHOUT_ECC_PIPE.ce_pri.sel_pipe_d1_reg[1] (.C(clkb), .CE(1'b1), .D(\no_softecc_sel_reg.ce_pri.sel_pipe_reg_n_0_[1] ), .Q(sel_pipe_d1[1]), .R(1'b0)); FDRE #( .INIT(1'b0)) \no_softecc_norm_sel2.has_mem_regs.WITHOUT_ECC_PIPE.ce_pri.sel_pipe_d1_reg[2] (.C(clkb), .CE(1'b1), .D(\no_softecc_sel_reg.ce_pri.sel_pipe_reg_n_0_[2] ), .Q(sel_pipe_d1[2]), .R(1'b0)); FDRE #( .INIT(1'b0)) \no_softecc_sel_reg.ce_pri.sel_pipe_reg[0] (.C(clkb), .CE(1'b1), .D(addrb[0]), .Q(\no_softecc_sel_reg.ce_pri.sel_pipe_reg_n_0_[0] ), .R(1'b0)); FDRE #( .INIT(1'b0)) \no_softecc_sel_reg.ce_pri.sel_pipe_reg[1] (.C(clkb), .CE(1'b1), .D(addrb[1]), .Q(\no_softecc_sel_reg.ce_pri.sel_pipe_reg_n_0_[1] ), .R(1'b0)); FDRE #( .INIT(1'b0)) \no_softecc_sel_reg.ce_pri.sel_pipe_reg[2] (.C(clkb), .CE(1'b1), .D(addrb[2]), .Q(\no_softecc_sel_reg.ce_pri.sel_pipe_reg_n_0_[2] ), .R(1'b0)); endmodule
module FrameBuffer_blk_mem_gen_prim_width (\douta[7] , \doutb[7] , clka, clkb, addra, addrb, dina, dinb, wea, web, ena); output [7:0]\douta[7] ; output [7:0]\doutb[7] ; input clka; input clkb; input [13:0]addra; input [13:0]addrb; input [7:0]dina; input [7:0]dinb; input [0:0]wea; input [0:0]web; input ena; wire [13:0]addra; wire [13:0]addrb; wire clka; wire clkb; wire [7:0]dina; wire [7:0]dinb; wire [7:0]\douta[7] ; wire [7:0]\doutb[7] ; wire ena; wire [0:0]wea; wire [0:0]web; FrameBuffer_blk_mem_gen_prim_wrapper_init \prim_init.ram (.addra(addra), .addrb(addrb), .clka(clka), .clkb(clkb), .dina(dina), .dinb(dinb), .\douta[7] (\douta[7] ), .\doutb[7] (\doutb[7] ), .ena(ena), .wea(wea), .web(web)); endmodule
module FrameBuffer_blk_mem_gen_prim_width__parameterized0 (\douta[7] , \doutb[7] , clka, clkb, addra, addrb, dina, dinb, wea, web, ena); output [7:0]\douta[7] ; output [7:0]\doutb[7] ; input clka; input clkb; input [13:0]addra; input [13:0]addrb; input [7:0]dina; input [7:0]dinb; input [0:0]wea; input [0:0]web; input ena; wire [13:0]addra; wire [13:0]addrb; wire clka; wire clkb; wire [7:0]dina; wire [7:0]dinb; wire [7:0]\douta[7] ; wire [7:0]\doutb[7] ; wire ena; wire [0:0]wea; wire [0:0]web; FrameBuffer_blk_mem_gen_prim_wrapper_init__parameterized0 \prim_init.ram (.addra(addra), .addrb(addrb), .clka(clka), .clkb(clkb), .dina(dina), .dinb(dinb), .\douta[7] (\douta[7] ), .\doutb[7] (\doutb[7] ), .ena(ena), .wea(wea), .web(web)); endmodule
module FrameBuffer_blk_mem_gen_prim_width__parameterized1 (DOADO, DOBDO, clka, clkb, addra, addrb, dina, dinb, wea, web, ena); output [7:0]DOADO; output [7:0]DOBDO; input clka; input clkb; input [13:0]addra; input [13:0]addrb; input [7:0]dina; input [7:0]dinb; input [0:0]wea; input [0:0]web; input ena; wire [7:0]DOADO; wire [7:0]DOBDO; wire [13:0]addra; wire [13:0]addrb; wire clka; wire clkb; wire [7:0]dina; wire [7:0]dinb; wire ena; wire [0:0]wea; wire [0:0]web; FrameBuffer_blk_mem_gen_prim_wrapper_init__parameterized1 \prim_init.ram (.DOADO(DOADO), .DOBDO(DOBDO), .addra(addra), .addrb(addrb), .clka(clka), .clkb(clkb), .dina(dina), .dinb(dinb), .ena(ena), .wea(wea), .web(web)); endmodule
module FrameBuffer_blk_mem_gen_prim_wrapper_init (\douta[7] , \doutb[7] , clka, clkb, addra, addrb, dina, dinb, wea, web, ena); output [7:0]\douta[7] ; output [7:0]\doutb[7] ; input clka; input clkb; input [13:0]addra; input [13:0]addrb; input [7:0]dina; input [7:0]dinb; input [0:0]wea; input [0:0]web; input ena; wire \DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_i_1_n_0 ; wire \DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_i_2_n_0 ; wire \DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_n_88 ; wire \DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_n_92 ; wire [13:0]addra; wire [13:0]addrb; wire clka; wire clkb; wire [7:0]dina; wire [7:0]dinb; wire [7:0]\douta[7] ; wire [7:0]\doutb[7] ; wire ena; wire [0:0]wea; wire [0:0]web; wire \NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_CASCADEOUTA_UNCONNECTED ; wire \NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_CASCADEOUTB_UNCONNECTED ; wire \NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_DBITERR_UNCONNECTED ; wire \NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_SBITERR_UNCONNECTED ; wire [31:8]\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_DOADO_UNCONNECTED ; wire [31:8]\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_DOBDO_UNCONNECTED ; wire [3:1]\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_DOPADOP_UNCONNECTED ; wire [3:1]\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_DOPBDOP_UNCONNECTED ; wire [7:0]\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_ECCPARITY_UNCONNECTED ; wire [8:0]\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_RDADDRECC_UNCONNECTED ; (* CLOCK_DOMAINS = "INDEPENDENT" ) ( box_type = "PRIMITIVE" *) RAMB36E1 #( .DOA_REG(0), .DOB_REG(1), .EN_ECC_READ("FALSE"), .EN_ECC_WRITE("FALSE"), .INITP_00(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_01(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_02(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_03(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_04(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_05(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_06(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_07(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_08(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_09(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_0A(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_0B(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_0C(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_0D(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_0E(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_0F(256'h0000000000000000000000000000000000000000000000000000000000000000), .INIT_00(256'h2020202020202020202020202020202020202020202020202020202020202B80), .INIT_01(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_02(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_03(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_04(256'h802B202020202020202020202020202020202020202020202020202020202020), .INIT_05(256'h4646464646464646464646464646464646464620202020202020202020202B2B), .INIT_06(256'h4720202020202020202020205050505050505050505050505050505050464646), .INIT_07(256'h2020414141202020202020202020202020202020474747474747474747474747), .INIT_08(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_09(256'h2B2B202020202020202020202047474747474747474747474747202020202020), .INIT_0A(256'h3A3A3A3A3A3A3A3A3A3A3A3A3A3A3A3A3A3A4620202020202020202020202020), .INIT_0B(256'h3A47474720202020202020503A3A3A3A3A3A3A3A3A3A3A3A3A3A3A3A50463A3A), .INIT_0C(256'h20413A3A3A412020202020202020202020202020473A3A3A3A3A3A3A3A3A3A3A), .INIT_0D(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_0E(256'h20202020202020202020202020473A3A3A3A3A3A3A3A3A3A3A3A474747202020), .INIT_0F(256'h3A3A3A3A3A3A3A3A3A3A3A3A3A3A3A3A3A3A4620202020202020202020202020), .INIT_10(256'h3A3A3A3A474720202020503A3A3A3A3A5050505050503A3A3A3A3A3A50463A3A), .INIT_11(256'h413A3A3A3A3A4120202020202020202020202020473A3A3A3A3A3A3A3A3A3A3A), .INIT_12(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_13(256'h20202020202020202020202020473A3A3A3A3A3A3A3A3A3A3A3A3A3A3A474720), .INIT_14(256'h3A3A4646464646464646463A3A3A3A3A3A464620202020202020202020202020), .INIT_15(256'h473A3A3A3A3A472020503A3A3A3A3A502020202020503A3A3A3A3A5050463A3A), .INIT_16(256'h3A3A3A3A3A3A3A41202020202020202020202020473A3A3A3A47474747474747), .INIT_17(256'h2020202020202020202020202020202020202020202020202020202020202041), .INIT_18(256'h20202020202020202020202020473A3A3A3A47474747474747473A3A3A3A3A47), .INIT_19(256'h46464620202020202020463A3A3A3A3A46202020202020202020202020202020), .INIT_1A(256'h20473A3A3A3A3A4720503A3A3A3A3A502020202020503A3A3A3A502020464646), .INIT_1B(256'h3A3A3A3A3A3A3A3A412020202020202020202020474747474747202020202020), .INIT_1C(256'h472020202020202020202020202020202020202020202020202020202020413A), .INIT_1D(256'h2020202020202020202020202047474747474720202020202020473A3A3A3A3A), .INIT_1E(256'h20202020202020202020463A3A3A3A3A46202020202020202020202020202020), .INIT_1F(256'h2020473A3A3A3A3A47503A3A3A3A3A502020202020503A3A3A3A502020202020), .INIT_20(256'h3A3A3A413A3A3A3A3A4120202020202020202020202020202020202020202020), .INIT_21(256'h3A47202020202020202020202020202020202020202020202020202020413A3A), .INIT_22(256'h202020202020202020202020202020202020202020202020202020473A3A3A3A), .INIT_23(256'h464646464646464646463A3A3A3A3A3A46202020202020202020202020202020), .INIT_24(256'h2020473A3A3A3A3A4720503A3A3A3A3A5050505050503A3A3A3A502020202020), .INIT_25(256'h3A3A4120413A3A3A3A3A41202020202020202020202020202020202020202020), .INIT_26(256'h3A472020202020202020202020202020202020202020202020202020413A3A3A), .INIT_27(256'h202020202020202020202020202020202020202020202020202020473A3A3A3A), .INIT_28(256'h463A3A3A3A3A3A3A3A3A3A3A3A3A3A3A46202020202020202020202020202020), .INIT_29(256'h2020473A3A3A3A3A47202050503A3A3A3A3A3A3A3A3A3A3A3A3A502020202020), .INIT_2A(256'h3A41202020413A3A3A3A3A412020202020202020474747474747474747472020), .INIT_2B(256'h3A47202D2D2D2D2D2D2D2D2D2D2D2D2D2D2D202020202020202020413A3A3A3A), .INIT_2C(256'h202020202020202020202020204747474747474747474720202020473A3A3A3A), .INIT_2D(256'h463A3A3A3A3A3A3A3A3A3A3A3A3A3A3A46202020202020202020202020202020), .INIT_2E(256'h2020473A3A3A3A3A47202020205050505050505050503A3A3A3A502020202020), .INIT_2F(256'h412020202020413A3A3A3A3A4120202020202020473A3A3A3A3A3A3A3A472020), .INIT_30(256'h3A47202D3A3A3A3A3A3A3A3A3A3A3A3A3A2D2020202020202020413A3A3A3A3A), .INIT_31(256'h20202020202020202020202020473A3A3A3A3A3A3A3A4720202020473A3A3A3A), .INIT_32(256'h464646464646464646463A3A3A3A3A3A46202020202020202020202020202020), .INIT_33(256'h2020473A3A3A3A3A47202020202020202020202020503A3A3A3A502020202020), .INIT_34(256'h41414141414141413A3A3A3A3A41202020202020473A3A3A3A47474747472020), .INIT_35(256'h3A47202D2D2D2D2D2D2D2D2D2D2D2D2D2D2D20202020202020413A3A3A3A3A41), .INIT_36(256'h20202020202020202020202020473A3A3A3A474747474720202020473A3A3A3A), .INIT_37(256'h20202020202020202020463A3A3A3A3A46202020202020202020202020202020), .INIT_38(256'h2020473A3A3A3A3A47202020202020202020202020503A3A3A3A502020202020), .INIT_39(256'h3A3A3A3A3A3A3A3A3A3A3A3A3A3A412020202020473A3A3A3A47202020202020), .INIT_3A(256'h3A4720202020202020202020202020202020202020202020413A3A3A3A3A3A3A), .INIT_3B(256'h20202020202020202020202020473A3A3A3A472020202020202020473A3A3A3A), .INIT_3C(256'h20202020202020202020463A3A3A3A3A46202020202020202020202020202020), .INIT_3D(256'h20473A3A3A3A3A4720202020202020202020202020503A3A3A3A502020202020), .INIT_3E(256'h414141414141414141413A3A3A3A3A4120202020473A3A3A3A47202020202020), .INIT_3F(256'h4720202020202020202020202020202020202020202020413A3A3A3A3A414141), .INIT_40(256'h20202020202020202020202020473A3A3A3A4720202020202020473A3A3A3A3A), .INIT_41(256'h202020202020202046463A3A3A3A3A3A3A464620202020202020202020202020), .INIT_42(256'h473A3A3A3A3A4720202020202020202020202050503A3A3A3A3A3A5050202020), .INIT_43(256'h20202020202020202020413A3A3A3A3A41202020473A3A3A3A47474747474747), .INIT_44(256'h20202020202020202020202020202020202020202020413A3A3A3A3A41202020), .INIT_45(256'h20202020202020202020202020473A3A3A3A47474747474747473A3A3A3A3A47), .INIT_46(256'h202020202020202046463A3A3A3A3A3A3A3A4620202020202020202020202020), .INIT_47(256'h3A3A3A3A474720202020202020202020202020503A3A3A3A3A3A3A3A50202020), .INIT_48(256'h2020202020202020202020413A3A3A3A3A412020473A3A3A3A3A3A3A3A3A3A3A), .INIT_49(256'h202020202020202020202020202020202020202020413A3A3A3A3A4120202020), .INIT_4A(256'h20202020202020202020202020473A3A3A3A3A3A3A3A3A3A3A3A3A3A3A474720), .INIT_4B(256'h202020202020202046463A3A3A3A3A3A3A3A4620202020202020202020202020), .INIT_4C(256'h3A474747202020202020202020202020202020503A3A3A3A3A3A3A3A50202020), .INIT_4D(256'h202020202020202020202020413A3A3A3A3A4120473A3A3A4747473A3A3A3A3A), .INIT_4E(256'h2020202020202020202020202020202020202020413A3A3A3A3A412020202020), .INIT_4F(256'h20202020202020202020202020473A3A3A4747473A3A3A3A3A3A474747202020), .INIT_50(256'h2020202020202020464646464646464646464620202020202020202020202020), .INIT_51(256'h4720202020202020202020202020202020202050505050505050505050202020), .INIT_52(256'h2020202020202020202020202041414141414141474747472020204747474747), .INIT_53(256'h2020202020202020202020202020202020202041414141414141202020202020), .INIT_54(256'h2020202020202020202020202047474747202020474747474747202020202020), .INIT_55(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_56(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_57(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_58(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_59(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_5A(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_5B(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_5C(256'h6F6E6973616320696E696D206465736162204C444856202F2041475046206E41), .INIT_5D(256'h202020202020202020202020202020202020202020202020202020202020202E), .INIT_5E(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_5F(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_60(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_61(256'h20217475706E69207478657420726F662064616F6279656B2061206573552020), .INIT_62(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_63(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_64(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_65(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_66(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_67(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_68(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_69(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_6A(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_6B(256'h202020203A656B696C206427756F7920656D61672061206B6369502020202020), .INIT_6C(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_6D(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_6E(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_6F(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_70(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_71(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_72(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_73(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_74(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_75(256'h2020202020202020202020657474656C756F5220202020202020202020202020), .INIT_76(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_77(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_78(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_79(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_7A(256'h2020202020202020207265776F6C207265686769482020202020202020202020), .INIT_7B(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_7C(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_7D(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_7E(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_7F(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_A(36'h000000000), .INIT_B(36'h000000000), .INIT_FILE("NONE"), .IS_CLKARDCLK_INVERTED(1'b0), .IS_CLKBWRCLK_INVERTED(1'b0), .IS_ENARDEN_INVERTED(1'b0), .IS_ENBWREN_INVERTED(1'b0), .IS_RSTRAMARSTRAM_INVERTED(1'b0), .IS_RSTRAMB_INVERTED(1'b0), .IS_RSTREGARSTREG_INVERTED(1'b0), .IS_RSTREGB_INVERTED(1'b0), .RAM_EXTENSION_A("NONE"), .RAM_EXTENSION_B("NONE"), .RAM_MODE("TDP"), .RDADDR_COLLISION_HWCONFIG("DELAYED_WRITE"), .READ_WIDTH_A(9), .READ_WIDTH_B(9), .RSTREG_PRIORITY_A("REGCE"), .RSTREG_PRIORITY_B("REGCE"), .SIM_COLLISION_CHECK("ALL"), .SIM_DEVICE("7SERIES"), .SRVAL_A(36'h000000000), .SRVAL_B(36'h000000000), .WRITE_MODE_A("WRITE_FIRST"), .WRITE_MODE_B("WRITE_FIRST"), .WRITE_WIDTH_A(9), .WRITE_WIDTH_B(9)) \DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram (.ADDRARDADDR({1'b1,addra[11:0],1'b1,1'b1,1'b1}), .ADDRBWRADDR({1'b1,addrb[11:0],1'b1,1'b1,1'b1}), .CASCADEINA(1'b0), .CASCADEINB(1'b0), .CASCADEOUTA(\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_CASCADEOUTA_UNCONNECTED ), .CASCADEOUTB(\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_CASCADEOUTB_UNCONNECTED ), .CLKARDCLK(clka), .CLKBWRCLK(clkb), .DBITERR(\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_DBITERR_UNCONNECTED ), .DIADI({1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,dina}), .DIBDI({1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,dinb}), .DIPADIP({1'b0,1'b0,1'b0,1'b0}), .DIPBDIP({1'b0,1'b0,1'b0,1'b0}), .DOADO({\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_DOADO_UNCONNECTED [31:8],\douta[7] }), .DOBDO({\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_DOBDO_UNCONNECTED [31:8],\doutb[7] }), .DOPADOP({\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_DOPADOP_UNCONNECTED [3:1],\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_n_88 }), .DOPBDOP({\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_DOPBDOP_UNCONNECTED [3:1],\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_n_92 }), .ECCPARITY(\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_ECCPARITY_UNCONNECTED [7:0]), .ENARDEN(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_i_1_n_0 ), .ENBWREN(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_i_2_n_0 ), .INJECTDBITERR(1'b0), .INJECTSBITERR(1'b0), .RDADDRECC(\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_RDADDRECC_UNCONNECTED [8:0]), .REGCEAREGCE(1'b0), .REGCEB(1'b1), .RSTRAMARSTRAM(1'b0), .RSTRAMB(1'b0), .RSTREGARSTREG(1'b0), .RSTREGB(1'b0), .SBITERR(\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_SBITERR_UNCONNECTED ), .WEA({wea,wea,wea,wea}), .WEBWE({1'b0,1'b0,1'b0,1'b0,web,web,web,web})); LUT3 #( .INIT(8'h02)) \DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_i_1 (.I0(ena), .I1(addra[12]), .I2(addra[13]), .O(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_i_1_n_0 )); LUT2 #( .INIT(4'h1)) \DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_i_2 (.I0(addrb[12]), .I1(addrb[13]), .O(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_i_2_n_0 )); endmodule
module FrameBuffer_blk_mem_gen_prim_wrapper_init__parameterized0 (\douta[7] , \doutb[7] , clka, clkb, addra, addrb, dina, dinb, wea, web, ena); output [7:0]\douta[7] ; output [7:0]\doutb[7] ; input clka; input clkb; input [13:0]addra; input [13:0]addrb; input [7:0]dina; input [7:0]dinb; input [0:0]wea; input [0:0]web; input ena; wire \DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_i_1__0_n_0 ; wire \DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_i_2__0_n_0 ; wire \DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_n_88 ; wire \DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_n_92 ; wire [13:0]addra; wire [13:0]addrb; wire clka; wire clkb; wire [7:0]dina; wire [7:0]dinb; wire [7:0]\douta[7] ; wire [7:0]\doutb[7] ; wire ena; wire [0:0]wea; wire [0:0]web; wire \NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_CASCADEOUTA_UNCONNECTED ; wire \NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_CASCADEOUTB_UNCONNECTED ; wire \NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_DBITERR_UNCONNECTED ; wire \NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_SBITERR_UNCONNECTED ; wire [31:8]\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_DOADO_UNCONNECTED ; wire [31:8]\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_DOBDO_UNCONNECTED ; wire [3:1]\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_DOPADOP_UNCONNECTED ; wire [3:1]\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_DOPBDOP_UNCONNECTED ; wire [7:0]\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_ECCPARITY_UNCONNECTED ; wire [8:0]\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_RDADDRECC_UNCONNECTED ; (* CLOCK_DOMAINS = "INDEPENDENT" ) ( box_type = "PRIMITIVE" *) RAMB36E1 #( .DOA_REG(0), .DOB_REG(1), .EN_ECC_READ("FALSE"), .EN_ECC_WRITE("FALSE"), .INITP_00(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_01(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_02(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_03(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_04(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_05(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_06(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_07(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_08(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_09(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_0A(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_0B(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_0C(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_0D(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_0E(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_0F(256'h0000000000000000000000000000000000000000000000000000000000000000), .INIT_00(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_01(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_02(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_03(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_04(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_05(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_06(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_07(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_08(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_09(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_0A(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_0B(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_0C(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_0D(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_0E(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_0F(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_10(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_11(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_12(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_13(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_14(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_15(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_16(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_17(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_18(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_19(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_1A(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_1B(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_1C(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_1D(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_1E(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_1F(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_20(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_21(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_22(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_23(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_24(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_25(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_26(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_27(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_28(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_29(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_2A(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_2B(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_2C(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_2D(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_2E(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_2F(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_30(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_31(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_32(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_33(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_34(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_35(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_36(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_37(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_38(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_39(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_3A(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_3B(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_3C(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_3D(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_3E(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_3F(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_40(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_41(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_42(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_43(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_44(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_45(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_46(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_47(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_48(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_49(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_4A(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_4B(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_4C(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_4D(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_4E(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_4F(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_50(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_51(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_52(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_53(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_54(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_55(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_56(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_57(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_58(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_59(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_5A(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_5B(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_5C(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_5D(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_5E(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_5F(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_60(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_61(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_62(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_63(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_64(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_65(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_66(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_67(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_68(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_69(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_6A(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_6B(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_6C(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_6D(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_6E(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_6F(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_70(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_71(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_72(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_73(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_74(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_75(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_76(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_77(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_78(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_79(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_7A(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_7B(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_7C(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_7D(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_7E(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_7F(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_A(36'h000000000), .INIT_B(36'h000000000), .INIT_FILE("NONE"), .IS_CLKARDCLK_INVERTED(1'b0), .IS_CLKBWRCLK_INVERTED(1'b0), .IS_ENARDEN_INVERTED(1'b0), .IS_ENBWREN_INVERTED(1'b0), .IS_RSTRAMARSTRAM_INVERTED(1'b0), .IS_RSTRAMB_INVERTED(1'b0), .IS_RSTREGARSTREG_INVERTED(1'b0), .IS_RSTREGB_INVERTED(1'b0), .RAM_EXTENSION_A("NONE"), .RAM_EXTENSION_B("NONE"), .RAM_MODE("TDP"), .RDADDR_COLLISION_HWCONFIG("DELAYED_WRITE"), .READ_WIDTH_A(9), .READ_WIDTH_B(9), .RSTREG_PRIORITY_A("REGCE"), .RSTREG_PRIORITY_B("REGCE"), .SIM_COLLISION_CHECK("ALL"), .SIM_DEVICE("7SERIES"), .SRVAL_A(36'h000000000), .SRVAL_B(36'h000000000), .WRITE_MODE_A("WRITE_FIRST"), .WRITE_MODE_B("WRITE_FIRST"), .WRITE_WIDTH_A(9), .WRITE_WIDTH_B(9)) \DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram (.ADDRARDADDR({1'b1,addra[11:0],1'b1,1'b1,1'b1}), .ADDRBWRADDR({1'b1,addrb[11:0],1'b1,1'b1,1'b1}), .CASCADEINA(1'b0), .CASCADEINB(1'b0), .CASCADEOUTA(\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_CASCADEOUTA_UNCONNECTED ), .CASCADEOUTB(\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_CASCADEOUTB_UNCONNECTED ), .CLKARDCLK(clka), .CLKBWRCLK(clkb), .DBITERR(\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_DBITERR_UNCONNECTED ), .DIADI({1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,dina}), .DIBDI({1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,dinb}), .DIPADIP({1'b0,1'b0,1'b0,1'b0}), .DIPBDIP({1'b0,1'b0,1'b0,1'b0}), .DOADO({\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_DOADO_UNCONNECTED [31:8],\douta[7] }), .DOBDO({\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_DOBDO_UNCONNECTED [31:8],\doutb[7] }), .DOPADOP({\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_DOPADOP_UNCONNECTED [3:1],\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_n_88 }), .DOPBDOP({\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_DOPBDOP_UNCONNECTED [3:1],\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_n_92 }), .ECCPARITY(\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_ECCPARITY_UNCONNECTED [7:0]), .ENARDEN(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_i_1__0_n_0 ), .ENBWREN(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_i_2__0_n_0 ), .INJECTDBITERR(1'b0), .INJECTSBITERR(1'b0), .RDADDRECC(\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_RDADDRECC_UNCONNECTED [8:0]), .REGCEAREGCE(1'b0), .REGCEB(1'b1), .RSTRAMARSTRAM(1'b0), .RSTRAMB(1'b0), .RSTREGARSTREG(1'b0), .RSTREGB(1'b0), .SBITERR(\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_SBITERR_UNCONNECTED ), .WEA({wea,wea,wea,wea}), .WEBWE({1'b0,1'b0,1'b0,1'b0,web,web,web,web})); LUT3 #( .INIT(8'h08)) \DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_i_1__0 (.I0(addra[12]), .I1(ena), .I2(addra[13]), .O(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_i_1__0_n_0 )); LUT2 #( .INIT(4'h4)) \DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_i_2__0 (.I0(addrb[13]), .I1(addrb[12]), .O(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_i_2__0_n_0 )); endmodule
module FrameBuffer_blk_mem_gen_prim_wrapper_init__parameterized1 (DOADO, DOBDO, clka, clkb, addra, addrb, dina, dinb, wea, web, ena); output [7:0]DOADO; output [7:0]DOBDO; input clka; input clkb; input [13:0]addra; input [13:0]addrb; input [7:0]dina; input [7:0]dinb; input [0:0]wea; input [0:0]web; input ena; wire \DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM18.ram_n_33 ; wire \DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM18.ram_n_35 ; wire [7:0]DOADO; wire [7:0]DOBDO; wire [13:0]addra; wire [13:0]addrb; wire clka; wire clkb; wire [7:0]dina; wire [7:0]dinb; wire ena; wire ram_ena; wire ram_enb; wire [0:0]wea; wire [0:0]web; wire [15:8]\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM18.ram_DOADO_UNCONNECTED ; wire [15:8]\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM18.ram_DOBDO_UNCONNECTED ; wire [1:1]\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM18.ram_DOPADOP_UNCONNECTED ; wire [1:1]\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM18.ram_DOPBDOP_UNCONNECTED ; (* CLOCK_DOMAINS = "INDEPENDENT" ) ( box_type = "PRIMITIVE" *) RAMB18E1 #( .DOA_REG(0), .DOB_REG(1), .INITP_00(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_01(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_02(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_03(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_04(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_05(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_06(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_07(256'h0000000000000000000000000000000000000000000000000000000000000000), .INIT_00(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_01(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_02(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_03(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_04(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_05(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_06(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_07(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_08(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_09(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_0A(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_0B(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_0C(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_0D(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_0E(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_0F(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_10(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_11(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_12(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_13(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_14(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_15(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_16(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_17(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_18(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_19(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_1A(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_1B(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_1C(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_1D(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_1E(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_1F(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_20(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_21(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_22(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_23(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_24(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_25(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_26(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_27(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_28(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_29(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_2A(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_2B(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_2C(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_2D(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_2E(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_2F(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_30(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_31(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_32(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_33(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_34(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_35(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_36(256'h2020202020202020202020202020202020202020202020202020202020202B2B), .INIT_37(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_38(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_39(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_3A(256'h2B2B202020202020202020202020202020202020202020202020202020202020), .INIT_3B(256'h2020202020202020202020202020202020202020202020202020202020202B80), .INIT_3C(256'h6867697279706F43202020202020202020202020202020202020202020202020), .INIT_3D(256'h656972642F2F3A707474683C2037303073656972442036313032202943282074), .INIT_3E(256'h20202020202020202020202020202020202020202020203E74656E2E37303073), .INIT_3F(256'h802B202020202020202020202020202020202020202020202020202020202020), .INIT_A(18'h00000), .INIT_B(18'h00000), .INIT_FILE("NONE"), .IS_CLKARDCLK_INVERTED(1'b0), .IS_CLKBWRCLK_INVERTED(1'b0), .IS_ENARDEN_INVERTED(1'b0), .IS_ENBWREN_INVERTED(1'b0), .IS_RSTRAMARSTRAM_INVERTED(1'b0), .IS_RSTRAMB_INVERTED(1'b0), .IS_RSTREGARSTREG_INVERTED(1'b0), .IS_RSTREGB_INVERTED(1'b0), .RAM_MODE("TDP"), .RDADDR_COLLISION_HWCONFIG("DELAYED_WRITE"), .READ_WIDTH_A(9), .READ_WIDTH_B(9), .RSTREG_PRIORITY_A("REGCE"), .RSTREG_PRIORITY_B("REGCE"), .SIM_COLLISION_CHECK("ALL"), .SIM_DEVICE("7SERIES"), .SRVAL_A(18'h00000), .SRVAL_B(18'h00000), .WRITE_MODE_A("WRITE_FIRST"), .WRITE_MODE_B("WRITE_FIRST"), .WRITE_WIDTH_A(9), .WRITE_WIDTH_B(9)) \DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM18.ram (.ADDRARDADDR({addra[10:0],1'b0,1'b0,1'b0}), .ADDRBWRADDR({addrb[10:0],1'b0,1'b0,1'b0}), .CLKARDCLK(clka), .CLKBWRCLK(clkb), .DIADI({1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,dina}), .DIBDI({1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,dinb}), .DIPADIP({1'b0,1'b0}), .DIPBDIP({1'b0,1'b0}), .DOADO({\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM18.ram_DOADO_UNCONNECTED [15:8],DOADO}), .DOBDO({\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM18.ram_DOBDO_UNCONNECTED [15:8],DOBDO}), .DOPADOP({\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM18.ram_DOPADOP_UNCONNECTED [1],\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM18.ram_n_33 }), .DOPBDOP({\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM18.ram_DOPBDOP_UNCONNECTED [1],\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM18.ram_n_35 }), .ENARDEN(ram_ena), .ENBWREN(ram_enb), .REGCEAREGCE(1'b0), .REGCEB(1'b1), .RSTRAMARSTRAM(1'b0), .RSTRAMB(1'b0), .RSTREGARSTREG(1'b0), .RSTREGB(1'b0), .WEA({wea,wea}), .WEBWE({1'b0,1'b0,web,web})); LUT4 #( .INIT(16'h1000)) \DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM18.ram_i_1 (.I0(addra[12]), .I1(addra[11]), .I2(addra[13]), .I3(ena), .O(ram_ena)); LUT3 #( .INIT(8'h04)) \DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM18.ram_i_2 (.I0(addrb[11]), .I1(addrb[13]), .I2(addrb[12]), .O(ram_enb)); endmodule
module FrameBuffer_blk_mem_gen_top (doutb, douta, clka, clkb, addra, addrb, dina, dinb, wea, web, ena); output [7:0]doutb; output [7:0]douta; input clka; input clkb; input [13:0]addra; input [13:0]addrb; input [7:0]dina; input [7:0]dinb; input [0:0]wea; input [0:0]web; input ena; wire [13:0]addra; wire [13:0]addrb; wire clka; wire clkb; wire [7:0]dina; wire [7:0]dinb; wire [7:0]douta; wire [7:0]doutb; wire ena; wire [0:0]wea; wire [0:0]web; FrameBuffer_blk_mem_gen_generic_cstr \valid.cstr (.addra(addra), .addrb(addrb), .clka(clka), .clkb(clkb), .dina(dina), .dinb(dinb), .douta(douta), .doutb(doutb), .ena(ena), .wea(wea), .web(web)); endmodule
module FrameBuffer_blk_mem_gen_v8_3_1 (clka, rsta, ena, regcea, wea, addra, dina, douta, clkb, rstb, enb, regceb, web, addrb, dinb, doutb, injectsbiterr, injectdbiterr, eccpipece, sbiterr, dbiterr, rdaddrecc, sleep, deepsleep, shutdown, rsta_busy, rstb_busy, s_aclk, s_aresetn, s_axi_awid, s_axi_awaddr, s_axi_awlen, s_axi_awsize, s_axi_awburst, s_axi_awvalid, s_axi_awready, s_axi_wdata, s_axi_wstrb, s_axi_wlast, s_axi_wvalid, s_axi_wready, s_axi_bid, s_axi_bresp, s_axi_bvalid, s_axi_bready, s_axi_arid, s_axi_araddr, s_axi_arlen, s_axi_arsize, s_axi_arburst, s_axi_arvalid, s_axi_arready, s_axi_rid, s_axi_rdata, s_axi_rresp, s_axi_rlast, s_axi_rvalid, s_axi_rready, s_axi_injectsbiterr, s_axi_injectdbiterr, s_axi_sbiterr, s_axi_dbiterr, s_axi_rdaddrecc); input clka; input rsta; input ena; input regcea; input [0:0]wea; input [13:0]addra; input [7:0]dina; output [7:0]douta; input clkb; input rstb; input enb; input regceb; input [0:0]web; input [13:0]addrb; input [7:0]dinb; output [7:0]doutb; input injectsbiterr; input injectdbiterr; input eccpipece; output sbiterr; output dbiterr; output [13:0]rdaddrecc; input sleep; input deepsleep; input shutdown; output rsta_busy; output rstb_busy; input s_aclk; input s_aresetn; input [3:0]s_axi_awid; input [31:0]s_axi_awaddr; input [7:0]s_axi_awlen; input [2:0]s_axi_awsize; input [1:0]s_axi_awburst; input s_axi_awvalid; output s_axi_awready; input [7:0]s_axi_wdata; input [0:0]s_axi_wstrb; input s_axi_wlast; input s_axi_wvalid; output s_axi_wready; output [3:0]s_axi_bid; output [1:0]s_axi_bresp; output s_axi_bvalid; input s_axi_bready; input [3:0]s_axi_arid; input [31:0]s_axi_araddr; input [7:0]s_axi_arlen; input [2:0]s_axi_arsize; input [1:0]s_axi_arburst; input s_axi_arvalid; output s_axi_arready; output [3:0]s_axi_rid; output [7:0]s_axi_rdata; output [1:0]s_axi_rresp; output s_axi_rlast; output s_axi_rvalid; input s_axi_rready; input s_axi_injectsbiterr; input s_axi_injectdbiterr; output s_axi_sbiterr; output s_axi_dbiterr; output [13:0]s_axi_rdaddrecc; wire \<const0> ; wire [13:0]addra; wire [13:0]addrb; wire clka; wire clkb; wire [7:0]dina; wire [7:0]dinb; wire [7:0]douta; wire [7:0]doutb; wire eccpipece; wire ena; wire enb; wire injectdbiterr; wire injectsbiterr; wire regcea; wire regceb; wire rsta; wire rstb; wire s_aclk; wire s_aresetn; wire [31:0]s_axi_araddr; wire [1:0]s_axi_arburst; wire [3:0]s_axi_arid; wire [7:0]s_axi_arlen; wire [2:0]s_axi_arsize; wire s_axi_arvalid; wire [31:0]s_axi_awaddr; wire [1:0]s_axi_awburst; wire [3:0]s_axi_awid; wire [7:0]s_axi_awlen; wire [2:0]s_axi_awsize; wire s_axi_awvalid; wire s_axi_bready; wire s_axi_injectdbiterr; wire s_axi_injectsbiterr; wire s_axi_rready; wire [7:0]s_axi_wdata; wire s_axi_wlast; wire [0:0]s_axi_wstrb; wire s_axi_wvalid; wire sleep; wire [0:0]wea; wire [0:0]web; assign dbiterr = \<const0> ; assign rdaddrecc[13] = \<const0> ; assign rdaddrecc[12] = \<const0> ; assign rdaddrecc[11] = \<const0> ; assign rdaddrecc[10] = \<const0> ; assign rdaddrecc[9] = \<const0> ; assign rdaddrecc[8] = \<const0> ; assign rdaddrecc[7] = \<const0> ; assign rdaddrecc[6] = \<const0> ; assign rdaddrecc[5] = \<const0> ; assign rdaddrecc[4] = \<const0> ; assign rdaddrecc[3] = \<const0> ; assign rdaddrecc[2] = \<const0> ; assign rdaddrecc[1] = \<const0> ; assign rdaddrecc[0] = \<const0> ; assign rsta_busy = \<const0> ; assign rstb_busy = \<const0> ; assign s_axi_arready = \<const0> ; assign s_axi_awready = \<const0> ; assign s_axi_bid[3] = \<const0> ; assign s_axi_bid[2] = \<const0> ; assign s_axi_bid[1] = \<const0> ; assign s_axi_bid[0] = \<const0> ; assign s_axi_bresp[1] = \<const0> ; assign s_axi_bresp[0] = \<const0> ; assign s_axi_bvalid = \<const0> ; assign s_axi_dbiterr = \<const0> ; assign s_axi_rdaddrecc[13] = \<const0> ; assign s_axi_rdaddrecc[12] = \<const0> ; assign s_axi_rdaddrecc[11] = \<const0> ; assign s_axi_rdaddrecc[10] = \<const0> ; assign s_axi_rdaddrecc[9] = \<const0> ; assign s_axi_rdaddrecc[8] = \<const0> ; assign s_axi_rdaddrecc[7] = \<const0> ; assign s_axi_rdaddrecc[6] = \<const0> ; assign s_axi_rdaddrecc[5] = \<const0> ; assign s_axi_rdaddrecc[4] = \<const0> ; assign s_axi_rdaddrecc[3] = \<const0> ; assign s_axi_rdaddrecc[2] = \<const0> ; assign s_axi_rdaddrecc[1] = \<const0> ; assign s_axi_rdaddrecc[0] = \<const0> ; assign s_axi_rdata[7] = \<const0> ; assign s_axi_rdata[6] = \<const0> ; assign s_axi_rdata[5] = \<const0> ; assign s_axi_rdata[4] = \<const0> ; assign s_axi_rdata[3] = \<const0> ; assign s_axi_rdata[2] = \<const0> ; assign s_axi_rdata[1] = \<const0> ; assign s_axi_rdata[0] = \<const0> ; assign s_axi_rid[3] = \<const0> ; assign s_axi_rid[2] = \<const0> ; assign s_axi_rid[1] = \<const0> ; assign s_axi_rid[0] = \<const0> ; assign s_axi_rlast = \<const0> ; assign s_axi_rresp[1] = \<const0> ; assign s_axi_rresp[0] = \<const0> ; assign s_axi_rvalid = \<const0> ; assign s_axi_sbiterr = \<const0> ; assign s_axi_wready = \<const0> ; assign sbiterr = \<const0> ; GND GND (.G(\<const0> )); FrameBuffer_blk_mem_gen_v8_3_1_synth inst_blk_mem_gen (.addra(addra), .addrb(addrb), .clka(clka), .clkb(clkb), .dina(dina), .dinb(dinb), .douta(douta), .doutb(doutb), .ena(ena), .wea(wea), .web(web)); endmodule
module FrameBuffer_blk_mem_gen_v8_3_1_synth (doutb, douta, clka, clkb, addra, addrb, dina, dinb, wea, web, ena); output [7:0]doutb; output [7:0]douta; input clka; input clkb; input [13:0]addra; input [13:0]addrb; input [7:0]dina; input [7:0]dinb; input [0:0]wea; input [0:0]web; input ena; wire [13:0]addra; wire [13:0]addrb; wire clka; wire clkb; wire [7:0]dina; wire [7:0]dinb; wire [7:0]douta; wire [7:0]doutb; wire ena; wire [0:0]wea; wire [0:0]web; FrameBuffer_blk_mem_gen_top \gnativebmg.native_blk_mem_gen (.addra(addra), .addrb(addrb), .clka(clka), .clkb(clkb), .dina(dina), .dinb(dinb), .douta(douta), .doutb(doutb), .ena(ena), .wea(wea), .web(web)); endmodule
module glbl (); parameter ROC_WIDTH = 100000; parameter TOC_WIDTH = 0; //-------- STARTUP Globals -------------- wire GSR; wire GTS; wire GWE; wire PRLD; tri1 p_up_tmp; tri (weak1, strong0) PLL_LOCKG = p_up_tmp; wire PROGB_GLBL; wire CCLKO_GLBL; wire FCSBO_GLBL; wire [3:0] DO_GLBL; wire [3:0] DI_GLBL; reg GSR_int; reg GTS_int; reg PRLD_int; //-------- JTAG Globals -------------- wire JTAG_TDO_GLBL; wire JTAG_TCK_GLBL; wire JTAG_TDI_GLBL; wire JTAG_TMS_GLBL; wire JTAG_TRST_GLBL; reg JTAG_CAPTURE_GLBL; reg JTAG_RESET_GLBL; reg JTAG_SHIFT_GLBL; reg JTAG_UPDATE_GLBL; reg JTAG_RUNTEST_GLBL; reg JTAG_SEL1_GLBL = 0; reg JTAG_SEL2_GLBL = 0 ; reg JTAG_SEL3_GLBL = 0; reg JTAG_SEL4_GLBL = 0; reg JTAG_USER_TDO1_GLBL = 1'bz; reg JTAG_USER_TDO2_GLBL = 1'bz; reg JTAG_USER_TDO3_GLBL = 1'bz; reg JTAG_USER_TDO4_GLBL = 1'bz; assign (weak1, weak0) GSR = GSR_int; assign (weak1, weak0) GTS = GTS_int; assign (weak1, weak0) PRLD = PRLD_int; initial begin GSR_int = 1'b1; PRLD_int = 1'b1; #(ROC_WIDTH) GSR_int = 1'b0; PRLD_int = 1'b0; end initial begin GTS_int = 1'b1; #(TOC_WIDTH) GTS_int = 1'b0; end endmodule
module outputs) wire [3:0] ANODE; // From dut of display_top.v wire [7:0] CATHODE; // From dut of display_top.v wire TX; // From dut of display_top.v // End of automatics /AUTOREG/ // // Free Running 100 MHz clock // reg CLK_IN = 0; initial begin forever begin #5 CLK_IN <= ~CLK_IN; end end // // Free Running 50 MHz Clock // reg clk_tb; parameter _clk_50mhz_high = 10, _clk_50mhz_low = 10, _clk_50mhz_period = _clk_50mhz_high + _clk_50mhz_low; initial begin clk_tb <= 'b0; forever begin #(_clk_50mhz_low) clk_tb = 1; #(_clk_50mhz_high) clk_tb = 0; end end // // Reset // reg RESET_IN = 0; initial begin #100 RESET_IN <= 1; #1000 RESET_IN <= 0; end // // Asynch. Reset to device // reg reset_tb; initial begin reset_tb = 0; #1 reset_tb = 1; #200 reset_tb = 0; end reg [31:0] read_word; display_top dut(/AUTOINST/ // Outputs .TX (TX), .ANODE (ANODE[3:0]), .CATHODE (CATHODE[7:0]), // Inputs .CLK_IN (CLK_IN), .RESET_IN (RESET_IN), .RX (RX)); /************************************************************************** UART 0 The WB UART16550 from opencores is used here to simulate a UART on the other end of the cable. It will allow us to send/receive characters to the NGMCU firmware *************************************************************************/ wire [31:0] uart0_adr; wire [31:0] uart0_dat_o; wire [31:0] uart0_dat_i; wire [3:0] uart0_sel; wire uart0_cyc; wire uart0_stb; wire uart0_we; wire uart0_ack; wire uart0_int; assign uart0_dat_o[31:8] = 'b0; uart_top uart0( .wb_clk_i(CLK_IN), .wb_rst_i(reset_tb), .wb_adr_i(uart0_adr[4:0]), .wb_dat_o(uart0_dat_o), .wb_dat_i(uart0_dat_i), .wb_sel_i(uart0_sel), .wb_cyc_i(uart0_cyc), .wb_stb_i(uart0_stb), .wb_we_i(uart0_we), .wb_ack_o(uart0_ack), .int_o(uart0_int), .stx_pad_o(RX), .srx_pad_i(TX), .rts_pad_o(), .cts_pad_i(1'b0), .dtr_pad_o(), .dsr_pad_i(1'b0), .ri_pad_i(1'b0), .dcd_pad_i(1'b0), .baud_o() ); wb_mast uart_master0( .clk (CLK_IN), .rst (reset_tb), .adr (uart0_adr), .din (uart0_dat_o), .dout(uart0_dat_i), .cyc (uart0_cyc), .stb (uart0_stb), .sel (uart0_sel), .we (uart0_we ), .ack (uart0_ack), .err (1'b0), .rty (1'b0) ); uart_tasks uart_tasks(); test_tools test_tools(); // // Test Case // initial begin @(posedge RESET_IN); $display("RESET: Asserted @ %d", $time); @(negedge RESET_IN); $display("RESET: De-Asserted @ %d", $time); repeat(100) @(posedge CLK_IN); `UART_CONFIG; `UART_WRITE_CHAR("3"); `UART_WRITE_CHAR("4"); `UART_WRITE_CHAR("5"); `UART_WRITE_CHAR("6"); `UART_WRITE_CHAR("7"); repeat(100)@(posedge clk_tb); `UART_READ_CHAR("3"); `UART_READ_CHAR("4"); `UART_READ_CHAR("5"); `UART_READ_CHAR("6"); `UART_READ_CHAR("7"); repeat(100) @(posedge CLK_IN); `TEST_PASSED = 1; end endmodule
module ADDER ( a, b, cin, sum, cout ); input wire a; input wire b; (* carry = "ADDER" ) input wire cin; ( DELAY_CONST_a = "300e-12" ) ( DELAY_CONST_b = "300e-12" ) ( DELAY_CONST_cin = "300e-12" ) output wire sum; ( carry = "ADDER" ) ( DELAY_CONST_a = "300e-12" ) ( DELAY_CONST_b = "300e-12" ) ( DELAY_CONST_cin = "10e-12" *) output wire cout; // Full adder combinational logic assign sum = a ^ b ^ cin; assign cout = ((a ^ b) & cin) \| (a & b); // Timing parameters, not supported by Yosys at the moment. `ifndef YOSYS `timescale 1ps/1ps specify specparam T1 300; specparam T2 10; // (input->output) min:typ:max (a => sum) = T1; (b => sum) = T1; (cin => sum) = T1; (a => cout) = T1; (b => cout) = T1; (cin => cout) = T2; endspecify `endif endmodule
module ovl_transition (clock, reset, enable, test_expr, start_state, next_state, fire); parameter severity_level = `OVL_SEVERITY_DEFAULT; parameter width = 1; parameter property_type = `OVL_PROPERTY_DEFAULT; parameter msg = `OVL_MSG_DEFAULT; parameter coverage_level = `OVL_COVER_DEFAULT; parameter clock_edge = `OVL_CLOCK_EDGE_DEFAULT; parameter reset_polarity = `OVL_RESET_POLARITY_DEFAULT; parameter gating_type = `OVL_GATING_TYPE_DEFAULT; input clock, reset, enable; input [width-1:0] test_expr, start_state, next_state; output [`OVL_FIRE_WIDTH-1:0] fire; // Parameters that should not be edited parameter assert_name = "OVL_TRANSITION"; `include "std_ovl_reset.h" `include "std_ovl_clock.h" `include "std_ovl_cover.h" `include "std_ovl_task.h" `include "std_ovl_init.h" `ifdef OVL_VERILOG `include "./vlog95/assert_transition_logic.v" assign fire = {fire_cover, fire_xcheck, fire_2state}; `endif `ifdef OVL_SVA `include "./sva05/assert_transition_logic.sv" assign fire = {`OVL_FIRE_WIDTH{1'b0}}; // Tied low in V2.3 `endif `ifdef OVL_PSL assign fire = {`OVL_FIRE_WIDTH{1'b0}}; // Tied low in V2.3 `include "./psl05/assert_transition_psl_logic.v" `else `endmodule
module step_id(inst, ena_, cond_dout, rdy_nop_, rdy_cpf_, rdy_cpt_, rdy_ld_, rdy_st_, rdy_clr_, rdy_im_, rdy_tce_, rdy_ts_, rdy_add_, rdy_sub_); input[7:0] inst; input ena_; input cond_dout; output rdy_nop_, rdy_cpf_, rdy_cpt_, rdy_ld_, rdy_st_, rdy_clr_, rdy_im_, rdy_tce_, rdy_ts_, rdy_add_, rdy_sub_; wire cond_ = inst[7] ^ cond_dout; wire[6:0] inst_cond = inst[6:0] & {7{~(cond_ \| ena_)}}; assign rdy_nop_ = inst_cond[6:0] != 7'b0000000 \|\| ena_; assign rdy_cpf_ = inst_cond[6:4] != 3'b010 \|\| inst_cond[3:0] == 4'b0000; assign rdy_cpt_ = inst_cond[6:4] != 3'b011 \|\| inst_cond[3:0] == 4'b0000; assign rdy_ld_ = {inst_cond[6:2], inst_cond[0]} != {5'b10001, 1'b0}; assign rdy_st_ = {inst_cond[6:2], inst_cond[0]} != {5'b10001, 1'b1}; assign rdy_clr_ = inst_cond != 7'b1010000; assign rdy_im_ = inst_cond[6:5] != 2'b11; assign rdy_tce_ = inst_cond != 7'b0001100; assign rdy_ts_ = {inst_cond[6], inst_cond[3:0]} != {1'b0, 4'b0000} \|\| inst_cond[5:4] == 2'b00; assign rdy_add_ = inst_cond != 7'b1010110; assign rdy_sub_ = inst_cond != 7'b1010111; endmodule
module bclk_dll_tb (); // Clock to Q delay of 100ps localparam TCQ = 100; // timescale is 1ps/1ps localparam ONE_NS = 1000; localparam PHASE_ERR_MARGIN = 100; // 100ps // how many cycles to run localparam COUNT_PHASE = 1024; // we'll be using the period in many locations localparam time PER1 = 7.518ONE_NS; localparam time PER1_1 = PER1/2; localparam time PER1_2 = PER1 - PER1/2; // Declare the input clock signals reg CLK_IN1 = 1; // The high bit of the sampling counter wire COUNT; // Status and control signals reg RESET = 0; wire LOCKED; reg COUNTER_RESET = 0; wire [1:1] CLK_OUT; //Freq Check using the M & D values setting and actual Frequency generated // Input clock generation //------------------------------------ always begin CLK_IN1 = #PER1_1 ~CLK_IN1; CLK_IN1 = #PER1_2 ~CLK_IN1; end // Test sequence reg [158-1:0] test_phase = ""; initial begin // Set up any display statements using time to be readable $timeformat(-12, 2, "ps", 10); COUNTER_RESET = 0; test_phase = "reset"; RESET = 1; #(PER16); RESET = 0; test_phase = "wait lock"; `wait_lock; #(PER16); COUNTER_RESET = 1; #(PER120) COUNTER_RESET = 0; test_phase = "counting"; #(PER1COUNT_PHASE); $display("SIMULATION PASSED"); $display("SYSTEM_CLOCK_COUNTER : %0d\n",$time/PER1); $finish; end // Instantiation of the example design containing the clock // network and sampling counters //--------------------------------------------------------- bclk_dll_exdes #( .TCQ (TCQ) ) dut (// Clock in ports .CLK_IN1 (CLK_IN1), // Reset for logic in example design .COUNTER_RESET (COUNTER_RESET), .CLK_OUT (CLK_OUT), // High bits of the counters .COUNT (COUNT), // Status and control signals .RESET (RESET), .LOCKED (LOCKED)); // Freq Check endmodule
module sky130_fd_sc_ms__dlygate4sd3 ( //# {{data\|Data Signals}} input A, output X ); // Voltage supply signals supply1 VPWR; supply0 VGND; supply1 VPB ; supply0 VNB ; endmodule
module bd_auto_cc_0 ( s_axi_aclk, s_axi_aresetn, s_axi_awid, s_axi_awaddr, s_axi_awlen, s_axi_awsize, s_axi_awburst, s_axi_awlock, s_axi_awcache, s_axi_awprot, s_axi_awregion, s_axi_awqos, s_axi_awvalid, s_axi_awready, s_axi_wdata, s_axi_wstrb, s_axi_wlast, s_axi_wvalid, s_axi_wready, s_axi_bid, s_axi_bresp, s_axi_bvalid, s_axi_bready, s_axi_arid, s_axi_araddr, s_axi_arlen, s_axi_arsize, s_axi_arburst, s_axi_arlock, s_axi_arcache, s_axi_arprot, s_axi_arregion, s_axi_arqos, s_axi_arvalid, s_axi_arready, s_axi_rid, s_axi_rdata, s_axi_rresp, s_axi_rlast, s_axi_rvalid, s_axi_rready, m_axi_aclk, m_axi_aresetn, m_axi_awid, m_axi_awaddr, m_axi_awlen, m_axi_awsize, m_axi_awburst, m_axi_awlock, m_axi_awcache, m_axi_awprot, m_axi_awregion, m_axi_awqos, m_axi_awvalid, m_axi_awready, m_axi_wdata, m_axi_wstrb, m_axi_wlast, m_axi_wvalid, m_axi_wready, m_axi_bid, m_axi_bresp, m_axi_bvalid, m_axi_bready, m_axi_arid, m_axi_araddr, m_axi_arlen, m_axi_arsize, m_axi_arburst, m_axi_arlock, m_axi_arcache, m_axi_arprot, m_axi_arregion, m_axi_arqos, m_axi_arvalid, m_axi_arready, m_axi_rid, m_axi_rdata, m_axi_rresp, m_axi_rlast, m_axi_rvalid, m_axi_rready ); (* X_INTERFACE_INFO = "xilinx.com:signal:clock:1.0 SI_CLK CLK" ) input wire s_axi_aclk; ( X_INTERFACE_INFO = "xilinx.com:signal:reset:1.0 SI_RST RST" ) input wire s_axi_aresetn; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI AWID" ) input wire [3 : 0] s_axi_awid; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI AWADDR" ) input wire [31 : 0] s_axi_awaddr; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI AWLEN" ) input wire [7 : 0] s_axi_awlen; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI AWSIZE" ) input wire [2 : 0] s_axi_awsize; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI AWBURST" ) input wire [1 : 0] s_axi_awburst; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI AWLOCK" ) input wire [0 : 0] s_axi_awlock; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI AWCACHE" ) input wire [3 : 0] s_axi_awcache; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI AWPROT" ) input wire [2 : 0] s_axi_awprot; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI AWREGION" ) input wire [3 : 0] s_axi_awregion; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI AWQOS" ) input wire [3 : 0] s_axi_awqos; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI AWVALID" ) input wire s_axi_awvalid; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI AWREADY" ) output wire s_axi_awready; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI WDATA" ) input wire [31 : 0] s_axi_wdata; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI WSTRB" ) input wire [3 : 0] s_axi_wstrb; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI WLAST" ) input wire s_axi_wlast; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI WVALID" ) input wire s_axi_wvalid; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI WREADY" ) output wire s_axi_wready; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI BID" ) output wire [3 : 0] s_axi_bid; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI BRESP" ) output wire [1 : 0] s_axi_bresp; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI BVALID" ) output wire s_axi_bvalid; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI BREADY" ) input wire s_axi_bready; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI ARID" ) input wire [3 : 0] s_axi_arid; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI ARADDR" ) input wire [31 : 0] s_axi_araddr; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI ARLEN" ) input wire [7 : 0] s_axi_arlen; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI ARSIZE" ) input wire [2 : 0] s_axi_arsize; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI ARBURST" ) input wire [1 : 0] s_axi_arburst; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI ARLOCK" ) input wire [0 : 0] s_axi_arlock; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI ARCACHE" ) input wire [3 : 0] s_axi_arcache; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI ARPROT" ) input wire [2 : 0] s_axi_arprot; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI ARREGION" ) input wire [3 : 0] s_axi_arregion; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI ARQOS" ) input wire [3 : 0] s_axi_arqos; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI ARVALID" ) input wire s_axi_arvalid; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI ARREADY" ) output wire s_axi_arready; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI RID" ) output wire [3 : 0] s_axi_rid; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI RDATA" ) output wire [31 : 0] s_axi_rdata; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI RRESP" ) output wire [1 : 0] s_axi_rresp; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI RLAST" ) output wire s_axi_rlast; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI RVALID" ) output wire s_axi_rvalid; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI RREADY" ) input wire s_axi_rready; ( X_INTERFACE_INFO = "xilinx.com:signal:clock:1.0 MI_CLK CLK" ) input wire m_axi_aclk; ( X_INTERFACE_INFO = "xilinx.com:signal:reset:1.0 MI_RST RST" ) input wire m_axi_aresetn; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI AWID" ) output wire [3 : 0] m_axi_awid; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI AWADDR" ) output wire [31 : 0] m_axi_awaddr; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI AWLEN" ) output wire [7 : 0] m_axi_awlen; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI AWSIZE" ) output wire [2 : 0] m_axi_awsize; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI AWBURST" ) output wire [1 : 0] m_axi_awburst; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI AWLOCK" ) output wire [0 : 0] m_axi_awlock; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI AWCACHE" ) output wire [3 : 0] m_axi_awcache; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI AWPROT" ) output wire [2 : 0] m_axi_awprot; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI AWREGION" ) output wire [3 : 0] m_axi_awregion; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI AWQOS" ) output wire [3 : 0] m_axi_awqos; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI AWVALID" ) output wire m_axi_awvalid; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI AWREADY" ) input wire m_axi_awready; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI WDATA" ) output wire [31 : 0] m_axi_wdata; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI WSTRB" ) output wire [3 : 0] m_axi_wstrb; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI WLAST" ) output wire m_axi_wlast; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI WVALID" ) output wire m_axi_wvalid; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI WREADY" ) input wire m_axi_wready; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI BID" ) input wire [3 : 0] m_axi_bid; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI BRESP" ) input wire [1 : 0] m_axi_bresp; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI BVALID" ) input wire m_axi_bvalid; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI BREADY" ) output wire m_axi_bready; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI ARID" ) output wire [3 : 0] m_axi_arid; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI ARADDR" ) output wire [31 : 0] m_axi_araddr; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI ARLEN" ) output wire [7 : 0] m_axi_arlen; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI ARSIZE" ) output wire [2 : 0] m_axi_arsize; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI ARBURST" ) output wire [1 : 0] m_axi_arburst; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI ARLOCK" ) output wire [0 : 0] m_axi_arlock; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI ARCACHE" ) output wire [3 : 0] m_axi_arcache; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI ARPROT" ) output wire [2 : 0] m_axi_arprot; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI ARREGION" ) output wire [3 : 0] m_axi_arregion; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI ARQOS" ) output wire [3 : 0] m_axi_arqos; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI ARVALID" ) output wire m_axi_arvalid; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI ARREADY" ) input wire m_axi_arready; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI RID" ) input wire [3 : 0] m_axi_rid; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI RDATA" ) input wire [31 : 0] m_axi_rdata; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI RRESP" ) input wire [1 : 0] m_axi_rresp; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI RLAST" ) input wire m_axi_rlast; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI RVALID" ) input wire m_axi_rvalid; ( X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI RREADY" *) output wire m_axi_rready; axi_clock_converter_v2_1_10_axi_clock_converter #( .C_FAMILY("artix7"), .C_AXI_ID_WIDTH(4), .C_AXI_ADDR_WIDTH(32), .C_AXI_DATA_WIDTH(32), .C_S_AXI_ACLK_RATIO(1), .C_M_AXI_ACLK_RATIO(2), .C_AXI_IS_ACLK_ASYNC(1), .C_AXI_PROTOCOL(0), .C_AXI_SUPPORTS_USER_SIGNALS(0), .C_AXI_AWUSER_WIDTH(1), .C_AXI_ARUSER_WIDTH(1), .C_AXI_WUSER_WIDTH(1), .C_AXI_RUSER_WIDTH(1), .C_AXI_BUSER_WIDTH(1), .C_AXI_SUPPORTS_WRITE(1), .C_AXI_SUPPORTS_READ(1), .C_SYNCHRONIZER_STAGE(3) ) inst ( .s_axi_aclk(s_axi_aclk), .s_axi_aresetn(s_axi_aresetn), .s_axi_awid(s_axi_awid), .s_axi_awaddr(s_axi_awaddr), .s_axi_awlen(s_axi_awlen), .s_axi_awsize(s_axi_awsize), .s_axi_awburst(s_axi_awburst), .s_axi_awlock(s_axi_awlock), .s_axi_awcache(s_axi_awcache), .s_axi_awprot(s_axi_awprot), .s_axi_awregion(s_axi_awregion), .s_axi_awqos(s_axi_awqos), .s_axi_awuser(1'H0), .s_axi_awvalid(s_axi_awvalid), .s_axi_awready(s_axi_awready), .s_axi_wid(4'H0), .s_axi_wdata(s_axi_wdata), .s_axi_wstrb(s_axi_wstrb), .s_axi_wlast(s_axi_wlast), .s_axi_wuser(1'H0), .s_axi_wvalid(s_axi_wvalid), .s_axi_wready(s_axi_wready), .s_axi_bid(s_axi_bid), .s_axi_bresp(s_axi_bresp), .s_axi_buser(), .s_axi_bvalid(s_axi_bvalid), .s_axi_bready(s_axi_bready), .s_axi_arid(s_axi_arid), .s_axi_araddr(s_axi_araddr), .s_axi_arlen(s_axi_arlen), .s_axi_arsize(s_axi_arsize), .s_axi_arburst(s_axi_arburst), .s_axi_arlock(s_axi_arlock), .s_axi_arcache(s_axi_arcache), .s_axi_arprot(s_axi_arprot), .s_axi_arregion(s_axi_arregion), .s_axi_arqos(s_axi_arqos), .s_axi_aruser(1'H0), .s_axi_arvalid(s_axi_arvalid), .s_axi_arready(s_axi_arready), .s_axi_rid(s_axi_rid), .s_axi_rdata(s_axi_rdata), .s_axi_rresp(s_axi_rresp), .s_axi_rlast(s_axi_rlast), .s_axi_ruser(), .s_axi_rvalid(s_axi_rvalid), .s_axi_rready(s_axi_rready), .m_axi_aclk(m_axi_aclk), .m_axi_aresetn(m_axi_aresetn), .m_axi_awid(m_axi_awid), .m_axi_awaddr(m_axi_awaddr), .m_axi_awlen(m_axi_awlen), .m_axi_awsize(m_axi_awsize), .m_axi_awburst(m_axi_awburst), .m_axi_awlock(m_axi_awlock), .m_axi_awcache(m_axi_awcache), .m_axi_awprot(m_axi_awprot), .m_axi_awregion(m_axi_awregion), .m_axi_awqos(m_axi_awqos), .m_axi_awuser(), .m_axi_awvalid(m_axi_awvalid), .m_axi_awready(m_axi_awready), .m_axi_wid(), .m_axi_wdata(m_axi_wdata), .m_axi_wstrb(m_axi_wstrb), .m_axi_wlast(m_axi_wlast), .m_axi_wuser(), .m_axi_wvalid(m_axi_wvalid), .m_axi_wready(m_axi_wready), .m_axi_bid(m_axi_bid), .m_axi_bresp(m_axi_bresp), .m_axi_buser(1'H0), .m_axi_bvalid(m_axi_bvalid), .m_axi_bready(m_axi_bready), .m_axi_arid(m_axi_arid), .m_axi_araddr(m_axi_araddr), .m_axi_arlen(m_axi_arlen), .m_axi_arsize(m_axi_arsize), .m_axi_arburst(m_axi_arburst), .m_axi_arlock(m_axi_arlock), .m_axi_arcache(m_axi_arcache), .m_axi_arprot(m_axi_arprot), .m_axi_arregion(m_axi_arregion), .m_axi_arqos(m_axi_arqos), .m_axi_aruser(), .m_axi_arvalid(m_axi_arvalid), .m_axi_arready(m_axi_arready), .m_axi_rid(m_axi_rid), .m_axi_rdata(m_axi_rdata), .m_axi_rresp(m_axi_rresp), .m_axi_rlast(m_axi_rlast), .m_axi_ruser(1'H0), .m_axi_rvalid(m_axi_rvalid), .m_axi_rready(m_axi_rready) ); endmodule
module sky130_fd_sc_hd__a31o_1 ( X , A1 , A2 , A3 , B1 , VPWR, VGND, VPB , VNB ); output X ; input A1 ; input A2 ; input A3 ; input B1 ; input VPWR; input VGND; input VPB ; input VNB ; sky130_fd_sc_hd__a31o base ( .X(X), .A1(A1), .A2(A2), .A3(A3), .B1(B1), .VPWR(VPWR), .VGND(VGND), .VPB(VPB), .VNB(VNB) ); endmodule
module sky130_fd_sc_hd__a31o_1 ( X , A1, A2, A3, B1 ); output X ; input A1; input A2; input A3; input B1; // Voltage supply signals supply1 VPWR; supply0 VGND; supply1 VPB ; supply0 VNB ; sky130_fd_sc_hd__a31o base ( .X(X), .A1(A1), .A2(A2), .A3(A3), .B1(B1) ); endmodule
module sky130_fd_sc_lp__dlymetal6s2s ( X , A , VPWR, VGND, VPB , VNB ); // Module ports output X ; input A ; input VPWR; input VGND; input VPB ; input VNB ; // Local signals wire buf0_out_X ; wire pwrgood_pp0_out_X; // Name Output Other arguments buf buf0 (buf0_out_X , A ); sky130_fd_sc_lp__udp_pwrgood_pp$PG pwrgood_pp0 (pwrgood_pp0_out_X, buf0_out_X, VPWR, VGND); buf buf1 (X , pwrgood_pp0_out_X ); endmodule
module alu_datapath(clk, alu_data, opcode_value, store_a, store_b, start, alu_done, result, overflow_def); parameter DATA_WIDTH = 8; input clk; input alu_data; input opcode_value; input store_a; input store_b; input start; output alu_done; output result; output overflow_def; reg overflow_def; wire clk; wire [DATA_WIDTH-1:0] alu_data; wire [1:0] opcode_value; wire store_a; wire store_b; wire start; reg alu_done; reg start_def; reg [DATA_WIDTH-1:0] result; parameter ON = 1'b1; parameter OFF = 1'b0; parameter ADD = 2'b00; parameter SUB = 2'b01; parameter PAR = 2'b10; parameter COMP = 2'b11; reg [DATA_WIDTH-1:0] buf_a; reg [DATA_WIDTH-1:0] buf_b; wire done; reg [DATA_WIDTH-1:0] add_a; reg [DATA_WIDTH-1:0] add_b; wire [DATA_WIDTH-1:0] add_sum; reg add_carry_in; wire add_overflow; reg [DATA_WIDTH-1:0] sub_a; reg [DATA_WIDTH-1:0] sub_b; wire [DATA_WIDTH-1:0] sub_diff; reg sub_borrow_in; wire sub_borrow_out; reg [DATA_WIDTH-1:0] par_a; reg [DATA_WIDTH-1:0] par_b; wire [DATA_WIDTH-1:0] par_parity; reg [DATA_WIDTH-1:0] comp_a; reg [DATA_WIDTH-1:0] comp_b; wire [DATA_WIDTH-1:0] comp_comp; always @(posedge clk or store_a or store_b or start) begin if(store_a) begin buf_a = alu_data; end else if(store_b) begin buf_b = alu_data; end else if(start) begin case(opcode_value) ADD: begin add_a = buf_a; add_b = buf_b; add_carry_in = 1'b0; start_def = 1'b1; end SUB: begin sub_a = buf_a; sub_b = buf_b; sub_borrow_in = 1'b0; start_def = 1'b1; end PAR: begin par_a = buf_a; par_b = buf_b; start_def = 1'b1; end COMP: begin comp_a = buf_a; comp_b = buf_b; start_def = 1'b1; end endcase end end always @(posedge clk or done) begin if(done) begin case(opcode_value) ADD: begin result = add_sum; overflow_def = add_overflow; alu_done = ON; end SUB: begin result = sub_diff; overflow_def = sub_borrow_out; alu_done = ON; end PAR: begin result = par_parity; alu_done = ON; overflow_def = OFF; end COMP: begin result = comp_a ^~ comp_b; alu_done = ON; overflow_def = OFF; end endcase end else begin result = 0; overflow_def = 0; alu_done = OFF; end end byte_adder #(DATA_WIDTH) adder_ex( .byte_a(add_a), .byte_b(add_b), .byte_carry_in(add_carry_in), .byte_sum(add_sum), .byte_overflow(add_overflow), .start(start_def), .done(done) ); byte_subtractor #(DATA_WIDTH) subtractor_ex( .byte_a(sub_a), .byte_b(sub_b), .byte_borrow_in(sub_borrow_in), .byte_diff(sub_diff), .byte_borrow_out(sub_borrow_out), .start(start_def), .done(done) ); byte_parity #(DATA_WIDTH) parity_ex( .byte_a(par_a), .byte_b(par_b), .byte_parity(par_parity), .start(start_def), .done(done) ); byte_comp #(DATA_WIDTH) comp_ex( .byte_a(comp_a), .byte_b(comp_b), .byte_comp(comp_comp), .start(start_def), .done(done) ); endmodule
module fifo_181x128a ( aclr, data, rdclk, rdreq, wrclk, wrreq, q, rdempty, wrempty, wrusedw); input aclr; input [180:0] data; input rdclk; input rdreq; input wrclk; input wrreq; output [180:0] q; output rdempty; output wrempty; output [6:0] wrusedw; `ifndef ALTERA_RESERVED_QIS // synopsys translate_off `endif tri0 aclr; `ifndef ALTERA_RESERVED_QIS // synopsys translate_on `endif endmodule
module timer_controller ( input wire clock, input wire reset, input wire int_ack, output reg int_req, input wire [15:0] A, input wire [7:0] Di, output wire [7:0] Do, input wire wr_n, input wire rd_n, input wire cs ); //////////////////////////////////////////////// // Timer Registers // // DIV - Divider Register (FF04) // Increments 16384 times a second // // TIMA - Timer Counter (FF05) // Increments at frequency specified by TAC // // TMA - Timer Modulo (FF06) // Value to load into TIMA on overflow // // TAC - Timer Control (FF07) // Bit 2: 0 <= stop, 1 <= start // Bit 1-0: 00 <= 4.096 KHz // 01 <= 262.144 KHz // 10 <= 65.536 KHz // 11 <= 16.384 KHz //////////////////////////////////////////////// reg[7:0] DIV; reg[7:0] TIMA; reg[7:0] TMA; reg[7:0] TAC; reg[7:0] reg_out; parameter MAX_TIMER = 8'hFF; wire enable; wire e0, e1, e2, e3; divider #(1024) d0(reset, clock, e0); divider #(16) d1(reset, clock, e1); divider #(64) d2(reset, clock, e2); divider #(256) d3(reset, clock, e3); always @(posedge clock) begin if (reset) begin DIV <= 8'h0; TIMA <= 8'h0; TMA <= 8'h0; TAC <= 8'h0; int_req <= 1'b0; reg_out <= 8'h0; end else begin // Read / Write for registers if (cs) begin if (!wr_n) begin case (A) 16'hFF04: DIV <= 8'h0; 16'hFF05: TIMA <= Di; 16'hFF06: TMA <= Di; 16'hFF07: TAC <= Di; endcase end else if (!rd_n) begin case (A) 16'hFF04: reg_out <= DIV; 16'hFF05: reg_out <= TIMA; 16'hFF06: reg_out <= TMA; 16'hFF07: reg_out <= TAC; endcase end end // Clear overflow interrupt if (int_ack) int_req <= 1'b0; // Increment timers if (enable) begin if (TIMA == MAX_TIMER) int_req <= 1'b1; TIMA <= (TIMA == MAX_TIMER) ? TMA : TIMA + 1'b1; end if (e3) begin DIV <= DIV + 1'b1; end end end assign Do = (cs) ? reg_out : 8'hZZ; assign enable = (TAC[2] == 0) ? 1'b0 : (TAC[1:0] == 0) ? e0 : (TAC[1:0] == 1) ? e1 : (TAC[1:0] == 2) ? e2 : (TAC[1:0] == 3) ? e3 : 1'b0; endmodule
module lspc2_a2( input CLK_24M, input RESET, output [15:0] PBUS_OUT, inout [23:16] PBUS_IO, input [3:1] M68K_ADDR, inout [15:0] M68K_DATA, input LSPOE, LSPWE, input DOTA, DOTB, output CA4, output S2H1, output S1H1, output LOAD, output H, EVEN1, EVEN2, // For ZMC2 output IPL0, IPL1, output CHG, // Also called TMS0 output LD1, LD2, // Buffer address load output PCK1, PCK2, output [3:0] WE, output [3:0] CK, output SS1, SS2, // Buffer pair selection for B1 output RESETP, output SYNC, output CHBL, output BNKB, output VCS, // LO ROM output enable output LSPC_8M, output LSPC_4M ); parameter VMODE = 1'b0; // NTSC wire [8:0] PIXELC; wire [3:0] PIXEL_HPLUS; wire [8:0] RASTERC; wire [7:0] AA_SPEED; wire [2:0] AA_COUNT; // Auto-animation tile # wire [15:0] CPU_DATA_OUT; wire [15:0] VRAM_LOW_READ; wire [15:0] VRAM_HIGH_READ; wire [15:0] REG_VRAMADDR; wire [15:0] VRAM_ADDR; wire [15:0] VRAM_ADDR_MUX; wire [15:0] VRAM_ADDR_AUTOINC; wire [15:0] REG_VRAMRW; wire [15:0] VRAM_WRITE; wire [15:0] REG_VRAMMOD; wire [15:0] REG_LSPCMODE; wire [2:0] TIMER_MODE; wire [3:0] T31_P; wire [3:0] U24_P; wire [3:0] O227_Q; wire [7:0] P_MUX_HIGH; wire [7:0] P_MUX_LOW; wire [23:0] P_OUT_MUX; wire [3:0] VSHRINK_INDEX; wire [3:0] VSHRINK_LINE; wire [8:0] XPOS; wire [7:0] XPOS_ROUND_UP; wire [2:0] SPR_TILE_AA; wire [3:0] G233_Q; wire [7:0] SPR_Y_LOOKAHEAD; wire [8:0] SPR_Y_ADD; wire [7:0] SPR_TILE_A; // This should be called SPR_Y_RENDER or something similar wire [7:0] SPR_TILE_AB; // This should be called SPR_Y_RENDER_LOOP or something similar wire [8:0] SPR_Y_SHRINK; wire [3:0] SPR_LINE; wire [7:0] SPR_LINE_MUX; wire [19:0] SPR_TILE; wire [7:0] YSHRINK; wire [8:0] SPR_Y; wire [7:0] SPR_PAL; wire [3:0] FIX_PAL; wire [11:0] FIX_TILE; wire [3:0] HSHRINK; wire [15:0] PIPE_C; wire [3:0] SPR_TILEMAP; wire [7:0] ACTIVE_RD; wire [3:0] P201_Q; assign S1H1 = LSPC_3M; assign S2H1 = LSPC_1_5M; // PCK1, PCK2, H FD2 T168A(CLK_24M, T160A_OUT, PCK1, nPCK1); FD2 T162A(CLK_24M, T160B_OUT, PCK2, ); FD2 U167(~PCK2, T172_Q, H, ); FDM T172(nPCK1, SPR_TILE_HFLIP, T172_Q, ); assign CA4 = T172_Q ^ LSPC_1_5M; // EVEN1, EVEN2 assign U105A_OUT = ~&{nHSHRINK_OUT_A, nHSHRINK_OUT_B, nEVEN_ODD}; assign U107_OUT = ~&{nHSHRINK_OUT_A, EVEN_nODD, HSHRINK_OUT_B}; assign U109_OUT = ~&{HSHRINK_OUT_A, nEVEN_ODD}; assign U112_OUT = ~&{U105A_OUT, U107_OUT, U109_OUT}; //assign #13 EVEN1 = U112_OUT; // BD5 U162 assign EVEN1 = U112_OUT; FD2 U144A(CLK_24M, U112_OUT, EVEN2, ); // Pixel parity select assign nPARITY_INIT = ~&{nCHAINED, S53A_OUT}; // R42A assign nXPOS_ZERO = ~PIPE_C[0]; assign S58A_OUT = ~\|{nXPOS_ZERO, nPARITY_INIT}; assign ONE_PIXEL = HSHRINK_OUT_A ^ HSHRINK_OUT_B; // U83 assign U72_OUT = ONE_PIXEL ^ nEVEN_ODD; assign U57B_OUT = nPARITY_INIT & U72_OUT; assign U56A_OUT = ~\|{S58A_OUT, U57B_OUT}; FD2 U68A(CLK_24MB, ~LSPC_12M, CK_HSHRINK_REG, U68A_nQ); FD2 U74A(~U68A_nQ, U56A_OUT, EVEN_nODD, nEVEN_ODD); // CPU VRAM address update select // $3C0000 REG_VRAMADDR 0 (update with written value) // $3C0002 REG_VRAMRW 1 (update with REG_VRAMMOD) assign C22A_OUT = ~&{WR_VRAM_RW, WR_VRAM_ADDR}; FDM B18(C22A_OUT, M68K_ADDR[1], VRAM_ADDR_UPD_TYPE, ); // VRAM_ADDR with REG_VRAMMOD applied // G18 G81 F91 F127 assign VRAM_ADDR_AUTOINC = REG_VRAMMOD + VRAM_ADDR; // CPU VRAM address update mux // C144A C142A C140B C138B // A112B A111A A109A A110B // D110B D106B D108B D85A // F10A F12A F26A F12B assign VRAM_ADDR_MUX = VRAM_ADDR_UPD_TYPE ? VRAM_ADDR_AUTOINC : REG_VRAMADDR; // VRAM address update FFs // F14 D48 C105 C164 FDS16bit F14(D112B_OUT, VRAM_ADDR_MUX, VRAM_ADDR); // ...Second stage // F165 D178 D141 E196 FDS16bit E196(O108B_OUT, REG_VRAMRW, VRAM_WRITE); // Pulse for updating internal VRAM address // nCPU_WR_HIGH and nCPU_WR_LOW are "write done" pulses for both VRAM zones // Happens when write is done or write to REG_VRAMADDR assign O108B_OUT = ~&{nCPU_WR_HIGH, nCPU_WR_LOW}; assign D112B_OUT = ~\|{~WR_VRAM_ADDR, O108B_OUT}; // CPU read data output. Outputs are not enabled all at once, this is strange. // After LSPOE goes low, at least 1.5mclk is required for all outputs to be enabled. FDM C71(CLK_24M, LSPOE, C71_Q, LSPOE_SEQA); FDM C68(CLK_24MB, C71_Q, C68_Q, LSPOE_SEQB); FDM C75(CLK_24M, C68_Q, , LSPOE_SEQC); assign M68K_DATA[1:0] = LSPOE ? 2'bzz : CPU_DATA_OUT[1:0]; // No delay assign B71_OUT = ~&{~LSPOE, LSPOE_SEQA}; assign M68K_DATA[7:2] = B71_OUT ? 6'bzzzzzz : CPU_DATA_OUT[7:2]; // t+1 assign B75A_OUT = ~&{~LSPOE, LSPOE_SEQB}; assign M68K_DATA[9:8] = B75A_OUT ? 2'bzz : CPU_DATA_OUT[9:8]; // t+2 assign B74_OUT = ~&{~LSPOE, LSPOE_SEQC}; assign M68K_DATA[15:10] = B74_OUT ? 6'bzzzzzz : CPU_DATA_OUT[15:10]; // t+3 // Auto-animation bit enables // C184A assign AUTOANIM3_EN = SPR_AA_3 & ~AA_DISABLE; assign C186A_OUT = SPR_AA_2 & ~AA_DISABLE; // B180B assign AUTOANIM2_EN = AUTOANIM3_EN \| C186A_OUT; // Timing/sequencing stuff // This doesn't mean anything special, it just outputs periodic signals to get everything moving assign T56A_OUT = ~&{LSPC_6M, LSPC_3M}; assign T58A_OUT = ~&{LSPC_6M, LSPC_3M}; FDM T53(LSPC_12M, T56A_OUT, T53_Q, ); FDM U53(CLK_24M, T53_Q, U53_Q, ); assign nPBUS_OUT_EN = U53_Q & T53_Q; FDPCell T69(LSPC_12M, LSPC_3M, RESETP, 1'b1, , T69_nQ); assign T73A_OUT = LSPC_3M \| T69_nQ; FJD T140(CLK_24M, T134_nQ, 1'b1, T73A_OUT, T140_Q, ); FJD T134(CLK_24M, T140_Q, 1'b1, T73A_OUT, , T134_nQ); FD2 U129A(CLK_24M, T134_nQ, U129A_Q, U129A_nQ); assign T125A_OUT = U129A_nQ \| T140_Q; BD3 P198A(Q174B_OUT, P198A_OUT); FS1 P201(LSPC_12M, P198A_OUT, P201_Q); assign P219A_OUT = ~\|{O159_QB, ~P201_Q[0]}; assign P222A_OUT = ~&{P219A_OUT, ~P201_Q[1]}; assign CLK_SPR_TILE = P201_Q[1]; assign R94A_OUT = ~&{P201_Q[2], R91_Q}; assign D208B_OUT = ~P201_Q[3]; // NEO-B1 control signals // Latch for CK1/2 and WE1/2 LT4 T31(LSPC_12M, {T38A_OUT, T28_OUT, T29A_OUT, T20B_OUT}, T31_P, ); // Latch for CK3/4 and WE3/4 LT4 U24(LSPC_12M, {U37B_OUT, U21B_OUT, U35A_OUT, U31A_OUT}, U24_P, ); // CKs and WEs can only be low when LSPC_12M is high assign WE1 = ~&{T31_P[0], LSPC_12M}; assign WE2 = ~&{T31_P[1], LSPC_12M}; assign CK1 = ~&{T31_P[2], LSPC_12M}; assign CK2 = ~&{T31_P[3], LSPC_12M}; assign WE3 = ~&{U24_P[2], LSPC_12M}; assign WE4 = ~&{U24_P[3], LSPC_12M}; assign CK3 = ~&{U24_P[0], LSPC_12M}; assign CK4 = ~&{U24_P[1], LSPC_12M}; assign WE = {WE4, WE3, WE2, WE1}; assign CK = {CK4, CK3, CK2, CK1}; // Most of the following NAND gates are making 2:1 muxes like on the Alpha68k // For buffer A: // Clearing write pulses gates assign T22A_OUT = ~&{T50B_OUT, SS1}; assign T40B_OUT = ~&{T48A_OUT, SS1}; // WRITEPX* gates assign T50A_OUT = ~&{WRITEPX_A, CHG_D}; assign T40A_OUT = ~&{WRITEPX_B, CHG_D}; // Enable writes for opaque pixels only assign T17A_OUT = ~&{DOTA, ~T50A_OUT}; assign T22B_OUT = ~&{DOTB, ~T40A_OUT}; // Merge writes with clearing write pulses assign T20B_OUT = ~&{T22A_OUT, T17A_OUT}; assign T29A_OUT = ~&{T40B_OUT, T22B_OUT}; // Merge clocks with LD1_D pulses assign T28_OUT = ~&{T22A_OUT, LD1_D, T50A_OUT}; assign T38A_OUT = ~&{T40B_OUT, T40A_OUT, LD1_D}; // For buffer B: // Clearing write pulses gates assign U33B_OUT = ~&{T48A_OUT, SS2}; assign T20A_OUT = ~&{T50B_OUT, SS2}; // WRITEPX* gates assign U51B_OUT = ~&{WRITEPX_A, nCHG_D}; assign U39B_OUT = ~&{WRITEPX_B, nCHG_D}; // Enable writes for opaque pixels only assign U18A_OUT = ~&{DOTA, ~U51B_OUT}; assign U38A_OUT = ~&{DOTB, ~U39B_OUT}; // Merge writes with clearing write pulses assign U21B_OUT = ~&{T20A_OUT, U18A_OUT}; assign U37B_OUT = ~&{U33B_OUT, U38A_OUT}; // Merge clocks with LD1_D pulses assign U35A_OUT = ~&{LD2_D, U33B_OUT, U39B_OUT}; assign U31A_OUT = ~&{LD2_D, T20A_OUT, U51B_OUT}; // Buffer shift-out clocks, alternates between odd/even assign T50B_OUT = LSPC_3M & LSPC_6M; assign T48A_OUT = ~LSPC_3M & LSPC_6M; // Pixel write pulse selection (odd/even) assign U89A_OUT = ~&{nHSHRINK_OUT_B, nEVEN_ODD, HSHRINK_OUT_A}; assign U92A_OUT = ~&{nHSHRINK_OUT_A, nEVEN_ODD, HSHRINK_OUT_B}; assign U91_OUT = ~&{nHSHRINK_OUT_B, EVEN_nODD, HSHRINK_OUT_A}; assign U94_OUT = ~&{nHSHRINK_OUT_A, EVEN_nODD, HSHRINK_OUT_B}; // Enabled write pulses only if pixel is not skipped for h-shrink assign U88B_OUT = HSHRINK_OUT_A \| HSHRINK_OUT_B; assign U85_OUT = &{U89A_OUT, U92A_OUT, U88B_OUT}; assign U86A_OUT = &{U88B_OUT, U94_OUT, U91_OUT}; // Final FFs FD2 T82A(CLK_24M, U85_OUT, WRITEPX_A, ); FD2 T86(CLK_24M, U86A_OUT, WRITEPX_B, ); // LD1/2 signal generation. Those are used to tell NEO-B1 to reload the write address (X position) // Get which buffer should have the rendering pulses, and which should have the reset pulse FDM R50(LSPC_3M, FLIP_nQ, R50_Q, R50_nQ); // Periodic signals FDM R69(LSPC_3M, LSPC_1_5M, R69_Q, R69_nQ); FDM S55(LSPC_12M, LSPC_3M, S55_Q, ); assign S53A_OUT = S55_Q & LSPC_6M; // LOAD output FD2 R35A(CLK_24MB, S53A_OUT, LOAD, ); // For LD1: // Gate with chain bit (prevents address reload) assign nCHAINED = ~\|{PIPE_C[13], R69_nQ}; // Gate reset LD pulse (once at start of line being shifted out) assign R44B_OUT = ~&{R50_nQ, R53_Q}; // Gate rendering LD pulses assign R48B_OUT = ~&{nCHAINED, R50_Q}; // Merge assign R42B_OUT = ~&{R44B_OUT, R48B_OUT}; // Sync assign LD1_D = ~&{R42B_OUT, S53A_OUT}; FD2 R32(CLK_24MB, LD1_D, LD1, ); // For LD2: // Gate reset LD pulse (once at start of line being shifted out) assign R44A_OUT = ~&{R53_Q, R50_Q}; // Gate rendering LD pulses assign R46A_OUT = ~&{R50_nQ, nCHAINED}; // Merge assign R46B_OUT = ~&{R44A_OUT, R46A_OUT}; // Sync assign LD2_D = ~&{R46B_OUT, S53A_OUT}; FD2 R28A(CLK_24MB, LD2_D, LD2, ); // Reset LD pulse generation. This tells NEO-B1 to reload the address before shifting out a buffer // At this very moment, the address should be 000 on the P bus // Triggers at pixel #264 FDPCell O62(PIXELC[3], PIXELC[8], 1'b1, RESETP, O62_Q, ); // Triggers at pixel #268 FDPCell P74(PIXELC[2], O62_Q, 1'b1, RESETP, P74_Q, ); // Make unique pulse FDM R53(LSPC_3M, R67A_OUT, R53_Q, ); assign R67A_OUT = R74_nQ & P74_Q; FDPCell R74(LSPC_1_5M, P74_Q, 1'b1, RESETP, , R74_nQ); // Reload pulse for the h-shrink shift registers // Perdiodic as all sprites take the same time to render regardless of h-shrink value assign R48A_OUT = ~&{S53A_OUT, R69_Q}; FD2 R56A(CLK_24MB, R48A_OUT, LD_HSHRINK_REG, ); // CHG output FDPCell S137(LSPC_1_5M, CHG_D, 1'b1, RESETP, CHG, ); // SS1/2 outputs, periodic FDPCell O69(CLK_24MB, nFLIP, RESETP, 1'b1, , FLIP_nQ); FDPCell R63(PIXELC[2], FLIP_nQ, 1'b1, RESETP, CHG_D, nCHG_D); FDM S48(LSPC_3M, R15_QD, , S48_nQ); // S40A assign SS1 = ~\|{S48_nQ, CHG_D}; // S39 assign SS2 = ~\|{nCHG_D, S48_nQ}; // 16-pixel lookahead for fix tiles assign J20A_OUT = ~&{PIXELC[8:7]}; // I51 assign PIXEL_HPLUS = 5'd15 + {~J20A_OUT, PIXELC[6:4]} + PIXELC[3]; // V-shrink mirroring and pipeline FDM R179(VCS, SPR_CONTINUOUS, R179_Q, ); // Mirror V-shrink values for second half of sprite if needed assign S186_OUT = ~(~P235_OUT ^ R179_Q); assign SPRITEMAP_ADDR_MSB = ~S186_OUT; assign S166_OUT = VSHRINK_LINE[3] ^ ~S186_OUT; assign S164_OUT = VSHRINK_LINE[2] ^ ~S186_OUT; assign S162_OUT = VSHRINK_LINE[1] ^ ~S186_OUT; assign S168_OUT = VSHRINK_LINE[0] ^ ~S186_OUT; FDSCell O227(P222A_OUT, {S166_OUT, S164_OUT, S162_OUT, S168_OUT}, O227_Q); FDSCell G233(~P201_Q[1], O227_Q, G233_Q); assign SPR_LINE[0] = SPR_TILE_VFLIP ^ G233_Q[0]; assign SPR_LINE[1] = SPR_TILE_VFLIP ^ G233_Q[1]; assign SPR_LINE[2] = SPR_TILE_VFLIP ^ G233_Q[2]; assign SPR_LINE[3] = SPR_TILE_VFLIP ^ G233_Q[3]; assign Q184_OUT = VSHRINK_INDEX[3] ^ ~S186_OUT; assign Q182_OUT = VSHRINK_INDEX[2] ^ ~S186_OUT; assign Q186_OUT = VSHRINK_INDEX[1] ^ ~S186_OUT; assign Q172_OUT = VSHRINK_INDEX[0] ^ ~S186_OUT; FDSCell O175(P222A_OUT, {Q184_OUT, Q182_OUT, Q186_OUT, Q172_OUT}, SPR_TILEMAP); // P bus stuff // Lookup ROM data latch FDSCell Q87(VCS, PBUS_IO[23:20], VSHRINK_INDEX); FDSCell S141(VCS, PBUS_IO[19:16], VSHRINK_LINE); FDM R88(CLK_24M, R94A_OUT, R88_Q, R88_nQ); assign VCS = ~R88_nQ; assign T185B_OUT = PCK1 \| PCK2; // Data select lines FDM S183(T185B_OUT, S171_Q, S183_Q, ); BD3 P196(S183_Q, S183_Q_DELAYED); FDM S171(U53_Q, LSPC_1_5M, S171_Q, S171_nQ); assign XPOS = PIPE_C[8:0]; assign SPR_TILE_AA[2] = AUTOANIM3_EN ? AA_COUNT[2] : SPR_TILE[2]; assign SPR_TILE_AA[1:0] = AUTOANIM2_EN ? AA_COUNT[1:0] : SPR_TILE[1:0]; // Q125 R120 assign XPOS_ROUND_UP = XPOS[8:1] + XPOS[0]; // K143A K145A K147A K149A // Q111A Q113B Q113A Q111B assign P_MUX_HIGH = R88_Q ? XPOS[8:1] : YSHRINK; // R185A R185B R183A R183B // R277A R277B R275A R275B assign SPR_LINE_MUX = SPR_CONTINUOUS ? ~SPR_TILE_AB : SPR_TILE_A; // Might be swapped // R149A R149B R147A R147B // Q149A Q120A Q121B Q149B assign P_MUX_LOW = R88_Q ? XPOS_ROUND_UP : SPR_LINE_MUX; // Output mux // C250 A238A A232 A234A // E271 E273A E268A D255 assign P_OUT_MUX[23:16] = ~S183_Q_DELAYED ? ~S171_nQ ? {SPR_PAL} : {SPR_TILE[19:16], SPR_LINE} : ~S171_nQ ? {8'b00000000} : {4'b0000, FIX_PAL}; // J39A M230A L228A L247A // C256 B269A B273A B276A // B220 C248 B217A B215 // B197A B130A B128 B148A assign P_OUT_MUX[15:0] = ~S183_Q_DELAYED ? ~S171_nQ ? {P_MUX_HIGH, P_MUX_LOW} : {SPR_TILE[15:8], SPR_TILE[7:3], SPR_TILE_AA} : ~S171_nQ ? {PIXELC[2], RASTERC[2:1], FLIP, FIX_TILE[11:8], FIX_TILE[7:0]} : {8'b00000000, 8'b00000000}; assign PBUS_IO = nPBUS_OUT_EN ? 8'bzzzzzzzz : P_OUT_MUX[23:16]; assign PBUS_OUT = P_OUT_MUX[15:0]; // Y position stuff // O268 O237 assign SPR_Y_LOOKAHEAD = {RASTERC[7:1], FLIP} + 1'b1; // P261 P237 assign SPR_Y_ADD = SPR_Y_LOOKAHEAD + SPR_Y[7:0]; // R216 R218 R238 R241 // R281 R283 Q289 Q291 assign SPR_TILE_A = SPR_Y_ADD[7:0] ^ {8{~P235_OUT}}; assign P235_OUT = ~(SPR_Y[8] ^ SPR_Y_ADD[8]); // Q237 R189 assign SPR_Y_SHRINK = SPR_TILE_A + ~YSHRINK; // Q265 R151 assign SPR_TILE_AB = SPR_TILE_A + {~YSHRINK[6:0], 1'b0}; // Special #33 height detection // R222A assign SPR_CONTINUOUS = &{SPR_SIZE0, SPR_SIZE5, SPR_Y_SHRINK[8]}; lspc_regs REGS(RESET, RESETP, M68K_ADDR, M68K_DATA, LSPOE, LSPWE, VMODE, RASTERC, AA_COUNT, VRAM_LOW_READ, VRAM_HIGH_READ, WR_VRAM_ADDR, WR_VRAM_RW, WR_TIMER_HIGH, WR_TIMER_LOW, WR_IRQ_ACK, REG_VRAMADDR, REG_VRAMMOD, REG_VRAMRW, REG_LSPCMODE, CPU_DATA_OUT, AA_SPEED, TIMER_MODE, TIMER_IRQ_EN, AA_DISABLE, TIMER_STOP, nVRAM_WRITE_REQ, D112B_OUT); lspc_timer TIMER(LSPC_6M, RESETP, M68K_DATA, WR_TIMER_HIGH, WR_TIMER_LOW, VMODE, TIMER_MODE, TIMER_STOP, RASTERC, TIMER_IRQ_EN, R74_nQ, BNKB, D46A_OUT); resetp RSTP(CLK_24MB, RESET, RESETP); irq IRQ(WR_IRQ_ACK, M68K_DATA[2:0], RESET, D46A_OUT, BNK, LSPC_6M, IPL0, IPL1); videosync VS(CLK_24MB, LSPC_3M, LSPC_1_5M, Q53_CO, RESETP, VMODE, PIXELC, RASTERC, SYNC, BNK, BNKB, CHBL, R15_QD, FLIP, nFLIP, P50_CO); lspc2_clk LSPCCLK(CLK_24M, RESETP, CLK_24MB, LSPC_12M, LSPC_8M, LSPC_6M, LSPC_4M, LSPC_3M, LSPC_1_5M, Q53_CO); slow_cycle SCY(CLK_24M, CLK_24MB, LSPC_12M, LSPC_6M, LSPC_3M, LSPC_1_5M, RESETP, VRAM_ADDR[14:0], VRAM_WRITE, REG_VRAMADDR[15], PIXELC[3], PIXELC[8], RASTERC[7:3], PIXEL_HPLUS, ACTIVE_RD, nVRAM_WRITE_REQ, SPR_TILEMAP, SPR_TILE_VFLIP, SPR_TILE_HFLIP, SPR_AA_3, SPR_AA_2, FIX_TILE, FIX_PAL, SPR_TILE, SPR_PAL, VRAM_LOW_READ, nCPU_WR_LOW, R91_nQ, CLK_CPU_READ_LOW, T160A_OUT, T160B_OUT, CLK_ACTIVE_RD, ACTIVE_RD_PRE8, Q174B_OUT, D208B_OUT, SPRITEMAP_ADDR_MSB, CLK_SPR_TILE, P222A_OUT, ~P201_Q[1]); fast_cycle FCY(CLK_24M, LSPC_12M, LSPC_6M, LSPC_3M, LSPC_1_5M, RESETP, nVRAM_WRITE_REQ, VRAM_ADDR, VRAM_WRITE, REG_VRAMADDR[15], FLIP, nFLIP, PIXELC, RASTERC, P50_CO, nCPU_WR_HIGH, HSHRINK, PIPE_C, VRAM_HIGH_READ, ACTIVE_RD, R91_Q, R91_nQ, T140_Q, T58A_OUT, T73A_OUT, U129A_Q, T125A_OUT, CLK_ACTIVE_RD, ACTIVE_RD_PRE8, SPR_Y, YSHRINK, SPR_SIZE0, SPR_SIZE5, O159_QB); autoanim AA(RASTERC[8], RESETP, AA_SPEED, AA_COUNT); hshrink HSH(HSHRINK, CK_HSHRINK_REG, LD_HSHRINK_REG, HSHRINK_OUT_A, HSHRINK_OUT_B); assign nHSHRINK_OUT_A = ~HSHRINK_OUT_A; assign nHSHRINK_OUT_B = ~HSHRINK_OUT_B; endmodule
module prcfg_adc ( clk, // control ports control, status, // FIFO interface src_adc_enable, src_adc_valid, src_adc_data, dst_adc_enable, dst_adc_valid, dst_adc_data ); localparam RP_ID = 8'hA1; parameter CHANNEL_ID = 0; input clk; input [31:0] control; output [31:0] status; input src_adc_enable; input src_adc_valid; input [15:0] src_adc_data; output dst_adc_enable; output dst_adc_valid; output [15:0] dst_adc_data; reg dst_adc_enable; reg dst_adc_valid; reg [15:0] dst_adc_data; reg [31:0] status = 0; reg [15:0] adc_pn_data = 0; reg [ 3:0] mode; reg [ 3:0] channel_sel; wire adc_dvalid; wire [15:0] adc_pn_data_s; wire adc_pn_oos_s; wire adc_pn_err_s; // prbs function function [15:0] pn; input [15:0] din; reg [15:0] dout; begin dout[15] = din[14] ^ din[15]; dout[14] = din[13] ^ din[14]; dout[13] = din[12] ^ din[13]; dout[12] = din[11] ^ din[12]; dout[11] = din[10] ^ din[11]; dout[10] = din[ 9] ^ din[10]; dout[ 9] = din[ 8] ^ din[ 9]; dout[ 8] = din[ 7] ^ din[ 8]; dout[ 7] = din[ 6] ^ din[ 7]; dout[ 6] = din[ 5] ^ din[ 6]; dout[ 5] = din[ 4] ^ din[ 5]; dout[ 4] = din[ 3] ^ din[ 4]; dout[ 3] = din[ 2] ^ din[ 3]; dout[ 2] = din[ 1] ^ din[ 2]; dout[ 1] = din[ 0] ^ din[ 1]; dout[ 0] = din[14] ^ din[15] ^ din[ 0]; pn = dout; end endfunction assign adc_dvalid = src_adc_enable & src_adc_valid; always @(posedge clk) begin channel_sel <= control[3:0]; mode <= control[7:4]; end // prbs generation always @(posedge clk) begin if(adc_dvalid == 1'b1) begin adc_pn_data <= pn(adc_pn_data_s); end end assign adc_pn_data_s = (adc_pn_oos_s == 1'b1) ? src_adc_ddata : adc_pn_data; ad_pnmon #( .DATA_WIDTH(32) ) i_pn_mon ( .adc_clk(clk), .adc_valid_in(adc_dvalid), .adc_data_in(src_adc_ddata), .adc_data_pn(adc_pn_data), .adc_pn_oos(adc_pn_oos_s), .adc_pn_err(adc_pn_err_s)); // rx path are passed through on test mode always @(posedge clk) begin dst_adc_enable <= src_adc_enable; dst_adc_data <= src_adc_data; dst_adc_valid <= src_adc_valid; end // setup status bits for gpio_out always @(posedge clk) begin if((mode == 3'd2) && (channel_sel == CHANNEL_ID)) begin status <= {22'h0, adc_pn_err_s, adc_pn_oos_s, RP_ID}; end else begin status <= {24'h0, RP_ID}; end end endmodule
module opicorv32_alu ( reg_op2, reg_op1, instr, is, alu_out, alu_out_0 ); input [31:0] reg_op2; input [31:0] reg_op1; input [47:0] instr; input [14:0] is; output [31:0] alu_out; output alu_out_0; /* signal declarations / wire [31:0] _1209; wire [31:0] _1207; wire [31:0] _1215; wire _1172; wire _1169; wire _1170; wire _1178; wire [30:0] _1158; wire _1159; wire _1160; wire [31:0] _1161; wire [30:0] _1162; wire _1163; wire _1164; wire [31:0] _1165; wire _1166; wire _1167; wire _1155; wire _1156; wire _1176; wire _1180; wire [30:0] _1145; wire _1146; wire _1147; wire [31:0] _1148; wire [30:0] _1149; wire _1150; wire _1151; wire [31:0] _1152; wire _1153; wire _1143; wire _1154; wire _1174; wire _1157; wire _1168; wire _1177; wire _1171; wire _1173; wire _1179; wire _1181; wire _1182; wire [30:0] _1203 = 31'b0000000000000000000000000000000; wire [31:0] _1205; wire [31:0] _1192; wire [31:0] _1213; wire [31:0] _1217; wire [31:0] _1188; wire [31:0] _1184; wire _1189; wire _1190; wire _1191; wire [31:0] _1211; wire _1193; wire _1194; wire _1195; wire _1206; wire _1214; wire _1208; wire _1210; wire _1216; wire _1218; wire [31:0] _1219; / logic / assign _1209 = reg_op1 + reg_op2; assign _1207 = reg_op1 - reg_op2; assign _1215 = _1210 ? _1209 : _1207; assign _1172 = reg_op1 == reg_op2; assign _1169 = reg_op1 == reg_op2; assign _1170 = ~ _1169; assign _1178 = _1173 ? _1172 : _1170; assign _1158 = reg_op2[30:0]; assign _1159 = reg_op2[31:31]; assign _1160 = ~ _1159; assign _1161 = { _1160, _1158 }; assign _1162 = reg_op1[30:0]; assign _1163 = reg_op1[31:31]; assign _1164 = ~ _1163; assign _1165 = { _1164, _1162 }; assign _1166 = _1165 < _1161; assign _1167 = ~ _1166; assign _1155 = reg_op1 < reg_op2; assign _1156 = ~ _1155; assign _1176 = _1168 ? _1167 : _1156; assign _1180 = _1179 ? _1178 : _1176; assign _1145 = reg_op2[30:0]; assign _1146 = reg_op2[31:31]; assign _1147 = ~ _1146; assign _1148 = { _1147, _1145 }; assign _1149 = reg_op1[30:0]; assign _1150 = reg_op1[31:31]; assign _1151 = ~ _1150; assign _1152 = { _1151, _1149 }; assign _1153 = _1152 < _1148; assign _1143 = reg_op1 < reg_op2; assign _1154 = is[7:7]; assign _1174 = _1154 ? _1153 : _1143; assign _1157 = instr[9:9]; assign _1168 = instr[7:7]; assign _1177 = _1168 \| _1157; assign _1171 = instr[5:5]; assign _1173 = instr[4:4]; assign _1179 = _1173 \| _1171; assign _1181 = _1179 \| _1177; assign _1182 = _1181 ? _1180 : _1174; assign _1205 = { _1203, _1182 }; assign _1192 = reg_op1 ^ reg_op2; assign _1213 = _1206 ? _1205 : _1192; assign _1217 = _1216 ? _1215 : _1213; assign _1188 = reg_op1 \| reg_op2; assign _1184 = reg_op1 & reg_op2; assign _1189 = instr[35:35]; assign _1190 = instr[22:22]; assign _1191 = _1190 \| _1189; assign _1211 = _1191 ? _1188 : _1184; assign _1193 = instr[32:32]; assign _1194 = instr[21:21]; assign _1195 = _1194 \| _1193; assign _1206 = is[13:13]; assign _1214 = _1206 \| _1195; assign _1208 = instr[28:28]; assign _1210 = is[6:6]; assign _1216 = _1210 \| _1208; assign _1218 = _1216 \| _1214; assign _1219 = _1218 ? _1217 : _1211; / aliases / / output assignments */ assign alu_out = _1219; assign alu_out_0 = _1182; endmodule
module Moore_Chart ( clk, rst_n, enb, a, b ); input clk; input rst_n; input enb; output [63:0] a; // double output [63:0] b; // double parameter IN_FINAL = 3'd0, IN_IDLE = 3'd1, IN_INITIAL = 3'd2, IN_SEQ1 = 3'd3, IN_SEQ2 = 3'd4; reg [2:0] is_Moore_Chart; // uint8 real a_1; // double real b_1; // double real a_reg; // double real b_reg; // double reg [2:0] is_Moore_Chart_next; // enum type state_type_is_Moore_Chart (5 enums) real a_reg_next; // double real b_reg_next; // double always @(posedge clk or negedge rst_n) begin : Moore_Chart_1_process if (rst_n == 1'b0) begin is_Moore_Chart <= IN_INITIAL; end else begin if (enb) begin is_Moore_Chart <= is_Moore_Chart_next; a_reg <= a_reg_next; b_reg <= b_reg_next; end end end always @* begin is_Moore_Chart_next = is_Moore_Chart; a_reg_next = a_reg; b_reg_next = b_reg; case ( is_Moore_Chart) IN_FINAL : begin end IN_IDLE : begin a_reg_next = 0.0; end IN_INITIAL : begin a_reg_next = 0.0; b_reg_next = 0.0; end IN_SEQ1 : begin a_reg_next = 1.0; b_reg_next = b_reg + 1.0; end endcase case ( is_Moore_Chart) IN_FINAL : begin is_Moore_Chart_next = IN_IDLE; end IN_IDLE : begin is_Moore_Chart_next = IN_SEQ1; end IN_INITIAL : begin is_Moore_Chart_next = IN_IDLE; end IN_SEQ1 : begin is_Moore_Chart_next = IN_SEQ2; end default : begin is_Moore_Chart_next = IN_FINAL; end endcase end always @* a_1 = a_reg_next; always @* b_1 = b_reg_next; assign a = $realtobits(a_1); assign b = $realtobits(b_1); endmodule
module rx #( parameter STATE_IDLE = 3'h0, parameter STATE_PREAMBLE = 3'h1, parameter STATE_DATA = 3'h2, parameter STATE_OK = 3'h3, parameter STATE_DROP = 3'h4, parameter STATE_ERROR = 3'h5 )( input reset, input clock, input rx_data_valid, input [7:0] rx_data, input rx_error, output reg [7:0] data_out, output reg data_out_enable, output reg data_out_start, output reg data_out_end, input wire fifo_full, output reg error ); localparam CRC_RESIDUE = 32'hC704DD7B; localparam CRC_POLYNOMIAL = 32'h04C11DB7; localparam CRC_SEED = 32'hFFFFFFFF; localparam MAX_SIZE = 1518; localparam MIN_SIZE = 64; reg [2:0] state; reg [2:0] next_state; reg [15:0] frame_length_counter; reg [15:0] data_counter; reg too_long; reg too_short; reg crc_init; reg data_enable; wire [31:0] crc_out; reg [39:0] data; // RX State Machine always @ (posedge clock) if (reset) state <= STATE_IDLE; else state <= next_state; always @ () case (state) STATE_IDLE: if (rx_data_valid && rx_data == 8'h55) next_state = STATE_PREAMBLE; else next_state = STATE_IDLE; STATE_PREAMBLE: if (!rx_data_valid) next_state = STATE_ERROR; else if (rx_error) next_state = STATE_DROP; else if (rx_data == 8'hd5) next_state = STATE_DATA; else if (rx_data == 8'h55) next_state = STATE_PREAMBLE; else next_state = STATE_DROP; STATE_DATA: if (!rx_data_valid && !too_short && !too_long && crc_out == CRC_RESIDUE) next_state = STATE_OK; else if ((!rx_data_valid && (too_short \|\| too_long)) \|\| (!rx_data_valid && crc_out != CRC_RESIDUE)) next_state = STATE_ERROR; else if (fifo_full) next_state = STATE_DROP; else if (rx_error \|\| too_long) next_state = STATE_DROP; else next_state = STATE_DATA; STATE_DROP: if (!rx_data_valid) next_state = STATE_ERROR; else next_state = STATE_DROP; STATE_OK: next_state = STATE_IDLE; STATE_ERROR: next_state = STATE_IDLE; default: next_state = STATE_IDLE; endcase always @(posedge clock) data_out <= data[39-:8]; always @(posedge clock) begin if (reset) begin data <= 32'h00000000; end else if (state == STATE_IDLE) begin data <= 32'h00000000; end else begin data[39-:8] <= data[31-:8]; data[31-:8] <= data[23-:8]; data[23-:8] <= data[15-:8]; data[15-:8] <= data[7-:8]; data[7-:8] <= rx_data; end end always @ (posedge clock) if (reset) data_counter <= 0; else if (state == STATE_DATA) data_counter = data_counter + 1; else data_counter = 0; always @ () if (data_counter > 5 && (state == STATE_DATA \|\| state == STATE_OK \|\| state == STATE_ERROR)) data_out_enable = 1; else data_out_enable = 0; always @() if (data_counter == 6) data_out_start = 1; else data_out_start = 0; always @() if (state == STATE_OK \|\| state == STATE_ERROR) data_out_end = 1; else data_out_end = 0; always @() if (state == STATE_ERROR) error = 1; else error = 0; // CRC Interface always @() if (state == STATE_DATA) data_enable = 1; else data_enable = 0; always @() if (state == STATE_PREAMBLE && next_state == STATE_DATA) crc_init = 1; else crc_init = 0; always @ (posedge clock) if (reset) frame_length_counter <= 0; else if (state == STATE_DATA) frame_length_counter = frame_length_counter + 1; else frame_length_counter = 0; always @ () if (frame_length_counter < MIN_SIZE) too_short = 1; else too_short = 0; always @ (*) if (frame_length_counter > MAX_SIZE) too_long = 1; else too_long = 0; // CRC crc #( .POLYNOMIAL(CRC_POLYNOMIAL), .DATA_WIDTH(8), .CRC_WIDTH(32), .SEED(CRC_SEED)) U_crc( .reset(reset), .clock(clock), .init(crc_init), .data(rx_data), .data_enable(data_enable), .crc_out(crc_out) ); endmodule
module sky130_fd_sc_lp__tap ( //# {{power\|Power}} input VPB , input VPWR, input VGND, input VNB ); endmodule
module t (/AUTOARG/ // Inputs clk ); input clk; reg [3:0] array_1 [2:0]; reg [3:0] array_2 [2:0]; reg [3:0] array_3 [3:1]; reg [3:0] elem; reg array_1_ne_array_2; reg array_1_eq_array_2; reg array_1_ne_array_3; reg array_1_eq_array_3; initial begin array_1[0] = 4'b1000; array_1[1] = 4'b1000; array_1[2] = 4'b1000; array_2[0] = 4'b1000; array_2[1] = 4'b1000; array_2[2] = 4'b1000; array_3[1] = 4'b1000; array_3[2] = 4'b0100; array_3[3] = 4'b0100; array_1_ne_array_2 = array_1 != array_2; // 0 array_1_eq_array_2 = array_1 == array_2; // 0 array_1_ne_array_3 = array_1 != array_3; // 1 array_1_eq_array_3 = array_1 == array_3; // 1 //Not legal: array_rxor = ^ array_1; //Not legal: array_rxnor = ^~ array_1; //Not legal: array_ror = \| array_1; //Not legal: array_rand = & array_1; `ifdef TEST_VERBOSE $write("array_1_ne_array2==%0d\n", array_1_ne_array_2); $write("array_1_ne_array3==%0d\n", array_1_ne_array_3); `endif if (array_1_ne_array_2 !== 0) $stop; if (array_1_eq_array_2 !== 1) $stop; if (array_1_ne_array_3 !== 1) $stop; if (array_1_eq_array_3 !== 0) $stop; $write("- All Finished -\n"); $finish; end endmodule
module axi_dwidth_converter_v2_1_9_axi4lite_upsizer # ( parameter C_FAMILY = "none", // FPGA Family. parameter integer C_AXI_ADDR_WIDTH = 32, // Width of all ADDR signals on SI and MI. // Range 3 - 64. parameter integer C_AXI_SUPPORTS_WRITE = 1, parameter integer C_AXI_SUPPORTS_READ = 1 ) ( // Global Signals input wire aresetn, input wire aclk, // Slave Interface Write Address Ports input wire [C_AXI_ADDR_WIDTH-1:0] s_axi_awaddr, input wire [3-1:0] s_axi_awprot, input wire s_axi_awvalid, output wire s_axi_awready, // Slave Interface Write Data Ports input wire [32-1:0] s_axi_wdata, input wire [32/8-1:0] s_axi_wstrb, input wire s_axi_wvalid, output wire s_axi_wready, // Slave Interface Write Response Ports output wire [2-1:0] s_axi_bresp, output wire s_axi_bvalid, input wire s_axi_bready, // Slave Interface Read Address Ports input wire [C_AXI_ADDR_WIDTH-1:0] s_axi_araddr, input wire [3-1:0] s_axi_arprot, input wire s_axi_arvalid, output wire s_axi_arready, // Slave Interface Read Data Ports output wire [32-1:0] s_axi_rdata, output wire [2-1:0] s_axi_rresp, output wire s_axi_rvalid, input wire s_axi_rready, // Master Interface Write Address Port output wire [C_AXI_ADDR_WIDTH-1:0] m_axi_awaddr, output wire [3-1:0] m_axi_awprot, output wire m_axi_awvalid, input wire m_axi_awready, // Master Interface Write Data Ports output wire [64-1:0] m_axi_wdata, output wire [64/8-1:0] m_axi_wstrb, output wire m_axi_wvalid, input wire m_axi_wready, // Master Interface Write Response Ports input wire [2-1:0] m_axi_bresp, input wire m_axi_bvalid, output wire m_axi_bready, // Master Interface Read Address Port output wire [C_AXI_ADDR_WIDTH-1:0] m_axi_araddr, output wire [3-1:0] m_axi_arprot, output wire m_axi_arvalid, input wire m_axi_arready, // Master Interface Read Data Ports input wire [64-1:0] m_axi_rdata, input wire [2-1:0] m_axi_rresp, input wire m_axi_rvalid, output wire m_axi_rready ); reg s_axi_arready_i ; reg m_axi_arvalid_i ; reg m_axi_rready_i ; reg s_axi_rvalid_i ; reg ar_done ; reg araddr2 ; reg s_axi_awready_i ; reg s_axi_bvalid_i ; reg m_axi_awvalid_i ; reg m_axi_wvalid_i ; reg m_axi_bready_i ; reg aw_done ; reg w_done ; generate if (C_AXI_SUPPORTS_READ != 0) begin : gen_read always @(posedge aclk) begin if (~aresetn) begin s_axi_arready_i <= 1'b0 ; m_axi_arvalid_i <= 1'b0 ; s_axi_rvalid_i <= 1'b0; m_axi_rready_i <= 1'b1; ar_done <= 1'b0 ; araddr2 <= 1'b0 ; end else begin s_axi_arready_i <= 1'b0 ; // end single-cycle pulse m_axi_rready_i <= 1'b0; // end single-cycle pulse if (s_axi_rvalid_i) begin if (s_axi_rready) begin s_axi_rvalid_i <= 1'b0; m_axi_rready_i <= 1'b1; // begin single-cycle pulse ar_done <= 1'b0; end end else if (m_axi_rvalid & ar_done) begin s_axi_rvalid_i <= 1'b1; end else if (m_axi_arvalid_i) begin if (m_axi_arready) begin m_axi_arvalid_i <= 1'b0; s_axi_arready_i <= 1'b1 ; // begin single-cycle pulse araddr2 <= s_axi_araddr[2]; ar_done <= 1'b1; end end else if (s_axi_arvalid & ~ar_done) begin m_axi_arvalid_i <= 1'b1; end end end assign m_axi_arvalid = m_axi_arvalid_i ; assign s_axi_arready = s_axi_arready_i ; assign m_axi_araddr = s_axi_araddr; assign m_axi_arprot = s_axi_arprot; assign s_axi_rvalid = s_axi_rvalid_i ; assign m_axi_rready = m_axi_rready_i ; assign s_axi_rdata = araddr2 ? m_axi_rdata[63:32] : m_axi_rdata[31:0]; assign s_axi_rresp = m_axi_rresp; end else begin : gen_noread assign m_axi_arvalid = 1'b0 ; assign s_axi_arready = 1'b0 ; assign m_axi_araddr = {C_AXI_ADDR_WIDTH{1'b0}} ; assign m_axi_arprot = 3'b0 ; assign s_axi_rvalid = 1'b0 ; assign m_axi_rready = 1'b0 ; assign s_axi_rresp = 2'b0 ; assign s_axi_rdata = 32'b0 ; end if (C_AXI_SUPPORTS_WRITE != 0) begin : gen_write always @(posedge aclk) begin if (~aresetn) begin m_axi_awvalid_i <= 1'b0 ; s_axi_awready_i <= 1'b0 ; m_axi_wvalid_i <= 1'b0 ; s_axi_bvalid_i <= 1'b0 ; m_axi_bready_i <= 1'b0 ; aw_done <= 1'b0 ; w_done <= 1'b0 ; end else begin m_axi_bready_i <= 1'b0; // end single-cycle pulse if (s_axi_bvalid_i) begin if (s_axi_bready) begin s_axi_bvalid_i <= 1'b0; m_axi_bready_i <= 1'b1; // begin single-cycle pulse aw_done <= 1'b0; w_done <= 1'b0; end end else if (s_axi_awready_i) begin s_axi_awready_i <= 1'b0; // end single-cycle pulse s_axi_bvalid_i <= 1'b1; end else if (aw_done & w_done) begin if (m_axi_bvalid) begin s_axi_awready_i <= 1'b1; // begin single-cycle pulse end end else begin if (m_axi_awvalid_i) begin if (m_axi_awready) begin m_axi_awvalid_i <= 1'b0; aw_done <= 1'b1; end end else if (s_axi_awvalid & ~aw_done) begin m_axi_awvalid_i <= 1'b1; end if (m_axi_wvalid_i) begin if (m_axi_wready) begin m_axi_wvalid_i <= 1'b0; w_done <= 1'b1; end end else if (s_axi_wvalid & (m_axi_awvalid_i \| aw_done) & ~w_done) begin m_axi_wvalid_i <= 1'b1; end end end end assign m_axi_awvalid = m_axi_awvalid_i ; assign s_axi_awready = s_axi_awready_i ; assign m_axi_awaddr = s_axi_awaddr; assign m_axi_awprot = s_axi_awprot; assign m_axi_wvalid = m_axi_wvalid_i ; assign s_axi_wready = s_axi_awready_i ; assign m_axi_wdata = {s_axi_wdata,s_axi_wdata}; assign m_axi_wstrb = s_axi_awaddr[2] ? {s_axi_wstrb, 4'b0} : {4'b0, s_axi_wstrb}; assign s_axi_bvalid = s_axi_bvalid_i ; assign m_axi_bready = m_axi_bready_i ; assign s_axi_bresp = m_axi_bresp; end else begin : gen_nowrite assign m_axi_awvalid = 1'b0 ; assign s_axi_awready = 1'b0 ; assign m_axi_awaddr = {C_AXI_ADDR_WIDTH{1'b0}} ; assign m_axi_awprot = 3'b0 ; assign m_axi_wvalid = 1'b0 ; assign s_axi_wready = 1'b0 ; assign m_axi_wdata = 64'b0 ; assign m_axi_wstrb = 8'b0 ; assign s_axi_bvalid = 1'b0 ; assign m_axi_bready = 1'b0 ; assign s_axi_bresp = 2'b0 ; end endgenerate endmodule
module top(); // Inputs are registered reg VPWR; reg VGND; reg VPB; reg VNB; // Outputs are wires initial begin // Initial state is x for all inputs. VGND = 1'bX; VNB = 1'bX; VPB = 1'bX; VPWR = 1'bX; #20 VGND = 1'b0; #40 VNB = 1'b0; #60 VPB = 1'b0; #80 VPWR = 1'b0; #100 VGND = 1'b1; #120 VNB = 1'b1; #140 VPB = 1'b1; #160 VPWR = 1'b1; #180 VGND = 1'b0; #200 VNB = 1'b0; #220 VPB = 1'b0; #240 VPWR = 1'b0; #260 VPWR = 1'b1; #280 VPB = 1'b1; #300 VNB = 1'b1; #320 VGND = 1'b1; #340 VPWR = 1'bx; #360 VPB = 1'bx; #380 VNB = 1'bx; #400 VGND = 1'bx; end sky130_fd_sc_hd__tapvpwrvgnd dut (.VPWR(VPWR), .VGND(VGND), .VPB(VPB), .VNB(VNB)); endmodule
module //pwm_ctl pwm_ctl //( //.clk(bus_clk), // .rst(rst), // .para_in(para_in), // .dir_out(dir_out), // .en_out(en_out) //); parameter MAX = 19999; reg dir; reg dir_; reg en; reg [14:0] in_; reg [31:0] counter; wire [31:0] divflag; reg [31:0] PWMctl_clk; initial PWMctl_clk = MAX; initial in_ = MAX; assign divflag = PWMctl_clk - in_; assign dir_out = dir; assign en_out = en; always @(posedge clk)begin if(rst)begin in_ <= 19999; dir_ <= 0; end else if(0 < para_in && para_in < PWMctl_clk)begin in_ <= para_in; dir_ <= dir_in; end else in_ <= MAX; end always @(posedge clk)begin if(rst)begin dir <= 0; en <= 0; end else if(divflag > counter)begin dir <= dir_; en <= 1; end else begin en <= 0; end end always @(posedge clk)begin if(rst)begin counter <= 0; end else if(PWMctl_clk == counter) counter <= 0; else counter <= counter + 1; end endmodule
module Approx_adder_W32 ( add_sub, in1, in2, res ); input [31:0] in1; input [31:0] in2; output [32:0] res; input add_sub; wire n10, n11, n12, n13, n14, n15, n16, n17, n18, n19, n20, n21, n22, n23, n24, n25, n26, n27, n28, n29, n30, n31, n32, n33, n34, n35, n36, n37, n38, n39, n40, n41, n42, n43, n44, n45, n46, n47, n48, n49, n50, n51, n52, n53, n54, n55, n56, n57, n58, n59, n60, n61, n62, n63, n64, n65, n66, n67, n68, n69, n70, n71, n72, n73, n74, n75, n76, n77, n78, n79, n80, n81, n82, n83, n84, n85, n86, n87, n88, n89, n90, n91, n92, n93, n94, n95, n96, n97, n98, n99, n100, n101, n102, n103, n104, n105, n106, n107, n108, n109, n110, n111, n112, n113, n114, n115, n116, n117, n118, n119, n120, n121, n122, n123, n124, n125, n126, n127, n128, n129, n130, n131, n132, n133, n134, n135, n136, n137, n138, n139, n140, n141, n142, n143, n144, n145, n146, n147, n148, n149, n150, n151, n152, n153, n154, n155, n156, n157, n158, n159, n160, n161, n162, n163, n164, n165, n166, n167, n168, n169, n170, n171, n172, n173, n174, n175, n176, n177, n178, n179, n180, n181, n182, n183, n184, n185, n186, n187, n188, n189, n190, n191, n192, n193, n194, n195, n196, n197, n198, n199, n200, n201, n202, n203, n204, n205, n206, n207, n208, n209, n210, n211, n212, n213, n214, n215, n216, n217, n218, n219, n220, n221, n222, n223, n224, n225, n226, n227, n228, n229, n230, n231, n232, n233, n234, n235, n236, n237, n238, n239, n240, n241, n242, n243, n244, n245, n246, n247, n248, n249, n250, n251, n252, n253, n254, n255, n256, n257, n258, n259, n260, n261, n262, n263, n264, n265, n266, n267, n268, n269, n270, n271, n272, n273, n274, n275, n276, n277, n278, n279, n280, n281, n282, n283, n284, n285, n286, n287, n288, n289, n290, n291, n292, n293, n294, n295, n296, n297, n298, n299, n300, n301, n302, n303, n304, n305, n306, n307, n308, n309, n310, n311, n312, n313, n314, n315, n316, n317, n318, n319, n320, n321, n322, n323, n324, n325, n326, n327, n328, n329, n330, n331, n332, n333, n334, n335, n336, n337, n338; XNOR2X1TS U44 ( .A(n226), .B(n225), .Y(res[26]) ); XOR2X1TS U45 ( .A(n255), .B(n254), .Y(res[22]) ); NAND2X1TS U46 ( .A(n76), .B(n220), .Y(n221) ); NAND2XLTS U47 ( .A(n80), .B(n274), .Y(n275) ); AND3X1TS U48 ( .A(n33), .B(n274), .C(n32), .Y(n18) ); NAND2X4TS U49 ( .A(n73), .B(n193), .Y(n200) ); NAND2XLTS U50 ( .A(n79), .B(n202), .Y(n203) ); NAND2X1TS U51 ( .A(n213), .B(n212), .Y(n214) ); NAND2XLTS U52 ( .A(n257), .B(n256), .Y(n258) ); NAND2X1TS U53 ( .A(n229), .B(n228), .Y(n230) ); NAND2X1TS U54 ( .A(n246), .B(n245), .Y(n247) ); NAND2X1TS U55 ( .A(n205), .B(n204), .Y(n206) ); NAND2XLTS U56 ( .A(n263), .B(n262), .Y(n264) ); NAND2XLTS U57 ( .A(n239), .B(n238), .Y(n240) ); CLKAND2X2TS U58 ( .A(n74), .B(n199), .Y(n75) ); OAI21X2TS U59 ( .A0(n231), .A1(n210), .B0(n209), .Y(n215) ); OAI21X2TS U60 ( .A0(n231), .A1(n219), .B0(n218), .Y(n222) ); OAI21X1TS U61 ( .A0(n270), .A1(n266), .B0(n267), .Y(n265) ); NAND2X1TS U62 ( .A(n253), .B(n252), .Y(n254) ); CLKINVX2TS U63 ( .A(n251), .Y(n253) ); INVX4TS U64 ( .A(n208), .Y(n231) ); OAI21X1TS U65 ( .A0(n234), .A1(n244), .B0(n245), .Y(n235) ); CLKMX2X4TS U66 ( .A(in2[31]), .B(n197), .S0(n196), .Y(n198) ); NAND2X2TS U67 ( .A(n189), .B(in1[29]), .Y(n204) ); CLKMX2X2TS U68 ( .A(in2[30]), .B(n186), .S0(n196), .Y(n190) ); CLKMX2X2TS U69 ( .A(in2[29]), .B(n188), .S0(n196), .Y(n189) ); OR2X2TS U70 ( .A(n195), .B(in2[30]), .Y(n19) ); OAI21X2TS U71 ( .A0(n245), .A1(n237), .B0(n238), .Y(n162) ); NAND2X1TS U72 ( .A(n141), .B(in1[20]), .Y(n262) ); NAND2X2TS U73 ( .A(n177), .B(in1[25]), .Y(n228) ); NAND2X2TS U74 ( .A(n160), .B(in1[23]), .Y(n245) ); NAND2X1TS U75 ( .A(n161), .B(in1[24]), .Y(n238) ); NAND2X2TS U76 ( .A(n180), .B(in1[27]), .Y(n220) ); NOR2X4TS U77 ( .A(n160), .B(in1[23]), .Y(n244) ); XNOR2X1TS U78 ( .A(n154), .B(in2[20]), .Y(n138) ); MXI2X2TS U79 ( .A(n131), .B(n130), .S0(n317), .Y(n132) ); CLKMX2X3TS U80 ( .A(in2[21]), .B(n152), .S0(n196), .Y(n158) ); NOR2X4TS U81 ( .A(n178), .B(in1[26]), .Y(n179) ); NAND2X4TS U82 ( .A(n274), .B(n32), .Y(n16) ); NOR2X2TS U83 ( .A(n133), .B(in2[18]), .Y(n134) ); XNOR2X1TS U84 ( .A(n133), .B(in2[18]), .Y(n130) ); NAND2X2TS U85 ( .A(n148), .B(n137), .Y(n133) ); INVX2TS U86 ( .A(n280), .Y(n12) ); OR2X1TS U87 ( .A(n175), .B(in2[27]), .Y(n184) ); NOR2X2TS U88 ( .A(n154), .B(in2[20]), .Y(n151) ); NAND2XLTS U89 ( .A(n173), .B(n172), .Y(n175) ); NAND2X2TS U90 ( .A(n126), .B(in1[16]), .Y(n276) ); NAND2X1TS U91 ( .A(n107), .B(in1[12]), .Y(n294) ); NAND2X1TS U92 ( .A(n51), .B(in2[17]), .Y(n58) ); INVX2TS U93 ( .A(in2[26]), .Y(n172) ); NAND2X6TS U94 ( .A(n148), .B(n147), .Y(n185) ); INVX4TS U95 ( .A(n300), .Y(n13) ); NAND2X2TS U96 ( .A(n118), .B(n108), .Y(n109) ); NAND2X2TS U97 ( .A(n94), .B(in1[9]), .Y(n305) ); NAND2X6TS U98 ( .A(n99), .B(in1[10]), .Y(n301) ); NAND2X2TS U99 ( .A(n137), .B(n136), .Y(n146) ); OR2X2TS U100 ( .A(in2[21]), .B(in2[20]), .Y(n153) ); NOR2X1TS U101 ( .A(in2[19]), .B(in2[18]), .Y(n136) ); NAND2X6TS U102 ( .A(n86), .B(n85), .Y(n21) ); BUFX6TS U103 ( .A(add_sub), .Y(n196) ); OR2X4TS U104 ( .A(n335), .B(n83), .Y(n86) ); INVX8TS U105 ( .A(in2[10]), .Y(n104) ); CLKINVX6TS U106 ( .A(in2[6]), .Y(n64) ); INVX12TS U107 ( .A(in2[5]), .Y(n313) ); INVX2TS U108 ( .A(in2[11]), .Y(n35) ); OAI21X2TS U109 ( .A0(in2[7]), .A1(n336), .B0(in1[7]), .Y(n82) ); CLKINVX6TS U110 ( .A(in2[7]), .Y(n63) ); NAND2X4TS U111 ( .A(n64), .B(n63), .Y(n62) ); NOR3X2TS U112 ( .A(n154), .B(in2[22]), .C(n153), .Y(n144) ); INVX12TS U113 ( .A(in2[4]), .Y(n312) ); CLKMX2X4TS U114 ( .A(in2[13]), .B(n110), .S0(add_sub), .Y(n112) ); CLKMX2X2TS U115 ( .A(in2[28]), .B(n176), .S0(n196), .Y(n182) ); NAND2X1TS U116 ( .A(n182), .B(in1[28]), .Y(n212) ); OAI21XLTS U117 ( .A0(n302), .A1(n300), .B0(n301), .Y(n298) ); NAND2X1TS U118 ( .A(n268), .B(n267), .Y(n269) ); NAND2X1TS U119 ( .A(n224), .B(n223), .Y(n225) ); NAND2X2TS U120 ( .A(n113), .B(in1[14]), .Y(n10) ); AND2X4TS U121 ( .A(n40), .B(n294), .Y(n11) ); NAND2X2TS U122 ( .A(n129), .B(in1[17]), .Y(n274) ); NAND2X4TS U123 ( .A(n216), .B(n76), .Y(n210) ); NAND2X1TS U124 ( .A(n23), .B(n276), .Y(n278) ); NAND2X1TS U125 ( .A(n14), .B(n294), .Y(n296) ); INVX8TS U126 ( .A(in2[8]), .Y(n97) ); OR2X6TS U127 ( .A(n164), .B(n67), .Y(n72) ); NOR2X6TS U128 ( .A(n210), .B(n211), .Y(n183) ); CLKINVX6TS U129 ( .A(n165), .Y(n65) ); NOR2X6TS U130 ( .A(n244), .B(n237), .Y(n163) ); INVX2TS U131 ( .A(n220), .Y(n181) ); OR2X6TS U132 ( .A(n180), .B(in1[27]), .Y(n76) ); MXI2X4TS U133 ( .A(n150), .B(n149), .S0(n317), .Y(n161) ); XOR2X2TS U134 ( .A(n15), .B(in2[28]), .Y(n176) ); XOR2X2TS U135 ( .A(n166), .B(in2[25]), .Y(n168) ); OR2X4TS U136 ( .A(n185), .B(n184), .Y(n15) ); OR2X2TS U137 ( .A(n185), .B(n175), .Y(n20) ); NOR2X4TS U138 ( .A(n185), .B(in2[24]), .Y(n166) ); NAND2X6TS U139 ( .A(n80), .B(n54), .Y(n32) ); NAND2X2TS U140 ( .A(n79), .B(n205), .Y(n194) ); NAND2X4TS U141 ( .A(n44), .B(n43), .Y(n42) ); NAND2X4TS U142 ( .A(n140), .B(in1[19]), .Y(n267) ); NOR2X4TS U143 ( .A(n182), .B(in1[28]), .Y(n211) ); INVX2TS U144 ( .A(n237), .Y(n239) ); OR2X4TS U145 ( .A(n132), .B(in1[18]), .Y(n27) ); NAND2X4TS U146 ( .A(n56), .B(n23), .Y(n55) ); NAND2BX2TS U147 ( .AN(in2[29]), .B(n187), .Y(n195) ); XNOR2X2TS U148 ( .A(n151), .B(in2[21]), .Y(n152) ); NOR3X4TS U149 ( .A(n185), .B(in2[28]), .C(n184), .Y(n187) ); NAND2X4TS U150 ( .A(n13), .B(n77), .Y(n45) ); NAND2X6TS U151 ( .A(n48), .B(n47), .Y(n77) ); NOR2X4TS U152 ( .A(n107), .B(in1[12]), .Y(n293) ); AND2X4TS U153 ( .A(n91), .B(n97), .Y(n61) ); BUFX16TS U154 ( .A(add_sub), .Y(n317) ); NOR2X4TS U155 ( .A(in2[13]), .B(in2[12]), .Y(n117) ); INVX2TS U156 ( .A(in2[25]), .Y(n167) ); NOR2X2TS U157 ( .A(n266), .B(n261), .Y(n143) ); OR2X4TS U158 ( .A(n190), .B(in1[30]), .Y(n79) ); INVX2TS U159 ( .A(n244), .Y(n246) ); NAND2X4TS U160 ( .A(n158), .B(in1[21]), .Y(n256) ); NOR2X4TS U161 ( .A(n158), .B(in1[21]), .Y(n249) ); NAND2X4TS U162 ( .A(n59), .B(n58), .Y(n129) ); NAND2X6TS U163 ( .A(n276), .B(n55), .Y(n54) ); INVX6TS U164 ( .A(n302), .Y(n43) ); NAND2X4TS U165 ( .A(n12), .B(n23), .Y(n57) ); CLKINVX6TS U166 ( .A(n301), .Y(n50) ); NOR2X6TS U167 ( .A(n88), .B(in1[8]), .Y(n307) ); NAND2X4TS U168 ( .A(n88), .B(in1[8]), .Y(n308) ); MXI2X4TS U169 ( .A(n108), .B(n106), .S0(n317), .Y(n107) ); INVX8TS U170 ( .A(n21), .Y(n88) ); NAND2X6TS U171 ( .A(n96), .B(n97), .Y(n103) ); XNOR2X1TS U172 ( .A(n265), .B(n264), .Y(res[20]) ); XOR2X1TS U173 ( .A(n279), .B(n282), .Y(res[15]) ); XOR2X1TS U174 ( .A(n272), .B(n18), .Y(res[18]) ); OAI21X1TS U175 ( .A0(n279), .A1(n57), .B0(n53), .Y(n273) ); OAI21X1TS U176 ( .A0(n279), .A1(n280), .B0(n281), .Y(n277) ); XOR2X1TS U177 ( .A(n292), .B(n291), .Y(res[13]) ); OAI21X1TS U178 ( .A0(n292), .A1(n288), .B0(n289), .Y(n287) ); NAND2X2TS U179 ( .A(n198), .B(in1[31]), .Y(n199) ); NAND2X2TS U180 ( .A(n190), .B(in1[30]), .Y(n202) ); XOR2X1TS U181 ( .A(n296), .B(n295), .Y(res[12]) ); NOR2X4TS U182 ( .A(n177), .B(in1[25]), .Y(n227) ); NOR2X1TS U183 ( .A(n302), .B(n45), .Y(n39) ); MXI2X4TS U184 ( .A(n168), .B(n167), .S0(n51), .Y(n177) ); XOR2X1TS U185 ( .A(n303), .B(n302), .Y(res[10]) ); NAND2X4TS U186 ( .A(n60), .B(add_sub), .Y(n59) ); NAND2X2TS U187 ( .A(n132), .B(in1[18]), .Y(n271) ); NAND2X6TS U188 ( .A(n49), .B(n297), .Y(n41) ); XNOR2X2TS U189 ( .A(n144), .B(in2[23]), .Y(n145) ); INVX4TS U190 ( .A(n293), .Y(n14) ); NAND2BXLTS U191 ( .AN(in1[6]), .B(n334), .Y(res[6]) ); NAND2BXLTS U192 ( .AN(in1[7]), .B(n326), .Y(res[7]) ); NAND2BXLTS U193 ( .AN(in1[5]), .B(n316), .Y(res[5]) ); NAND2BXLTS U194 ( .AN(in1[4]), .B(n338), .Y(res[4]) ); NAND2BXLTS U195 ( .AN(in1[3]), .B(n322), .Y(res[3]) ); NAND2BXLTS U196 ( .AN(in1[2]), .B(n329), .Y(res[2]) ); NAND2BXLTS U197 ( .AN(in1[1]), .B(n319), .Y(res[1]) ); NOR4X2TS U198 ( .A(n146), .B(n153), .C(in2[23]), .D(in2[22]), .Y(n147) ); NOR2X6TS U199 ( .A(n320), .B(in2[3]), .Y(n335) ); INVX4TS U200 ( .A(n196), .Y(n51) ); OR2X1TS U201 ( .A(in2[0]), .B(in1[0]), .Y(res[0]) ); BUFX16TS U202 ( .A(add_sub), .Y(n336) ); NOR2X2TS U203 ( .A(in2[25]), .B(in2[24]), .Y(n173) ); MXI2X4TS U204 ( .A(n97), .B(n87), .S0(n317), .Y(n310) ); XNOR2X2TS U205 ( .A(n105), .B(in2[8]), .Y(n87) ); NOR2X4TS U206 ( .A(n127), .B(in2[16]), .Y(n128) ); NOR2X6TS U207 ( .A(n227), .B(n179), .Y(n216) ); NAND2X2TS U208 ( .A(n169), .B(n173), .Y(n170) ); OR2X4TS U209 ( .A(n94), .B(in1[9]), .Y(n78) ); XNOR2X2TS U210 ( .A(n92), .B(in2[9]), .Y(n93) ); NOR2X6TS U211 ( .A(n113), .B(in1[14]), .Y(n284) ); NOR2X2TS U212 ( .A(n288), .B(n284), .Y(n115) ); XOR2X2TS U213 ( .A(n119), .B(in2[15]), .Y(n120) ); NAND2X4TS U214 ( .A(n121), .B(in1[15]), .Y(n281) ); NOR2X6TS U215 ( .A(n249), .B(n251), .Y(n243) ); XOR2X2TS U216 ( .A(n20), .B(in2[27]), .Y(n174) ); NAND2X8TS U217 ( .A(n11), .B(n42), .Y(n283) ); NAND2X2TS U218 ( .A(n327), .B(n81), .Y(n320) ); NAND2X8TS U219 ( .A(n17), .B(n33), .Y(n31) ); INVX6TS U220 ( .A(n16), .Y(n17) ); NOR2X4TS U221 ( .A(n99), .B(in1[10]), .Y(n300) ); XNOR2X4TS U222 ( .A(n128), .B(in2[17]), .Y(n60) ); NAND2X4TS U223 ( .A(n41), .B(n14), .Y(n40) ); XOR2X1TS U224 ( .A(n19), .B(in2[31]), .Y(n197) ); NAND2X8TS U225 ( .A(n31), .B(n27), .Y(n30) ); MX2X4TS U226 ( .A(in2[15]), .B(n120), .S0(n196), .Y(n121) ); INVX2TS U227 ( .A(n281), .Y(n56) ); XNOR2X2TS U228 ( .A(n222), .B(n221), .Y(res[27]) ); NAND2BX4TS U229 ( .AN(n146), .B(n148), .Y(n154) ); NOR2X8TS U230 ( .A(in2[3]), .B(in2[2]), .Y(n91) ); MX2X4TS U231 ( .A(in2[23]), .B(n145), .S0(n196), .Y(n160) ); XOR2X4TS U232 ( .A(n109), .B(in2[13]), .Y(n110) ); NAND2X4TS U233 ( .A(n36), .B(n26), .Y(n34) ); OAI21X4TS U234 ( .A0(n267), .A1(n261), .B0(n262), .Y(n142) ); MX2X4TS U235 ( .A(in2[27]), .B(n174), .S0(n196), .Y(n180) ); OAI21X4TS U236 ( .A0(n231), .A1(n227), .B0(n228), .Y(n226) ); NAND2X8TS U237 ( .A(n30), .B(n271), .Y(n260) ); MXI2X4TS U238 ( .A(n116), .B(n111), .S0(n336), .Y(n113) ); OA21X4TS U239 ( .A0(n193), .A1(n69), .B0(n199), .Y(n68) ); XNOR2X4TS U240 ( .A(n170), .B(in2[26]), .Y(n171) ); MXI2X4TS U241 ( .A(n96), .B(n93), .S0(n317), .Y(n94) ); NAND2X4TS U242 ( .A(n183), .B(n65), .Y(n24) ); XNOR2X2TS U243 ( .A(n215), .B(n214), .Y(res[28]) ); AND2X6TS U244 ( .A(n105), .B(n84), .Y(n85) ); INVX2TS U245 ( .A(n114), .Y(n29) ); OAI21X2TS U246 ( .A0(n284), .A1(n289), .B0(n10), .Y(n114) ); XNOR2X1TS U247 ( .A(n187), .B(in2[29]), .Y(n188) ); OR2X6TS U248 ( .A(n129), .B(in1[17]), .Y(n80) ); NAND2X2TS U249 ( .A(n178), .B(in1[26]), .Y(n223) ); INVX2TS U250 ( .A(n201), .Y(n205) ); NOR2X2TS U251 ( .A(n189), .B(in1[29]), .Y(n201) ); CLKINVX6TS U252 ( .A(in2[9]), .Y(n96) ); NAND3X1TS U253 ( .A(n90), .B(n61), .C(n327), .Y(n92) ); XNOR2X1TS U254 ( .A(in2[14]), .B(n122), .Y(n111) ); MXI2X4TS U255 ( .A(n125), .B(n124), .S0(n336), .Y(n126) ); INVX2TS U256 ( .A(in2[16]), .Y(n125) ); NAND3X1TS U257 ( .A(n118), .B(n117), .C(n116), .Y(n119) ); INVX2TS U258 ( .A(in2[18]), .Y(n131) ); INVX2TS U259 ( .A(in2[20]), .Y(n139) ); MXI2X4TS U260 ( .A(n172), .B(n171), .S0(n317), .Y(n178) ); INVX2TS U261 ( .A(n185), .Y(n169) ); INVX2TS U262 ( .A(in2[2]), .Y(n81) ); NOR2X2TS U263 ( .A(in2[6]), .B(n330), .Y(n323) ); INVX2TS U264 ( .A(n310), .Y(n89) ); AOI21X1TS U265 ( .A0(n51), .A1(in2[11]), .B0(in1[11]), .Y(n47) ); NAND2X4TS U266 ( .A(n22), .B(in1[11]), .Y(n297) ); NAND2X2TS U267 ( .A(n112), .B(in1[13]), .Y(n289) ); NOR2X2TS U268 ( .A(n112), .B(in1[13]), .Y(n288) ); INVX2TS U269 ( .A(n283), .Y(n292) ); NOR2X4TS U270 ( .A(n121), .B(in1[15]), .Y(n280) ); NOR2X4TS U271 ( .A(n159), .B(in1[22]), .Y(n251) ); NAND2X2TS U272 ( .A(n159), .B(in1[22]), .Y(n252) ); INVX2TS U273 ( .A(n217), .Y(n218) ); OR2X4TS U274 ( .A(n198), .B(in1[31]), .Y(n74) ); INVX2TS U275 ( .A(n202), .Y(n191) ); INVX2TS U276 ( .A(n204), .Y(n192) ); NOR2X4TS U277 ( .A(in2[17]), .B(in2[16]), .Y(n137) ); NAND2X2TS U278 ( .A(in2[7]), .B(n336), .Y(n83) ); OR2X4TS U279 ( .A(n103), .B(n105), .Y(n100) ); NOR2X4TS U280 ( .A(n45), .B(n293), .Y(n44) ); INVX2TS U281 ( .A(n103), .Y(n36) ); INVX2TS U282 ( .A(n57), .Y(n52) ); MXI2X4TS U283 ( .A(n157), .B(n156), .S0(n317), .Y(n159) ); XOR2X2TS U284 ( .A(n155), .B(in2[22]), .Y(n156) ); INVX2TS U285 ( .A(in2[24]), .Y(n150) ); NAND2X4TS U286 ( .A(n163), .B(n243), .Y(n165) ); INVX2TS U287 ( .A(n183), .Y(n67) ); NOR2X4TS U288 ( .A(n141), .B(in1[20]), .Y(n261) ); NOR2X4TS U289 ( .A(n140), .B(in1[19]), .Y(n266) ); INVX2TS U290 ( .A(n260), .Y(n270) ); INVX2TS U291 ( .A(n249), .Y(n257) ); INVX2TS U292 ( .A(n256), .Y(n250) ); NOR2X4TS U293 ( .A(n161), .B(in1[24]), .Y(n237) ); NOR2X1TS U294 ( .A(n233), .B(n244), .Y(n236) ); INVX2TS U295 ( .A(n243), .Y(n233) ); INVX2TS U296 ( .A(n232), .Y(n259) ); XNOR2X1TS U297 ( .A(n335), .B(in2[4]), .Y(n337) ); NOR2XLTS U298 ( .A(n331), .B(n330), .Y(n332) ); NAND2X1TS U299 ( .A(n335), .B(n323), .Y(n324) ); NAND2X1TS U300 ( .A(n309), .B(n308), .Y(n311) ); INVX2TS U301 ( .A(n307), .Y(n309) ); NAND2X1TS U302 ( .A(n78), .B(n305), .Y(n306) ); NAND2X1TS U303 ( .A(n77), .B(n297), .Y(n299) ); NAND2X1TS U304 ( .A(n290), .B(n289), .Y(n291) ); INVX2TS U305 ( .A(n288), .Y(n290) ); NAND2X1TS U306 ( .A(n285), .B(n10), .Y(n286) ); INVX2TS U307 ( .A(n284), .Y(n285) ); NAND2X1TS U308 ( .A(n12), .B(n281), .Y(n282) ); INVX2TS U309 ( .A(n54), .Y(n53) ); XOR2X1TS U310 ( .A(n270), .B(n269), .Y(res[19]) ); INVX2TS U311 ( .A(n266), .Y(n268) ); XNOR2X1TS U312 ( .A(n259), .B(n258), .Y(res[21]) ); XOR2X1TS U313 ( .A(n231), .B(n230), .Y(res[25]) ); INVX2TS U314 ( .A(n227), .Y(n229) ); INVX2TS U315 ( .A(n179), .Y(n224) ); INVX2TS U316 ( .A(n216), .Y(n219) ); INVX2TS U317 ( .A(n211), .Y(n213) ); XNOR2X1TS U318 ( .A(n207), .B(n206), .Y(res[29]) ); INVX2TS U319 ( .A(n74), .Y(n69) ); XOR2X2TS U320 ( .A(n118), .B(in2[12]), .Y(n106) ); NAND2X1TS U321 ( .A(n27), .B(n271), .Y(n272) ); NAND2X6TS U322 ( .A(n77), .B(n50), .Y(n49) ); OAI21X1TS U323 ( .A0(n73), .A1(n69), .B0(n68), .Y(res[32]) ); NAND2X4TS U324 ( .A(n102), .B(add_sub), .Y(n48) ); NAND3X8TS U325 ( .A(n52), .B(n80), .C(n28), .Y(n33) ); NOR2X2TS U326 ( .A(n24), .B(n232), .Y(n70) ); OAI21X2TS U327 ( .A0(n232), .A1(n165), .B0(n164), .Y(n208) ); OAI2BB1X4TS U328 ( .A0N(n283), .A1N(n115), .B0(n29), .Y(n28) ); OA22X4TS U329 ( .A0(n102), .A1(n51), .B0(in2[11]), .B1(add_sub), .Y(n22) ); OR2X4TS U330 ( .A(n126), .B(in1[16]), .Y(n23) ); OA21X4TS U331 ( .A0(n209), .A1(n211), .B0(n212), .Y(n25) ); AND2X2TS U332 ( .A(n35), .B(n104), .Y(n26) ); INVX2TS U333 ( .A(n28), .Y(n279) ); NOR2XLTS U334 ( .A(n39), .B(n41), .Y(n295) ); NOR2X8TS U335 ( .A(n105), .B(n34), .Y(n118) ); NAND2X8TS U336 ( .A(n37), .B(n90), .Y(n105) ); NOR2X8TS U337 ( .A(n330), .B(n62), .Y(n90) ); AND2X8TS U338 ( .A(n327), .B(n91), .Y(n37) ); NOR2X8TS U339 ( .A(in2[0]), .B(in2[1]), .Y(n327) ); XNOR2X1TS U340 ( .A(n38), .B(n203), .Y(res[30]) ); OAI21X4TS U341 ( .A0(n66), .A1(n201), .B0(n204), .Y(n38) ); NOR2X8TS U342 ( .A(n71), .B(n70), .Y(n66) ); NAND2X8TS U343 ( .A(n118), .B(n117), .Y(n122) ); MXI2X4TS U344 ( .A(n139), .B(n138), .S0(n317), .Y(n141) ); NOR3X8TS U345 ( .A(n122), .B(in2[15]), .C(in2[14]), .Y(n123) ); BUFX20TS U346 ( .A(n123), .Y(n148) ); NOR2X8TS U347 ( .A(n46), .B(n95), .Y(n302) ); AND2X8TS U348 ( .A(n304), .B(n78), .Y(n46) ); NAND2X8TS U349 ( .A(n313), .B(n312), .Y(n330) ); OR2X8TS U350 ( .A(n66), .B(n194), .Y(n73) ); NAND2X8TS U351 ( .A(n72), .B(n25), .Y(n71) ); XOR2X1TS U352 ( .A(n248), .B(n247), .Y(res[23]) ); XOR2X1TS U353 ( .A(n241), .B(n240), .Y(res[24]) ); XNOR2X1TS U354 ( .A(n311), .B(n310), .Y(res[8]) ); XNOR2X4TS U355 ( .A(n101), .B(in2[11]), .Y(n102) ); NOR2X8TS U356 ( .A(n100), .B(in2[10]), .Y(n101) ); XOR2X4TS U357 ( .A(n148), .B(in2[16]), .Y(n124) ); NOR2X2TS U358 ( .A(n154), .B(n153), .Y(n155) ); INVX2TS U359 ( .A(n242), .Y(n234) ); INVX2TS U360 ( .A(n305), .Y(n95) ); NAND2X1TS U361 ( .A(n13), .B(n301), .Y(n303) ); AOI2BB1X4TS U362 ( .A0N(n323), .A1N(n83), .B0(n82), .Y(n84) ); OAI21X4TS U363 ( .A0(n307), .A1(n89), .B0(n308), .Y(n304) ); XNOR2X4TS U364 ( .A(n100), .B(in2[10]), .Y(n98) ); MXI2X8TS U365 ( .A(n104), .B(n98), .S0(n317), .Y(n99) ); INVX2TS U366 ( .A(in2[12]), .Y(n108) ); INVX2TS U367 ( .A(in2[14]), .Y(n116) ); INVX2TS U368 ( .A(n148), .Y(n127) ); XNOR2X1TS U369 ( .A(n134), .B(in2[19]), .Y(n135) ); MX2X4TS U370 ( .A(in2[19]), .B(n135), .S0(add_sub), .Y(n140) ); AOI21X4TS U371 ( .A0(n260), .A1(n143), .B0(n142), .Y(n232) ); XNOR2X1TS U372 ( .A(n185), .B(in2[24]), .Y(n149) ); INVX2TS U373 ( .A(in2[22]), .Y(n157) ); OAI21X4TS U374 ( .A0(n251), .A1(n256), .B0(n252), .Y(n242) ); AOI21X4TS U375 ( .A0(n163), .A1(n242), .B0(n162), .Y(n164) ); OAI21X4TS U376 ( .A0(n228), .A1(n179), .B0(n223), .Y(n217) ); AOI21X4TS U377 ( .A0(n76), .A1(n217), .B0(n181), .Y(n209) ); XOR2X1TS U378 ( .A(n195), .B(in2[30]), .Y(n186) ); AOI21X4TS U379 ( .A0(n79), .A1(n192), .B0(n191), .Y(n193) ); XOR2X4TS U380 ( .A(n200), .B(n75), .Y(res[31]) ); INVX2TS U381 ( .A(n66), .Y(n207) ); AOI21X4TS U382 ( .A0(n259), .A1(n236), .B0(n235), .Y(n241) ); AOI21X4TS U383 ( .A0(n259), .A1(n243), .B0(n242), .Y(n248) ); AOI21X4TS U384 ( .A0(n259), .A1(n257), .B0(n250), .Y(n255) ); INVX2TS U385 ( .A(n261), .Y(n263) ); XNOR2X1TS U386 ( .A(n273), .B(n275), .Y(res[17]) ); XNOR2X1TS U387 ( .A(n278), .B(n277), .Y(res[16]) ); XNOR2X1TS U388 ( .A(n287), .B(n286), .Y(res[14]) ); XNOR2X1TS U389 ( .A(n299), .B(n298), .Y(res[11]) ); XNOR2X1TS U390 ( .A(n304), .B(n306), .Y(res[9]) ); NAND2X1TS U391 ( .A(n335), .B(n312), .Y(n314) ); XNOR2X1TS U392 ( .A(n314), .B(n313), .Y(n315) ); MXI2X1TS U393 ( .A(in2[5]), .B(n315), .S0(n336), .Y(n316) ); XOR2X1TS U394 ( .A(in2[0]), .B(in2[1]), .Y(n318) ); MXI2X1TS U395 ( .A(in2[1]), .B(n318), .S0(n317), .Y(n319) ); XOR2X1TS U396 ( .A(in2[3]), .B(n320), .Y(n321) ); MXI2X1TS U397 ( .A(in2[3]), .B(n321), .S0(n336), .Y(n322) ); XOR2X1TS U398 ( .A(n324), .B(in2[7]), .Y(n325) ); MXI2X1TS U399 ( .A(in2[7]), .B(n325), .S0(n336), .Y(n326) ); XNOR2X1TS U400 ( .A(n327), .B(in2[2]), .Y(n328) ); MXI2X1TS U401 ( .A(in2[2]), .B(n328), .S0(n336), .Y(n329) ); INVX2TS U402 ( .A(n335), .Y(n331) ); XNOR2X1TS U403 ( .A(n332), .B(in2[6]), .Y(n333) ); MXI2X1TS U404 ( .A(in2[6]), .B(n333), .S0(n336), .Y(n334) ); MXI2X1TS U405 ( .A(in2[4]), .B(n337), .S0(n336), .Y(n338) ); initial $sdf_annotate("Approx_adder_LOALPL8_syn.sdf"); endmodule
module uparc_long_imul( clk, nrst, multiplicand, multiplier, start, signd, ready, product ); input wire clk; input wire nrst; input wire [`UPARC_REG_WIDTH-1:0] multiplicand; input wire [`UPARC_REG_WIDTH-1:0] multiplier; input wire start; input wire signd; output wire ready; output wire [2`UPARC_REG_WIDTH-1:0] product; / Local registers / reg [5:0] nbit; reg [2`UPARC_REG_WIDTH-1:0] prod; reg [`UPARC_REG_WIDTH-1:0] abs_multiplicand; assign ready = !nbit && !start; assign product = (signd && (multiplicand[`UPARC_REG_WIDTH-1] ^ multiplier[`UPARC_REG_WIDTH-1])) ? -prod : prod; always @(posedge clk or negedge nrst) begin if(!nrst) begin nbit <= 6'b0; prod <= {(2`UPARC_REG_WIDTH){1'b0}}; abs_multiplicand <= {(`UPARC_REG_WIDTH){1'b0}}; end else if(start) begin if(!multiplicand \|\| !multiplier) begin nbit <= 6'b0; prod <= {(2`UPARC_REG_WIDTH){1'b0}}; end else begin nbit <= 6'd`UPARC_REG_WIDTH; prod <= { {(`UPARC_REG_WIDTH){1'b0}}, signd && multiplier[`UPARC_REG_WIDTH-1] ? -multiplier : multiplier }; abs_multiplicand <= signd && multiplicand[`UPARC_REG_WIDTH-1] ? -multiplicand : multiplicand; end end else if(nbit) begin nbit <= nbit - 1'b1; if(prod[0]) begin prod[2`UPARC_REG_WIDTH-1:`UPARC_REG_WIDTH-1] <= prod[2`UPARC_REG_WIDTH-1:`UPARC_REG_WIDTH] + abs_multiplicand; prod[`UPARC_REG_WIDTH-2:0] <= prod[`UPARC_REG_WIDTH-1:1]; end else prod <= { 1'b0, prod[2*`UPARC_REG_WIDTH-1:1] }; end end endmodule
module test_wb_drp; // Parameters parameter ADDR_WIDTH = 16; // Inputs reg clk = 0; reg rst = 0; reg [7:0] current_test = 0; reg [ADDR_WIDTH-1:0] wb_adr_i = 0; reg [15:0] wb_dat_i = 0; reg wb_we_i = 0; reg wb_stb_i = 0; reg wb_cyc_i = 0; reg [15:0] drp_di = 0; reg drp_rdy = 0; // Outputs wire [15:0] wb_dat_o; wire wb_ack_o; wire [ADDR_WIDTH-1:0] drp_addr; wire [15:0] drp_do; wire drp_en; wire drp_we; initial begin // myhdl integration $from_myhdl( clk, rst, current_test, wb_adr_i, wb_dat_i, wb_we_i, wb_stb_i, wb_cyc_i, drp_di, drp_rdy ); $to_myhdl( wb_dat_o, wb_ack_o, drp_addr, drp_do, drp_en, drp_we ); // dump file $dumpfile("test_wb_drp.lxt"); $dumpvars(0, test_wb_drp); end wb_drp #( .ADDR_WIDTH(ADDR_WIDTH) ) UUT ( .clk(clk), .rst(rst), .wb_adr_i(wb_adr_i), .wb_dat_i(wb_dat_i), .wb_dat_o(wb_dat_o), .wb_we_i(wb_we_i), .wb_stb_i(wb_stb_i), .wb_ack_o(wb_ack_o), .wb_cyc_i(wb_cyc_i), .drp_addr(drp_addr), .drp_do(drp_do), .drp_di(drp_di), .drp_en(drp_en), .drp_we(drp_we), .drp_rdy(drp_rdy) ); endmodule
module sky130_fd_sc_hdll__and3 ( X, A, B, C ); output X; input A; input B; input C; // Voltage supply signals supply1 VPWR; supply0 VGND; supply1 VPB ; supply0 VNB ; endmodule
module sky130_fd_sc_lp__inputiso1n ( //# {{data\|Data Signals}} input A , output X , //# {{power\|Power}} input SLEEP_B ); // Voltage supply signals supply1 VPWR; supply0 VGND; supply1 VPB ; supply0 VNB ; endmodule
module SNPS_CLOCK_GATE_HIGH_FSM_Add_Subtract_83 ( CLK, EN, ENCLK, TE ); input CLK, EN, TE; output ENCLK; TLATNTSCAX2TS latch ( .E(EN), .SE(TE), .CK(CLK), .ECK(ENCLK) ); initial $sdf_annotate("FPU_Add_Subtract_Function_ASIC_fpu_syn_constraints_clk10.tcl_GATED_syn.sdf"); endmodule
module SNPS_CLOCK_GATE_HIGH_RegisterAdd_W11_82 ( CLK, EN, ENCLK, TE ); input CLK, EN, TE; output ENCLK; TLATNTSCAX2TS latch ( .E(EN), .SE(TE), .CK(CLK), .ECK(ENCLK) ); initial $sdf_annotate("FPU_Add_Subtract_Function_ASIC_fpu_syn_constraints_clk10.tcl_GATED_syn.sdf"); endmodule
module SNPS_CLOCK_GATE_HIGH_RegisterAdd_W6 ( CLK, EN, ENCLK, TE ); input CLK, EN, TE; output ENCLK; TLATNTSCAX2TS latch ( .E(EN), .SE(TE), .CK(CLK), .ECK(ENCLK) ); initial $sdf_annotate("FPU_Add_Subtract_Function_ASIC_fpu_syn_constraints_clk10.tcl_GATED_syn.sdf"); endmodule
module SNPS_CLOCK_GATE_HIGH_RegisterAdd_W55_1_2 ( CLK, EN, ENCLK, TE ); input CLK, EN, TE; output ENCLK; TLATNTSCAX2TS latch ( .E(EN), .SE(TE), .CK(CLK), .ECK(ENCLK) ); initial $sdf_annotate("FPU_Add_Subtract_Function_ASIC_fpu_syn_constraints_clk10.tcl_GATED_syn.sdf"); endmodule
module SNPS_CLOCK_GATE_HIGH_RegisterAdd_W55_1_3 ( CLK, EN, ENCLK, TE ); input CLK, EN, TE; output ENCLK; TLATNTSCAX2TS latch ( .E(EN), .SE(TE), .CK(CLK), .ECK(ENCLK) ); initial $sdf_annotate("FPU_Add_Subtract_Function_ASIC_fpu_syn_constraints_clk10.tcl_GATED_syn.sdf"); endmodule
module SNPS_CLOCK_GATE_HIGH_RegisterAdd_W63_0_6 ( CLK, EN, ENCLK, TE ); input CLK, EN, TE; output ENCLK; TLATNTSCAX2TS latch ( .E(EN), .SE(TE), .CK(CLK), .ECK(ENCLK) ); initial $sdf_annotate("FPU_Add_Subtract_Function_ASIC_fpu_syn_constraints_clk10.tcl_GATED_syn.sdf"); endmodule
module SNPS_CLOCK_GATE_HIGH_RegisterAdd_W64_0_4 ( CLK, EN, ENCLK, TE ); input CLK, EN, TE; output ENCLK; TLATNTSCAX2TS latch ( .E(EN), .SE(TE), .CK(CLK), .ECK(ENCLK) ); initial $sdf_annotate("FPU_Add_Subtract_Function_ASIC_fpu_syn_constraints_clk10.tcl_GATED_syn.sdf"); endmodule
module SNPS_CLOCK_GATE_HIGH_RegisterAdd_W64_0_5 ( CLK, EN, ENCLK, TE ); input CLK, EN, TE; output ENCLK; TLATNTSCAX2TS latch ( .E(EN), .SE(TE), .CK(CLK), .ECK(ENCLK) ); initial $sdf_annotate("FPU_Add_Subtract_Function_ASIC_fpu_syn_constraints_clk10.tcl_GATED_syn.sdf"); endmodule
module FPU_Add_Subtract_Function_W64_EW11_SW52_SWR55_EWR6 ( clk, rst, beg_FSM, ack_FSM, Data_X, Data_Y, add_subt, r_mode, overflow_flag, underflow_flag, ready, final_result_ieee ); input [63:0] Data_X; input [63:0] Data_Y; input [1:0] r_mode; output [63:0] final_result_ieee; input clk, rst, beg_FSM, ack_FSM, add_subt; output overflow_flag, underflow_flag, ready; wire FSM_selector_C, add_overflow_flag, FSM_exp_operation_load_diff, FSM_barrel_shifter_load, FSM_Add_Subt_Sgf_load, FSM_LZA_load, FSM_Final_Result_load, FSM_selector_D, sign_final_result, FS_Module_net3849879, final_result_ieee_Module_Sign_S_mux, YRegister_net3849802, Exp_Operation_Module_exp_result_net3849843, Leading_Zero_Detector_Module_Output_Reg_net3849807, final_result_ieee_Module_Final_Result_IEEE_net3849802, Add_Subt_Sgf_module_Add_Subt_Result_net3849825, Oper_Start_in_module_MRegister_net3849861, Barrel_Shifter_module_Output_Reg_net3849825, n86, n860, n861, n864, n865, n866, n867, n871, n872, n873, n881, n882, n883, n884, n885, n886, n887, n888, n889, n890, n891, n892, n893, n894, n895, n896, n897, n898, n899, n900, n901, n902, n903, n904, n905, n906, n907, n908, n909, n910, n911, n912, n913, n914, n915, n916, n917, n918, n919, n920, n921, n922, n923, n924, n925, n926, n927, n928, n929, n930, n931, n932, n933, n934, n935, n936, n937, n938, n939, n940, n941, n942, n943, n944, n945, n946, n947, n948, n949, n950, n951, n952, n953, n954, n955, n956, n957, n958, n959, n960, n961, n962, n963, n964, n965, n966, n967, n968, n969, n970, n971, n972, n973, n974, n975, n976, n977, n978, n979, n980, n981, n982, n983, n984, n985, n986, n987, n988, n989, n990, n991, n992, n993, n994, n995, n996, n997, n998, n999, n1000, n1001, n1002, n1003, n1004, n1005, n1006, n1007, n1008, n1009, n1010, n1011, n1012, n1013, n1014, n1015, n1017, n1018, n1019, n1020, n1021, n1022, n1023, n1024, n1025, n1026, n1027, n1028, n1029, n1030, n1031, n1032, n1033, n1034, n1035, n1036, n1037, n1038, n1039, n1040, n1041, n1042, n1043, n1044, n1045, n1046, n1047, n1048, n1049, n1050, n1051, n1052, n1053, n1054, n1055, n1056, n1057, n1058, n1059, n1060, n1061, n1062, n1063, n1064, n1065, n1066, n1067, n1068, n1069, n1070, n1071, n1072, n1073, n1074, n1075, n1076, n1077, n1078, n1079, n1080, n1081, n1082, n1083, n1084, n1085, n1086, n1087, n1088, n1089, n1090, n1091, n1092, n1093, n1094, n1095, n1096, n1097, n1098, n1099, n1100, n1101, n1102, n1103, n1104, n1105, n1106, n1107, n1108, n1109, n1110, n1111, n1112, n1113, n1114, n1115, n1116, n1117, n1118, n1119, n1120, n1121, n1122, n1123, n1124, n1125, n1126, n1127, n1128, n1129, n1130, n1131, n1132, n1133, n1134, n1135, n1136, n1137, n1138, n1139, n1140, n1141, n1142, n1143, n1144, n1145, n1146, n1147, n1148, n1149, n1150, n1151, n1152, n1153, n1154, n1155, n1156, n1157, n1158, n1159, n1160, n1161, n1162, n1163, n1164, n1165, n1166, n1167, n1168, n1169, n1170, n1171, n1172, n1173, n1174, n1175, n1176, n1177, n1178, n1179, n1180, n1181, n1182, n1183, n1184, n1185, n1186, n1187, n1188, n1189, n1190, n1191, n1192, n1193, n1194, n1195, n1196, n1197, n1198, n1199, n1200, n1201, n1202, n1203, n1204, n1205, n1206, n1207, n1208, n1209, n1210, n1211, n1212, n1213, n1214, n1215, n1216, n1217, n1218, n1219, n1220, n1221, n1222, n1223, n1224, n1225, n1226, n1227, n1228, n1229, n1230, n1231, n1232, n1233, n1234, n1235, n1236, n1237, n1238, n1239, n1240, n1241, n1242, n1243, n1244, n1245, n1246, n1247, n1248, n1249, n1250, n1251, n1252, n1253, n1254, n1255, n1256, n1257, n1258, n1259, n1260, n1261, n1262, n1263, n1264, n1265, n1266, n1267, n1268, n1269, n1270, n1271, n1272, n1273, n1274, n1275, n1276, n1277, n1278, n1279, n1280, n1281, n1282, n1283, n1284, n1285, n1286, n1287, n1288, n1289, n1290, n1291, n1292, n1293, n1294, n1295, n1296, n1297, n1298, n1299, n1300, n1301, n1302, n1303, n1304, n1305, n1306, n1307, n1308, n1309, n1310, n1311, n1312, n1313, n1314, n1315, n1316, n1317, n1318, n1319, n1320, n1321, n1322, n1323, n1324, n1325, n1326, n1327, n1328, n1329, n1330, n1331, n1332, n1333, n1334, n1335, n1336, n1337, n1338, n1339, n1340, n1341, n1342, n1343, n1344, n1345, n1346, n1347, n1348, n1349, n1350, n1351, n1352, n1353, n1354, n1355, n1356, n1357, n1358, n1359, n1360, n1361, n1362, n1363, n1364, n1365, n1366, n1367, n1368, n1369, n1370, n1371, n1372, n1373, n1374, n1375, n1376, n1377, n1378, n1379, n1380, n1381, n1382, n1383, n1384, n1385, n1386, n1387, n1388, n1389, n1390, n1391, n1392, n1393, n1394, n1395, n1396, n1397, n1398, n1399, n1400, n1401, n1402, n1403, n1404, n1405, n1406, n1407, n1408, n1409, n1410, n1411, n1412, n1413, n1414, n1415, n1416, n1417, n1418, n1419, n1420, n1421, n1422, n1423, n1424, n1425, n1426, n1427, n1428, n1429, n1430, n1431, n1432, n1433, n1434, n1435, n1436, n1437, n1438, n1439, n1440, n1441, n1442, n1443, n1444, n1445, n1446, n1447, n1448, n1449, n1450, n1451, n1452, n1453, n1454, n1455, n1456, n1457, n1458, n1459, n1460, n1461, n1462, n1463, n1464, n1465, n1466, n1467, n1468, n1469, n1470, n1471, n1472, n1473, n1474, n1475, n1476, n1477, n1478, n1479, n1480, n1481, n1482, n1483, n1484, n1485, n1486, n1487, n1488, n1489, n1490, n1491, n1492, n1493, n1494, n1495, n1496, n1497, n1498, n1499, n1500, n1501, n1502, n1503, n1504, n1505, n1506, n1507, n1508, n1509, n1510, n1511, n1512, n1513, n1514, n1515, n1516, n1517, n1518, n1519, n1520, n1521, n1522, n1523, n1524, n1525, n1526, n1527, n1528, n1529, n1530, n1531, n1532, n1533, n1534, n1535, n1536, n1537, n1538, n1539, n1540, n1541, n1542, n1543, n1544, n1545, n1546, n1547, n1548, n1549, n1550, n1551, n1552, n1553, n1554, n1555, n1556, n1557, n1558, n1559, n1560, n1561, n1562, n1563, n1564, n1565, n1566, n1567, n1568, n1569, n1570, n1571, n1572, n1573, n1574, n1575, n1576, n1577, n1578, n1579, n1580, n1581, n1582, n1583, n1584, n1585, n1586, n1587, n1588, n1589, n1590, n1591, n1592, n1593, n1594, n1595, n1596, n1597, n1598, n1599, n1600, n1601, n1602, n1603, n1604, n1605, n1606, n1607, n1608, n1609, n1610, n1611, n1612, n1613, n1614, n1615, n1616, n1617, n1618, n1619, n1620, n1621, n1622, n1623, n1624, n1625, n1626, n1627, n1628, n1629, n1630, n1631, n1632, n1633, n1634, n1635, n1636, n1637, n1638, n1639, n1640, n1641, n1642, n1643, n1644, n1645, n1646, n1647, n1648, n1649, n1650, n1651, n1652, n1653, n1654, n1655, n1656, n1657, n1658, n1659, n1660, n1661, n1662, n1663, n1664, n1665, n1666, n1667, n1668, n1669, n1670, n1671, n1672, n1673, n1674, n1675, n1676, n1677, n1678, n1679, n1680, n1681, n1682, n1683, n1684, n1685, n1686, n1687, n1688, n1689, n1690, n1691, n1692, n1693, n1694, n1695, n1696, n1697, n1698, n1699, n1700, n1701, n1702, n1703, n1704, n1705, n1706, n1707, n1708, n1709, n1710, n1711, n1712, n1713, n1714, n1715, n1716, n1717, n1718, n1719, n1720, n1721, n1722, n1723, n1725, n1726, n1727, n1728, n1729, n1730, n1731, n1732, n1733, n1734, n1735, n1736, n1737, n1738, n1739, n1740, n1741, n1742, n1743, n1744, n1745, n1746, n1747, n1748, n1749, n1750, n1751, n1752, n1753, n1754, n1755, n1756, n1757, n1758, n1759, n1760, n1761, n1762, n1763, n1764, n1765, n1766, n1767, n1768, n1769, n1770, n1771, n1772, n1773, n1774, n1775, n1776, n1777, n1778, n1779, n1780, n1781, n1782, n1783, n1784, n1785, n1786, n1787, n1788, n1789, n1790, n1791, n1792, n1793, n1794, n1795, n1796, n1797, n1798, n1799, n1800, n1801, n1802, n1803, n1804, n1805, n1806, n1807, n1808, n1809, n1810, n1811, n1812, n1813, n1814, n1815, n1816, n1817, n1818, n1819, n1820, n1821, n1822, n1823, n1824, n1825, n1826, n1827, n1828, n1829, n1830, n1831, n1832, n1833, n1834, n1835, n1836, n1837, n1838, n1839, n1840, n1841, n1842, n1843, n1844, n1845, n1846, n1847, n1848, n1849, n1850, n1851, n1852, n1853, n1854, n1855, n1856, n1857, n1858, n1859, n1860, n1861, n1862, n1863, n1864, n1865, n1866, n1867, n1868, n1869, n1870, n1871, n1872, n1873, n1874, n1875, n1876, n1877, n1878, n1879, n1880, n1881, n1882, n1883, n1884, n1885, n1886, n1887, n1888, n1889, n1890, n1891, n1892, n1893, n1894, n1895, n1896, n1897, n1898, n1899, n1900, n1901, n1902, n1903, n1904, n1905, n1906, n1907, n1908, n1909, n1910, n1911, n1912, n1913, n1914, n1915, n1916, n1917, n1918, n1919, n1920, n1921, n1922, n1923, n1924, n1925, n1926, n1927, n1928, n1929, n1930, n1931, n1932, n1933, n1934, n1935, n1936, n1937, n1938, n1939, n1940, n1941, n1942, n1943, n1944, n1945, n1946, n1947, n1948, n1949, n1950, n1951, n1952, n1953, n1954, n1955, n1956, n1957, n1958, n1959, n1960, n1961, n1962, n1963, n1964, n1965, n1966, n1967, n1968, n1969, n1970, n1971, n1972, n1973, n1974, n1975, n1976, n1977, n1978, n1979, n1980, n1981, n1982, n1983, n1984, n1985, n1986, n1987, n1988, n1989, n1990, n1991, n1992, n1993, n1994, n1995, n1996, n1997, n1998, n1999, n2000, n2001, n2002, n2003, n2004, n2005, n2006, n2007, n2008, n2009, n2010, n2011, n2012, n2013, n2014, n2015, n2016, n2017, n2018, n2019, n2020, n2021, n2022, n2023, n2024, n2025, n2026, n2027, n2028, n2029, n2030, n2031, n2032, n2033, n2034, n2035, n2036, n2037, n2038, n2039, n2040, n2041, n2042, n2043, n2044, n2045, n2046, n2047, n2048, n2049, n2050, n2051, n2052, n2053, n2054, n2055, n2056, n2057, n2058, n2059, n2060, n2061, n2062, n2063, n2064, n2065, n2066, n2067, n2068, n2069, n2070, n2071, n2072, n2073, n2074, n2075, n2076, n2077, n2078, n2079, n2080, n2081, n2082, n2083, n2084, n2085, n2086, n2087, n2088, n2089, n2090, n2091, n2092, n2093, n2094, n2095, n2096, n2097, n2098, n2099, n2100, n2101, n2102, n2103, n2104, n2105, n2106, n2107, n2108, n2109, n2110, n2111, n2112, n2113, n2114, n2115, n2116, n2117, n2118, n2119, n2120, n2121, n2122, n2123, n2124, n2126, n2127, n2128, n2129, n2130, n2131, n2132, n2133, n2134, n2135, n2136, n2137, n2138, n2139, n2140, n2141, n2142, n2143, n2144, n2145, n2146, n2147, n2148, n2149, n2150, n2151, n2152, n2153, n2154, n2155, n2156, n2157, n2158, n2159, n2160, n2161, n2162, n2163, n2164, n2165, n2166, n2167, n2168, n2169, n2170, n2171, n2172, n2173, n2174, n2175, n2176, n2177, n2178, n2179, n2180, n2181, n2182, n2183, n2184, n2185, n2186, n2187, n2188, n2189, n2190, n2191, n2192, n2193, n2194, n2195, n2196, n2197, n2198, n2199, n2200, n2201, n2202, n2203, n2204, n2205, n2206, n2207, n2208, n2209, n2210, n2211, n2212, n2213, n2214, n2215, n2216, n2217, n2218, n2219, n2220, n2221, n2222, n2223, n2224, n2225, n2226, n2227, n2228, n2229, n2230, n2231, n2232, n2233, n2234, n2235, n2236, n2237, n2238, n2239, n2240, n2241, n2242, n2243, n2244, n2245, n2246, n2247, n2248, n2249, n2250, n2251, n2252, n2253, n2254, n2255, n2256, n2257, n2258, n2259, n2260, n2261, n2262, n2263, n2264, n2265, n2266, n2267, n2268, n2269, n2270, n2271, n2272, n2273, n2274, n2275, n2276, n2277, n2278, n2279, n2280, n2281, n2282, n2283, n2284, n2285, n2286, n2287, n2288, n2289, n2290, n2291, n2292, n2293, n2294, n2295, n2296, n2297, n2298, n2299, n2300, n2301, n2302, n2303, n2304, n2305, n2306, n2307, n2308, n2309, n2310, n2311, n2312, n2313, n2314, n2315, n2316, n2317, n2318, n2319, n2320, n2321, n2322, n2323, n2324, n2325, n2326, n2327, n2328, n2329, n2330, n2331, n2332, n2333, n2334, n2335, n2336, n2337, n2338, n2339, n2340, n2341, n2342, n2343, n2344, n2345, n2346, n2347, n2348, n2349, n2350, n2351, n2352, n2353, n2354, n2355, n2356, n2357, n2358, n2359, n2360, n2361, n2362, n2363, n2364, n2365, n2366, n2367, n2368, n2369, n2370, n2371, n2372, n2373, n2374, n2375, n2376, n2377, n2378, n2379, n2380, n2381, n2382, n2383, n2384, n2385, n2386, n2387, n2388, n2389, n2390, n2391, n2392, n2393, n2394, n2395, n2396, n2397, n2398, n2399, n2400, n2401, n2402, n2403, n2404, n2405, n2406, n2407, n2408, n2409, n2410, n2411, n2412, n2413, n2414, n2415, n2416, n2417, n2418, n2419, n2420, n2421, n2422, n2423, n2424, n2425, n2426, n2427, n2428, n2429, n2430, n2431, n2432, n2433, n2434, n2435, n2436, n2437, n2438, n2439, n2440, n2441, n2442, n2443, n2444, n2445, n2446, n2447, n2448, n2449, n2450, n2451, n2452, n2453, n2454, n2455, n2456, n2457, n2458, n2459, n2460, n2461, n2462, n2463, n2464, n2465, n2466, n2467, n2468, n2469, n2470, n2471, n2472, n2473, n2474, n2475, n2476, n2477, n2478, n2479, n2480, n2481, n2482, n2483, n2484, n2485, n2486, n2487, n2488, n2489, n2490, n2491, n2492, n2493, n2494, n2495, n2496, n2497, n2498, n2499, n2500, n2501, n2502, n2503, n2504, n2505, n2506, n2507, n2508, n2509, n2510, n2511, n2512, n2513, n2514, n2515, n2516, n2517, n2518, n2519, n2520, n2521, n2522, n2523, n2524, n2525, n2526, n2527, n2528, n2529, n2530, n2531, n2532, n2533, n2534, n2535, n2536, n2537, n2538, n2539, n2540, n2541, n2542, n2543, n2544, n2545, n2546, n2547, n2548, n2549, n2550, n2551, n2552, n2553, n2554, n2555, n2556, n2557, n2558, n2559, n2560, n2561, n2562, n2563, n2564, n2565, n2566, n2567, n2568, n2569, n2570, n2571, n2572, n2573, n2574, n2575, n2576, n2577, n2578, n2579, n2580, n2581, n2582, n2583, n2584, n2585, n2586, n2587, n2588, n2589, n2590, n2591, n2592, n2593, n2594, n2595, n2596, n2597, n2598, n2599, n2600, n2601, n2602, n2603, n2604, n2605, n2606, n2607, n2608, n2609, n2610, n2611, n2612, n2613, n2614, n2615, n2616, n2617, n2618, n2619, n2620, n2621, n2622, n2623, n2624, n2625, n2626, n2627, n2628, n2629, n2630, n2631, n2632, n2633, n2634, n2635, n2636, n2637, n2638, n2639, n2640, n2641, n2642, n2643, n2644, n2645, n2646, n2647, n2648, n2649, n2650, n2651, n2652, n2653, n2654, n2655, n2656, n2657, n2658, n2659, n2660, n2661, n2662, n2663, n2664, n2665, n2666, n2667, n2668, n2669, n2670, n2671, n2672, n2673, n2674, n2675, n2676, n2677, n2678, n2679, n2680, n2681, n2682, n2683, n2684, n2685, n2686, n2687, n2688, n2689, n2690, n2691, n2692, n2693, n2694, n2695, n2696, n2697, n2698, n2699, n2700, n2701, n2702, n2703, n2704, n2705, n2706, n2707, n2708, n2709, n2710, n2711, n2712, n2713, n2714, n2715, n2716, n2717, n2718, n2719, n2720, n2721, n2722, n2723, n2724, n2725, n2726, n2727, n2728, n2729, n2730, n2731, n2732, n2733, n2734, n2735, n2736, n2737, n2738, n2739, n2740, n2741, n2742, n2743, n2744, n2745, n2746, n2747, n2748, n2749, n2750, n2751, n2752, n2753, n2754, n2755, n2756, n2757, n2758, n2759, n2760, n2761, n2762, n2763, n2764, n2765, n2766, n2767, n2768, n2769, n2770, n2771, n2772, n2773, n2774, n2775, n2776, n2777, n2778, n2779, n2780, n2781, n2782, n2783, n2784, n2785, n2786, n2787, n2788, n2789, n2790, n2791, n2792, n2793, n2794, n2795, n2796, n2797, n2798, n2799, n2800, n2801, n2802, n2803, n2804, n2805, n2806, n2807, n2808, n2809, n2810, n2811, n2812, n2813, n2814, n2815, n2816, n2817, n2818, n2819, n2820, n2821, n2822, n2823, n2824, n2825, n2826, n2827, n2828, n2829, n2830, n2831, n2832, n2833, n2834, n2835, n2836, n2837, n2838, n2839, n2840, n2841, n2842, n2843, n2844, n2845, n2846, n2847, n2848, n2849, n2850, n2851, n2852, n2853, n2854, n2855, n2856, n2857, n2858, n2859, n2860, n2861, n2862, n2863, n2864, n2865, n2866, n2867, n2868, n2869, n2870, n2871, n2872, n2873, n2874, n2875, n2876, n2877, n2878, n2879, n2880, n2881, n2882, n2883, n2884, n2885, n2886, n2887, n2888, n2889, n2890, n2891, n2892, n2893, n2894, n2895, n2896, n2897, n2898, n2899, n2900, n2901, n2902, n2903, n2904, n2905, n2906, n2907, n2908, n2909, n2910, n2911, n2912, n2913, n2914, n2915, n2916, n2917, n2918, n2919, n2920, n2921, n2922, n2923, n2924, n2925, n2926, n2927, n2928, n2929, n2930, n2931, n2932, n2933, n2934, n2935, n2936, n2937, n2938, n2939, n2940, n2941, n2942, n2943, n2944, n2945, n2946, n2947, n2948, n2949, n2950, n2951, n2952, n2953, n2954, n2955, n2956, n2957, n2958, n2959, n2960, n2961, n2962, n2963, n2964, n2965, n2966, n2967, n2968, n2969, n2970, n2971, n2972, n2973, n2974, n2975, n2976, n2977, n2978, n2979, n2980, n2981, n2982, n2983, n2984, n2985, n2986, n2987, n2988, n2989, n2990, n2991, n2992, n2993, n2994, n2995, n2996, n2997, n2998, n2999, n3000, n3001, n3002, n3003, n3004, n3005, n3006, n3007, n3008, n3009, n3010, n3011, n3012, n3013, n3014, n3015, n3016, n3017, n3018, n3019, n3020, n3021, n3022, n3023, n3024, n3025, n3026, n3027, n3028, n3029, n3030, n3031, n3032, n3033, n3034, n3035, n3036, n3037, n3038, n3039, n3040, n3041, n3042, n3043, n3044, n3045, n3046, n3047, n3048, n3049, n3050, n3051, n3052, n3053, n3054, n3055, n3056, n3057, n3058, n3059, n3060, n3061, n3062, n3063, n3064, n3065, n3066, n3067, n3068, n3069, n3070, n3071, n3072, n3073, n3074, n3075, n3076, n3077, n3078, n3079, n3080, n3081, n3082, n3083, n3084, n3085, n3086, n3087, n3088, n3089, n3090, n3091, n3092, n3093, n3094, n3095, n3096, n3097, n3098, n3099, n3100, n3101, n3102, n3103, n3104, n3105, n3106, n3107, n3108, n3109, n3110, n3111, n3112, n3113, n3114, n3115, n3116, n3117, n3118, n3119, n3120, n3121, n3122, n3123, n3124, n3125, n3126, n3127, n3128, n3129, n3130, n3131, n3132, n3133, n3134, n3135, n3136, n3137, n3138, n3139, n3140; wire [1:0] FSM_selector_B; wire [63:0] intDX; wire [62:0] intDY; wire [62:0] DMP; wire [62:0] DmP; wire [10:0] exp_oper_result; wire [5:0] LZA_output; wire [54:0] Add_Subt_result; wire [54:0] Sgf_normalized_result; wire [3:0] FS_Module_state_next; wire [3:0] FS_Module_state_reg; wire [62:0] Oper_Start_in_module_intm; wire [62:0] Oper_Start_in_module_intM; wire [10:0] Exp_Operation_Module_Data_S; wire [54:0] Barrel_Shifter_module_Data_Reg; wire [55:0] Add_Subt_Sgf_module_S_to_D; wire [5:0] Leading_Zero_Detector_Module_Codec_to_Reg; wire [51:0] final_result_ieee_Module_Sgf_S_mux; wire [10:0] final_result_ieee_Module_Exp_S_mux; wire [109:0] Barrel_Shifter_module_Mux_Array_Data_array; SNPS_CLOCK_GATE_HIGH_FSM_Add_Subtract_83 FS_Module_clk_gate_state_reg_reg ( .CLK(clk), .EN(n872), .ENCLK(FS_Module_net3849879), .TE(1'b0) ); SNPS_CLOCK_GATE_HIGH_RegisterAdd_W64_0_5 YRegister_clk_gate_Q_reg ( .CLK(clk), .EN(n871), .ENCLK(YRegister_net3849802), .TE(1'b0) ); SNPS_CLOCK_GATE_HIGH_RegisterAdd_W11_82 Exp_Operation_Module_exp_result_clk_gate_Q_reg ( .CLK(clk), .EN(FSM_exp_operation_load_diff), .ENCLK( Exp_Operation_Module_exp_result_net3849843), .TE(1'b0) ); SNPS_CLOCK_GATE_HIGH_RegisterAdd_W6 Leading_Zero_Detector_Module_Output_Reg_clk_gate_Q_reg ( .CLK(clk), .EN(FSM_LZA_load), .ENCLK( Leading_Zero_Detector_Module_Output_Reg_net3849807), .TE(1'b0) ); SNPS_CLOCK_GATE_HIGH_RegisterAdd_W64_0_4 final_result_ieee_Module_Final_Result_IEEE_clk_gate_Q_reg ( .CLK(clk), .EN(FSM_Final_Result_load), .ENCLK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .TE(1'b0) ); SNPS_CLOCK_GATE_HIGH_RegisterAdd_W55_1_2 Add_Subt_Sgf_module_Add_Subt_Result_clk_gate_Q_reg ( .CLK(clk), .EN(FSM_Add_Subt_Sgf_load), .ENCLK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .TE(1'b0) ); SNPS_CLOCK_GATE_HIGH_RegisterAdd_W63_0_6 Oper_Start_in_module_MRegister_clk_gate_Q_reg ( .CLK(clk), .EN(n873), .ENCLK(Oper_Start_in_module_MRegister_net3849861), .TE(1'b0) ); SNPS_CLOCK_GATE_HIGH_RegisterAdd_W55_1_3 Barrel_Shifter_module_Output_Reg_clk_gate_Q_reg ( .CLK(clk), .EN(FSM_barrel_shifter_load), .ENCLK( Barrel_Shifter_module_Output_Reg_net3849825), .TE(1'b0) ); DFFRX4TS FS_Module_state_reg_reg_1_ ( .D(FS_Module_state_next[1]), .CK( FS_Module_net3849879), .RN(n3081), .Q(FS_Module_state_reg[1]), .QN( n925) ); DFFRXLTS Exp_Operation_Module_exp_result_Q_reg_10_ ( .D( Exp_Operation_Module_Data_S[10]), .CK( Exp_Operation_Module_exp_result_net3849843), .RN(n3096), .Q( exp_oper_result[10]) ); DFFRXLTS Exp_Operation_Module_exp_result_Q_reg_9_ ( .D( Exp_Operation_Module_Data_S[9]), .CK( Exp_Operation_Module_exp_result_net3849843), .RN(n3095), .Q( exp_oper_result[9]) ); DFFRXLTS Exp_Operation_Module_exp_result_Q_reg_8_ ( .D( Exp_Operation_Module_Data_S[8]), .CK( Exp_Operation_Module_exp_result_net3849843), .RN(n3095), .Q( exp_oper_result[8]) ); DFFRXLTS Exp_Operation_Module_exp_result_Q_reg_7_ ( .D( Exp_Operation_Module_Data_S[7]), .CK( Exp_Operation_Module_exp_result_net3849843), .RN(n3095), .Q( exp_oper_result[7]) ); DFFRXLTS Exp_Operation_Module_exp_result_Q_reg_6_ ( .D( Exp_Operation_Module_Data_S[6]), .CK( Exp_Operation_Module_exp_result_net3849843), .RN(n3095), .Q( exp_oper_result[6]) ); DFFRX4TS FS_Module_state_reg_reg_3_ ( .D(FS_Module_state_next[3]), .CK( FS_Module_net3849879), .RN(n3081), .Q(FS_Module_state_reg[3]), .QN( n922) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_62_ ( .D( Oper_Start_in_module_intM[62]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3096), .Q(DMP[62]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_61_ ( .D( Oper_Start_in_module_intM[61]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3096), .Q(DMP[61]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_60_ ( .D( Oper_Start_in_module_intM[60]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3095), .Q(DMP[60]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_59_ ( .D( Oper_Start_in_module_intM[59]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3095), .Q(DMP[59]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_58_ ( .D( Oper_Start_in_module_intM[58]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3095), .Q(DMP[58]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_57_ ( .D( Oper_Start_in_module_intM[57]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3095), .Q(DMP[57]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_56_ ( .D( Oper_Start_in_module_intM[56]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3095), .Q(DMP[56]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_55_ ( .D( Oper_Start_in_module_intM[55]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3094), .Q(DMP[55]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_54_ ( .D( Oper_Start_in_module_intM[54]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3094), .Q(DMP[54]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_53_ ( .D( Oper_Start_in_module_intM[53]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3094), .Q(DMP[53]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_52_ ( .D( Oper_Start_in_module_intM[52]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3094), .Q(DMP[52]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_51_ ( .D( Oper_Start_in_module_intM[51]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3101), .Q(DMP[51]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_50_ ( .D( Oper_Start_in_module_intM[50]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3101), .Q(DMP[50]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_49_ ( .D( Oper_Start_in_module_intM[49]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3101), .Q(DMP[49]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_48_ ( .D( Oper_Start_in_module_intM[48]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3100), .Q(DMP[48]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_47_ ( .D( Oper_Start_in_module_intM[47]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3100), .Q(DMP[47]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_46_ ( .D( Oper_Start_in_module_intM[46]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3100), .Q(DMP[46]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_45_ ( .D( Oper_Start_in_module_intM[45]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3100), .Q(DMP[45]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_44_ ( .D( Oper_Start_in_module_intM[44]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3100), .Q(DMP[44]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_43_ ( .D( Oper_Start_in_module_intM[43]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3090), .Q(DMP[43]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_42_ ( .D( Oper_Start_in_module_intM[42]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3090), .Q(DMP[42]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_41_ ( .D( Oper_Start_in_module_intM[41]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3090), .Q(DMP[41]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_40_ ( .D( Oper_Start_in_module_intM[40]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3089), .Q(DMP[40]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_39_ ( .D( Oper_Start_in_module_intM[39]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3089), .Q(DMP[39]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_38_ ( .D( Oper_Start_in_module_intM[38]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3089), .Q(DMP[38]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_37_ ( .D( Oper_Start_in_module_intM[37]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3089), .Q(DMP[37]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_36_ ( .D( Oper_Start_in_module_intM[36]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3089), .Q(DMP[36]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_35_ ( .D( Oper_Start_in_module_intM[35]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3088), .Q(DMP[35]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_34_ ( .D( Oper_Start_in_module_intM[34]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3088), .Q(DMP[34]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_33_ ( .D( Oper_Start_in_module_intM[33]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3088), .Q(DMP[33]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_32_ ( .D( Oper_Start_in_module_intM[32]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3088), .Q(DMP[32]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_31_ ( .D( Oper_Start_in_module_intM[31]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3088), .Q(DMP[31]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_30_ ( .D( Oper_Start_in_module_intM[30]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3087), .Q(DMP[30]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_29_ ( .D( Oper_Start_in_module_intM[29]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3087), .Q(DMP[29]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_28_ ( .D( Oper_Start_in_module_intM[28]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3087), .Q(DMP[28]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_27_ ( .D( Oper_Start_in_module_intM[27]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3087), .Q(DMP[27]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_26_ ( .D( Oper_Start_in_module_intM[26]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3087), .Q(DMP[26]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_25_ ( .D( Oper_Start_in_module_intM[25]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3086), .Q(DMP[25]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_24_ ( .D( Oper_Start_in_module_intM[24]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3086), .Q(DMP[24]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_23_ ( .D( Oper_Start_in_module_intM[23]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3086), .Q(DMP[23]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_22_ ( .D( Oper_Start_in_module_intM[22]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3086), .Q(DMP[22]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_21_ ( .D( Oper_Start_in_module_intM[21]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3086), .Q(DMP[21]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_20_ ( .D( Oper_Start_in_module_intM[20]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3085), .Q(DMP[20]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_19_ ( .D( Oper_Start_in_module_intM[19]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3085), .Q(DMP[19]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_18_ ( .D( Oper_Start_in_module_intM[18]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3085), .Q(DMP[18]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_17_ ( .D( Oper_Start_in_module_intM[17]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3085), .Q(DMP[17]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_16_ ( .D( Oper_Start_in_module_intM[16]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3085), .Q(DMP[16]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_15_ ( .D( Oper_Start_in_module_intM[15]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3084), .Q(DMP[15]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_14_ ( .D( Oper_Start_in_module_intM[14]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3084), .Q(DMP[14]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_13_ ( .D( Oper_Start_in_module_intM[13]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3084), .Q(DMP[13]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_12_ ( .D( Oper_Start_in_module_intM[12]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3084), .Q(DMP[12]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_11_ ( .D( Oper_Start_in_module_intM[11]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3084), .Q(DMP[11]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_10_ ( .D( Oper_Start_in_module_intM[10]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3083), .Q(DMP[10]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_9_ ( .D( Oper_Start_in_module_intM[9]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3083), .Q(DMP[9]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_8_ ( .D( Oper_Start_in_module_intM[8]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3083), .Q(DMP[8]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_7_ ( .D( Oper_Start_in_module_intM[7]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3083), .Q(DMP[7]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_6_ ( .D( Oper_Start_in_module_intM[6]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3083), .Q(DMP[6]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_5_ ( .D( Oper_Start_in_module_intM[5]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3082), .Q(DMP[5]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_4_ ( .D( Oper_Start_in_module_intM[4]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3082), .Q(DMP[4]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_3_ ( .D( Oper_Start_in_module_intM[3]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3082), .Q(DMP[3]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_2_ ( .D( Oper_Start_in_module_intM[2]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3082), .Q(DMP[2]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_1_ ( .D( Oper_Start_in_module_intM[1]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3082), .Q(DMP[1]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_0_ ( .D( Oper_Start_in_module_intM[0]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3081), .Q(DMP[0]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_62_ ( .D( Oper_Start_in_module_intm[62]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3094), .Q(DmP[62]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_61_ ( .D( Oper_Start_in_module_intm[61]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3094), .Q(DmP[61]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_60_ ( .D( Oper_Start_in_module_intm[60]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3093), .Q(DmP[60]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_59_ ( .D( Oper_Start_in_module_intm[59]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3093), .Q(DmP[59]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_58_ ( .D( Oper_Start_in_module_intm[58]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3093), .Q(DmP[58]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_57_ ( .D( Oper_Start_in_module_intm[57]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3093), .Q(DmP[57]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_56_ ( .D( Oper_Start_in_module_intm[56]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3093), .Q(DmP[56]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_55_ ( .D( Oper_Start_in_module_intm[55]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3092), .Q(DmP[55]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_54_ ( .D( Oper_Start_in_module_intm[54]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3091), .Q(DmP[54]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_53_ ( .D( Oper_Start_in_module_intm[53]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3091), .Q(DmP[53]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_52_ ( .D( Oper_Start_in_module_intm[52]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3090), .Q(DmP[52]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_51_ ( .D( Oper_Start_in_module_intm[51]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3064), .Q(DmP[51]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_50_ ( .D( Oper_Start_in_module_intm[50]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3064), .Q(DmP[50]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_49_ ( .D( Oper_Start_in_module_intm[49]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3064), .Q(DmP[49]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_48_ ( .D( Oper_Start_in_module_intm[48]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3064), .Q(DmP[48]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_47_ ( .D( Oper_Start_in_module_intm[47]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3064), .Q(DmP[47]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_46_ ( .D( Oper_Start_in_module_intm[46]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3064), .Q(DmP[46]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_45_ ( .D( Oper_Start_in_module_intm[45]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3064), .Q(DmP[45]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_44_ ( .D( Oper_Start_in_module_intm[44]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3064), .Q(DmP[44]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_43_ ( .D( Oper_Start_in_module_intm[43]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3064), .Q(DmP[43]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_42_ ( .D( Oper_Start_in_module_intm[42]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3064), .Q(DmP[42]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_41_ ( .D( Oper_Start_in_module_intm[41]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3065), .Q(DmP[41]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_40_ ( .D( Oper_Start_in_module_intm[40]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3065), .Q(DmP[40]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_39_ ( .D( Oper_Start_in_module_intm[39]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3065), .Q(DmP[39]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_38_ ( .D( Oper_Start_in_module_intm[38]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3065), .Q(DmP[38]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_37_ ( .D( Oper_Start_in_module_intm[37]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3065), .Q(DmP[37]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_36_ ( .D( Oper_Start_in_module_intm[36]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3065), .Q(DmP[36]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_35_ ( .D( Oper_Start_in_module_intm[35]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3065), .Q(DmP[35]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_34_ ( .D( Oper_Start_in_module_intm[34]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3065), .Q(DmP[34]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_33_ ( .D( Oper_Start_in_module_intm[33]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3065), .Q(DmP[33]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_32_ ( .D( Oper_Start_in_module_intm[32]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3065), .Q(DmP[32]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_31_ ( .D( Oper_Start_in_module_intm[31]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3066), .Q(DmP[31]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_30_ ( .D( Oper_Start_in_module_intm[30]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3066), .Q(DmP[30]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_29_ ( .D( Oper_Start_in_module_intm[29]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3066), .Q(DmP[29]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_28_ ( .D( Oper_Start_in_module_intm[28]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3066), .Q(DmP[28]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_27_ ( .D( Oper_Start_in_module_intm[27]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3066), .Q(DmP[27]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_26_ ( .D( Oper_Start_in_module_intm[26]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3066), .Q(DmP[26]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_25_ ( .D( Oper_Start_in_module_intm[25]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3066), .Q(DmP[25]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_24_ ( .D( Oper_Start_in_module_intm[24]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3066), .Q(DmP[24]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_23_ ( .D( Oper_Start_in_module_intm[23]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3066), .Q(DmP[23]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_22_ ( .D( Oper_Start_in_module_intm[22]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3066), .Q(DmP[22]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_21_ ( .D( Oper_Start_in_module_intm[21]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3067), .Q(DmP[21]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_20_ ( .D( Oper_Start_in_module_intm[20]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3067), .Q(DmP[20]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_19_ ( .D( Oper_Start_in_module_intm[19]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3067), .Q(DmP[19]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_18_ ( .D( Oper_Start_in_module_intm[18]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3067), .Q(DmP[18]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_17_ ( .D( Oper_Start_in_module_intm[17]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3067), .Q(DmP[17]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_16_ ( .D( Oper_Start_in_module_intm[16]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3067), .Q(DmP[16]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_15_ ( .D( Oper_Start_in_module_intm[15]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3067), .Q(DmP[15]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_14_ ( .D( Oper_Start_in_module_intm[14]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3067), .Q(DmP[14]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_13_ ( .D( Oper_Start_in_module_intm[13]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3067), .Q(DmP[13]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_12_ ( .D( Oper_Start_in_module_intm[12]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3067), .Q(DmP[12]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_11_ ( .D( Oper_Start_in_module_intm[11]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3068), .Q(DmP[11]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_10_ ( .D( Oper_Start_in_module_intm[10]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3068), .Q(DmP[10]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_9_ ( .D( Oper_Start_in_module_intm[9]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3068), .Q(DmP[9]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_8_ ( .D( Oper_Start_in_module_intm[8]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3068), .Q(DmP[8]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_7_ ( .D( Oper_Start_in_module_intm[7]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3068), .Q(DmP[7]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_6_ ( .D( Oper_Start_in_module_intm[6]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3068), .Q(DmP[6]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_5_ ( .D( Oper_Start_in_module_intm[5]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3068), .Q(DmP[5]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_4_ ( .D( Oper_Start_in_module_intm[4]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3068), .Q(DmP[4]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_3_ ( .D( Oper_Start_in_module_intm[3]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3068), .Q(DmP[3]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_2_ ( .D( Oper_Start_in_module_intm[2]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3068), .Q(DmP[2]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_1_ ( .D( Oper_Start_in_module_intm[1]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3069), .Q(DmP[1]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_0_ ( .D( Oper_Start_in_module_intm[0]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3069), .Q(DmP[0]) ); DFFRX4TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_49_ ( .D( Add_Subt_Sgf_module_S_to_D[49]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3098), .Q( Add_Subt_result[49]) ); DFFRX2TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_47_ ( .D( Add_Subt_Sgf_module_S_to_D[47]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3081), .Q( Add_Subt_result[47]), .QN(n3022) ); DFFRX2TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_45_ ( .D( Add_Subt_Sgf_module_S_to_D[45]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3098), .Q( Add_Subt_result[45]), .QN(n3054) ); DFFRX2TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_43_ ( .D( Add_Subt_Sgf_module_S_to_D[43]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3097), .Q( Add_Subt_result[43]) ); DFFRX1TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_41_ ( .D( Add_Subt_Sgf_module_S_to_D[41]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3099), .Q( Add_Subt_result[41]), .QN(n2918) ); DFFRX1TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_40_ ( .D( Add_Subt_Sgf_module_S_to_D[40]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3099), .Q( Add_Subt_result[40]), .QN(n2912) ); DFFRX1TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_39_ ( .D( Add_Subt_Sgf_module_S_to_D[39]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3099), .Q( Add_Subt_result[39]) ); DFFRX1TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_38_ ( .D( Add_Subt_Sgf_module_S_to_D[38]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3093), .Q( Add_Subt_result[38]) ); DFFRX1TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_37_ ( .D( Add_Subt_Sgf_module_S_to_D[37]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3093), .Q( Add_Subt_result[37]) ); DFFRX1TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_36_ ( .D( Add_Subt_Sgf_module_S_to_D[36]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3093), .Q( Add_Subt_result[36]) ); DFFRX1TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_35_ ( .D( Add_Subt_Sgf_module_S_to_D[35]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3093), .Q( Add_Subt_result[35]) ); DFFRX1TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_34_ ( .D( Add_Subt_Sgf_module_S_to_D[34]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3097), .Q( Add_Subt_result[34]), .QN(n3052) ); DFFRX1TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_33_ ( .D( Add_Subt_Sgf_module_S_to_D[33]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3097), .Q( Add_Subt_result[33]) ); DFFRX1TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_32_ ( .D( Add_Subt_Sgf_module_S_to_D[32]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3097), .Q( Add_Subt_result[32]) ); DFFRX1TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_31_ ( .D( Add_Subt_Sgf_module_S_to_D[31]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3097), .Q( Add_Subt_result[31]) ); DFFRX1TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_28_ ( .D( Add_Subt_Sgf_module_S_to_D[28]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3096), .Q( Add_Subt_result[28]), .QN(n3024) ); DFFRX1TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_27_ ( .D( Add_Subt_Sgf_module_S_to_D[27]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3097), .Q( Add_Subt_result[27]) ); DFFRX1TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_24_ ( .D( Add_Subt_Sgf_module_S_to_D[24]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3092), .Q( Add_Subt_result[24]) ); DFFRX4TS Sel_C_Q_reg_0_ ( .D(n867), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n860), .Q( FSM_selector_C), .QN(n3023) ); DFFRXLTS Leading_Zero_Detector_Module_Output_Reg_Q_reg_2_ ( .D( Leading_Zero_Detector_Module_Codec_to_Reg[2]), .CK( Leading_Zero_Detector_Module_Output_Reg_net3849807), .RN(n3096), .Q( LZA_output[2]) ); DFFRXLTS Leading_Zero_Detector_Module_Output_Reg_Q_reg_1_ ( .D( Leading_Zero_Detector_Module_Codec_to_Reg[1]), .CK( Leading_Zero_Detector_Module_Output_Reg_net3849807), .RN(n3091), .Q( LZA_output[1]) ); DFFRXLTS Leading_Zero_Detector_Module_Output_Reg_Q_reg_0_ ( .D( Leading_Zero_Detector_Module_Codec_to_Reg[0]), .CK( Leading_Zero_Detector_Module_Output_Reg_net3849807), .RN(n3091), .Q( LZA_output[0]) ); DFFRXLTS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_3_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[3]), .CK(clk), .RN(n3073), .Q(Barrel_Shifter_module_Mux_Array_Data_array[58]) ); DFFRXLTS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_6_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[6]), .CK(clk), .RN(n3074), .Q(Barrel_Shifter_module_Mux_Array_Data_array[61]) ); DFFRXLTS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_2_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[2]), .CK(clk), .RN(n3074), .Q(Barrel_Shifter_module_Mux_Array_Data_array[57]) ); DFFRXLTS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_5_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[5]), .CK(clk), .RN(n3074), .Q(Barrel_Shifter_module_Mux_Array_Data_array[60]) ); DFFRXLTS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_1_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[1]), .CK(clk), .RN(n3074), .Q(Barrel_Shifter_module_Mux_Array_Data_array[56]) ); DFFRXLTS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_4_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[4]), .CK(clk), .RN(n3074), .Q(Barrel_Shifter_module_Mux_Array_Data_array[59]) ); DFFRXLTS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_0_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[0]), .CK(clk), .RN(n3074), .Q(Barrel_Shifter_module_Mux_Array_Data_array[55]) ); DFFRX4TS Sel_D_Q_reg_0_ ( .D(n866), .CK(FS_Module_net3849879), .RN(n860), .Q(FSM_selector_D), .QN(n2920) ); DFFRXLTS Barrel_Shifter_module_Output_Reg_Q_reg_54_ ( .D( Barrel_Shifter_module_Data_Reg[54]), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3101), .Q( Sgf_normalized_result[54]) ); DFFRXLTS Oper_Start_in_module_SignRegister_Q_reg_0_ ( .D(n3113), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3101), .Q( sign_final_result), .QN(n2911) ); DFFRX1TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_27_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[27]), .CK(clk), .RN(n3071), .Q(Barrel_Shifter_module_Mux_Array_Data_array[82]), .QN(n3053) ); DFFRX1TS YRegister_Q_reg_38_ ( .D(Data_Y[38]), .CK(YRegister_net3849802), .RN(n3061), .Q(intDY[38]), .QN(n3051) ); DFFRX1TS XRegister_Q_reg_23_ ( .D(Data_X[23]), .CK(YRegister_net3849802), .RN(n3102), .Q(intDX[23]), .QN(n3050) ); DFFRX1TS YRegister_Q_reg_5_ ( .D(Data_Y[5]), .CK(YRegister_net3849802), .RN( n3109), .Q(intDY[5]), .QN(n3048) ); DFFRX1TS YRegister_Q_reg_7_ ( .D(Data_Y[7]), .CK(YRegister_net3849802), .RN( n3107), .Q(intDY[7]), .QN(n3046) ); DFFRX1TS YRegister_Q_reg_52_ ( .D(Data_Y[52]), .CK(YRegister_net3849802), .RN(n3060), .Q(intDY[52]), .QN(n3042) ); DFFRX1TS YRegister_Q_reg_42_ ( .D(Data_Y[42]), .CK(YRegister_net3849802), .RN(n3061), .Q(intDY[42]), .QN(n3034) ); DFFRX1TS YRegister_Q_reg_48_ ( .D(Data_Y[48]), .CK(YRegister_net3849802), .RN(n3060), .Q(intDY[48]), .QN(n3032) ); DFFRX1TS YRegister_Q_reg_44_ ( .D(Data_Y[44]), .CK(YRegister_net3849802), .RN(n3060), .Q(intDY[44]), .QN(n3031) ); DFFRX1TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_13_ ( .D( Add_Subt_Sgf_module_S_to_D[13]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3096), .Q( Add_Subt_result[13]), .QN(n3026) ); DFFRX1TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_35_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[35]), .CK(clk), .RN(n3071), .Q(Barrel_Shifter_module_Mux_Array_Data_array[90]), .QN(n3021) ); DFFRX1TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_11_ ( .D( Add_Subt_Sgf_module_S_to_D[11]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3096), .Q( Add_Subt_result[11]), .QN(n3020) ); DFFRX1TS YRegister_Q_reg_16_ ( .D(Data_Y[16]), .CK(YRegister_net3849802), .RN(n3105), .Q(intDY[16]), .QN(n3006) ); DFFRX1TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_15_ ( .D( Add_Subt_Sgf_module_S_to_D[15]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3091), .Q( Add_Subt_result[15]), .QN(n2999) ); DFFRX1TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_10_ ( .D( Add_Subt_Sgf_module_S_to_D[10]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3091), .Q( Add_Subt_result[10]), .QN(n2996) ); DFFRX1TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_49_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[49]), .CK(clk), .RN(n3069), .Q(Barrel_Shifter_module_Mux_Array_Data_array[104]), .QN(n2982) ); DFFRX1TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_50_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[50]), .CK(clk), .RN(n3069), .Q(Barrel_Shifter_module_Mux_Array_Data_array[105]), .QN(n2981) ); DFFRX1TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_52_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[52]), .CK(clk), .RN(n3069), .Q(Barrel_Shifter_module_Mux_Array_Data_array[107]), .QN(n2980) ); DFFRX1TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_53_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[53]), .CK(clk), .RN(n3069), .Q(Barrel_Shifter_module_Mux_Array_Data_array[108]), .QN(n2979) ); DFFRX1TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_54_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[54]), .CK(clk), .RN(n3090), .Q(Barrel_Shifter_module_Mux_Array_Data_array[109]), .QN(n2978) ); DFFRX1TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_48_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[48]), .CK(clk), .RN(n3069), .Q(Barrel_Shifter_module_Mux_Array_Data_array[103]), .QN(n2977) ); DFFRX1TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_51_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[51]), .CK(clk), .RN(n3069), .Q(Barrel_Shifter_module_Mux_Array_Data_array[106]), .QN(n2976) ); DFFRX2TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_22_ ( .D( Add_Subt_Sgf_module_S_to_D[22]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3099), .Q( Add_Subt_result[22]), .QN(n2975) ); DFFRX1TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_30_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[30]), .CK(clk), .RN(n3071), .Q(Barrel_Shifter_module_Mux_Array_Data_array[85]), .QN(n2972) ); DFFRX1TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_29_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[29]), .CK(clk), .RN(n3071), .Q(Barrel_Shifter_module_Mux_Array_Data_array[84]), .QN(n2971) ); DFFRX1TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_28_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[28]), .CK(clk), .RN(n3071), .Q(Barrel_Shifter_module_Mux_Array_Data_array[83]), .QN(n2970) ); DFFRX2TS XRegister_Q_reg_3_ ( .D(Data_X[3]), .CK(YRegister_net3849802), .RN( n3109), .Q(intDX[3]), .QN(n2966) ); DFFRX2TS XRegister_Q_reg_8_ ( .D(Data_X[8]), .CK(YRegister_net3849802), .RN( n3108), .Q(intDX[8]), .QN(n2959) ); DFFRX2TS XRegister_Q_reg_53_ ( .D(Data_X[53]), .CK(YRegister_net3849802), .RN(n3062), .QN(n2948) ); DFFRX2TS XRegister_Q_reg_60_ ( .D(Data_X[60]), .CK(YRegister_net3849802), .RN(n3061), .QN(n2947) ); DFFRX2TS XRegister_Q_reg_49_ ( .D(Data_X[49]), .CK(YRegister_net3849802), .RN(n3062), .QN(n2946) ); DFFRX2TS XRegister_Q_reg_45_ ( .D(Data_X[45]), .CK(YRegister_net3849802), .RN(n3063), .QN(n2945) ); DFFRX2TS XRegister_Q_reg_43_ ( .D(Data_X[43]), .CK(YRegister_net3849802), .RN(n3063), .QN(n2944) ); DFFRX2TS XRegister_Q_reg_50_ ( .D(Data_X[50]), .CK(YRegister_net3849802), .RN(n3062), .QN(n2943) ); DFFRX1TS XRegister_Q_reg_20_ ( .D(Data_X[20]), .CK(YRegister_net3849802), .RN(n3104), .Q(intDX[20]), .QN(n2942) ); DFFRX1TS XRegister_Q_reg_28_ ( .D(Data_X[28]), .CK(YRegister_net3849802), .RN(n3105), .Q(intDX[28]), .QN(n2940) ); DFFRX1TS XRegister_Q_reg_4_ ( .D(Data_X[4]), .CK(YRegister_net3849802), .RN( n3109), .Q(intDX[4]), .QN(n2938) ); DFFRX1TS XRegister_Q_reg_16_ ( .D(Data_X[16]), .CK(YRegister_net3849802), .RN(n3105), .Q(intDX[16]), .QN(n2937) ); DFFRX1TS XRegister_Q_reg_12_ ( .D(Data_X[12]), .CK(YRegister_net3849802), .RN(n3107), .Q(intDX[12]), .QN(n2936) ); DFFRX1TS XRegister_Q_reg_37_ ( .D(Data_X[37]), .CK(YRegister_net3849802), .RN(n3103), .Q(intDX[37]), .QN(n2934) ); DFFRX1TS XRegister_Q_reg_6_ ( .D(Data_X[6]), .CK(YRegister_net3849802), .RN( n3108), .Q(intDX[6]), .QN(n2932) ); DFFRX1TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_12_ ( .D( Add_Subt_Sgf_module_S_to_D[12]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3096), .Q( Add_Subt_result[12]), .QN(n2931) ); DFFRX1TS YRegister_Q_reg_23_ ( .D(Data_Y[23]), .CK(YRegister_net3849802), .RN(n3102), .Q(intDY[23]), .QN(n2930) ); DFFRX1TS XRegister_Q_reg_52_ ( .D(Data_X[52]), .CK(YRegister_net3849802), .RN(n3062), .Q(intDX[52]), .QN(n2929) ); DFFRX1TS XRegister_Q_reg_48_ ( .D(Data_X[48]), .CK(YRegister_net3849802), .RN(n3062), .Q(intDX[48]), .QN(n2927) ); DFFRX1TS XRegister_Q_reg_44_ ( .D(Data_X[44]), .CK(YRegister_net3849802), .RN(n3063), .Q(intDX[44]), .QN(n2925) ); DFFRX1TS Exp_Operation_Module_exp_result_Q_reg_5_ ( .D( Exp_Operation_Module_Data_S[5]), .CK( Exp_Operation_Module_exp_result_net3849843), .RN(n3095), .Q( exp_oper_result[5]), .QN(n2924) ); DFFRX2TS XRegister_Q_reg_11_ ( .D(Data_X[11]), .CK(YRegister_net3849802), .RN(n3107), .Q(intDX[11]), .QN(n2923) ); DFFRX1TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_16_ ( .D( Add_Subt_Sgf_module_S_to_D[16]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3091), .Q( Add_Subt_result[16]), .QN(n2921) ); DFFRX1TS YRegister_Q_reg_6_ ( .D(Data_Y[6]), .CK(YRegister_net3849802), .RN( n3108), .Q(intDY[6]), .QN(n2910) ); DFFRX1TS YRegister_Q_reg_0_ ( .D(Data_Y[0]), .CK(YRegister_net3849802), .RN( n3109), .Q(intDY[0]), .QN(n2907) ); DFFRX1TS XRegister_Q_reg_19_ ( .D(Data_X[19]), .CK(YRegister_net3849802), .RN(n3104), .Q(intDX[19]), .QN(n2904) ); DFFRX1TS XRegister_Q_reg_27_ ( .D(Data_X[27]), .CK(YRegister_net3849802), .RN(n3105), .Q(intDX[27]), .QN(n2903) ); DFFRX1TS XRegister_Q_reg_22_ ( .D(Data_X[22]), .CK(YRegister_net3849802), .RN(n3106), .Q(intDX[22]), .QN(n2902) ); DFFRX1TS XRegister_Q_reg_14_ ( .D(Data_X[14]), .CK(YRegister_net3849802), .RN(n3104), .Q(intDX[14]), .QN(n2901) ); DFFRX1TS XRegister_Q_reg_2_ ( .D(Data_X[2]), .CK(YRegister_net3849802), .RN( n3108), .Q(intDX[2]), .QN(n2900) ); DFFRX1TS XRegister_Q_reg_30_ ( .D(Data_X[30]), .CK(YRegister_net3849802), .RN(n3106), .Q(intDX[30]), .QN(n2899) ); DFFRX1TS XRegister_Q_reg_24_ ( .D(Data_X[24]), .CK(YRegister_net3849802), .RN(n3106), .Q(intDX[24]), .QN(n2898) ); DFFRX1TS XRegister_Q_reg_39_ ( .D(Data_X[39]), .CK(YRegister_net3849802), .RN(n3063), .Q(intDX[39]), .QN(n2897) ); DFFRX1TS XRegister_Q_reg_9_ ( .D(Data_X[9]), .CK(YRegister_net3849802), .RN( n3108), .Q(intDX[9]), .QN(n2896) ); DFFRX1TS XRegister_Q_reg_34_ ( .D(Data_X[34]), .CK(YRegister_net3849802), .RN(n3103), .Q(intDX[34]), .QN(n2895) ); DFFRX1TS XRegister_Q_reg_32_ ( .D(Data_X[32]), .CK(YRegister_net3849802), .RN(n3103), .Q(intDX[32]), .QN(n2894) ); DFFRX1TS XRegister_Q_reg_38_ ( .D(Data_X[38]), .CK(YRegister_net3849802), .RN(n3063), .Q(intDX[38]), .QN(n2893) ); DFFRX1TS XRegister_Q_reg_5_ ( .D(Data_X[5]), .CK(YRegister_net3849802), .RN( n3109), .Q(intDX[5]), .QN(n2892) ); DFFRX1TS XRegister_Q_reg_7_ ( .D(Data_X[7]), .CK(YRegister_net3849802), .RN( n3108), .Q(intDX[7]), .QN(n2891) ); DFFRX1TS XRegister_Q_reg_47_ ( .D(Data_X[47]), .CK(YRegister_net3849802), .RN(n3063), .Q(intDX[47]), .QN(n2888) ); DFFRX1TS XRegister_Q_reg_10_ ( .D(Data_X[10]), .CK(YRegister_net3849802), .RN(n3107), .Q(intDX[10]), .QN(n2887) ); DFFRX1TS XRegister_Q_reg_40_ ( .D(Data_X[40]), .CK(YRegister_net3849802), .RN(n3063), .Q(intDX[40]), .QN(n2885) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_63_ ( .D( final_result_ieee_Module_Sign_S_mux), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3074), .Q(final_result_ieee[63]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_52_ ( .D( final_result_ieee_Module_Exp_S_mux[0]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3074), .Q(final_result_ieee[52]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_53_ ( .D( final_result_ieee_Module_Exp_S_mux[1]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3075), .Q(final_result_ieee[53]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_54_ ( .D( final_result_ieee_Module_Exp_S_mux[2]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3075), .Q(final_result_ieee[54]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_55_ ( .D( final_result_ieee_Module_Exp_S_mux[3]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3075), .Q(final_result_ieee[55]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_56_ ( .D( final_result_ieee_Module_Exp_S_mux[4]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3075), .Q(final_result_ieee[56]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_57_ ( .D( final_result_ieee_Module_Exp_S_mux[5]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3075), .Q(final_result_ieee[57]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_58_ ( .D( final_result_ieee_Module_Exp_S_mux[6]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3075), .Q(final_result_ieee[58]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_59_ ( .D( final_result_ieee_Module_Exp_S_mux[7]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3075), .Q(final_result_ieee[59]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_60_ ( .D( final_result_ieee_Module_Exp_S_mux[8]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3075), .Q(final_result_ieee[60]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_61_ ( .D( final_result_ieee_Module_Exp_S_mux[9]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3075), .Q(final_result_ieee[61]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_62_ ( .D( final_result_ieee_Module_Exp_S_mux[10]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3075), .Q(final_result_ieee[62]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_0_ ( .D( final_result_ieee_Module_Sgf_S_mux[0]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3081), .Q(final_result_ieee[0]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_1_ ( .D( final_result_ieee_Module_Sgf_S_mux[1]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3081), .Q(final_result_ieee[1]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_2_ ( .D( final_result_ieee_Module_Sgf_S_mux[2]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3080), .Q(final_result_ieee[2]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_3_ ( .D( final_result_ieee_Module_Sgf_S_mux[3]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3080), .Q(final_result_ieee[3]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_4_ ( .D( final_result_ieee_Module_Sgf_S_mux[4]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3080), .Q(final_result_ieee[4]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_5_ ( .D( final_result_ieee_Module_Sgf_S_mux[5]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3080), .Q(final_result_ieee[5]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_6_ ( .D( final_result_ieee_Module_Sgf_S_mux[6]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3080), .Q(final_result_ieee[6]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_7_ ( .D( final_result_ieee_Module_Sgf_S_mux[7]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3080), .Q(final_result_ieee[7]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_8_ ( .D( final_result_ieee_Module_Sgf_S_mux[8]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3080), .Q(final_result_ieee[8]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_9_ ( .D( final_result_ieee_Module_Sgf_S_mux[9]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3080), .Q(final_result_ieee[9]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_10_ ( .D( final_result_ieee_Module_Sgf_S_mux[10]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3080), .Q(final_result_ieee[10]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_11_ ( .D( final_result_ieee_Module_Sgf_S_mux[11]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3080), .Q(final_result_ieee[11]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_12_ ( .D( final_result_ieee_Module_Sgf_S_mux[12]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3079), .Q(final_result_ieee[12]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_13_ ( .D( final_result_ieee_Module_Sgf_S_mux[13]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3079), .Q(final_result_ieee[13]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_14_ ( .D( final_result_ieee_Module_Sgf_S_mux[14]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3079), .Q(final_result_ieee[14]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_15_ ( .D( final_result_ieee_Module_Sgf_S_mux[15]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3079), .Q(final_result_ieee[15]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_16_ ( .D( final_result_ieee_Module_Sgf_S_mux[16]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3079), .Q(final_result_ieee[16]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_17_ ( .D( final_result_ieee_Module_Sgf_S_mux[17]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3079), .Q(final_result_ieee[17]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_18_ ( .D( final_result_ieee_Module_Sgf_S_mux[18]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3079), .Q(final_result_ieee[18]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_19_ ( .D( final_result_ieee_Module_Sgf_S_mux[19]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3079), .Q(final_result_ieee[19]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_21_ ( .D( final_result_ieee_Module_Sgf_S_mux[21]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3079), .Q(final_result_ieee[21]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_22_ ( .D( final_result_ieee_Module_Sgf_S_mux[22]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3078), .Q(final_result_ieee[22]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_23_ ( .D( final_result_ieee_Module_Sgf_S_mux[23]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3078), .Q(final_result_ieee[23]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_24_ ( .D( final_result_ieee_Module_Sgf_S_mux[24]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3078), .Q(final_result_ieee[24]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_25_ ( .D( final_result_ieee_Module_Sgf_S_mux[25]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3078), .Q(final_result_ieee[25]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_26_ ( .D( final_result_ieee_Module_Sgf_S_mux[26]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3078), .Q(final_result_ieee[26]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_27_ ( .D( final_result_ieee_Module_Sgf_S_mux[27]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3078), .Q(final_result_ieee[27]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_28_ ( .D( final_result_ieee_Module_Sgf_S_mux[28]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3078), .Q(final_result_ieee[28]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_29_ ( .D( final_result_ieee_Module_Sgf_S_mux[29]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3078), .Q(final_result_ieee[29]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_31_ ( .D( final_result_ieee_Module_Sgf_S_mux[31]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3078), .Q(final_result_ieee[31]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_32_ ( .D( final_result_ieee_Module_Sgf_S_mux[32]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3077), .Q(final_result_ieee[32]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_33_ ( .D( final_result_ieee_Module_Sgf_S_mux[33]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3077), .Q(final_result_ieee[33]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_34_ ( .D( final_result_ieee_Module_Sgf_S_mux[34]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3077), .Q(final_result_ieee[34]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_35_ ( .D( final_result_ieee_Module_Sgf_S_mux[35]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3077), .Q(final_result_ieee[35]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_36_ ( .D( final_result_ieee_Module_Sgf_S_mux[36]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3077), .Q(final_result_ieee[36]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_37_ ( .D( final_result_ieee_Module_Sgf_S_mux[37]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3077), .Q(final_result_ieee[37]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_38_ ( .D( final_result_ieee_Module_Sgf_S_mux[38]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3076), .Q(final_result_ieee[38]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_39_ ( .D( final_result_ieee_Module_Sgf_S_mux[39]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3076), .Q(final_result_ieee[39]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_40_ ( .D( final_result_ieee_Module_Sgf_S_mux[40]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3076), .Q(final_result_ieee[40]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_41_ ( .D( final_result_ieee_Module_Sgf_S_mux[41]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3076), .Q(final_result_ieee[41]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_42_ ( .D( final_result_ieee_Module_Sgf_S_mux[42]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3076), .Q(final_result_ieee[42]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_43_ ( .D( final_result_ieee_Module_Sgf_S_mux[43]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3076), .Q(final_result_ieee[43]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_44_ ( .D( final_result_ieee_Module_Sgf_S_mux[44]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3076), .Q(final_result_ieee[44]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_45_ ( .D( final_result_ieee_Module_Sgf_S_mux[45]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3076), .Q(final_result_ieee[45]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_46_ ( .D( final_result_ieee_Module_Sgf_S_mux[46]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3076), .Q(final_result_ieee[46]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_47_ ( .D( final_result_ieee_Module_Sgf_S_mux[47]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3076), .Q(final_result_ieee[47]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_48_ ( .D( final_result_ieee_Module_Sgf_S_mux[48]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3077), .Q(final_result_ieee[48]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_49_ ( .D( final_result_ieee_Module_Sgf_S_mux[49]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3077), .Q(final_result_ieee[49]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_50_ ( .D( final_result_ieee_Module_Sgf_S_mux[50]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3077), .Q(final_result_ieee[50]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_51_ ( .D( final_result_ieee_Module_Sgf_S_mux[51]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3077), .Q(final_result_ieee[51]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_20_ ( .D( final_result_ieee_Module_Sgf_S_mux[20]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3079), .Q(final_result_ieee[20]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_30_ ( .D( final_result_ieee_Module_Sgf_S_mux[30]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3078), .Q(final_result_ieee[30]) ); DFFRX1TS YRegister_Q_reg_54_ ( .D(Data_Y[54]), .CK(YRegister_net3849802), .RN(n3059), .Q(intDY[54]), .QN(n3039) ); DFFRX1TS YRegister_Q_reg_45_ ( .D(Data_Y[45]), .CK(YRegister_net3849802), .RN(n3060), .Q(intDY[45]), .QN(n3028) ); DFFRX1TS YRegister_Q_reg_46_ ( .D(Data_Y[46]), .CK(YRegister_net3849802), .RN(n3060), .Q(intDY[46]), .QN(n3027) ); DFFRX1TS YRegister_Q_reg_1_ ( .D(Data_Y[1]), .CK(YRegister_net3849802), .RN( n3109), .Q(intDY[1]), .QN(n3049) ); DFFRX1TS YRegister_Q_reg_56_ ( .D(Data_Y[56]), .CK(YRegister_net3849802), .RN(n3059), .Q(intDY[56]), .QN(n3041) ); DFFRX1TS YRegister_Q_reg_58_ ( .D(Data_Y[58]), .CK(YRegister_net3849802), .RN(n3059), .Q(intDY[58]), .QN(n3040) ); DFFRX1TS YRegister_Q_reg_60_ ( .D(Data_Y[60]), .CK(YRegister_net3849802), .RN(n3059), .Q(intDY[60]), .QN(n3038) ); DFFRX1TS YRegister_Q_reg_57_ ( .D(Data_Y[57]), .CK(YRegister_net3849802), .RN(n3059), .Q(intDY[57]), .QN(n3037) ); DFFRX2TS YRegister_Q_reg_55_ ( .D(Data_Y[55]), .CK(YRegister_net3849802), .RN(n3059), .Q(intDY[55]), .QN(n3019) ); DFFRX2TS YRegister_Q_reg_53_ ( .D(Data_Y[53]), .CK(YRegister_net3849802), .RN(n3059), .Q(intDY[53]), .QN(n3018) ); DFFRX2TS YRegister_Q_reg_43_ ( .D(Data_Y[43]), .CK(YRegister_net3849802), .RN(n3060), .Q(intDY[43]), .QN(n3016) ); DFFRX2TS YRegister_Q_reg_41_ ( .D(Data_Y[41]), .CK(YRegister_net3849802), .RN(n3061), .Q(intDY[41]), .QN(n3017) ); DFFRX2TS YRegister_Q_reg_39_ ( .D(Data_Y[39]), .CK(YRegister_net3849802), .RN(n3061), .Q(intDY[39]), .QN(n3008) ); DFFRX2TS YRegister_Q_reg_36_ ( .D(Data_Y[36]), .CK(YRegister_net3849802), .RN(n3102), .Q(intDY[36]), .QN(n2994) ); DFFRX2TS YRegister_Q_reg_35_ ( .D(Data_Y[35]), .CK(YRegister_net3849802), .RN(n3102), .Q(intDY[35]), .QN(n2987) ); DFFRX2TS YRegister_Q_reg_34_ ( .D(Data_Y[34]), .CK(YRegister_net3849802), .RN(n3103), .Q(intDY[34]), .QN(n3004) ); DFFRX2TS YRegister_Q_reg_33_ ( .D(Data_Y[33]), .CK(YRegister_net3849802), .RN(n3103), .Q(intDY[33]), .QN(n2985) ); DFFRX2TS YRegister_Q_reg_32_ ( .D(Data_Y[32]), .CK(YRegister_net3849802), .RN(n3103), .Q(intDY[32]), .QN(n3007) ); DFFRX2TS YRegister_Q_reg_31_ ( .D(Data_Y[31]), .CK(YRegister_net3849802), .RN(n3103), .Q(intDY[31]), .QN(n2986) ); DFFRX2TS YRegister_Q_reg_30_ ( .D(Data_Y[30]), .CK(YRegister_net3849802), .RN(n3106), .Q(intDY[30]), .QN(n3010) ); DFFRX2TS YRegister_Q_reg_29_ ( .D(Data_Y[29]), .CK(YRegister_net3849802), .RN(n3105), .Q(intDY[29]), .QN(n2991) ); DFFRX2TS YRegister_Q_reg_28_ ( .D(Data_Y[28]), .CK(YRegister_net3849802), .RN(n3105), .Q(intDY[28]), .QN(n2997) ); DFFRX2TS YRegister_Q_reg_27_ ( .D(Data_Y[27]), .CK(YRegister_net3849802), .RN(n3105), .Q(intDY[27]), .QN(n3014) ); DFFRX2TS YRegister_Q_reg_26_ ( .D(Data_Y[26]), .CK(YRegister_net3849802), .RN(n3106), .Q(intDY[26]), .QN(n2998) ); DFFRX2TS YRegister_Q_reg_25_ ( .D(Data_Y[25]), .CK(YRegister_net3849802), .RN(n3106), .Q(intDY[25]), .QN(n3005) ); DFFRX2TS YRegister_Q_reg_24_ ( .D(Data_Y[24]), .CK(YRegister_net3849802), .RN(n3106), .Q(intDY[24]), .QN(n3003) ); DFFRX2TS YRegister_Q_reg_22_ ( .D(Data_Y[22]), .CK(YRegister_net3849802), .RN(n3106), .Q(intDY[22]), .QN(n3013) ); DFFRX2TS YRegister_Q_reg_21_ ( .D(Data_Y[21]), .CK(YRegister_net3849802), .RN(n3104), .Q(intDY[21]), .QN(n2990) ); DFFRX2TS YRegister_Q_reg_20_ ( .D(Data_Y[20]), .CK(YRegister_net3849802), .RN(n3104), .Q(intDY[20]), .QN(n3000) ); DFFRX2TS YRegister_Q_reg_19_ ( .D(Data_Y[19]), .CK(YRegister_net3849802), .RN(n3104), .Q(intDY[19]), .QN(n3011) ); DFFRX2TS YRegister_Q_reg_18_ ( .D(Data_Y[18]), .CK(YRegister_net3849802), .RN(n3103), .Q(intDY[18]), .QN(n3001) ); DFFRX2TS YRegister_Q_reg_17_ ( .D(Data_Y[17]), .CK(YRegister_net3849802), .RN(n3105), .Q(intDY[17]), .QN(n3002) ); DFFRX2TS YRegister_Q_reg_15_ ( .D(Data_Y[15]), .CK(YRegister_net3849802), .RN(n3104), .Q(intDY[15]), .QN(n2989) ); DFFRX2TS YRegister_Q_reg_14_ ( .D(Data_Y[14]), .CK(YRegister_net3849802), .RN(n3104), .Q(intDY[14]), .QN(n3012) ); DFFRX2TS YRegister_Q_reg_13_ ( .D(Data_Y[13]), .CK(YRegister_net3849802), .RN(n3107), .Q(intDY[13]), .QN(n2988) ); DFFRX2TS YRegister_Q_reg_12_ ( .D(Data_Y[12]), .CK(YRegister_net3849802), .RN(n3107), .Q(intDY[12]), .QN(n2992) ); DFFRX2TS YRegister_Q_reg_11_ ( .D(Data_Y[11]), .CK(YRegister_net3849802), .RN(n3107), .Q(intDY[11]), .QN(n2995) ); DFFRX2TS YRegister_Q_reg_9_ ( .D(Data_Y[9]), .CK(YRegister_net3849802), .RN( n3108), .Q(intDY[9]), .QN(n3009) ); DFFRX2TS YRegister_Q_reg_8_ ( .D(Data_Y[8]), .CK(YRegister_net3849802), .RN( n3108), .Q(intDY[8]), .QN(n2993) ); DFFRX2TS YRegister_Q_reg_3_ ( .D(Data_Y[3]), .CK(YRegister_net3849802), .RN( n3108), .Q(intDY[3]), .QN(n2984) ); DFFRX2TS YRegister_Q_reg_2_ ( .D(Data_Y[2]), .CK(YRegister_net3849802), .RN( n3108), .Q(intDY[2]), .QN(n3015) ); DFFRX2TS XRegister_Q_reg_59_ ( .D(Data_X[59]), .CK(YRegister_net3849802), .RN(n3061), .Q(intDX[59]), .QN(n2908) ); DFFRX2TS XRegister_Q_reg_58_ ( .D(Data_X[58]), .CK(YRegister_net3849802), .RN(n3061), .QN(n3112) ); DFFRX2TS XRegister_Q_reg_57_ ( .D(Data_X[57]), .CK(YRegister_net3849802), .RN(n3062), .QN(n3058) ); DFFRX2TS XRegister_Q_reg_55_ ( .D(Data_X[55]), .CK(YRegister_net3849802), .RN(n3062), .QN(n3111) ); DFFRX2TS XRegister_Q_reg_54_ ( .D(Data_X[54]), .CK(YRegister_net3849802), .RN(n3062), .Q(intDX[54]), .QN(n2890) ); DFFRX2TS XRegister_Q_reg_51_ ( .D(Data_X[51]), .CK(YRegister_net3849802), .RN(n3062), .Q(intDX[51]), .QN(n2909) ); DFFRX2TS XRegister_Q_reg_46_ ( .D(Data_X[46]), .CK(YRegister_net3849802), .RN(n3063), .Q(intDX[46]), .QN(n2926) ); DFFRX2TS XRegister_Q_reg_42_ ( .D(Data_X[42]), .CK(YRegister_net3849802), .RN(n3063), .Q(intDX[42]), .QN(n2905) ); DFFRX2TS XRegister_Q_reg_41_ ( .D(Data_X[41]), .CK(YRegister_net3849802), .RN(n3063), .Q(intDX[41]), .QN(n2928) ); DFFRX2TS XRegister_Q_reg_36_ ( .D(Data_X[36]), .CK(YRegister_net3849802), .RN(n3102), .Q(intDX[36]), .QN(n2960) ); DFFRX2TS XRegister_Q_reg_35_ ( .D(Data_X[35]), .CK(YRegister_net3849802), .RN(n3102), .Q(intDX[35]), .QN(n2963) ); DFFRX2TS XRegister_Q_reg_33_ ( .D(Data_X[33]), .CK(YRegister_net3849802), .RN(n3103), .Q(intDX[33]), .QN(n2962) ); DFFRX2TS XRegister_Q_reg_31_ ( .D(Data_X[31]), .CK(YRegister_net3849802), .RN(n3103), .Q(intDX[31]), .QN(n2961) ); DFFRX2TS XRegister_Q_reg_29_ ( .D(Data_X[29]), .CK(YRegister_net3849802), .RN(n3106), .Q(intDX[29]), .QN(n2941) ); DFFRX2TS XRegister_Q_reg_26_ ( .D(Data_X[26]), .CK(YRegister_net3849802), .RN(n3107), .Q(intDX[26]), .QN(n2965) ); DFFRX2TS XRegister_Q_reg_25_ ( .D(Data_X[25]), .CK(YRegister_net3849802), .RN(n3106), .Q(intDX[25]), .QN(n2969) ); DFFRX2TS XRegister_Q_reg_21_ ( .D(Data_X[21]), .CK(YRegister_net3849802), .RN(n3104), .Q(intDX[21]), .QN(n2939) ); DFFRX2TS XRegister_Q_reg_18_ ( .D(Data_X[18]), .CK(YRegister_net3849802), .RN(n3104), .Q(intDX[18]), .QN(n2968) ); DFFRX2TS XRegister_Q_reg_17_ ( .D(Data_X[17]), .CK(YRegister_net3849802), .RN(n3105), .Q(intDX[17]), .QN(n2964) ); DFFRX2TS XRegister_Q_reg_15_ ( .D(Data_X[15]), .CK(YRegister_net3849802), .RN(n3105), .Q(intDX[15]), .QN(n2967) ); DFFRX2TS XRegister_Q_reg_13_ ( .D(Data_X[13]), .CK(YRegister_net3849802), .RN(n3107), .Q(intDX[13]), .QN(n2935) ); DFFRX2TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_51_ ( .D( Add_Subt_Sgf_module_S_to_D[51]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3098), .Q( Add_Subt_result[51]) ); DFFRX1TS YRegister_Q_reg_59_ ( .D(Data_Y[59]), .CK(YRegister_net3849802), .RN(n3059), .Q(intDY[59]), .QN(n3043) ); DFFRX2TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_23_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[23]), .CK(clk), .RN(n3072), .Q(Barrel_Shifter_module_Mux_Array_Data_array[78]) ); DFFRX2TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_24_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[24]), .CK(clk), .RN(n3072), .Q(Barrel_Shifter_module_Mux_Array_Data_array[79]) ); DFFRX2TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_38_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[38]), .CK(clk), .RN(n3070), .Q(Barrel_Shifter_module_Mux_Array_Data_array[93]) ); DFFRX2TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_33_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[33]), .CK(clk), .RN(n3071), .Q(Barrel_Shifter_module_Mux_Array_Data_array[88]) ); DFFRX2TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_34_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[34]), .CK(clk), .RN(n3071), .Q(Barrel_Shifter_module_Mux_Array_Data_array[89]) ); DFFRX2TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_36_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[36]), .CK(clk), .RN(n3070), .Q(Barrel_Shifter_module_Mux_Array_Data_array[91]) ); DFFRX2TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_37_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[37]), .CK(clk), .RN(n3070), .Q(Barrel_Shifter_module_Mux_Array_Data_array[92]) ); DFFRX2TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_4_ ( .D( Add_Subt_Sgf_module_S_to_D[4]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3098), .Q( Add_Subt_result[4]) ); DFFRX2TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_2_ ( .D( Add_Subt_Sgf_module_S_to_D[2]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3093), .Q( Add_Subt_result[2]) ); DFFRX2TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_20_ ( .D( Add_Subt_Sgf_module_S_to_D[20]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3099), .Q( Add_Subt_result[20]) ); DFFRX2TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_9_ ( .D( Add_Subt_Sgf_module_S_to_D[9]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3092), .Q( Add_Subt_result[9]) ); DFFRX2TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_14_ ( .D( Add_Subt_Sgf_module_S_to_D[14]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3096), .Q( Add_Subt_result[14]) ); DFFRX2TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_1_ ( .D( Add_Subt_Sgf_module_S_to_D[1]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3092), .Q( Add_Subt_result[1]) ); DFFRX2TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_23_ ( .D( Add_Subt_Sgf_module_S_to_D[23]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3092), .Q( Add_Subt_result[23]) ); DFFRX2TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_7_ ( .D( Add_Subt_Sgf_module_S_to_D[7]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3092), .Q( Add_Subt_result[7]) ); DFFRX1TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_18_ ( .D( Add_Subt_Sgf_module_S_to_D[18]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3091), .Q( Add_Subt_result[18]) ); DFFRX1TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_17_ ( .D( Add_Subt_Sgf_module_S_to_D[17]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3091), .Q( Add_Subt_result[17]) ); DFFRX1TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_22_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[22]), .CK(clk), .RN(n3072), .Q(Barrel_Shifter_module_Mux_Array_Data_array[77]) ); DFFRX1TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_5_ ( .D( Add_Subt_Sgf_module_S_to_D[5]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3097), .Q( Add_Subt_result[5]) ); DFFRX1TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_21_ ( .D( Add_Subt_Sgf_module_S_to_D[21]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3099), .Q( Add_Subt_result[21]) ); DFFRX1TS YRegister_Q_reg_4_ ( .D(Data_Y[4]), .CK(YRegister_net3849802), .RN( n3109), .Q(intDY[4]), .QN(n923) ); DFFRX1TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_19_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[19]), .CK(clk), .RN(n3072), .Q(Barrel_Shifter_module_Mux_Array_Data_array[74]) ); DFFRX1TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_16_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[16]), .CK(clk), .RN(n3072), .Q(Barrel_Shifter_module_Mux_Array_Data_array[71]) ); DFFRX1TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_29_ ( .D( Add_Subt_Sgf_module_S_to_D[29]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3096), .Q( Add_Subt_result[29]) ); DFFRX1TS YRegister_Q_reg_37_ ( .D(Data_Y[37]), .CK(YRegister_net3849802), .RN(n3102), .Q(intDY[37]), .QN(n924) ); DFFRX1TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_0_ ( .D( Add_Subt_Sgf_module_S_to_D[0]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3099), .Q( Add_Subt_result[0]) ); DFFRX1TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_7_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[7]), .CK(clk), .RN(n3073), .Q(Barrel_Shifter_module_Mux_Array_Data_array[62]) ); DFFRX1TS XRegister_Q_reg_61_ ( .D(Data_X[61]), .CK(YRegister_net3849802), .RN(n3061), .Q(intDX[61]), .QN(n888) ); DFFRX1TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_9_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[9]), .CK(clk), .RN(n3073), .Q(Barrel_Shifter_module_Mux_Array_Data_array[64]) ); DFFRX1TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_10_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[10]), .CK(clk), .RN(n3073), .Q(Barrel_Shifter_module_Mux_Array_Data_array[65]) ); DFFRX1TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_12_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[12]), .CK(clk), .RN(n3073), .Q(Barrel_Shifter_module_Mux_Array_Data_array[67]) ); DFFRX1TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_13_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[13]), .CK(clk), .RN(n3073), .Q(Barrel_Shifter_module_Mux_Array_Data_array[68]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_2_ ( .D( Barrel_Shifter_module_Data_Reg[2]), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3081), .Q( Sgf_normalized_result[2]) ); DFFRX1TS Exp_Operation_Module_exp_result_Q_reg_0_ ( .D( Exp_Operation_Module_Data_S[0]), .CK( Exp_Operation_Module_exp_result_net3849843), .RN(n3094), .Q( exp_oper_result[0]) ); DFFRX1TS Exp_Operation_Module_exp_result_Q_reg_1_ ( .D( Exp_Operation_Module_Data_S[1]), .CK( Exp_Operation_Module_exp_result_net3849843), .RN(n3094), .Q( exp_oper_result[1]) ); DFFRX1TS Exp_Operation_Module_exp_result_Q_reg_2_ ( .D( Exp_Operation_Module_Data_S[2]), .CK( Exp_Operation_Module_exp_result_net3849843), .RN(n3090), .Q( exp_oper_result[2]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_0_ ( .D( Barrel_Shifter_module_Data_Reg[0]), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3081), .Q( Sgf_normalized_result[0]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_1_ ( .D( Barrel_Shifter_module_Data_Reg[1]), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3081), .Q( Sgf_normalized_result[1]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_32_ ( .D( Barrel_Shifter_module_Data_Reg[32]), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3087), .Q( Sgf_normalized_result[32]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_22_ ( .D( Barrel_Shifter_module_Data_Reg[22]), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3085), .Q( Sgf_normalized_result[22]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_50_ ( .D( Barrel_Shifter_module_Data_Reg[50]), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3100), .Q( Sgf_normalized_result[50]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_4_ ( .D( Barrel_Shifter_module_Data_Reg[4]), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3082), .Q( Sgf_normalized_result[4]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_53_ ( .D( Barrel_Shifter_module_Data_Reg[53]), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3101), .Q( Sgf_normalized_result[53]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_49_ ( .D( Barrel_Shifter_module_Data_Reg[49]), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3100), .Q( Sgf_normalized_result[49]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_5_ ( .D( Barrel_Shifter_module_Data_Reg[5]), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3082), .Q( Sgf_normalized_result[5]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_52_ ( .D( Barrel_Shifter_module_Data_Reg[52]), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3101), .Q( Sgf_normalized_result[52]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_48_ ( .D( Barrel_Shifter_module_Data_Reg[48]), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3100), .Q( Sgf_normalized_result[48]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_6_ ( .D( Barrel_Shifter_module_Data_Reg[6]), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3082), .Q( Sgf_normalized_result[6]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_51_ ( .D( Barrel_Shifter_module_Data_Reg[51]), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3100), .Q( Sgf_normalized_result[51]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_3_ ( .D( Barrel_Shifter_module_Data_Reg[3]), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3082), .Q( Sgf_normalized_result[3]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_47_ ( .D(n3114), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3100), .Q( Sgf_normalized_result[47]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_7_ ( .D(n3115), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3082), .Q( Sgf_normalized_result[7]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_46_ ( .D(n3116), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3090), .Q( Sgf_normalized_result[46]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_8_ ( .D(n3117), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3083), .Q( Sgf_normalized_result[8]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_45_ ( .D(n3118), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3090), .Q( Sgf_normalized_result[45]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_9_ ( .D(n3119), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3083), .Q( Sgf_normalized_result[9]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_44_ ( .D(n3120), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3090), .Q( Sgf_normalized_result[44]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_10_ ( .D(n3121), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3083), .Q( Sgf_normalized_result[10]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_43_ ( .D(n3122), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3090), .Q( Sgf_normalized_result[43]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_11_ ( .D(n3123), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3083), .Q( Sgf_normalized_result[11]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_42_ ( .D(n3124), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3089), .Q( Sgf_normalized_result[42]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_12_ ( .D(n3125), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3083), .Q( Sgf_normalized_result[12]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_41_ ( .D(n3126), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3089), .Q( Sgf_normalized_result[41]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_13_ ( .D(n3127), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3084), .Q( Sgf_normalized_result[13]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_40_ ( .D(n3128), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3089), .Q( Sgf_normalized_result[40]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_14_ ( .D(n3129), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3084), .Q( Sgf_normalized_result[14]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_39_ ( .D(n3130), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3089), .Q( Sgf_normalized_result[39]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_15_ ( .D(n3131), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3084), .Q( Sgf_normalized_result[15]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_38_ ( .D( Barrel_Shifter_module_Data_Reg[38]), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3089), .Q( Sgf_normalized_result[38]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_16_ ( .D( Barrel_Shifter_module_Data_Reg[16]), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3084), .Q( Sgf_normalized_result[16]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_37_ ( .D( Barrel_Shifter_module_Data_Reg[37]), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3088), .Q( Sgf_normalized_result[37]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_17_ ( .D( Barrel_Shifter_module_Data_Reg[17]), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3084), .Q( Sgf_normalized_result[17]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_36_ ( .D( Barrel_Shifter_module_Data_Reg[36]), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3088), .Q( Sgf_normalized_result[36]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_18_ ( .D( Barrel_Shifter_module_Data_Reg[18]), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3085), .Q( Sgf_normalized_result[18]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_35_ ( .D( Barrel_Shifter_module_Data_Reg[35]), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3088), .Q( Sgf_normalized_result[35]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_19_ ( .D( Barrel_Shifter_module_Data_Reg[19]), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3085), .Q( Sgf_normalized_result[19]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_34_ ( .D( Barrel_Shifter_module_Data_Reg[34]), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3088), .Q( Sgf_normalized_result[34]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_20_ ( .D( Barrel_Shifter_module_Data_Reg[20]), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3085), .Q( Sgf_normalized_result[20]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_33_ ( .D( Barrel_Shifter_module_Data_Reg[33]), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3088), .Q( Sgf_normalized_result[33]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_21_ ( .D( Barrel_Shifter_module_Data_Reg[21]), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3085), .Q( Sgf_normalized_result[21]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_23_ ( .D(n3133), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3086), .Q( Sgf_normalized_result[23]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_30_ ( .D(n3134), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3087), .Q( Sgf_normalized_result[30]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_29_ ( .D(n3136), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3087), .Q( Sgf_normalized_result[29]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_25_ ( .D(n3137), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3086), .Q( Sgf_normalized_result[25]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_28_ ( .D(n3138), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3087), .Q( Sgf_normalized_result[28]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_27_ ( .D(n3140), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3086), .Q( Sgf_normalized_result[27]) ); DFFRX1TS XRegister_Q_reg_62_ ( .D(Data_X[62]), .CK(YRegister_net3849802), .RN(n3061), .Q(intDX[62]), .QN(n887) ); DFFRX1TS Exp_Operation_Module_Overflow_Q_reg_0_ ( .D(n86), .CK( Exp_Operation_Module_exp_result_net3849843), .RN(n3074), .Q( overflow_flag) ); DFFRX2TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_39_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[39]), .CK(clk), .RN(n3070), .Q(Barrel_Shifter_module_Mux_Array_Data_array[94]), .QN(n2956) ); DFFRX2TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_47_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[47]), .CK(clk), .RN(n3069), .Q(Barrel_Shifter_module_Mux_Array_Data_array[102]), .QN(n2957) ); DFFRX2TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_25_ ( .D( Add_Subt_Sgf_module_S_to_D[25]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3092), .Q( Add_Subt_result[25]) ); DFFRX2TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_30_ ( .D( Add_Subt_Sgf_module_S_to_D[30]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3097), .Q( Add_Subt_result[30]) ); DFFRX1TS Leading_Zero_Detector_Module_Output_Reg_Q_reg_5_ ( .D( Leading_Zero_Detector_Module_Codec_to_Reg[5]), .CK( Leading_Zero_Detector_Module_Output_Reg_net3849807), .RN(n3081), .Q( LZA_output[5]), .QN(n2922) ); DFFRX2TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_32_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[32]), .CK(clk), .RN(n3071), .Q(Barrel_Shifter_module_Mux_Array_Data_array[87]) ); DFFRX2TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_3_ ( .D( Add_Subt_Sgf_module_S_to_D[3]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3099), .Q( Add_Subt_result[3]) ); DFFRX2TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_8_ ( .D( Add_Subt_Sgf_module_S_to_D[8]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3092), .Q( Add_Subt_result[8]) ); DFFRX1TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_15_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[15]), .CK(clk), .RN(n3073), .Q(Barrel_Shifter_module_Mux_Array_Data_array[70]) ); DFFRX1TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_8_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[8]), .CK(clk), .RN(n3073), .Q(Barrel_Shifter_module_Mux_Array_Data_array[63]) ); DFFRX1TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_19_ ( .D( Add_Subt_Sgf_module_S_to_D[19]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3099), .Q( Add_Subt_result[19]) ); DFFRX1TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_6_ ( .D( Add_Subt_Sgf_module_S_to_D[6]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3097), .Q( Add_Subt_result[6]) ); DFFRX1TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_18_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[18]), .CK(clk), .RN(n3072), .Q(Barrel_Shifter_module_Mux_Array_Data_array[73]) ); DFFRX1TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_17_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[17]), .CK(clk), .RN(n3072), .Q(Barrel_Shifter_module_Mux_Array_Data_array[72]) ); DFFRX1TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_21_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[21]), .CK(clk), .RN(n3072), .Q(Barrel_Shifter_module_Mux_Array_Data_array[76]) ); DFFRX1TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_20_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[20]), .CK(clk), .RN(n3072), .Q(Barrel_Shifter_module_Mux_Array_Data_array[75]) ); DFFRX1TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_14_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[14]), .CK(clk), .RN(n3073), .Q(Barrel_Shifter_module_Mux_Array_Data_array[69]) ); DFFRX1TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_11_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[11]), .CK(clk), .RN(n3073), .Q(Barrel_Shifter_module_Mux_Array_Data_array[66]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_26_ ( .D(n3139), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3086), .Q( Sgf_normalized_result[26]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_24_ ( .D(n3135), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3086), .Q( Sgf_normalized_result[24]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_31_ ( .D(n3132), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3087), .Q( Sgf_normalized_result[31]) ); DFFRX2TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_31_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[31]), .CK(clk), .RN(n3071), .Q(Barrel_Shifter_module_Mux_Array_Data_array[86]), .QN(n2886) ); DFFRX2TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_40_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[40]), .CK(clk), .RN(n3070), .Q(Barrel_Shifter_module_Mux_Array_Data_array[95]), .QN(n2949) ); DFFRX2TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_25_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[25]), .CK(clk), .RN(n3072), .Q(Barrel_Shifter_module_Mux_Array_Data_array[80]), .QN(n2974) ); DFFRX2TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_26_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[26]), .CK(clk), .RN(n3071), .Q(Barrel_Shifter_module_Mux_Array_Data_array[81]), .QN(n2973) ); DFFRX2TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_44_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[44]), .CK(clk), .RN(n3070), .Q(Barrel_Shifter_module_Mux_Array_Data_array[99]), .QN(n2951) ); DFFRX2TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_45_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[45]), .CK(clk), .RN(n3070), .Q(Barrel_Shifter_module_Mux_Array_Data_array[100]), .QN(n2950) ); DFFRX2TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_46_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[46]), .CK(clk), .RN(n3069), .Q(Barrel_Shifter_module_Mux_Array_Data_array[101]), .QN(n2952) ); DFFRX2TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_41_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[41]), .CK(clk), .RN(n3070), .Q(Barrel_Shifter_module_Mux_Array_Data_array[96]), .QN(n2954) ); DFFRX2TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_42_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[42]), .CK(clk), .RN(n3070), .Q(Barrel_Shifter_module_Mux_Array_Data_array[97]), .QN(n2953) ); DFFRX2TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_43_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[43]), .CK(clk), .RN(n3070), .Q(Barrel_Shifter_module_Mux_Array_Data_array[98]), .QN(n2955) ); DFFRX1TS Exp_Operation_Module_Underflow_Q_reg_0_ ( .D(n861), .CK( Exp_Operation_Module_exp_result_net3849843), .RN(n3074), .Q( underflow_flag), .QN(n3056) ); DFFRX4TS Sel_B_Q_reg_1_ ( .D(n864), .CK(FS_Module_net3849879), .RN(n860), .Q(FSM_selector_B[1]), .QN(n2914) ); DFFRX1TS Exp_Operation_Module_exp_result_Q_reg_3_ ( .D( Exp_Operation_Module_Data_S[3]), .CK( Exp_Operation_Module_exp_result_net3849843), .RN(n3094), .Q( exp_oper_result[3]), .QN(n882) ); DFFRX2TS FS_Module_state_reg_reg_2_ ( .D(FS_Module_state_next[2]), .CK( FS_Module_net3849879), .RN(n3101), .Q(FS_Module_state_reg[2]), .QN( n2983) ); DFFRX2TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_54_ ( .D( Add_Subt_Sgf_module_S_to_D[54]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3099), .Q( Add_Subt_result[54]) ); DFFRX2TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_53_ ( .D( Add_Subt_Sgf_module_S_to_D[53]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3098), .Q( Add_Subt_result[53]) ); DFFRX2TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_52_ ( .D( Add_Subt_Sgf_module_S_to_D[52]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3098), .Q( Add_Subt_result[52]) ); DFFRX1TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_46_ ( .D( Add_Subt_Sgf_module_S_to_D[46]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3098), .Q( Add_Subt_result[46]), .QN(n2913) ); DFFRX1TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_44_ ( .D( Add_Subt_Sgf_module_S_to_D[44]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3098), .Q( Add_Subt_result[44]) ); DFFRX1TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_42_ ( .D( Add_Subt_Sgf_module_S_to_D[42]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3097), .Q( Add_Subt_result[42]), .QN(n3055) ); DFFRX2TS Add_Subt_Sgf_module_Add_overflow_Result_Q_reg_0_ ( .D( Add_Subt_Sgf_module_S_to_D[55]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3101), .Q( add_overflow_flag), .QN(n2915) ); DFFSX1TS R_0 ( .D(n3057), .CK(YRegister_net3849802), .SN(n3102), .Q(n3110) ); DFFRX1TS XRegister_Q_reg_0_ ( .D(Data_X[0]), .CK(YRegister_net3849802), .RN( n3109), .Q(intDX[0]), .QN(n2958) ); DFFRX1TS XRegister_Q_reg_1_ ( .D(Data_X[1]), .CK(YRegister_net3849802), .RN( n3109), .Q(intDX[1]), .QN(n2933) ); DFFRX1TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_26_ ( .D( Add_Subt_Sgf_module_S_to_D[26]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3092), .Q( Add_Subt_result[26]), .QN(n2916) ); DFFRX2TS Leading_Zero_Detector_Module_Output_Reg_Q_reg_4_ ( .D( Leading_Zero_Detector_Module_Codec_to_Reg[4]), .CK( Leading_Zero_Detector_Module_Output_Reg_net3849807), .RN(n3092), .Q( LZA_output[4]), .QN(n2919) ); DFFRX1TS YRegister_Q_reg_62_ ( .D(Data_Y[62]), .CK(YRegister_net3849802), .RN(n3059), .Q(intDY[62]), .QN(n3044) ); DFFRX1TS YRegister_Q_reg_61_ ( .D(Data_Y[61]), .CK(YRegister_net3849802), .RN(n3059), .Q(intDY[61]), .QN(n3045) ); DFFRX1TS YRegister_Q_reg_51_ ( .D(Data_Y[51]), .CK(YRegister_net3849802), .RN(n3060), .Q(intDY[51]), .QN(n3033) ); DFFRX1TS YRegister_Q_reg_50_ ( .D(Data_Y[50]), .CK(YRegister_net3849802), .RN(n3060), .Q(intDY[50]), .QN(n3030) ); DFFRX1TS YRegister_Q_reg_49_ ( .D(Data_Y[49]), .CK(YRegister_net3849802), .RN(n3060), .Q(intDY[49]), .QN(n3029) ); DFFRX1TS YRegister_Q_reg_47_ ( .D(Data_Y[47]), .CK(YRegister_net3849802), .RN(n3060), .Q(intDY[47]), .QN(n3036) ); DFFRX1TS YRegister_Q_reg_40_ ( .D(Data_Y[40]), .CK(YRegister_net3849802), .RN(n3061), .Q(intDY[40]), .QN(n3035) ); DFFRX1TS YRegister_Q_reg_10_ ( .D(Data_Y[10]), .CK(YRegister_net3849802), .RN(n3107), .Q(intDY[10]), .QN(n3047) ); DFFRX1TS XRegister_Q_reg_56_ ( .D(Data_X[56]), .CK(YRegister_net3849802), .RN(n3062), .Q(intDX[56]), .QN(n2889) ); DFFRX2TS Sel_B_Q_reg_0_ ( .D(n865), .CK(FS_Module_net3849879), .RN(n860), .Q(FSM_selector_B[0]), .QN(n2917) ); DFFRX4TS FS_Module_state_reg_reg_0_ ( .D(FS_Module_state_next[0]), .CK( FS_Module_net3849879), .RN(n3101), .Q(FS_Module_state_reg[0]), .QN( n2906) ); DFFRX2TS XRegister_Q_reg_63_ ( .D(Data_X[63]), .CK(YRegister_net3849802), .RN(n3102), .Q(intDX[63]) ); DFFRX2TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_48_ ( .D( Add_Subt_Sgf_module_S_to_D[48]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3098), .Q( Add_Subt_result[48]) ); DFFRX2TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_50_ ( .D( Add_Subt_Sgf_module_S_to_D[50]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3098), .Q( Add_Subt_result[50]), .QN(n3025) ); DFFRX4TS Leading_Zero_Detector_Module_Output_Reg_Q_reg_3_ ( .D( Leading_Zero_Detector_Module_Codec_to_Reg[3]), .CK( Leading_Zero_Detector_Module_Output_Reg_net3849807), .RN(n3091), .Q( LZA_output[3]), .QN(n881) ); DFFRX4TS Exp_Operation_Module_exp_result_Q_reg_4_ ( .D( Exp_Operation_Module_Data_S[4]), .CK( Exp_Operation_Module_exp_result_net3849843), .RN(n3094), .Q( exp_oper_result[4]) ); OR3X4TS U1327 ( .A(n2156), .B(Exp_Operation_Module_Data_S[10]), .C(n1020), .Y(n1022) ); CLKBUFX2TS U1328 ( .A(n1026), .Y(n902) ); BUFX3TS U1329 ( .A(n2634), .Y(n2632) ); BUFX3TS U1330 ( .A(n2634), .Y(n2637) ); NAND2X2TS U1331 ( .A(n1646), .B(n2126), .Y(n1026) ); NAND2X1TS U1332 ( .A(n1240), .B(n1239), .Y(n2677) ); BUFX3TS U1333 ( .A(n2303), .Y(n2634) ); ADDFHX2TS U1334 ( .A(n1001), .B(n1000), .CI(n999), .CO(n1013), .S( Exp_Operation_Module_Data_S[9]) ); ADDFHX2TS U1335 ( .A(n997), .B(n996), .CI(n995), .CO(n999), .S( Exp_Operation_Module_Data_S[8]) ); CMPR32X2TS U1336 ( .A(n1004), .B(n1003), .C(n1002), .CO(n995), .S( Exp_Operation_Module_Data_S[7]) ); INVX4TS U1337 ( .A(n1950), .Y(n2391) ); INVX2TS U1338 ( .A(n2392), .Y(n2494) ); NAND3X1TS U1339 ( .A(n2281), .B(n2290), .C(n2161), .Y(n2298) ); CMPR32X2TS U1340 ( .A(n1007), .B(n1006), .C(n1005), .CO(n982), .S( Exp_Operation_Module_Data_S[4]) ); CMPR32X2TS U1341 ( .A(n1010), .B(n1009), .C(n1008), .CO(n978), .S( Exp_Operation_Module_Data_S[2]) ); NAND2XLTS U1342 ( .A(n2394), .B(n1517), .Y(n1519) ); NAND2X1TS U1343 ( .A(n1930), .B(n1944), .Y(n2343) ); CMPR32X2TS U1344 ( .A(n987), .B(n986), .C(n985), .CO(n1008), .S( Exp_Operation_Module_Data_S[1]) ); OAI21X2TS U1345 ( .A0(n2513), .A1(n1380), .B0(n1379), .Y(n1450) ); CMPR32X2TS U1346 ( .A(n1012), .B(n970), .C(n1011), .CO(n985), .S( Exp_Operation_Module_Data_S[0]) ); NAND2X1TS U1347 ( .A(n1809), .B(n1798), .Y(n1929) ); NAND2X4TS U1348 ( .A(n1116), .B(n935), .Y(n1099) ); AOI21X1TS U1349 ( .A0(n1407), .A1(n1395), .B0(n1394), .Y(n1447) ); NOR2X1TS U1350 ( .A(n1410), .B(n1412), .Y(n1395) ); NOR2X1TS U1351 ( .A(n2429), .B(n2424), .Y(n1503) ); NOR2X1TS U1352 ( .A(n2521), .B(n2516), .Y(n1378) ); NOR2X1TS U1353 ( .A(n1437), .B(n1441), .Y(n1443) ); NOR2X1TS U1354 ( .A(n2508), .B(n2503), .Y(n1406) ); NOR2X1TS U1355 ( .A(n2417), .B(n2412), .Y(n2400) ); NOR2X1TS U1356 ( .A(n2440), .B(n2435), .Y(n2423) ); NOR2X1TS U1357 ( .A(n2467), .B(n2462), .Y(n2450) ); NOR2X1TS U1358 ( .A(n2484), .B(n2486), .Y(n2473) ); OAI211X4TS U1359 ( .A0(FS_Module_state_reg[1]), .A1(FS_Module_state_reg[2]), .B0(n969), .C0(n1237), .Y(n970) ); NOR2X1TS U1360 ( .A(n1429), .B(n1428), .Y(n1437) ); NAND2X1TS U1361 ( .A(n1537), .B(n1536), .Y(n1673) ); NOR2X1TS U1362 ( .A(n1680), .B(n1679), .Y(n1770) ); NOR2X1TS U1363 ( .A(n1398), .B(n1397), .Y(n1420) ); NOR2X1TS U1364 ( .A(n1529), .B(n1528), .Y(n1549) ); NOR2X1TS U1365 ( .A(n1537), .B(n1536), .Y(n1671) ); INVX4TS U1366 ( .A(n1984), .Y(n1952) ); INVX4TS U1367 ( .A(n1984), .Y(n1454) ); INVX4TS U1368 ( .A(n1984), .Y(n1382) ); INVX4TS U1369 ( .A(n1984), .Y(n1788) ); INVX2TS U1370 ( .A(n1969), .Y(n1964) ); INVX2TS U1371 ( .A(n1641), .Y(n2553) ); NOR2XLTS U1372 ( .A(n2193), .B(intDX[10]), .Y(n2194) ); OAI21XLTS U1373 ( .A0(intDY[43]), .A1(n2944), .B0(intDY[42]), .Y(n2250) ); OAI21XLTS U1374 ( .A0(intDY[53]), .A1(n2948), .B0(intDY[52]), .Y(n2278) ); NOR2XLTS U1375 ( .A(n933), .B(n1081), .Y(n934) ); NAND2X1TS U1376 ( .A(n1087), .B(n928), .Y(n929) ); OAI21XLTS U1377 ( .A0(n2424), .A1(n2430), .B0(n2425), .Y(n1502) ); OAI21XLTS U1378 ( .A0(n2516), .A1(n2522), .B0(n2517), .Y(n1377) ); CLKINVX3TS U1379 ( .A(n2920), .Y(n1535) ); CLKINVX3TS U1380 ( .A(n2920), .Y(n1786) ); NOR2XLTS U1381 ( .A(n2280), .B(n2279), .Y(n2293) ); AOI211XLTS U1382 ( .A0(n2129), .A1(n2128), .B0(n2127), .C0(n2126), .Y(n2130) ); NOR2X1TS U1383 ( .A(n1391), .B(n1390), .Y(n1410) ); OR2X2TS U1384 ( .A(n2842), .B(n2841), .Y(n2766) ); OR2X1TS U1385 ( .A(n1661), .B(n2726), .Y(n884) ); NAND2X1TS U1386 ( .A(n1090), .B(n2916), .Y(n1081) ); XOR2X1TS U1387 ( .A(n1788), .B(n1534), .Y(n1537) ); XOR2X1TS U1388 ( .A(n1952), .B(n1783), .Y(n1790) ); NOR2X1TS U1389 ( .A(n1801), .B(n1800), .Y(n1927) ); NOR2XLTS U1390 ( .A(n922), .B(n2983), .Y(n1023) ); CLKINVX3TS U1391 ( .A(n2152), .Y(n2842) ); OAI21XLTS U1392 ( .A0(n2048), .A1(n2087), .B0(n1702), .Y(n1703) ); OAI21XLTS U1393 ( .A0(n2017), .A1(n2087), .B0(n1719), .Y(n1720) ); OAI21XLTS U1394 ( .A0(n2915), .A1(FS_Module_state_reg[0]), .B0(n1298), .Y( n1299) ); AOI21X2TS U1395 ( .A0(n1450), .A1(n1449), .B0(n1448), .Y(n2392) ); NAND2X1TS U1396 ( .A(n1525), .B(n1524), .Y(n2388) ); OAI21X2TS U1397 ( .A0(n2391), .A1(n1782), .B0(n1781), .Y(n2364) ); OAI21XLTS U1398 ( .A0(n2391), .A1(n2343), .B0(n2342), .Y(n2348) ); OAI21XLTS U1399 ( .A0(n2525), .A1(n2521), .B0(n2522), .Y(n2520) ); OAI21XLTS U1400 ( .A0(n2512), .A1(n2508), .B0(n2509), .Y(n2507) ); AND4X1TS U1401 ( .A(Exp_Operation_Module_Data_S[9]), .B( Exp_Operation_Module_Data_S[8]), .C(Exp_Operation_Module_Data_S[7]), .D(n2154), .Y(n2155) ); OAI211XLTS U1402 ( .A0(n1885), .A1(n2048), .B0(n1320), .C0(n1319), .Y(n1321) ); OAI21XLTS U1403 ( .A0(n2483), .A1(n2479), .B0(n2480), .Y(n2478) ); AND3X1TS U1404 ( .A(n1158), .B(n1105), .C(n1104), .Y(n1129) ); OAI211XLTS U1405 ( .A0(n2043), .A1(n2141), .B0(n2024), .C0(n2023), .Y(n3139) ); AND3X1TS U1406 ( .A(n2156), .B(Exp_Operation_Module_Data_S[10]), .C(n2155), .Y(n86) ); OAI211XLTS U1407 ( .A0(n2579), .A1(n2114), .B0(n902), .C0(n2105), .Y( Barrel_Shifter_module_Data_Reg[34]) ); OAI211XLTS U1408 ( .A0(n1723), .A1(n920), .B0(n1722), .C0(n1721), .Y(n3125) ); OAI211XLTS U1409 ( .A0(n2571), .A1(n2152), .B0(n2151), .C0(n902), .Y( Barrel_Shifter_module_Data_Reg[32]) ); OAI211XLTS U1410 ( .A0(n2726), .A1(n1900), .B0(n1899), .C0(n1898), .Y( Barrel_Shifter_module_Mux_Array_Data_array[24]) ); OAI21XLTS U1411 ( .A0(n2647), .A1(n2711), .B0(n1650), .Y( Barrel_Shifter_module_Mux_Array_Data_array[52]) ); NAND4BX1TS U1412 ( .AN(n1108), .B(n1129), .C(n1107), .D(n1131), .Y( Leading_Zero_Detector_Module_Codec_to_Reg[3]) ); XOR2X1TS U1413 ( .A(n1808), .B(n1807), .Y(Add_Subt_Sgf_module_S_to_D[44]) ); XOR2X1TS U1414 ( .A(n1819), .B(n1818), .Y(Add_Subt_Sgf_module_S_to_D[42]) ); XOR2X1TS U1415 ( .A(n2410), .B(n2409), .Y(Add_Subt_Sgf_module_S_to_D[29]) ); XOR2X1TS U1416 ( .A(n2353), .B(n1835), .Y(Add_Subt_Sgf_module_S_to_D[43]) ); XOR2X1TS U1417 ( .A(n2460), .B(n2459), .Y(Add_Subt_Sgf_module_S_to_D[21]) ); OAI21X1TS U1418 ( .A0(n2433), .A1(n2429), .B0(n2430), .Y(n2428) ); XOR2X1TS U1419 ( .A(n1436), .B(n1435), .Y(Add_Subt_Sgf_module_S_to_D[14]) ); AO22X1TS U1420 ( .A0(n2115), .A1(n1348), .B0(n2152), .B1(n2116), .Y( Barrel_Shifter_module_Data_Reg[16]) ); XOR2X1TS U1421 ( .A(n1555), .B(n1554), .Y(Add_Subt_Sgf_module_S_to_D[34]) ); XOR2X1TS U1422 ( .A(n1677), .B(n1563), .Y(Add_Subt_Sgf_module_S_to_D[35]) ); XOR2X1TS U1423 ( .A(n1544), .B(n1543), .Y(Add_Subt_Sgf_module_S_to_D[36]) ); INVX2TS U1424 ( .A(n1561), .Y(n1677) ); OAI21X1TS U1425 ( .A0(n2602), .A1(n908), .B0(n2147), .Y(n2148) ); OAI211X1TS U1426 ( .A0(n2725), .A1(n2568), .B0(n1560), .C0(n1559), .Y( Barrel_Shifter_module_Mux_Array_Data_array[53]) ); INVX4TS U1427 ( .A(n2637), .Y(n2633) ); OAI211X1TS U1428 ( .A0(n2070), .A1(n2141), .B0(n2057), .C0(n2056), .Y(n3135) ); INVX4TS U1429 ( .A(n2637), .Y(n2635) ); OAI21X1TS U1430 ( .A0(n1745), .A1(n3053), .B0(n1744), .Y(n3140) ); INVX4TS U1431 ( .A(n2634), .Y(n2563) ); NAND3X1TS U1432 ( .A(n2606), .B(n965), .C(Add_Subt_result[16]), .Y(n966) ); AOI211X1TS U1433 ( .A0(n2092), .A1( Barrel_Shifter_module_Mux_Array_Data_array[79]), .B0(n2055), .C0(n2054), .Y(n2056) ); INVX2TS U1434 ( .A(n2606), .Y(n1150) ); OAI21X1TS U1435 ( .A0(n2138), .A1(n2141), .B0(n2081), .Y(n2091) ); OAI211X1TS U1436 ( .A0(n2066), .A1(n2065), .B0(n2064), .C0(n2081), .Y(n2067) ); OAI211X1TS U1437 ( .A0(n2039), .A1(n2065), .B0(n2038), .C0(n2081), .Y(n2040) ); OAI211X1TS U1438 ( .A0(n2030), .A1(n2065), .B0(n2029), .C0(n2081), .Y(n2031) ); OAI21X1TS U1439 ( .A0(n2036), .A1(n2087), .B0(n1752), .Y(n1753) ); AO22XLTS U1440 ( .A0(n2860), .A1(Add_Subt_result[1]), .B0(n896), .B1( Add_Subt_result[53]), .Y(n2864) ); OAI21X1TS U1441 ( .A0(n2027), .A1(n2087), .B0(n1765), .Y(n1766) ); AOI211X1TS U1442 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[63]), .A1( FSM_selector_B[1]), .B0(n1865), .C0(n1864), .Y(n1871) ); INVX4TS U1443 ( .A(n2787), .Y(n1651) ); OAI21X1TS U1444 ( .A0(n2005), .A1(n2087), .B0(n1693), .Y(n1696) ); INVX4TS U1445 ( .A(n2787), .Y(n1244) ); OAI211X1TS U1446 ( .A0(n2017), .A1(n2074), .B0(n2016), .C0(n2015), .Y(n2035) ); NOR2X4TS U1447 ( .A(n1207), .B(n2726), .Y(n2645) ); BUFX4TS U1448 ( .A(n2766), .Y(n2787) ); AND2X2TS U1449 ( .A(n908), .B(n2842), .Y(n1348) ); INVX4TS U1450 ( .A(n1558), .Y(n2726) ); OAI21X1TS U1451 ( .A0(n1674), .A1(n1673), .B0(n1672), .Y(n1777) ); OAI211X1TS U1452 ( .A0(n1643), .A1(n2559), .B0(n1642), .C0(n2550), .Y( FS_Module_state_next[3]) ); CLKBUFX2TS U1453 ( .A(n1692), .Y(n907) ); NAND2BX1TS U1454 ( .AN(n1100), .B(Add_Subt_result[43]), .Y(n1079) ); CLKBUFX2TS U1455 ( .A(n2058), .Y(n906) ); BUFX6TS U1456 ( .A(n2114), .Y(n2152) ); NAND2X2TS U1457 ( .A(n1688), .B(n1694), .Y(n1025) ); XOR2X1TS U1458 ( .A(n1454), .B(n1400), .Y(n1402) ); BUFX3TS U1459 ( .A(n970), .Y(n917) ); OR2X4TS U1460 ( .A(add_overflow_flag), .B(n1040), .Y(n2114) ); INVX3TS U1461 ( .A(n973), .Y(n2129) ); NOR2X1TS U1462 ( .A(n2225), .B(intDX[24]), .Y(n2168) ); AOI2BB2X1TS U1463 ( .B0(intDY[53]), .B1(n2948), .A0N(intDX[52]), .A1N(n2278), .Y(n2280) ); OAI21X1TS U1464 ( .A0(r_mode[1]), .A1(n1565), .B0(sign_final_result), .Y( n1566) ); OAI21X1TS U1465 ( .A0(r_mode[0]), .A1(n1564), .B0(n2911), .Y(n1567) ); NAND2BX1TS U1466 ( .AN(intDY[13]), .B(intDX[13]), .Y(n2178) ); OAI21X1TS U1467 ( .A0(intDY[29]), .A1(n2941), .B0(intDY[28]), .Y(n2166) ); OAI21X1TS U1468 ( .A0(intDY[23]), .A1(n3050), .B0(intDY[22]), .Y(n2220) ); OAI21X1TS U1469 ( .A0(n2410), .A1(n2406), .B0(n2407), .Y(n2405) ); OAI211X1TS U1470 ( .A0(n2119), .A1(n2118), .B0(n2117), .C0(n902), .Y( Barrel_Shifter_module_Data_Reg[38]) ); OAI21X1TS U1471 ( .A0(n2411), .A1(n2417), .B0(n2418), .Y(n2416) ); OAI21X1TS U1472 ( .A0(n2460), .A1(n2456), .B0(n2457), .Y(n2455) ); OAI211X1TS U1473 ( .A0(n2665), .A1(n2711), .B0(n1663), .C0(n1662), .Y( Barrel_Shifter_module_Mux_Array_Data_array[49]) ); OAI211X1TS U1474 ( .A0(n2659), .A1(n2711), .B0(n1670), .C0(n1669), .Y( Barrel_Shifter_module_Mux_Array_Data_array[50]) ); OAI21X1TS U1475 ( .A0(n2652), .A1(n2711), .B0(n1657), .Y( Barrel_Shifter_module_Mux_Array_Data_array[51]) ); OAI211X1TS U1476 ( .A0(n1885), .A1(n2060), .B0(n1884), .C0(n1883), .Y(n3116) ); INVX1TS U1477 ( .A(n1125), .Y(n1082) ); OAI211X1TS U1478 ( .A0(n2070), .A1(n2137), .B0(n2069), .C0(n2068), .Y(n3134) ); OAI211X1TS U1479 ( .A0(n2034), .A1(n2137), .B0(n2033), .C0(n2032), .Y(n3136) ); OAI211X1TS U1480 ( .A0(n2576), .A1(n2152), .B0(n902), .C0(n2101), .Y( Barrel_Shifter_module_Data_Reg[33]) ); OAI211X1TS U1481 ( .A0(n2043), .A1(n2137), .B0(n2042), .C0(n2041), .Y(n3138) ); OAI211X1TS U1482 ( .A0(n1769), .A1(n920), .B0(n1768), .C0(n1767), .Y(n3119) ); NAND3BX1TS U1483 ( .AN(n2729), .B(n2728), .C(n2727), .Y( Barrel_Shifter_module_Mux_Array_Data_array[20]) ); OAI21X1TS U1484 ( .A0(n2391), .A1(n2387), .B0(n2388), .Y(n2386) ); OAI211X1TS U1485 ( .A0(n2676), .A1(n1921), .B0(n1920), .C0(n1919), .Y( Barrel_Shifter_module_Mux_Array_Data_array[27]) ); OAI211X1TS U1486 ( .A0(n1699), .A1(n920), .B0(n1698), .C0(n1697), .Y(n3127) ); OAI21X1TS U1487 ( .A0(n2461), .A1(n2467), .B0(n2468), .Y(n2466) ); OAI211X1TS U1488 ( .A0(n1706), .A1(n920), .B0(n1705), .C0(n1704), .Y(n3129) ); OAI211X1TS U1489 ( .A0(n1885), .A1(n2017), .B0(n1838), .C0(n1837), .Y(n3124) ); OAI211X1TS U1490 ( .A0(n1741), .A1(n920), .B0(n1740), .C0(n1739), .Y(n3123) ); OAI211X1TS U1491 ( .A0(n1885), .A1(n1843), .B0(n1842), .C0(n1841), .Y(n3122) ); OAI211X1TS U1492 ( .A0(n2586), .A1(n2114), .B0(n902), .C0(n2113), .Y( Barrel_Shifter_module_Data_Reg[36]) ); OAI211X1TS U1493 ( .A0(n1885), .A1(n2036), .B0(n1856), .C0(n1855), .Y(n3120) ); OAI211X1TS U1494 ( .A0(n2589), .A1(n2152), .B0(n902), .C0(n2109), .Y( Barrel_Shifter_module_Data_Reg[37]) ); OAI211X1TS U1495 ( .A0(n1756), .A1(n920), .B0(n1755), .C0(n1754), .Y(n3121) ); OAI211X1TS U1496 ( .A0(n2582), .A1(n2114), .B0(n902), .C0(n2097), .Y( Barrel_Shifter_module_Data_Reg[35]) ); OAI211X1TS U1497 ( .A0(n1885), .A1(n2027), .B0(n1852), .C0(n1851), .Y(n3118) ); OAI211X1TS U1498 ( .A0(n2726), .A1(n1915), .B0(n1914), .C0(n1913), .Y( Barrel_Shifter_module_Mux_Array_Data_array[19]) ); OAI211XLTS U1499 ( .A0(n2610), .A1(n1120), .B0(n1119), .C0(n1118), .Y(n1126) ); OAI211X1TS U1500 ( .A0(n2005), .A1(n1885), .B0(n1306), .C0(n1305), .Y(n1307) ); OAI21X1TS U1501 ( .A0(n2142), .A1(n2137), .B0(n2093), .Y(n3133) ); OAI211X1TS U1502 ( .A0(n2075), .A1(n1885), .B0(n1346), .C0(n1345), .Y(n1347) ); ADDFHX2TS U1503 ( .A(n993), .B(n992), .CI(n991), .CO(n1002), .S( Exp_Operation_Module_Data_S[6]) ); OAI211X1TS U1504 ( .A0(n2726), .A1(n1905), .B0(n1904), .C0(n1903), .Y( Barrel_Shifter_module_Mux_Array_Data_array[25]) ); AOI21X2TS U1505 ( .A0(n2494), .A1(n2394), .B0(n2393), .Y(n2434) ); NAND3BX1TS U1506 ( .AN(n2722), .B(n2721), .C(n2720), .Y( Barrel_Shifter_module_Mux_Array_Data_array[21]) ); OAI211X1TS U1507 ( .A0(n2034), .A1(n2141), .B0(n2013), .C0(n2012), .Y(n3137) ); NOR2X1TS U1508 ( .A(n1123), .B(n1122), .Y(n1124) ); OAI21X1TS U1509 ( .A0(n1845), .A1(n2137), .B0(n1832), .Y(n3115) ); OAI211X1TS U1510 ( .A0(n2142), .A1(n2141), .B0(n2140), .C0(n2139), .Y(n3132) ); INVX3TS U1511 ( .A(n2634), .Y(n2629) ); ADDFHX2TS U1512 ( .A(n984), .B(n983), .CI(n982), .CO(n991), .S( Exp_Operation_Module_Data_S[5]) ); OAI211X1TS U1513 ( .A0(n2060), .A1(n2087), .B0(n1874), .C0(n1873), .Y(n1875) ); AOI222X1TS U1514 ( .A0(n2710), .A1(n2678), .B0(n2709), .B1(n2680), .C0(n1328), .C1(n2669), .Y(n1900) ); AOI211X2TS U1515 ( .A0(n2302), .A1(n2301), .B0(n2300), .C0(n2299), .Y(n2303) ); OAI211X1TS U1516 ( .A0(n2005), .A1(n2074), .B0(n2000), .C0(n1999), .Y(n2025) ); OAI21X1TS U1517 ( .A0(n2075), .A1(n2087), .B0(n1993), .Y(n1994) ); OAI21X2TS U1518 ( .A0(n1447), .A1(n1446), .B0(n1445), .Y(n1448) ); OAI21X1TS U1519 ( .A0(n2546), .A1(n2547), .B0(n2540), .Y(n2545) ); AO22XLTS U1520 ( .A0(n2860), .A1(Add_Subt_result[0]), .B0(n896), .B1( Add_Subt_result[54]), .Y(n2862) ); OAI21X2TS U1521 ( .A0(n2446), .A1(n1493), .B0(n1492), .Y(n2393) ); OR2X2TS U1522 ( .A(n1667), .B(n2726), .Y(n885) ); NOR2X4TS U1523 ( .A(n1661), .B(n1558), .Y(n2757) ); NAND2X1TS U1524 ( .A(n2515), .B(n1378), .Y(n1380) ); INVX1TS U1525 ( .A(n944), .Y(n1084) ); INVX3TS U1526 ( .A(n1207), .Y(n2679) ); NAND2X1TS U1527 ( .A(n1406), .B(n1395), .Y(n1439) ); CLKBUFX3TS U1528 ( .A(n2149), .Y(n905) ); NAND2X1TS U1529 ( .A(n1545), .B(n1533), .Y(n1772) ); OAI221X1TS U1530 ( .A0(n2298), .A1(n2297), .B0(n2296), .B1(n2295), .C0(n2294), .Y(n2299) ); OAI21X1TS U1531 ( .A0(n2451), .A1(n2457), .B0(n2452), .Y(n1490) ); NAND3BX1TS U1532 ( .AN(n2218), .B(n2211), .C(n2210), .Y(n2231) ); NOR2X4TS U1533 ( .A(n1667), .B(n1558), .Y(n2743) ); INVX2TS U1534 ( .A(n2706), .Y(n2676) ); INVX2TS U1535 ( .A(n2706), .Y(n2708) ); NAND3BX1TS U1536 ( .AN(n2554), .B(n873), .C(n1641), .Y(n2550) ); OAI211X2TS U1537 ( .A0(n2886), .A1(n1337), .B0(n1336), .C0(n1335), .Y(n1988) ); NAND2BX1TS U1538 ( .AN(n2088), .B(n1303), .Y(n1304) ); NAND3X1TS U1539 ( .A(n2623), .B(n2622), .C(n2621), .Y( FS_Module_state_next[1]) ); NAND3X1TS U1540 ( .A(n1142), .B(n1087), .C(n3022), .Y(n1100) ); NOR2X4TS U1541 ( .A(n2141), .B(n2914), .Y(n1692) ); OAI2BB2X1TS U1542 ( .B0(n2245), .B1(n2244), .A0N(n2243), .A1N(n2242), .Y( n2300) ); OAI21X1TS U1543 ( .A0(n2257), .A1(n2256), .B0(n2255), .Y(n2259) ); OAI21X1TS U1544 ( .A0(FS_Module_state_reg[0]), .A1(n1040), .B0(n1569), .Y( n883) ); NAND3X1TS U1545 ( .A(n1569), .B(n2884), .C(n1040), .Y(n1024) ); INVX1TS U1546 ( .A(n1121), .Y(n1142) ); INVX3TS U1547 ( .A(n886), .Y(n899) ); NOR2X1TS U1548 ( .A(n940), .B(Add_Subt_result[30]), .Y(n941) ); OAI211XLTS U1549 ( .A0(intDY[8]), .A1(n2959), .B0(n2195), .C0(n2198), .Y( n2207) ); NAND2BX1TS U1550 ( .AN(Sgf_normalized_result[54]), .B(n1933), .Y(n2307) ); INVX1TS U1551 ( .A(n2281), .Y(n2287) ); OAI211X1TS U1552 ( .A0(intDX[61]), .A1(n3045), .B0(n2241), .C0(n2240), .Y( n2242) ); OAI211X1TS U1553 ( .A0(n2962), .A1(intDY[33]), .B0(n2164), .C0(n2267), .Y( n2165) ); OAI211X2TS U1554 ( .A0(intDY[28]), .A1(n2940), .B0(n2176), .C0(n2167), .Y( n2227) ); NOR2X1TS U1555 ( .A(n2247), .B(intDX[44]), .Y(n2248) ); OAI211X2TS U1556 ( .A0(intDY[12]), .A1(n2936), .B0(n2205), .C0(n2178), .Y( n2209) ); OAI211X2TS U1557 ( .A0(intDY[20]), .A1(n2942), .B0(n2224), .C0(n2177), .Y( n2218) ); NOR2BX1TS U1558 ( .AN(Sgf_normalized_result[12]), .B(n1461), .Y(n1400) ); NAND3X1TS U1559 ( .A(n2947), .B(n2239), .C(intDY[60]), .Y(n2240) ); NOR2X1TS U1560 ( .A(n2233), .B(intDX[56]), .Y(n2234) ); NOR2X4TS U1561 ( .A(n2919), .B(LZA_output[3]), .Y(n1035) ); NAND3X1TS U1562 ( .A(n1138), .B(n1163), .C(n946), .Y(n930) ); NOR2X1TS U1563 ( .A(n2948), .B(intDY[53]), .Y(n2159) ); INVX3TS U1564 ( .A(n2920), .Y(n1931) ); NAND2BX1TS U1565 ( .AN(intDY[41]), .B(intDX[41]), .Y(n2163) ); INVX3TS U1566 ( .A(n2920), .Y(n1955) ); INVX3TS U1567 ( .A(n2920), .Y(n1981) ); XNOR2X2TS U1568 ( .A(n3110), .B(intDX[63]), .Y(n1641) ); NOR2X1TS U1569 ( .A(n922), .B(n925), .Y(n1021) ); NAND2BX1TS U1570 ( .AN(intDY[19]), .B(intDX[19]), .Y(n2215) ); OAI21X1TS U1571 ( .A0(intDY[55]), .A1(n3111), .B0(intDY[54]), .Y(n2289) ); OAI21X1TS U1572 ( .A0(intDY[31]), .A1(n2961), .B0(intDY[30]), .Y(n2172) ); NAND2BX1TS U1573 ( .AN(intDY[29]), .B(intDX[29]), .Y(n2167) ); NAND2BX1TS U1574 ( .AN(intDY[27]), .B(intDX[27]), .Y(n2169) ); NAND2BX1TS U1575 ( .AN(intDY[32]), .B(intDX[32]), .Y(n2164) ); NAND2BX1TS U1576 ( .AN(intDY[62]), .B(intDX[62]), .Y(n2243) ); NAND2BX1TS U1577 ( .AN(intDX[62]), .B(intDY[62]), .Y(n2241) ); NAND2BX1TS U1578 ( .AN(intDY[59]), .B(intDX[59]), .Y(n2235) ); NAND2BX1TS U1579 ( .AN(intDY[47]), .B(intDX[47]), .Y(n2246) ); NAND2BX1TS U1580 ( .AN(intDY[51]), .B(intDX[51]), .Y(n2284) ); NAND2BX1TS U1581 ( .AN(intDY[40]), .B(intDX[40]), .Y(n2162) ); INVX3TS U1582 ( .A(n2920), .Y(n1461) ); NAND2BX1TS U1583 ( .AN(intDY[21]), .B(intDX[21]), .Y(n2177) ); OAI21X1TS U1584 ( .A0(n2906), .A1(FSM_selector_C), .B0(add_overflow_flag), .Y(n1297) ); NOR2X4TS U1585 ( .A(underflow_flag), .B(overflow_flag), .Y(n1236) ); XOR2X1TS U1586 ( .A(n1687), .B(n1686), .Y(Add_Subt_Sgf_module_S_to_D[38]) ); NAND2BX2TS U1587 ( .AN(n2158), .B(FSM_selector_C), .Y(n1040) ); OAI21X4TS U1588 ( .A0(n2314), .A1(n2310), .B0(n2311), .Y(n2309) ); AOI21X2TS U1589 ( .A0(n1810), .A1(n1798), .B0(n1797), .Y(n1942) ); XOR2X2TS U1590 ( .A(n1017), .B(n917), .Y(n2156) ); ADDFHX4TS U1591 ( .A(n1015), .B(n1014), .CI(n1013), .CO(n1017), .S( Exp_Operation_Module_Data_S[10]) ); NAND2X6TS U1592 ( .A(n2606), .B(n937), .Y(n2610) ); NAND4X1TS U1593 ( .A(n1173), .B(n1172), .C(n1171), .D(n1170), .Y( Leading_Zero_Detector_Module_Codec_to_Reg[4]) ); AOI2BB1X4TS U1594 ( .A0N(n2611), .A1N(Add_Subt_result[1]), .B0(n951), .Y( n1173) ); OR3X2TS U1595 ( .A(n1125), .B(Add_Subt_result[11]), .C(Add_Subt_result[10]), .Y(n953) ); NOR2X8TS U1596 ( .A(n1099), .B(n936), .Y(n2606) ); XOR2X1TS U1597 ( .A(n1985), .B(n1984), .Y(Add_Subt_Sgf_module_S_to_D[55]) ); AOI21X2TS U1598 ( .A0(n2309), .A1(n2307), .B0(n2305), .Y(n1985) ); MX2X1TS U1599 ( .A(DMP[55]), .B(n901), .S0(n1973), .Y(n979) ); NAND2BXLTS U1600 ( .AN(intDX[9]), .B(intDY[9]), .Y(n2196) ); NAND3XLTS U1601 ( .A(n2959), .B(n2195), .C(intDY[8]), .Y(n2197) ); OA22X1TS U1602 ( .A0(n2901), .A1(intDY[14]), .B0(n2967), .B1(intDY[15]), .Y( n2205) ); NAND2X1TS U1603 ( .A(n1031), .B(n1303), .Y(n1036) ); OA22X1TS U1604 ( .A0(n2899), .A1(intDY[30]), .B0(n2961), .B1(intDY[31]), .Y( n2176) ); OA22X1TS U1605 ( .A0(n2902), .A1(intDY[22]), .B0(n3050), .B1(intDY[23]), .Y( n2224) ); MX2X1TS U1606 ( .A(DMP[15]), .B(Sgf_normalized_result[17]), .S0(n1458), .Y( n1476) ); MX2X1TS U1607 ( .A(DMP[23]), .B(Sgf_normalized_result[25]), .S0(n1471), .Y( n1498) ); MX2X1TS U1608 ( .A(DMP[24]), .B(Sgf_normalized_result[26]), .S0(n1471), .Y( n1500) ); INVX2TS U1609 ( .A(n1922), .Y(n2725) ); MX2X1TS U1610 ( .A(DMP[54]), .B(exp_oper_result[2]), .S0(n1933), .Y(n1009) ); MX2X1TS U1611 ( .A(DMP[57]), .B(exp_oper_result[5]), .S0(n1933), .Y(n983) ); MX2X1TS U1612 ( .A(DMP[60]), .B(exp_oper_result[8]), .S0(n1933), .Y(n996) ); CLKAND2X2TS U1613 ( .A(n988), .B(DmP[60]), .Y(n989) ); AOI2BB2XLTS U1614 ( .B0(intDX[1]), .B1(n3049), .A0N(intDY[0]), .A1N(n2181), .Y(n2182) ); OAI21XLTS U1615 ( .A0(intDX[1]), .A1(n3049), .B0(intDX[0]), .Y(n2181) ); NAND2BXLTS U1616 ( .AN(intDY[2]), .B(intDX[2]), .Y(n2183) ); INVX2TS U1617 ( .A(n2263), .Y(n2269) ); OAI21XLTS U1618 ( .A0(intDY[33]), .A1(n2962), .B0(intDY[32]), .Y(n2264) ); OAI21XLTS U1619 ( .A0(intDY[41]), .A1(n2928), .B0(intDY[40]), .Y(n2249) ); NAND4XLTS U1620 ( .A(n1632), .B(n1631), .C(n1630), .D(n1629), .Y(n1633) ); OAI2BB2XLTS U1621 ( .B0(n2200), .B1(n2209), .A0N(n2199), .A1N(n2198), .Y( n2203) ); NAND2X1TS U1622 ( .A(n924), .B(intDX[37]), .Y(n2261) ); MX2X1TS U1623 ( .A(DMP[6]), .B(Sgf_normalized_result[8]), .S0(n1535), .Y( n1388) ); MX2X1TS U1624 ( .A(DMP[27]), .B(Sgf_normalized_result[29]), .S0(n1471), .Y( n1508) ); MX2X1TS U1625 ( .A(DMP[5]), .B(Sgf_normalized_result[7]), .S0(n1535), .Y( n1386) ); MX2X1TS U1626 ( .A(DMP[12]), .B(Sgf_normalized_result[14]), .S0(n1458), .Y( n1432) ); MX2X1TS U1627 ( .A(DMP[17]), .B(Sgf_normalized_result[19]), .S0(n1458), .Y( n1482) ); MX2X1TS U1628 ( .A(DMP[18]), .B(Sgf_normalized_result[20]), .S0(n1458), .Y( n1484) ); CLKAND2X2TS U1629 ( .A(n1981), .B(Sgf_normalized_result[1]), .Y(n2538) ); MX2X1TS U1630 ( .A(DMP[0]), .B(Sgf_normalized_result[2]), .S0(n1535), .Y( n1361) ); MX2X1TS U1631 ( .A(DMP[2]), .B(Sgf_normalized_result[4]), .S0(n1535), .Y( n1371) ); MX2X1TS U1632 ( .A(DMP[10]), .B(Sgf_normalized_result[12]), .S0(n1458), .Y( n1401) ); INVX2TS U1633 ( .A(n1667), .Y(n2667) ); MX2X1TS U1634 ( .A(DMP[19]), .B(Sgf_normalized_result[21]), .S0(n1471), .Y( n1486) ); MX2X1TS U1635 ( .A(DMP[20]), .B(Sgf_normalized_result[22]), .S0(n1471), .Y( n1488) ); INVX2TS U1636 ( .A(n1661), .Y(n2666) ); MX2X1TS U1637 ( .A(DMP[8]), .B(Sgf_normalized_result[10]), .S0(n1535), .Y( n1392) ); MX2X1TS U1638 ( .A(DMP[9]), .B(Sgf_normalized_result[11]), .S0(n1458), .Y( n1397) ); INVX2TS U1639 ( .A(n1042), .Y(n1077) ); INVX2TS U1640 ( .A(n2144), .Y(n1350) ); INVX2TS U1641 ( .A(n2787), .Y(n2806) ); MX2X1TS U1642 ( .A(DMP[21]), .B(Sgf_normalized_result[23]), .S0(n1471), .Y( n1494) ); MX2X1TS U1643 ( .A(DMP[22]), .B(Sgf_normalized_result[24]), .S0(n1471), .Y( n1496) ); MX2X1TS U1644 ( .A(DMP[25]), .B(Sgf_normalized_result[27]), .S0(n1471), .Y( n1504) ); MX2X1TS U1645 ( .A(DMP[26]), .B(Sgf_normalized_result[28]), .S0(n1471), .Y( n1506) ); MX2X1TS U1646 ( .A(DMP[29]), .B(Sgf_normalized_result[31]), .S0(n1786), .Y( n1524) ); MX2X1TS U1647 ( .A(DMP[30]), .B(Sgf_normalized_result[32]), .S0(n1786), .Y( n1526) ); MX2X1TS U1648 ( .A(DMP[32]), .B(Sgf_normalized_result[34]), .S0(n1786), .Y( n1530) ); MX2X1TS U1649 ( .A(DMP[33]), .B(Sgf_normalized_result[35]), .S0(n1535), .Y( n1536) ); MX2X1TS U1650 ( .A(DMP[34]), .B(Sgf_normalized_result[36]), .S0(n1786), .Y( n1540) ); MX2X1TS U1651 ( .A(DMP[36]), .B(Sgf_normalized_result[38]), .S0(n1786), .Y( n1683) ); MX2X1TS U1652 ( .A(DMP[37]), .B(Sgf_normalized_result[39]), .S0(n1786), .Y( n1789) ); MX2X1TS U1653 ( .A(DMP[38]), .B(Sgf_normalized_result[40]), .S0(n1786), .Y( n1791) ); MX2X1TS U1654 ( .A(DMP[40]), .B(Sgf_normalized_result[42]), .S0(n1964), .Y( n1795) ); MX2X1TS U1655 ( .A(DMP[41]), .B(Sgf_normalized_result[43]), .S0(n1964), .Y( n1800) ); MX2X1TS U1656 ( .A(DMP[42]), .B(Sgf_normalized_result[44]), .S0(n1964), .Y( n1804) ); MX2X1TS U1657 ( .A(DMP[44]), .B(Sgf_normalized_result[46]), .S0(n1964), .Y( n1946) ); OAI211X1TS U1658 ( .A0(intDY[36]), .A1(n2960), .B0(n2272), .C0(n2261), .Y( n2263) ); NAND2X1TS U1659 ( .A(n922), .B(FS_Module_state_reg[1]), .Y(n1237) ); NAND2X1TS U1660 ( .A(n965), .B(n2921), .Y(n2607) ); INVX2TS U1661 ( .A(n2072), .Y(n2144) ); OAI2BB2XLTS U1662 ( .B0(n2061), .B1(n2036), .A0N(n907), .A1N( Barrel_Shifter_module_Mux_Array_Data_array[81]), .Y(n2037) ); OAI2BB2XLTS U1663 ( .B0(n2061), .B1(n2027), .A0N(n907), .A1N( Barrel_Shifter_module_Mux_Array_Data_array[80]), .Y(n2028) ); NOR2XLTS U1664 ( .A(n2957), .B(n2079), .Y(n2080) ); OAI21XLTS U1665 ( .A0(n2075), .A1(n2074), .B0(n2073), .Y(n2076) ); AO22XLTS U1666 ( .A0(n1846), .A1( Barrel_Shifter_module_Mux_Array_Data_array[88]), .B0(n1070), .B1( Barrel_Shifter_module_Mux_Array_Data_array[104]), .Y(n1055) ); AO22XLTS U1667 ( .A0(n1846), .A1( Barrel_Shifter_module_Mux_Array_Data_array[89]), .B0(n1070), .B1( Barrel_Shifter_module_Mux_Array_Data_array[105]), .Y(n1065) ); AO22XLTS U1668 ( .A0(n1846), .A1( Barrel_Shifter_module_Mux_Array_Data_array[90]), .B0(n1070), .B1( Barrel_Shifter_module_Mux_Array_Data_array[106]), .Y(n1045) ); AO22XLTS U1669 ( .A0(n1846), .A1( Barrel_Shifter_module_Mux_Array_Data_array[91]), .B0(n1070), .B1( Barrel_Shifter_module_Mux_Array_Data_array[107]), .Y(n1033) ); AO22XLTS U1670 ( .A0(n1846), .A1( Barrel_Shifter_module_Mux_Array_Data_array[92]), .B0(n1070), .B1( Barrel_Shifter_module_Mux_Array_Data_array[108]), .Y(n1050) ); AO22XLTS U1671 ( .A0(n1846), .A1( Barrel_Shifter_module_Mux_Array_Data_array[93]), .B0(n1070), .B1( Barrel_Shifter_module_Mux_Array_Data_array[109]), .Y(n1060) ); OAI21XLTS U1672 ( .A0(n2136), .A1(n2074), .B0(n1338), .Y(n1339) ); AOI2BB1XLTS U1673 ( .A0N(n1868), .A1N(n2060), .B0(n1700), .Y(n1314) ); AOI2BB1XLTS U1674 ( .A0N(n1868), .A1N(n2027), .B0(n1689), .Y(n1293) ); NAND3XLTS U1675 ( .A(n908), .B(n1846), .C( Barrel_Shifter_module_Mux_Array_Data_array[102]), .Y(n1844) ); CLKAND2X2TS U1676 ( .A(n1829), .B(n1827), .Y(n1845) ); AO22XLTS U1677 ( .A0(n1846), .A1( Barrel_Shifter_module_Mux_Array_Data_array[87]), .B0( Barrel_Shifter_module_Mux_Array_Data_array[103]), .B1(n1070), .Y(n1073) ); AOI21X1TS U1678 ( .A0(n2494), .A1(n2448), .B0(n2447), .Y(n2461) ); OAI21XLTS U1679 ( .A0(n1161), .A1(n1160), .B0(n1159), .Y(n1167) ); CLKAND2X2TS U1680 ( .A(n1134), .B(Add_Subt_result[33]), .Y(n1164) ); AND3X1TS U1681 ( .A(n1649), .B(n1648), .C(n1647), .Y(n2647) ); NAND2X2TS U1682 ( .A(n1180), .B(n1179), .Y(n1922) ); OAI211XLTS U1683 ( .A0(n962), .A1(n1121), .B0(n1079), .C0(n961), .Y(n963) ); NOR2XLTS U1684 ( .A(Add_Subt_result[53]), .B(Add_Subt_result[54]), .Y(n959) ); NAND4BXLTS U1685 ( .AN(Add_Subt_result[25]), .B(n1089), .C(n1161), .D( Add_Subt_result[24]), .Y(n1091) ); OAI21XLTS U1686 ( .A0(Add_Subt_result[4]), .A1(n2605), .B0(n2604), .Y(n1104) ); OAI21X1TS U1687 ( .A0(n2373), .A1(n1812), .B0(n1811), .Y(n2361) ); OR2X1TS U1688 ( .A(n1958), .B(n1957), .Y(n2334) ); INVX2TS U1689 ( .A(n973), .Y(n1178) ); OR2X1TS U1690 ( .A(n2560), .B(n2559), .Y(n2623) ); MX2X1TS U1691 ( .A(DMP[53]), .B(exp_oper_result[1]), .S0(n1973), .Y(n986) ); XOR2XLTS U1692 ( .A(n2525), .B(n2524), .Y(Add_Subt_Sgf_module_S_to_D[5]) ); XOR2XLTS U1693 ( .A(n2490), .B(n2489), .Y(Add_Subt_Sgf_module_S_to_D[16]) ); MX2X1TS U1694 ( .A(DMP[58]), .B(exp_oper_result[6]), .S0(n1973), .Y(n992) ); CLKAND2X2TS U1695 ( .A(n2129), .B(DmP[58]), .Y(n981) ); MX2X1TS U1696 ( .A(DMP[61]), .B(exp_oper_result[9]), .S0(n1964), .Y(n1000) ); CLKAND2X2TS U1697 ( .A(n2129), .B(DmP[61]), .Y(n994) ); NOR2X1TS U1698 ( .A(n2406), .B(n2401), .Y(n1513) ); AOI2BB2XLTS U1699 ( .B0(intDY[3]), .B1(n2966), .A0N(intDX[2]), .A1N(n2184), .Y(n2185) ); OAI21XLTS U1700 ( .A0(intDY[3]), .A1(n2966), .B0(intDY[2]), .Y(n2184) ); OAI21XLTS U1701 ( .A0(intDY[15]), .A1(n2967), .B0(intDY[14]), .Y(n2201) ); OAI21XLTS U1702 ( .A0(intDY[13]), .A1(n2935), .B0(intDY[12]), .Y(n2192) ); INVX2TS U1703 ( .A(n1857), .Y(n2078) ); NOR2X1TS U1704 ( .A(n2479), .B(n2474), .Y(n1481) ); INVX2TS U1705 ( .A(n1846), .Y(n1041) ); NAND2X1TS U1706 ( .A(n1041), .B(n1646), .Y(n1042) ); NOR2X1TS U1707 ( .A(n1113), .B(n939), .Y(n947) ); NOR2X1TS U1708 ( .A(n2456), .B(n2451), .Y(n1491) ); NAND2X1TS U1709 ( .A(n2450), .B(n1491), .Y(n1493) ); INVX4TS U1710 ( .A(n1984), .Y(n1467) ); NOR2X1TS U1711 ( .A(n1549), .B(n1551), .Y(n1533) ); NOR2X1TS U1712 ( .A(n1770), .B(n1774), .Y(n1776) ); NOR2X1TS U1713 ( .A(n1813), .B(n1815), .Y(n1798) ); NAND2X1TS U1714 ( .A(n1771), .B(n1776), .Y(n1779) ); NAND2X1TS U1715 ( .A(n2400), .B(n1513), .Y(n1515) ); NAND2BXLTS U1716 ( .AN(intDY[9]), .B(intDX[9]), .Y(n2195) ); OAI21XLTS U1717 ( .A0(intDY[21]), .A1(n2939), .B0(intDY[20]), .Y(n2212) ); OAI2BB1X1TS U1718 ( .A0N(n2272), .A1N(n2271), .B0(n2270), .Y(n2277) ); OAI21XLTS U1719 ( .A0(intDX[37]), .A1(n924), .B0(n2262), .Y(n2271) ); NAND3XLTS U1720 ( .A(n2960), .B(n2261), .C(intDY[36]), .Y(n2262) ); MX2X1TS U1721 ( .A(DMP[4]), .B(Sgf_normalized_result[6]), .S0(n1535), .Y( n1375) ); MX2X1TS U1722 ( .A(DMP[1]), .B(Sgf_normalized_result[3]), .S0(n1535), .Y( n1369) ); MX2X1TS U1723 ( .A(DMP[28]), .B(Sgf_normalized_result[30]), .S0(n1471), .Y( n1510) ); AOI222X1TS U1724 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[81]), .A1( n1861), .B0(Barrel_Shifter_module_Mux_Array_Data_array[73]), .B1(n1860), .C0(Barrel_Shifter_module_Mux_Array_Data_array[89]), .C1(n2123), .Y(n1746) ); AOI222X1TS U1725 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[80]), .A1( n1861), .B0(Barrel_Shifter_module_Mux_Array_Data_array[72]), .B1(n1860), .C0(Barrel_Shifter_module_Mux_Array_Data_array[88]), .C1(n2123), .Y(n1757) ); NOR2X4TS U1726 ( .A(n891), .B(LZA_output[4]), .Y(n1857) ); CLKAND2X2TS U1727 ( .A(n1981), .B(Sgf_normalized_result[0]), .Y(n1358) ); MX2X1TS U1728 ( .A(DMP[3]), .B(Sgf_normalized_result[5]), .S0(n1535), .Y( n1373) ); NOR2X1TS U1729 ( .A(n2526), .B(n2528), .Y(n2515) ); MX2X1TS U1730 ( .A(DMP[16]), .B(Sgf_normalized_result[18]), .S0(n1458), .Y( n1478) ); MX2X1TS U1731 ( .A(DMP[7]), .B(Sgf_normalized_result[9]), .S0(n1535), .Y( n1390) ); NAND2X1TS U1732 ( .A(n2473), .B(n1481), .Y(n2445) ); INVX2TS U1733 ( .A(n1895), .Y(n1897) ); MX2X1TS U1734 ( .A(DmP[25]), .B(Add_Subt_result[27]), .S0(FSM_selector_C), .Y(n1896) ); MX2X1TS U1735 ( .A(DMP[49]), .B(Sgf_normalized_result[51]), .S0(n1933), .Y( n1970) ); MX2X1TS U1736 ( .A(DMP[14]), .B(Sgf_normalized_result[16]), .S0(n1458), .Y( n1474) ); MX2X1TS U1737 ( .A(DMP[13]), .B(Sgf_normalized_result[15]), .S0(n1458), .Y( n1472) ); NOR2X1TS U1738 ( .A(n1439), .B(n1446), .Y(n1449) ); NAND2X1TS U1739 ( .A(n1438), .B(n1443), .Y(n1446) ); MX2X1TS U1740 ( .A(DMP[11]), .B(Sgf_normalized_result[13]), .S0(n1458), .Y( n1428) ); NOR2X1TS U1741 ( .A(n1420), .B(n1423), .Y(n1438) ); NAND4XLTS U1742 ( .A(n1580), .B(n1579), .C(n1578), .D(n1577), .Y(n1581) ); NAND4XLTS U1743 ( .A(n1608), .B(n1607), .C(n1606), .D(n1605), .Y(n1636) ); NAND4XLTS U1744 ( .A(n1616), .B(n1615), .C(n1614), .D(n1613), .Y(n1635) ); NAND4XLTS U1745 ( .A(n1624), .B(n1623), .C(n1622), .D(n1621), .Y(n1634) ); AOI31XLTS U1746 ( .A0(n1142), .A1(Add_Subt_result[45]), .A2(n2913), .B0( n1141), .Y(n1143) ); NOR2XLTS U1747 ( .A(n1140), .B(Add_Subt_result[54]), .Y(n1141) ); AOI2BB1XLTS U1748 ( .A0N(n1139), .A1N(Add_Subt_result[52]), .B0( Add_Subt_result[53]), .Y(n1140) ); INVX2TS U1749 ( .A(n1137), .Y(n1094) ); NAND2X1TS U1750 ( .A(n1134), .B(n934), .Y(n944) ); NAND4XLTS U1751 ( .A(n1112), .B(n932), .C(n1083), .D(n931), .Y(n933) ); OR2X1TS U1752 ( .A(Add_Subt_result[53]), .B(Add_Subt_result[52]), .Y(n927) ); INVX2TS U1753 ( .A(n1099), .Y(n1102) ); NAND2X1TS U1754 ( .A(n2423), .B(n1503), .Y(n2395) ); MX2X1TS U1755 ( .A(DMP[31]), .B(Sgf_normalized_result[33]), .S0(n1786), .Y( n1528) ); NOR2X1TS U1756 ( .A(n2387), .B(n2382), .Y(n1545) ); MX2X1TS U1757 ( .A(DMP[35]), .B(Sgf_normalized_result[37]), .S0(n1786), .Y( n1679) ); NOR2X1TS U1758 ( .A(n1671), .B(n1674), .Y(n1771) ); MX2X1TS U1759 ( .A(DMP[39]), .B(Sgf_normalized_result[41]), .S0(n1786), .Y( n1793) ); NOR2X1TS U1760 ( .A(n2362), .B(n2365), .Y(n1809) ); MX2X1TS U1761 ( .A(DMP[43]), .B(Sgf_normalized_result[45]), .S0(n1964), .Y( n1937) ); MX2X1TS U1762 ( .A(DMP[45]), .B(Sgf_normalized_result[47]), .S0(n1933), .Y( n1953) ); MX2X1TS U1763 ( .A(DMP[46]), .B(Sgf_normalized_result[48]), .S0(n1933), .Y( n1957) ); MX2X1TS U1764 ( .A(DMP[47]), .B(Sgf_normalized_result[49]), .S0(n1933), .Y( n1961) ); MX2X1TS U1765 ( .A(DMP[48]), .B(Sgf_normalized_result[50]), .S0(n1973), .Y( n1965) ); MX2X1TS U1766 ( .A(DMP[50]), .B(Sgf_normalized_result[52]), .S0(n1933), .Y( n1974) ); MX2X1TS U1767 ( .A(DMP[51]), .B(Sgf_normalized_result[53]), .S0(n1981), .Y( n1978) ); CLKINVX3TS U1768 ( .A(n1984), .Y(n1983) ); OR2X1TS U1769 ( .A(FS_Module_state_reg[0]), .B(FS_Module_state_reg[2]), .Y( n1238) ); AND3X1TS U1770 ( .A(n2656), .B(n2655), .C(n2654), .Y(n2686) ); AND3X1TS U1771 ( .A(n2662), .B(n2661), .C(n2660), .Y(n2691) ); OAI21XLTS U1772 ( .A0(exp_oper_result[4]), .A1(n2136), .B0(n2124), .Y(n2128) ); OAI21XLTS U1773 ( .A0(n2122), .A1(n2121), .B0(n897), .Y(n2131) ); AOI222X1TS U1774 ( .A0(n2019), .A1(n2082), .B0(n2018), .B1(n2084), .C0(n921), .C1(Barrel_Shifter_module_Mux_Array_Data_array[89]), .Y(n2020) ); AND3X1TS U1775 ( .A(n1264), .B(n1263), .C(n1262), .Y(n2699) ); AOI222X1TS U1776 ( .A0(n2008), .A1(n2082), .B0(n2007), .B1(n2084), .C0(n921), .C1(Barrel_Shifter_module_Mux_Array_Data_array[88]), .Y(n2009) ); AO22XLTS U1777 ( .A0(n2146), .A1( Barrel_Shifter_module_Mux_Array_Data_array[76]), .B0(n905), .B1( Barrel_Shifter_module_Mux_Array_Data_array[92]), .Y(n2099) ); AO22XLTS U1778 ( .A0(n2146), .A1( Barrel_Shifter_module_Mux_Array_Data_array[75]), .B0(n905), .B1( Barrel_Shifter_module_Mux_Array_Data_array[91]), .Y(n2103) ); AO22XLTS U1779 ( .A0(n905), .A1( Barrel_Shifter_module_Mux_Array_Data_array[90]), .B0(n2146), .B1( Barrel_Shifter_module_Mux_Array_Data_array[74]), .Y(n2095) ); AO22XLTS U1780 ( .A0(n905), .A1( Barrel_Shifter_module_Mux_Array_Data_array[89]), .B0(n2146), .B1( Barrel_Shifter_module_Mux_Array_Data_array[73]), .Y(n2111) ); AO22XLTS U1781 ( .A0(n905), .A1( Barrel_Shifter_module_Mux_Array_Data_array[88]), .B0(n2146), .B1( Barrel_Shifter_module_Mux_Array_Data_array[72]), .Y(n2107) ); AO22XLTS U1782 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[87]), .A1( n2149), .B0(n904), .B1(Barrel_Shifter_module_Mux_Array_Data_array[71]), .Y(n1349) ); AOI2BB2XLTS U1783 ( .B0(Barrel_Shifter_module_Mux_Array_Data_array[95]), .B1(n907), .A0N(n1764), .A1N(n2060), .Y(n1702) ); AOI2BB2XLTS U1784 ( .B0(n1692), .B1( Barrel_Shifter_module_Mux_Array_Data_array[96]), .A0N(n1764), .A1N( n2027), .Y(n1693) ); AOI2BB2XLTS U1785 ( .B0(n1692), .B1( Barrel_Shifter_module_Mux_Array_Data_array[97]), .A0N(n1764), .A1N( n2036), .Y(n1719) ); AOI2BB1XLTS U1786 ( .A0N(n1868), .A1N(n2036), .B0(n1713), .Y(n1714) ); AO22XLTS U1787 ( .A0(n1839), .A1(n1992), .B0(n1692), .B1( Barrel_Shifter_module_Mux_Array_Data_array[98]), .Y(n1738) ); AOI2BB1XLTS U1788 ( .A0N(n1868), .A1N(n1843), .B0(n1733), .Y(n1734) ); AOI2BB2XLTS U1789 ( .B0(n1692), .B1( Barrel_Shifter_module_Mux_Array_Data_array[99]), .A0N(n1764), .A1N( n2017), .Y(n1752) ); MX2X1TS U1790 ( .A(Barrel_Shifter_module_Mux_Array_Data_array[99]), .B( Barrel_Shifter_module_Mux_Array_Data_array[107]), .S0(LZA_output[3]), .Y(n1853) ); AOI2BB2XLTS U1791 ( .B0(n1692), .B1( Barrel_Shifter_module_Mux_Array_Data_array[100]), .A0N(n1764), .A1N( n2005), .Y(n1765) ); MX2X1TS U1792 ( .A(Barrel_Shifter_module_Mux_Array_Data_array[100]), .B( Barrel_Shifter_module_Mux_Array_Data_array[108]), .S0(LZA_output[3]), .Y(n1849) ); MX2X1TS U1793 ( .A(Barrel_Shifter_module_Mux_Array_Data_array[101]), .B( Barrel_Shifter_module_Mux_Array_Data_array[109]), .S0(LZA_output[3]), .Y(n1878) ); AO22XLTS U1794 ( .A0(n904), .A1( Barrel_Shifter_module_Mux_Array_Data_array[58]), .B0(n2149), .B1( Barrel_Shifter_module_Mux_Array_Data_array[74]), .Y(n1047) ); AO22XLTS U1795 ( .A0(n2146), .A1( Barrel_Shifter_module_Mux_Array_Data_array[61]), .B0(n905), .B1( Barrel_Shifter_module_Mux_Array_Data_array[77]), .Y(n1062) ); AO22XLTS U1796 ( .A0(n904), .A1( Barrel_Shifter_module_Mux_Array_Data_array[60]), .B0(n2149), .B1( Barrel_Shifter_module_Mux_Array_Data_array[76]), .Y(n1052) ); AO22XLTS U1797 ( .A0(n2146), .A1( Barrel_Shifter_module_Mux_Array_Data_array[59]), .B0(n2149), .B1( Barrel_Shifter_module_Mux_Array_Data_array[75]), .Y(n1039) ); AO22XLTS U1798 ( .A0(n904), .A1( Barrel_Shifter_module_Mux_Array_Data_array[56]), .B0(n2149), .B1( Barrel_Shifter_module_Mux_Array_Data_array[72]), .Y(n1057) ); AO22XLTS U1799 ( .A0(n904), .A1( Barrel_Shifter_module_Mux_Array_Data_array[57]), .B0(n905), .B1( Barrel_Shifter_module_Mux_Array_Data_array[73]), .Y(n1068) ); AND3X1TS U1800 ( .A(n1283), .B(n1282), .C(n1281), .Y(n2690) ); AND3X1TS U1801 ( .A(n1243), .B(n1242), .C(n1241), .Y(n2693) ); AND3X1TS U1802 ( .A(n1206), .B(n1205), .C(n1204), .Y(n1286) ); AND3X1TS U1803 ( .A(n1217), .B(n1216), .C(n1215), .Y(n2705) ); AND3X1TS U1804 ( .A(n2683), .B(n2682), .C(n2681), .Y(n2707) ); AND3X1TS U1805 ( .A(n1198), .B(n1197), .C(n1196), .Y(n1324) ); AND3X1TS U1806 ( .A(n1210), .B(n1209), .C(n1208), .Y(n1229) ); AND3X1TS U1807 ( .A(n1220), .B(n1219), .C(n1218), .Y(n1332) ); AND3X1TS U1808 ( .A(n1666), .B(n1665), .C(n1664), .Y(n2659) ); AND3X1TS U1809 ( .A(n1274), .B(n1273), .C(n1272), .Y(n2698) ); AND3X1TS U1810 ( .A(n1279), .B(n1278), .C(n1277), .Y(n1327) ); AO22XLTS U1811 ( .A0(n2143), .A1( Barrel_Shifter_module_Mux_Array_Data_array[79]), .B0(n1350), .B1( Barrel_Shifter_module_Mux_Array_Data_array[63]), .Y(n1075) ); AO22XLTS U1812 ( .A0(n2149), .A1( Barrel_Shifter_module_Mux_Array_Data_array[71]), .B0(n904), .B1( Barrel_Shifter_module_Mux_Array_Data_array[55]), .Y(n1074) ); NOR2X4TS U1813 ( .A(n944), .B(Add_Subt_result[23]), .Y(n1116) ); OR2X1TS U1814 ( .A(n1938), .B(n1937), .Y(n2355) ); NOR2X1TS U1815 ( .A(n1927), .B(n1936), .Y(n2349) ); OR2X1TS U1816 ( .A(n1966), .B(n1965), .Y(n2325) ); OR2X1TS U1817 ( .A(n1975), .B(n1974), .Y(n2316) ); NOR4X1TS U1818 ( .A(n2298), .B(n2263), .C(n2296), .D(n2165), .Y(n2302) ); BUFX3TS U1819 ( .A(n2632), .Y(n2590) ); BUFX3TS U1820 ( .A(n2632), .Y(n2599) ); BUFX3TS U1821 ( .A(n2632), .Y(n2583) ); AOI2BB2XLTS U1822 ( .B0(n2882), .B1(ready), .A0N(beg_FSM), .A1N(n860), .Y( n872) ); NAND4BXLTS U1823 ( .AN(n2558), .B(n2557), .C(n2559), .D(n2556), .Y( FS_Module_state_next[0]) ); OAI21XLTS U1824 ( .A0(n2554), .A1(n2553), .B0(n873), .Y(n2557) ); OAI21XLTS U1825 ( .A0(n2561), .A1(n2914), .B0(n1353), .Y(n864) ); AOI2BB2XLTS U1826 ( .B0(n2781), .B1(n1902), .A0N(n2719), .A1N(n1901), .Y( n1903) ); NAND4XLTS U1827 ( .A(n2785), .B(n2784), .C(n2783), .D(n2782), .Y( Barrel_Shifter_module_Mux_Array_Data_array[11]) ); NAND4XLTS U1828 ( .A(n2763), .B(n2762), .C(n2761), .D(n2760), .Y( Barrel_Shifter_module_Mux_Array_Data_array[14]) ); OAI31X1TS U1829 ( .A0(n2726), .A1(n2725), .A2(n2724), .B0(n2723), .Y(n2729) ); NAND4XLTS U1830 ( .A(n2742), .B(n2741), .C(n2740), .D(n2739), .Y( Barrel_Shifter_module_Mux_Array_Data_array[17]) ); NAND4XLTS U1831 ( .A(n2735), .B(n2734), .C(n2733), .D(n2732), .Y( Barrel_Shifter_module_Mux_Array_Data_array[18]) ); NAND4XLTS U1832 ( .A(n2804), .B(n2803), .C(n2802), .D(n2801), .Y( Barrel_Shifter_module_Mux_Array_Data_array[8]) ); NAND4XLTS U1833 ( .A(n2756), .B(n2755), .C(n2754), .D(n2753), .Y( Barrel_Shifter_module_Mux_Array_Data_array[15]) ); NAND4BXLTS U1834 ( .AN(n2614), .B(n2613), .C(n2612), .D(n2611), .Y( Leading_Zero_Detector_Module_Codec_to_Reg[5]) ); OAI211XLTS U1835 ( .A0(n2610), .A1(n2996), .B0(n2609), .C0(n2608), .Y(n2614) ); XOR2XLTS U1836 ( .A(n2433), .B(n2432), .Y(Add_Subt_Sgf_module_S_to_D[25]) ); AOI31XLTS U1837 ( .A0(n1991), .A1(n1990), .A2(n1989), .B0(n2088), .Y(n1995) ); AO21XLTS U1838 ( .A0(n1996), .A1(n2058), .B0(n1347), .Y(n3130) ); AO21XLTS U1839 ( .A0(n1701), .A1(n2058), .B0(n1321), .Y(n3128) ); AO21XLTS U1840 ( .A0(n1690), .A1(n906), .B0(n1307), .Y(n3126) ); AOI31XLTS U1841 ( .A0(n908), .A1(n1846), .A2(n2957), .B0(n920), .Y(n1847) ); MX2X1TS U1842 ( .A(DMP[52]), .B(exp_oper_result[0]), .S0(n1980), .Y(n1012) ); NAND4XLTS U1843 ( .A(n2771), .B(n2770), .C(n2769), .D(n2768), .Y( Barrel_Shifter_module_Mux_Array_Data_array[13]) ); NAND4XLTS U1844 ( .A(n2777), .B(n2776), .C(n2775), .D(n2774), .Y( Barrel_Shifter_module_Mux_Array_Data_array[12]) ); NAND4XLTS U1845 ( .A(n2792), .B(n2791), .C(n2790), .D(n2789), .Y( Barrel_Shifter_module_Mux_Array_Data_array[10]) ); NAND4XLTS U1846 ( .A(n2798), .B(n2797), .C(n2796), .D(n2795), .Y( Barrel_Shifter_module_Mux_Array_Data_array[9]) ); NAND4XLTS U1847 ( .A(n2811), .B(n2810), .C(n2809), .D(n2808), .Y( Barrel_Shifter_module_Mux_Array_Data_array[7]) ); NAND4XLTS U1848 ( .A(n2750), .B(n2749), .C(n2748), .D(n2747), .Y( Barrel_Shifter_module_Mux_Array_Data_array[16]) ); AO22XLTS U1849 ( .A0(n2850), .A1(n2773), .B0(n2874), .B1(n2717), .Y(n1912) ); NAND4XLTS U1850 ( .A(n2716), .B(n2715), .C(n2714), .D(n2713), .Y( Barrel_Shifter_module_Mux_Array_Data_array[22]) ); XOR2XLTS U1851 ( .A(n2483), .B(n2482), .Y(Add_Subt_Sgf_module_S_to_D[17]) ); XOR2XLTS U1852 ( .A(n2512), .B(n2511), .Y(Add_Subt_Sgf_module_S_to_D[7]) ); XOR2XLTS U1853 ( .A(n2547), .B(n2546), .Y(Add_Subt_Sgf_module_S_to_D[1]) ); XOR2XLTS U1854 ( .A(n2532), .B(n2531), .Y(Add_Subt_Sgf_module_S_to_D[4]) ); AOI2BB2XLTS U1855 ( .B0(n2645), .B1(n1916), .A0N(n2724), .A1N(n1901), .Y( n1898) ); OAI211XLTS U1856 ( .A0(n1915), .A1(n2711), .B0(n1894), .C0(n1893), .Y( Barrel_Shifter_module_Mux_Array_Data_array[23]) ); XOR2XLTS U1857 ( .A(n2323), .B(n2322), .Y(Add_Subt_Sgf_module_S_to_D[51]) ); CLKAND2X2TS U1858 ( .A(n2626), .B(Sgf_normalized_result[32]), .Y( final_result_ieee_Module_Sgf_S_mux[30]) ); CLKAND2X2TS U1859 ( .A(n2625), .B(Sgf_normalized_result[22]), .Y( final_result_ieee_Module_Sgf_S_mux[20]) ); CLKAND2X2TS U1860 ( .A(n2881), .B(Sgf_normalized_result[53]), .Y( final_result_ieee_Module_Sgf_S_mux[51]) ); CLKAND2X2TS U1861 ( .A(n2881), .B(Sgf_normalized_result[52]), .Y( final_result_ieee_Module_Sgf_S_mux[50]) ); CLKAND2X2TS U1862 ( .A(n2881), .B(Sgf_normalized_result[51]), .Y( final_result_ieee_Module_Sgf_S_mux[49]) ); CLKAND2X2TS U1863 ( .A(n2881), .B(Sgf_normalized_result[50]), .Y( final_result_ieee_Module_Sgf_S_mux[48]) ); CLKAND2X2TS U1864 ( .A(n2880), .B(Sgf_normalized_result[49]), .Y( final_result_ieee_Module_Sgf_S_mux[47]) ); CLKAND2X2TS U1865 ( .A(n2881), .B(Sgf_normalized_result[48]), .Y( final_result_ieee_Module_Sgf_S_mux[46]) ); CLKAND2X2TS U1866 ( .A(n2880), .B(Sgf_normalized_result[47]), .Y( final_result_ieee_Module_Sgf_S_mux[45]) ); CLKAND2X2TS U1867 ( .A(n1236), .B(Sgf_normalized_result[46]), .Y( final_result_ieee_Module_Sgf_S_mux[44]) ); CLKAND2X2TS U1868 ( .A(n1236), .B(Sgf_normalized_result[45]), .Y( final_result_ieee_Module_Sgf_S_mux[43]) ); CLKAND2X2TS U1869 ( .A(n1236), .B(Sgf_normalized_result[44]), .Y( final_result_ieee_Module_Sgf_S_mux[42]) ); CLKAND2X2TS U1870 ( .A(n1236), .B(Sgf_normalized_result[43]), .Y( final_result_ieee_Module_Sgf_S_mux[41]) ); CLKAND2X2TS U1871 ( .A(n2880), .B(Sgf_normalized_result[42]), .Y( final_result_ieee_Module_Sgf_S_mux[40]) ); CLKAND2X2TS U1872 ( .A(n2881), .B(Sgf_normalized_result[41]), .Y( final_result_ieee_Module_Sgf_S_mux[39]) ); CLKAND2X2TS U1873 ( .A(n2879), .B(Sgf_normalized_result[40]), .Y( final_result_ieee_Module_Sgf_S_mux[38]) ); CLKAND2X2TS U1874 ( .A(n2626), .B(Sgf_normalized_result[39]), .Y( final_result_ieee_Module_Sgf_S_mux[37]) ); CLKAND2X2TS U1875 ( .A(n2626), .B(Sgf_normalized_result[38]), .Y( final_result_ieee_Module_Sgf_S_mux[36]) ); CLKAND2X2TS U1876 ( .A(n2626), .B(Sgf_normalized_result[37]), .Y( final_result_ieee_Module_Sgf_S_mux[35]) ); CLKAND2X2TS U1877 ( .A(n2626), .B(Sgf_normalized_result[36]), .Y( final_result_ieee_Module_Sgf_S_mux[34]) ); CLKAND2X2TS U1878 ( .A(n2626), .B(Sgf_normalized_result[35]), .Y( final_result_ieee_Module_Sgf_S_mux[33]) ); CLKAND2X2TS U1879 ( .A(n2626), .B(Sgf_normalized_result[34]), .Y( final_result_ieee_Module_Sgf_S_mux[32]) ); CLKAND2X2TS U1880 ( .A(n2626), .B(Sgf_normalized_result[33]), .Y( final_result_ieee_Module_Sgf_S_mux[31]) ); CLKAND2X2TS U1881 ( .A(n2626), .B(Sgf_normalized_result[31]), .Y( final_result_ieee_Module_Sgf_S_mux[29]) ); CLKAND2X2TS U1882 ( .A(n2625), .B(Sgf_normalized_result[30]), .Y( final_result_ieee_Module_Sgf_S_mux[28]) ); CLKAND2X2TS U1883 ( .A(n2625), .B(Sgf_normalized_result[29]), .Y( final_result_ieee_Module_Sgf_S_mux[27]) ); CLKAND2X2TS U1884 ( .A(n2625), .B(Sgf_normalized_result[28]), .Y( final_result_ieee_Module_Sgf_S_mux[26]) ); CLKAND2X2TS U1885 ( .A(n2625), .B(Sgf_normalized_result[27]), .Y( final_result_ieee_Module_Sgf_S_mux[25]) ); CLKAND2X2TS U1886 ( .A(n2625), .B(Sgf_normalized_result[26]), .Y( final_result_ieee_Module_Sgf_S_mux[24]) ); CLKAND2X2TS U1887 ( .A(n2625), .B(Sgf_normalized_result[25]), .Y( final_result_ieee_Module_Sgf_S_mux[23]) ); CLKAND2X2TS U1888 ( .A(n2625), .B(Sgf_normalized_result[24]), .Y( final_result_ieee_Module_Sgf_S_mux[22]) ); CLKAND2X2TS U1889 ( .A(n2625), .B(Sgf_normalized_result[23]), .Y( final_result_ieee_Module_Sgf_S_mux[21]) ); CLKAND2X2TS U1890 ( .A(n2624), .B(Sgf_normalized_result[21]), .Y( final_result_ieee_Module_Sgf_S_mux[19]) ); CLKAND2X2TS U1891 ( .A(n2624), .B(Sgf_normalized_result[20]), .Y( final_result_ieee_Module_Sgf_S_mux[18]) ); CLKAND2X2TS U1892 ( .A(n2624), .B(Sgf_normalized_result[19]), .Y( final_result_ieee_Module_Sgf_S_mux[17]) ); CLKAND2X2TS U1893 ( .A(n2624), .B(Sgf_normalized_result[18]), .Y( final_result_ieee_Module_Sgf_S_mux[16]) ); CLKAND2X2TS U1894 ( .A(n2624), .B(Sgf_normalized_result[17]), .Y( final_result_ieee_Module_Sgf_S_mux[15]) ); CLKAND2X2TS U1895 ( .A(n2624), .B(Sgf_normalized_result[16]), .Y( final_result_ieee_Module_Sgf_S_mux[14]) ); CLKAND2X2TS U1896 ( .A(n2624), .B(Sgf_normalized_result[15]), .Y( final_result_ieee_Module_Sgf_S_mux[13]) ); CLKAND2X2TS U1897 ( .A(n2624), .B(Sgf_normalized_result[14]), .Y( final_result_ieee_Module_Sgf_S_mux[12]) ); CLKAND2X2TS U1898 ( .A(n2624), .B(Sgf_normalized_result[13]), .Y( final_result_ieee_Module_Sgf_S_mux[11]) ); CLKAND2X2TS U1899 ( .A(n2624), .B(Sgf_normalized_result[12]), .Y( final_result_ieee_Module_Sgf_S_mux[10]) ); CLKAND2X2TS U1900 ( .A(n2879), .B(Sgf_normalized_result[11]), .Y( final_result_ieee_Module_Sgf_S_mux[9]) ); CLKAND2X2TS U1901 ( .A(n2879), .B(Sgf_normalized_result[10]), .Y( final_result_ieee_Module_Sgf_S_mux[8]) ); CLKAND2X2TS U1902 ( .A(n2879), .B(Sgf_normalized_result[9]), .Y( final_result_ieee_Module_Sgf_S_mux[7]) ); CLKAND2X2TS U1903 ( .A(n2879), .B(Sgf_normalized_result[8]), .Y( final_result_ieee_Module_Sgf_S_mux[6]) ); CLKAND2X2TS U1904 ( .A(n2879), .B(Sgf_normalized_result[7]), .Y( final_result_ieee_Module_Sgf_S_mux[5]) ); CLKAND2X2TS U1905 ( .A(n2879), .B(Sgf_normalized_result[6]), .Y( final_result_ieee_Module_Sgf_S_mux[4]) ); CLKAND2X2TS U1906 ( .A(n2879), .B(Sgf_normalized_result[5]), .Y( final_result_ieee_Module_Sgf_S_mux[3]) ); CLKAND2X2TS U1907 ( .A(n2879), .B(Sgf_normalized_result[4]), .Y( final_result_ieee_Module_Sgf_S_mux[2]) ); CLKAND2X2TS U1908 ( .A(n2879), .B(Sgf_normalized_result[3]), .Y( final_result_ieee_Module_Sgf_S_mux[1]) ); CLKAND2X2TS U1909 ( .A(n2625), .B(Sgf_normalized_result[2]), .Y( final_result_ieee_Module_Sgf_S_mux[0]) ); NAND2BXLTS U1910 ( .AN(exp_oper_result[10]), .B(n2626), .Y( final_result_ieee_Module_Exp_S_mux[10]) ); NAND2BXLTS U1911 ( .AN(exp_oper_result[9]), .B(n2628), .Y( final_result_ieee_Module_Exp_S_mux[9]) ); NAND2BXLTS U1912 ( .AN(exp_oper_result[8]), .B(n2628), .Y( final_result_ieee_Module_Exp_S_mux[8]) ); NAND2BXLTS U1913 ( .AN(exp_oper_result[7]), .B(n2628), .Y( final_result_ieee_Module_Exp_S_mux[7]) ); NAND2BXLTS U1914 ( .AN(exp_oper_result[6]), .B(n2628), .Y( final_result_ieee_Module_Exp_S_mux[6]) ); NAND2BXLTS U1915 ( .AN(exp_oper_result[2]), .B(n2628), .Y( final_result_ieee_Module_Exp_S_mux[2]) ); NAND2BXLTS U1916 ( .AN(exp_oper_result[1]), .B(n2628), .Y( final_result_ieee_Module_Exp_S_mux[1]) ); NAND2BXLTS U1917 ( .AN(exp_oper_result[0]), .B(n2628), .Y( final_result_ieee_Module_Exp_S_mux[0]) ); XOR2XLTS U1918 ( .A(n1405), .B(n1404), .Y(Add_Subt_Sgf_module_S_to_D[12]) ); XOR2XLTS U1919 ( .A(n1416), .B(n1415), .Y(Add_Subt_Sgf_module_S_to_D[10]) ); INVX2TS U1920 ( .A(n1412), .Y(n1414) ); XOR2XLTS U1921 ( .A(n1426), .B(n1419), .Y(Add_Subt_Sgf_module_S_to_D[11]) ); NAND4XLTS U1922 ( .A(n2878), .B(n2877), .C(n2876), .D(n2875), .Y( Barrel_Shifter_module_Mux_Array_Data_array[0]) ); NAND4XLTS U1923 ( .A(n2830), .B(n2829), .C(n2828), .D(n2827), .Y( Barrel_Shifter_module_Mux_Array_Data_array[4]) ); NAND4XLTS U1924 ( .A(n2858), .B(n2857), .C(n2856), .D(n2855), .Y( Barrel_Shifter_module_Mux_Array_Data_array[1]) ); NAND4XLTS U1925 ( .A(n2824), .B(n2823), .C(n2822), .D(n2821), .Y( Barrel_Shifter_module_Mux_Array_Data_array[5]) ); NAND4XLTS U1926 ( .A(n2849), .B(n2848), .C(n2847), .D(n2846), .Y( Barrel_Shifter_module_Mux_Array_Data_array[2]) ); NAND4XLTS U1927 ( .A(n2817), .B(n2816), .C(n2815), .D(n2814), .Y( Barrel_Shifter_module_Mux_Array_Data_array[6]) ); NAND4XLTS U1928 ( .A(n2838), .B(n2837), .C(n2836), .D(n2835), .Y( Barrel_Shifter_module_Mux_Array_Data_array[3]) ); NAND4XLTS U1929 ( .A(n1158), .B(n2613), .C(n1157), .D(n1156), .Y( Leading_Zero_Detector_Module_Codec_to_Reg[0]) ); NAND3BXLTS U1930 ( .AN(Add_Subt_result[6]), .B(n2604), .C(Add_Subt_result[5]), .Y(n1156) ); NOR2XLTS U1931 ( .A(n1135), .B(n1138), .Y(n964) ); NAND4BXLTS U1932 ( .AN(n1152), .B(n1093), .C(n1092), .D(n1091), .Y(n1108) ); AOI31XLTS U1933 ( .A0(n1090), .A1(n1089), .A2(Add_Subt_result[26]), .B0( n1088), .Y(n1092) ); OAI21XLTS U1934 ( .A0(n2434), .A1(n2440), .B0(n2441), .Y(n2439) ); XOR2XLTS U1935 ( .A(n2391), .B(n2390), .Y(Add_Subt_Sgf_module_S_to_D[31]) ); XOR2XLTS U1936 ( .A(n2373), .B(n2372), .Y(Add_Subt_Sgf_module_S_to_D[39]) ); XOR2XLTS U1937 ( .A(n2369), .B(n2368), .Y(Add_Subt_Sgf_module_S_to_D[40]) ); XOR2XLTS U1938 ( .A(n2341), .B(n2340), .Y(Add_Subt_Sgf_module_S_to_D[47]) ); XOR2XLTS U1939 ( .A(n2332), .B(n2331), .Y(Add_Subt_Sgf_module_S_to_D[49]) ); XOR2XLTS U1940 ( .A(n2314), .B(n2313), .Y(Add_Subt_Sgf_module_S_to_D[53]) ); MX2X1TS U1941 ( .A(intDY[0]), .B(intDX[0]), .S0(n2599), .Y( Oper_Start_in_module_intM[0]) ); MX2X1TS U1942 ( .A(intDY[1]), .B(intDX[1]), .S0(n2599), .Y( Oper_Start_in_module_intM[1]) ); MX2X1TS U1943 ( .A(intDY[2]), .B(intDX[2]), .S0(n2599), .Y( Oper_Start_in_module_intM[2]) ); MX2X1TS U1944 ( .A(intDY[3]), .B(intDX[3]), .S0(n2599), .Y( Oper_Start_in_module_intM[3]) ); MX2X1TS U1945 ( .A(intDY[4]), .B(intDX[4]), .S0(n2590), .Y( Oper_Start_in_module_intM[4]) ); MX2X1TS U1946 ( .A(intDY[5]), .B(intDX[5]), .S0(n2599), .Y( Oper_Start_in_module_intM[5]) ); MX2X1TS U1947 ( .A(intDY[6]), .B(intDX[6]), .S0(n2599), .Y( Oper_Start_in_module_intM[6]) ); MX2X1TS U1948 ( .A(intDY[7]), .B(intDX[7]), .S0(n2599), .Y( Oper_Start_in_module_intM[7]) ); MX2X1TS U1949 ( .A(intDY[8]), .B(intDX[8]), .S0(n2599), .Y( Oper_Start_in_module_intM[8]) ); MX2X1TS U1950 ( .A(intDY[9]), .B(intDX[9]), .S0(n2590), .Y( Oper_Start_in_module_intM[9]) ); MX2X1TS U1951 ( .A(intDY[10]), .B(intDX[10]), .S0(n2590), .Y( Oper_Start_in_module_intM[10]) ); MX2X1TS U1952 ( .A(intDY[11]), .B(intDX[11]), .S0(n2590), .Y( Oper_Start_in_module_intM[11]) ); MX2X1TS U1953 ( .A(intDY[12]), .B(intDX[12]), .S0(n2590), .Y( Oper_Start_in_module_intM[12]) ); MX2X1TS U1954 ( .A(intDY[13]), .B(intDX[13]), .S0(n2590), .Y( Oper_Start_in_module_intM[13]) ); MX2X1TS U1955 ( .A(intDY[14]), .B(intDX[14]), .S0(n2590), .Y( Oper_Start_in_module_intM[14]) ); MX2X1TS U1956 ( .A(intDY[15]), .B(intDX[15]), .S0(n2590), .Y( Oper_Start_in_module_intM[15]) ); MX2X1TS U1957 ( .A(intDY[16]), .B(intDX[16]), .S0(n2583), .Y( Oper_Start_in_module_intM[16]) ); MX2X1TS U1958 ( .A(intDY[17]), .B(intDX[17]), .S0(n2583), .Y( Oper_Start_in_module_intM[17]) ); MX2X1TS U1959 ( .A(intDY[18]), .B(intDX[18]), .S0(n2583), .Y( Oper_Start_in_module_intM[18]) ); MX2X1TS U1960 ( .A(intDY[19]), .B(intDX[19]), .S0(n2583), .Y( Oper_Start_in_module_intM[19]) ); MX2X1TS U1961 ( .A(intDY[20]), .B(intDX[20]), .S0(n2583), .Y( Oper_Start_in_module_intM[20]) ); MX2X1TS U1962 ( .A(intDY[21]), .B(intDX[21]), .S0(n2583), .Y( Oper_Start_in_module_intM[21]) ); MX2X1TS U1963 ( .A(intDY[22]), .B(intDX[22]), .S0(n2590), .Y( Oper_Start_in_module_intM[22]) ); MX2X1TS U1964 ( .A(intDY[23]), .B(intDX[23]), .S0(n2583), .Y( Oper_Start_in_module_intM[23]) ); MX2X1TS U1965 ( .A(intDY[24]), .B(intDX[24]), .S0(n2583), .Y( Oper_Start_in_module_intM[24]) ); MX2X1TS U1966 ( .A(intDY[25]), .B(intDX[25]), .S0(n2599), .Y( Oper_Start_in_module_intM[25]) ); MX2X1TS U1967 ( .A(intDY[26]), .B(intDX[26]), .S0(n2590), .Y( Oper_Start_in_module_intM[26]) ); MX2X1TS U1968 ( .A(intDY[27]), .B(intDX[27]), .S0(n2599), .Y( Oper_Start_in_module_intM[27]) ); MX2X1TS U1969 ( .A(intDY[28]), .B(intDX[28]), .S0(n2569), .Y( Oper_Start_in_module_intM[28]) ); MX2X1TS U1970 ( .A(intDY[29]), .B(intDX[29]), .S0(n2632), .Y( Oper_Start_in_module_intM[29]) ); MX2X1TS U1971 ( .A(intDY[30]), .B(intDX[30]), .S0(n2583), .Y( Oper_Start_in_module_intM[30]) ); MX2X1TS U1972 ( .A(intDY[31]), .B(intDX[31]), .S0(n2634), .Y( Oper_Start_in_module_intM[31]) ); MX2X1TS U1973 ( .A(intDY[32]), .B(intDX[32]), .S0(n2583), .Y( Oper_Start_in_module_intM[32]) ); MX2X1TS U1974 ( .A(intDY[33]), .B(intDX[33]), .S0(n2569), .Y( Oper_Start_in_module_intM[33]) ); MX2X1TS U1975 ( .A(intDY[34]), .B(intDX[34]), .S0(n2569), .Y( Oper_Start_in_module_intM[34]) ); MX2X1TS U1976 ( .A(intDY[35]), .B(intDX[35]), .S0(n2569), .Y( Oper_Start_in_module_intM[35]) ); MX2X1TS U1977 ( .A(intDY[36]), .B(intDX[36]), .S0(n2569), .Y( Oper_Start_in_module_intM[36]) ); MX2X1TS U1978 ( .A(intDY[37]), .B(intDX[37]), .S0(n2569), .Y( Oper_Start_in_module_intM[37]) ); MX2X1TS U1979 ( .A(intDY[38]), .B(intDX[38]), .S0(n2569), .Y( Oper_Start_in_module_intM[38]) ); MX2X1TS U1980 ( .A(intDY[39]), .B(intDX[39]), .S0(n2569), .Y( Oper_Start_in_module_intM[39]) ); MX2X1TS U1981 ( .A(DMP[56]), .B(exp_oper_result[4]), .S0(n1964), .Y(n1006) ); OAI2BB1X1TS U1982 ( .A0N(n2129), .A1N(DmP[56]), .B0(n2132), .Y(n977) ); MX2X1TS U1983 ( .A(DMP[59]), .B(exp_oper_result[7]), .S0(n1964), .Y(n1003) ); CLKAND2X2TS U1984 ( .A(n1178), .B(DmP[59]), .Y(n990) ); MX2X1TS U1985 ( .A(DMP[62]), .B(exp_oper_result[10]), .S0(n1973), .Y(n1014) ); CLKAND2X2TS U1986 ( .A(n1178), .B(DmP[62]), .Y(n998) ); ADDFHX2TS U1987 ( .A(n980), .B(n979), .CI(n978), .CO(n1005), .S( Exp_Operation_Module_Data_S[3]) ); INVX2TS U1988 ( .A(n901), .Y(n1729) ); INVX2TS U1989 ( .A(n2146), .Y(n903) ); INVX2TS U1990 ( .A(n1745), .Y(n2146) ); NAND2X2TS U1991 ( .A(n2129), .B(n2924), .Y(n1034) ); BUFX3TS U1992 ( .A(n1025), .Y(n2126) ); INVX2TS U1993 ( .A(n2079), .Y(n2149) ); INVX2TS U1994 ( .A(LZA_output[3]), .Y(n891) ); NOR2X4TS U1995 ( .A(LZA_output[4]), .B(n892), .Y(n1027) ); CLKBUFX2TS U1996 ( .A(FS_Module_state_reg[0]), .Y(n2620) ); CLKBUFX2TS U1997 ( .A(exp_oper_result[3]), .Y(n1730) ); BUFX3TS U1998 ( .A(n2114), .Y(n2573) ); AND2X2TS U1999 ( .A(n2120), .B(n2922), .Y(n886) ); INVX2TS U2000 ( .A(n2141), .Y(n2058) ); OAI21X1TS U2001 ( .A0(n2353), .A1(n2352), .B0(n2351), .Y(n2357) ); INVX2TS U2002 ( .A(n2573), .Y(n1909) ); INVX2TS U2003 ( .A(n1027), .Y(n889) ); INVX2TS U2004 ( .A(n889), .Y(n890) ); INVX2TS U2005 ( .A(n891), .Y(n892) ); INVX2TS U2006 ( .A(n1034), .Y(n893) ); INVX2TS U2007 ( .A(n893), .Y(n894) ); INVX2TS U2008 ( .A(n2573), .Y(n895) ); INVX2TS U2009 ( .A(n2573), .Y(n896) ); INVX2TS U2010 ( .A(n1334), .Y(n897) ); NOR2X4TS U2011 ( .A(n2917), .B(FSM_selector_B[1]), .Y(n2120) ); INVX2TS U2012 ( .A(n886), .Y(n898) ); INVX2TS U2013 ( .A(n1730), .Y(n900) ); INVX2TS U2014 ( .A(n900), .Y(n901) ); INVX2TS U2015 ( .A(n903), .Y(n904) ); INVX2TS U2016 ( .A(n2126), .Y(n908) ); INVX2TS U2017 ( .A(n884), .Y(n909) ); INVX2TS U2018 ( .A(n884), .Y(n910) ); INVX2TS U2019 ( .A(n884), .Y(n911) ); INVX2TS U2020 ( .A(n885), .Y(n912) ); INVX2TS U2021 ( .A(n885), .Y(n913) ); INVX2TS U2022 ( .A(n885), .Y(n914) ); OAI221X1TS U2023 ( .A0(n2939), .A1(intDY[21]), .B0(n2942), .B1(intDY[20]), .C0(n1595), .Y(n1598) ); OAI221X1TS U2024 ( .A0(n2899), .A1(intDY[30]), .B0(n2941), .B1(intDY[29]), .C0(n1587), .Y(n1590) ); NAND4X1TS U2025 ( .A(n1173), .B(n2612), .C(n967), .D(n966), .Y( Leading_Zero_Detector_Module_Codec_to_Reg[1]) ); INVX2TS U2026 ( .A(n1969), .Y(n1980) ); NOR2X4TS U2027 ( .A(n1309), .B(n1308), .Y(n2060) ); OAI21X2TS U2028 ( .A0(n1077), .A1( Barrel_Shifter_module_Mux_Array_Data_array[109]), .B0(n1076), .Y(n2602) ); AOI22X2TS U2029 ( .A0(n1897), .A1(n1896), .B0(n2709), .B1(n1895), .Y(n2719) ); OAI2BB1X2TS U2030 ( .A0N(Add_Subt_result[28]), .A1N(n1907), .B0(n1322), .Y( n2709) ); OA22X1TS U2031 ( .A0(n2592), .A1(n2573), .B0(n2591), .B1(n2118), .Y(n1063) ); OAI21X2TS U2032 ( .A0(n1077), .A1( Barrel_Shifter_module_Mux_Array_Data_array[103]), .B0(n1076), .Y(n2591) ); OAI21X2TS U2033 ( .A0(n1077), .A1( Barrel_Shifter_module_Mux_Array_Data_array[106]), .B0(n1076), .Y(n2597) ); OAI21X2TS U2034 ( .A0(n1077), .A1( Barrel_Shifter_module_Mux_Array_Data_array[108]), .B0(n1076), .Y(n2615) ); OAI21X2TS U2035 ( .A0(n1077), .A1( Barrel_Shifter_module_Mux_Array_Data_array[107]), .B0(n1076), .Y(n2600) ); OA22X1TS U2036 ( .A0(n2596), .A1(n2152), .B0(n2595), .B1(n2118), .Y(n1043) ); OAI21X2TS U2037 ( .A0(n1077), .A1( Barrel_Shifter_module_Mux_Array_Data_array[105]), .B0(n1076), .Y(n2595) ); OA22X1TS U2038 ( .A0(n2594), .A1(n2114), .B0(n2593), .B1(n2118), .Y(n1053) ); OAI21X2TS U2039 ( .A0(n1077), .A1( Barrel_Shifter_module_Mux_Array_Data_array[104]), .B0(n1076), .Y(n2593) ); OAI21X4TS U2040 ( .A0(n2787), .A1(n1226), .B0(n1225), .Y(n2710) ); INVX2TS U2041 ( .A(n1348), .Y(n915) ); INVX2TS U2042 ( .A(n1348), .Y(n916) ); OAI211XLTS U2043 ( .A0(n2676), .A1(n1926), .B0(n1925), .C0(n1924), .Y( Barrel_Shifter_module_Mux_Array_Data_array[26]) ); NOR2X4TS U2044 ( .A(n901), .B(exp_oper_result[4]), .Y(n2002) ); AOI222X1TS U2045 ( .A0(n921), .A1( Barrel_Shifter_module_Mux_Array_Data_array[86]), .B0(n2085), .B1(n2084), .C0(n2083), .C1(n2082), .Y(n2089) ); MXI2X4TS U2046 ( .A(Barrel_Shifter_module_Mux_Array_Data_array[86]), .B( Barrel_Shifter_module_Mux_Array_Data_array[94]), .S0(n1730), .Y(n2136) ); AOI222X1TS U2047 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[91]), .A1( n2123), .B0(Barrel_Shifter_module_Mux_Array_Data_array[83]), .B1(n1861), .C0(Barrel_Shifter_module_Mux_Array_Data_array[75]), .C1(n1860), .Y(n1707) ); AOI222X1TS U2048 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[92]), .A1( n2123), .B0(Barrel_Shifter_module_Mux_Array_Data_array[84]), .B1(n1861), .C0(Barrel_Shifter_module_Mux_Array_Data_array[76]), .C1(n1860), .Y(n1289) ); NOR2X1TS U2049 ( .A(Add_Subt_result[5]), .B(Add_Subt_result[6]), .Y(n1103) ); NOR2X1TS U2050 ( .A(Add_Subt_result[20]), .B(Add_Subt_result[19]), .Y(n950) ); NOR2X1TS U2051 ( .A(Add_Subt_result[9]), .B(Add_Subt_result[8]), .Y(n954) ); AOI222X1TS U2052 ( .A0(n2051), .A1(n2082), .B0(n2050), .B1(n2084), .C0(n921), .C1(Barrel_Shifter_module_Mux_Array_Data_array[87]), .Y(n2053) ); XOR2X1TS U2053 ( .A(n970), .B(n975), .Y(n1011) ); XOR2X1TS U2054 ( .A(n970), .B(n977), .Y(n1007) ); INVX2TS U2055 ( .A(n2137), .Y(n918) ); INVX2TS U2056 ( .A(n2137), .Y(n2049) ); OAI221X1TS U2057 ( .A0(intDX[0]), .A1(n2907), .B0(n2958), .B1(intDY[0]), .C0(n1571), .Y(n1584) ); OAI221X1TS U2058 ( .A0(n2965), .A1(intDY[26]), .B0(n2969), .B1(intDY[25]), .C0(n1585), .Y(n1592) ); OAI221X1TS U2059 ( .A0(n2964), .A1(intDY[17]), .B0(n2937), .B1(intDY[16]), .C0(n1593), .Y(n1600) ); AOI211X1TS U2060 ( .A0(n2176), .A1(n2175), .B0(n2174), .C0(n2173), .Y(n2232) ); CLKINVX3TS U2061 ( .A(rst), .Y(n1231) ); NAND2X1TS U2062 ( .A(n2120), .B(LZA_output[5]), .Y(n919) ); NOR2X4TS U2063 ( .A(n1712), .B(n1711), .Y(n2036) ); NOR2X4TS U2064 ( .A(n1288), .B(n1287), .Y(n2027) ); AOI222X4TS U2065 ( .A0(n1902), .A1(n1890), .B0(n1328), .B1(n1889), .C0(n1923), .C1(n2653), .Y(n1921) ); AOI222X4TS U2066 ( .A0(n1916), .A1(n2666), .B0(n2710), .B1(n2667), .C0(n1328), .C1(n2653), .Y(n1905) ); AOI22X2TS U2067 ( .A0(n1897), .A1(n2717), .B0(n1896), .B1(n1895), .Y(n2724) ); NOR2X2TS U2068 ( .A(Add_Subt_result[34]), .B(Add_Subt_result[33]), .Y(n1112) ); NOR2X4TS U2069 ( .A(n1718), .B(n1717), .Y(n2017) ); NOR2X4TS U2070 ( .A(n1296), .B(n1295), .Y(n2005) ); NOR2XLTS U2071 ( .A(Add_Subt_result[27]), .B(Add_Subt_result[25]), .Y(n932) ); OAI21XLTS U2072 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[102]), .A1( n1987), .B0(n1986), .Y(n1990) ); INVX2TS U2073 ( .A(n2133), .Y(n920) ); BUFX3TS U2074 ( .A(n1297), .Y(n2088) ); OR2X1TS U2075 ( .A(n1848), .B(n1847), .Y(n3114) ); OAI211X1TS U2076 ( .A0(Sgf_normalized_result[0]), .A1( Sgf_normalized_result[1]), .B0(n1567), .C0(n1566), .Y(n2560) ); OR2X1TS U2077 ( .A(Sgf_normalized_result[2]), .B(n1973), .Y(n1356) ); NOR4X2TS U2078 ( .A(FS_Module_state_reg[1]), .B(n2983), .C(n922), .D(n2906), .Y(FSM_Final_Result_load) ); INVX2TS U2079 ( .A(n2026), .Y(n921) ); OAI22X2TS U2080 ( .A0(n1334), .A1(n2078), .B0(n973), .B1(n1037), .Y(n2086) ); AOI22X2TS U2081 ( .A0(n2077), .A1(n2049), .B0(n2133), .B1(n2084), .Y(n2065) ); NOR2X4TS U2082 ( .A(n899), .B(n2919), .Y(n2077) ); NAND2X4TS U2083 ( .A(n1294), .B(n2620), .Y(n2141) ); OAI221X1TS U2084 ( .A0(n2892), .A1(intDY[5]), .B0(n2938), .B1(intDY[4]), .C0(n1572), .Y(n1583) ); AOI222X1TS U2085 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[93]), .A1( n2123), .B0(Barrel_Shifter_module_Mux_Array_Data_array[77]), .B1(n1860), .C0(Barrel_Shifter_module_Mux_Array_Data_array[85]), .C1(n1861), .Y(n1310) ); NOR2X1TS U2086 ( .A(Add_Subt_result[17]), .B(Add_Subt_result[18]), .Y(n965) ); AND3X1TS U2087 ( .A(n1106), .B(n954), .C(Add_Subt_result[7]), .Y(n1154) ); OAI21XLTS U2088 ( .A0(Add_Subt_result[1]), .A1(Add_Subt_result[2]), .B0( n1169), .Y(n1170) ); AOI211X1TS U2089 ( .A0(n2092), .A1( Barrel_Shifter_module_Mux_Array_Data_array[78]), .B0(n2091), .C0(n2090), .Y(n2093) ); BUFX3TS U2090 ( .A(n2634), .Y(n2569) ); INVX2TS U2091 ( .A(n1969), .Y(n1973) ); BUFX3TS U2092 ( .A(n2706), .Y(n1558) ); NOR2XLTS U2093 ( .A(n2923), .B(intDY[11]), .Y(n2193) ); OAI21XLTS U2094 ( .A0(intDY[35]), .A1(n2963), .B0(intDY[34]), .Y(n2265) ); NOR2XLTS U2095 ( .A(n2282), .B(intDX[48]), .Y(n2283) ); NOR2XLTS U2096 ( .A(n2213), .B(intDX[16]), .Y(n2214) ); NOR2XLTS U2097 ( .A(Add_Subt_result[30]), .B(Add_Subt_result[24]), .Y(n931) ); NAND2X1TS U2098 ( .A(n2132), .B(n2006), .Y(n1303) ); NAND2X1TS U2099 ( .A(n2349), .B(n2355), .Y(n1941) ); OAI211XLTS U2100 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[102]), .A1(n889), .B0(n897), .C0(n1988), .Y(n1989) ); NAND2X2TS U2101 ( .A(n2120), .B(LZA_output[4]), .Y(n2132) ); INVX2TS U2102 ( .A(n1423), .Y(n1403) ); NAND2X1TS U2103 ( .A(n1387), .B(n1386), .Y(n2509) ); OAI21X1TS U2104 ( .A0(n2391), .A1(n1772), .B0(n1780), .Y(n1561) ); NAND2X1TS U2105 ( .A(FS_Module_state_reg[2]), .B(n2555), .Y(n2158) ); AND3X1TS U2106 ( .A(n2672), .B(n2671), .C(n2670), .Y(n2694) ); AND3X1TS U2107 ( .A(n1257), .B(n1256), .C(n1255), .Y(n2651) ); AND3X1TS U2108 ( .A(n2644), .B(n2643), .C(n2642), .Y(n2675) ); AND3X1TS U2109 ( .A(n1660), .B(n1659), .C(n1658), .Y(n2665) ); OA22X1TS U2110 ( .A0(n2603), .A1(n2114), .B0(n2602), .B1(n2118), .Y(n1078) ); OA22X1TS U2111 ( .A0(n2617), .A1(n2152), .B0(n2615), .B1(n2118), .Y(n1058) ); OA22X1TS U2112 ( .A0(n2601), .A1(n2152), .B0(n2600), .B1(n2118), .Y(n1069) ); OA22X1TS U2113 ( .A0(n2598), .A1(n2114), .B0(n2597), .B1(n2118), .Y(n1048) ); AND3X1TS U2114 ( .A(n1189), .B(n1188), .C(n1187), .Y(n1248) ); INVX2TS U2115 ( .A(n1450), .Y(n2512) ); INVX2TS U2116 ( .A(n2434), .Y(n2444) ); INVX2TS U2117 ( .A(n2364), .Y(n2373) ); NOR3X1TS U2118 ( .A(Add_Subt_result[50]), .B(Add_Subt_result[48]), .C( Add_Subt_result[49]), .Y(n1111) ); OR2X2TS U2119 ( .A(Add_Subt_result[51]), .B(Add_Subt_result[54]), .Y(n926) ); NOR2X2TS U2120 ( .A(n927), .B(n926), .Y(n1109) ); NAND2X2TS U2121 ( .A(n1111), .B(n1109), .Y(n1121) ); NOR3X2TS U2122 ( .A(Add_Subt_result[46]), .B(Add_Subt_result[44]), .C( Add_Subt_result[45]), .Y(n1087) ); NOR3X1TS U2123 ( .A(Add_Subt_result[47]), .B(Add_Subt_result[43]), .C( Add_Subt_result[42]), .Y(n928) ); NOR2X4TS U2124 ( .A(n1121), .B(n929), .Y(n1137) ); NAND2X4TS U2125 ( .A(n1137), .B(n2918), .Y(n1135) ); NOR2X2TS U2126 ( .A(Add_Subt_result[39]), .B(Add_Subt_result[40]), .Y(n1138) ); NOR2X2TS U2127 ( .A(Add_Subt_result[38]), .B(Add_Subt_result[37]), .Y(n1163) ); NOR2X1TS U2128 ( .A(Add_Subt_result[36]), .B(Add_Subt_result[35]), .Y(n946) ); NOR2X4TS U2129 ( .A(n1135), .B(n930), .Y(n1134) ); NOR2X2TS U2130 ( .A(Add_Subt_result[32]), .B(Add_Subt_result[31]), .Y(n1083) ); NOR2X1TS U2131 ( .A(Add_Subt_result[29]), .B(Add_Subt_result[28]), .Y(n1090) ); NOR2X1TS U2132 ( .A(Add_Subt_result[22]), .B(Add_Subt_result[21]), .Y(n935) ); INVX2TS U2133 ( .A(n950), .Y(n936) ); NOR2X1TS U2134 ( .A(n2607), .B(Add_Subt_result[15]), .Y(n937) ); NOR2X1TS U2135 ( .A(Add_Subt_result[14]), .B(Add_Subt_result[13]), .Y(n1120) ); INVX2TS U2136 ( .A(n1120), .Y(n938) ); NOR2X4TS U2137 ( .A(n2610), .B(n938), .Y(n1127) ); NAND2X4TS U2138 ( .A(n1127), .B(n2931), .Y(n1125) ); NOR3BX4TS U2139 ( .AN(n954), .B(n953), .C(Add_Subt_result[7]), .Y(n2604) ); NAND2X2TS U2140 ( .A(n2604), .B(n1103), .Y(n952) ); NOR2X4TS U2141 ( .A(n952), .B(Add_Subt_result[4]), .Y(n1098) ); NAND2BX2TS U2142 ( .AN(Add_Subt_result[3]), .B(n1098), .Y(n1168) ); NOR2X2TS U2143 ( .A(n1168), .B(Add_Subt_result[2]), .Y(n1133) ); NAND2X2TS U2144 ( .A(n1133), .B(Add_Subt_result[0]), .Y(n2611) ); INVX2TS U2145 ( .A(n1134), .Y(n1113) ); INVX2TS U2146 ( .A(n1112), .Y(n939) ); INVX2TS U2147 ( .A(n1083), .Y(n940) ); NAND2X2TS U2148 ( .A(n947), .B(n941), .Y(n1160) ); NAND2X1TS U2149 ( .A(n3024), .B(Add_Subt_result[27]), .Y(n942) ); NOR2X1TS U2150 ( .A(n1160), .B(n942), .Y(n1122) ); INVX2TS U2151 ( .A(Add_Subt_result[29]), .Y(n1226) ); INVX2TS U2152 ( .A(n1163), .Y(n945) ); INVX2TS U2153 ( .A(n1135), .Y(n943) ); NAND2X1TS U2154 ( .A(n943), .B(n1138), .Y(n1162) ); NAND2X1TS U2155 ( .A(n1084), .B(Add_Subt_result[23]), .Y(n1080) ); OAI31X1TS U2156 ( .A0(n946), .A1(n945), .A2(n1162), .B0(n1080), .Y(n948) ); INVX2TS U2157 ( .A(n947), .Y(n1146) ); NOR2X1TS U2158 ( .A(n1146), .B(n1083), .Y(n1115) ); AOI211X1TS U2159 ( .A0(n1122), .A1(n1226), .B0(n948), .C0(n1115), .Y(n949) ); NOR2X2TS U2160 ( .A(n1160), .B(Add_Subt_result[27]), .Y(n1089) ); INVX2TS U2161 ( .A(n1081), .Y(n1161) ); OAI211X1TS U2162 ( .A0(n950), .A1(n1099), .B0(n949), .C0(n1091), .Y(n951) ); AOI2BB1X1TS U2163 ( .A0N(Add_Subt_result[3]), .A1N(Add_Subt_result[4]), .B0( n952), .Y(n958) ); INVX2TS U2164 ( .A(n953), .Y(n1106) ); NOR3BX1TS U2165 ( .AN(Add_Subt_result[8]), .B(Add_Subt_result[10]), .C( Add_Subt_result[9]), .Y(n955) ); OAI31X1TS U2166 ( .A0(Add_Subt_result[12]), .A1(Add_Subt_result[11]), .A2( n955), .B0(n1127), .Y(n956) ); OAI31X1TS U2167 ( .A0(n2607), .A1(n1150), .A2(n2999), .B0(n956), .Y(n957) ); NOR3X1TS U2168 ( .A(n958), .B(n1154), .C(n957), .Y(n2612) ); NOR2BX1TS U2169 ( .AN(Add_Subt_result[28]), .B(n1160), .Y(n1117) ); AOI31XLTS U2170 ( .A0(n2913), .A1(Add_Subt_result[44]), .A2(n3054), .B0( Add_Subt_result[47]), .Y(n962) ); NOR3BX1TS U2171 ( .AN(Add_Subt_result[48]), .B(Add_Subt_result[50]), .C( Add_Subt_result[49]), .Y(n960) ); OAI31X1TS U2172 ( .A0(n960), .A1(Add_Subt_result[52]), .A2( Add_Subt_result[51]), .B0(n959), .Y(n961) ); AOI211X1TS U2173 ( .A0(n1117), .A1(n1226), .B0(n964), .C0(n963), .Y(n967) ); AOI21X1TS U2174 ( .A0(n922), .A1(FSM_selector_C), .B0(FS_Module_state_reg[0]), .Y(n968) ); AOI211X2TS U2175 ( .A0(n2620), .A1(FS_Module_state_reg[2]), .B0(n968), .C0( n2915), .Y(n969) ); NOR2X2TS U2176 ( .A(FSM_selector_B[1]), .B(FSM_selector_B[0]), .Y(n988) ); INVX2TS U2177 ( .A(n988), .Y(n973) ); NAND2X1TS U2178 ( .A(n2120), .B(n892), .Y(n1029) ); OAI2BB1X1TS U2179 ( .A0N(n1178), .A1N(DmP[55]), .B0(n1029), .Y(n971) ); XOR2X1TS U2180 ( .A(n970), .B(n971), .Y(n980) ); INVX4TS U2181 ( .A(FSM_selector_D), .Y(n1969) ); INVX4TS U2182 ( .A(n1969), .Y(n1933) ); NAND2X1TS U2183 ( .A(n2120), .B(LZA_output[2]), .Y(n1175) ); OAI2BB1X1TS U2184 ( .A0N(n1178), .A1N(DmP[54]), .B0(n1175), .Y(n972) ); XOR2X1TS U2185 ( .A(n917), .B(n972), .Y(n1010) ); NAND2X1TS U2186 ( .A(n2120), .B(LZA_output[1]), .Y(n1180) ); OAI2BB1X1TS U2187 ( .A0N(n2129), .A1N(DmP[53]), .B0(n1180), .Y(n974) ); XOR2X1TS U2188 ( .A(n917), .B(n974), .Y(n987) ); AOI2BB2X1TS U2189 ( .B0(n2120), .B1(LZA_output[0]), .A0N(FSM_selector_B[0]), .A1N(n2914), .Y(n1177) ); OAI2BB1X1TS U2190 ( .A0N(DmP[52]), .A1N(n2917), .B0(n1177), .Y(n975) ); NAND2X1TS U2191 ( .A(n2120), .B(LZA_output[5]), .Y(n1688) ); OAI2BB1X1TS U2192 ( .A0N(n1178), .A1N(DmP[57]), .B0(n1688), .Y(n976) ); XOR2X1TS U2193 ( .A(n970), .B(n976), .Y(n984) ); XOR2X1TS U2194 ( .A(n970), .B(n981), .Y(n993) ); XOR2X1TS U2195 ( .A(n970), .B(n989), .Y(n997) ); XOR2X1TS U2196 ( .A(n970), .B(n990), .Y(n1004) ); XOR2X1TS U2197 ( .A(n970), .B(n994), .Y(n1001) ); XOR2X1TS U2198 ( .A(n917), .B(n998), .Y(n1015) ); OR4X2TS U2199 ( .A(Exp_Operation_Module_Data_S[3]), .B( Exp_Operation_Module_Data_S[2]), .C(Exp_Operation_Module_Data_S[1]), .D(Exp_Operation_Module_Data_S[0]), .Y(n1018) ); OR4X2TS U2200 ( .A(Exp_Operation_Module_Data_S[6]), .B( Exp_Operation_Module_Data_S[5]), .C(Exp_Operation_Module_Data_S[4]), .D(n1018), .Y(n1019) ); OR4X2TS U2201 ( .A(Exp_Operation_Module_Data_S[9]), .B( Exp_Operation_Module_Data_S[8]), .C(Exp_Operation_Module_Data_S[7]), .D(n1019), .Y(n1020) ); NOR2X2TS U2202 ( .A(FS_Module_state_reg[1]), .B(FS_Module_state_reg[3]), .Y( n2555) ); NOR2X1TS U2203 ( .A(n2906), .B(FS_Module_state_reg[2]), .Y(n1568) ); NAND2X1TS U2204 ( .A(n1568), .B(n1021), .Y(n1569) ); MXI2X4TS U2205 ( .A(n3056), .B(n1022), .S0(n883), .Y(n861) ); NOR2X1TS U2206 ( .A(FS_Module_state_reg[1]), .B(n2620), .Y(n1354) ); NAND2X1TS U2207 ( .A(n1023), .B(n1354), .Y(n2884) ); NAND2X2TS U2208 ( .A(n1024), .B(add_overflow_flag), .Y(n2568) ); INVX2TS U2209 ( .A(n2568), .Y(n1646) ); NAND2X1TS U2210 ( .A(n1178), .B(exp_oper_result[5]), .Y(n1694) ); INVX2TS U2211 ( .A(n2002), .Y(n1987) ); AOI22X4TS U2212 ( .A0(n2120), .A1(n889), .B0(n1987), .B1(n2129), .Y(n1846) ); NAND2X1TS U2213 ( .A(n1178), .B(exp_oper_result[4]), .Y(n2006) ); INVX2TS U2214 ( .A(n1303), .Y(n1030) ); NAND2X1TS U2215 ( .A(n1178), .B(n901), .Y(n1028) ); NAND2X1TS U2216 ( .A(n1029), .B(n1028), .Y(n1031) ); NOR2X4TS U2217 ( .A(n1030), .B(n1031), .Y(n1070) ); INVX2TS U2218 ( .A(n2120), .Y(n1334) ); NOR2X4TS U2219 ( .A(n900), .B(exp_oper_result[4]), .Y(n1860) ); INVX2TS U2220 ( .A(n1860), .Y(n1037) ); NOR2X4TS U2221 ( .A(n2568), .B(n1036), .Y(n1071) ); AOI21X1TS U2222 ( .A0(n921), .A1( Barrel_Shifter_module_Mux_Array_Data_array[99]), .B0(n1071), .Y(n1032) ); NAND2BX1TS U2223 ( .AN(n1033), .B(n1032), .Y(n2584) ); OAI21X4TS U2224 ( .A0(n894), .A1(n1987), .B0(n2914), .Y(n1758) ); AOI21X1TS U2225 ( .A0(n886), .A1(n890), .B0(n1758), .Y(n1745) ); INVX2TS U2226 ( .A(exp_oper_result[4]), .Y(n2627) ); NOR2X4TS U2227 ( .A(n2627), .B(n901), .Y(n1861) ); AOI22X1TS U2228 ( .A0(n893), .A1(n1861), .B0(n886), .B1(n1035), .Y(n2079) ); NOR2X4TS U2229 ( .A(n1025), .B(n1036), .Y(n2143) ); INVX2TS U2230 ( .A(n2143), .Y(n1066) ); OAI22X4TS U2231 ( .A0(n894), .A1(n1037), .B0(n898), .B1(n2078), .Y(n2072) ); OAI2BB2XLTS U2232 ( .B0(n1066), .B1(n2970), .A0N(n1350), .A1N( Barrel_Shifter_module_Mux_Array_Data_array[67]), .Y(n1038) ); AOI211X1TS U2233 ( .A0(n2126), .A1(n2584), .B0(n1039), .C0(n1038), .Y(n2596) ); NAND2X2TS U2234 ( .A(n1042), .B(n1041), .Y(n1076) ); NAND2X2TS U2235 ( .A(n908), .B(n2152), .Y(n2118) ); NAND2X1TS U2236 ( .A(n1026), .B(n1043), .Y( Barrel_Shifter_module_Data_Reg[50]) ); AOI21X1TS U2237 ( .A0(n921), .A1( Barrel_Shifter_module_Mux_Array_Data_array[98]), .B0(n1071), .Y(n1044) ); NAND2BX1TS U2238 ( .AN(n1045), .B(n1044), .Y(n2580) ); OAI2BB2XLTS U2239 ( .B0(n1066), .B1(n3053), .A0N(n1350), .A1N( Barrel_Shifter_module_Mux_Array_Data_array[66]), .Y(n1046) ); AOI211X1TS U2240 ( .A0(n1025), .A1(n2580), .B0(n1047), .C0(n1046), .Y(n2598) ); NAND2X1TS U2241 ( .A(n1026), .B(n1048), .Y( Barrel_Shifter_module_Data_Reg[51]) ); AOI21X1TS U2242 ( .A0(n921), .A1( Barrel_Shifter_module_Mux_Array_Data_array[100]), .B0(n1071), .Y(n1049) ); NAND2BX1TS U2243 ( .AN(n1050), .B(n1049), .Y(n2587) ); OAI2BB2XLTS U2244 ( .B0(n1066), .B1(n2971), .A0N(n1350), .A1N( Barrel_Shifter_module_Mux_Array_Data_array[68]), .Y(n1051) ); AOI211X1TS U2245 ( .A0(n2126), .A1(n2587), .B0(n1052), .C0(n1051), .Y(n2594) ); NAND2X1TS U2246 ( .A(n1026), .B(n1053), .Y( Barrel_Shifter_module_Data_Reg[49]) ); AOI21X1TS U2247 ( .A0(n2086), .A1( Barrel_Shifter_module_Mux_Array_Data_array[96]), .B0(n1071), .Y(n1054) ); NAND2BX1TS U2248 ( .AN(n1055), .B(n1054), .Y(n2574) ); OAI2BB2XLTS U2249 ( .B0(n1066), .B1(n2974), .A0N(n1350), .A1N( Barrel_Shifter_module_Mux_Array_Data_array[64]), .Y(n1056) ); AOI211X1TS U2250 ( .A0(n2126), .A1(n2574), .B0(n1057), .C0(n1056), .Y(n2617) ); NAND2X1TS U2251 ( .A(n1026), .B(n1058), .Y( Barrel_Shifter_module_Data_Reg[53]) ); AOI21X1TS U2252 ( .A0(n921), .A1( Barrel_Shifter_module_Mux_Array_Data_array[101]), .B0(n1071), .Y(n1059) ); NAND2BX1TS U2253 ( .AN(n1060), .B(n1059), .Y(n2115) ); OAI2BB2XLTS U2254 ( .B0(n1066), .B1(n2972), .A0N(n1350), .A1N( Barrel_Shifter_module_Mux_Array_Data_array[69]), .Y(n1061) ); AOI211X1TS U2255 ( .A0(n2126), .A1(n2115), .B0(n1062), .C0(n1061), .Y(n2592) ); NAND2X1TS U2256 ( .A(n1026), .B(n1063), .Y( Barrel_Shifter_module_Data_Reg[48]) ); AOI21X1TS U2257 ( .A0(n2086), .A1( Barrel_Shifter_module_Mux_Array_Data_array[97]), .B0(n1071), .Y(n1064) ); NAND2BX1TS U2258 ( .AN(n1065), .B(n1064), .Y(n2577) ); OAI2BB2XLTS U2259 ( .B0(n1066), .B1(n2973), .A0N(n1350), .A1N( Barrel_Shifter_module_Mux_Array_Data_array[65]), .Y(n1067) ); AOI211X1TS U2260 ( .A0(n2126), .A1(n2577), .B0(n1068), .C0(n1067), .Y(n2601) ); NAND2X1TS U2261 ( .A(n1026), .B(n1069), .Y( Barrel_Shifter_module_Data_Reg[52]) ); AOI21X1TS U2262 ( .A0(n2086), .A1( Barrel_Shifter_module_Mux_Array_Data_array[95]), .B0(n1071), .Y(n1072) ); NAND2BX1TS U2263 ( .AN(n1073), .B(n1072), .Y(n2570) ); AOI211X1TS U2264 ( .A0(n1025), .A1(n2570), .B0(n1075), .C0(n1074), .Y(n2603) ); NAND2X1TS U2265 ( .A(n1026), .B(n1078), .Y( Barrel_Shifter_module_Data_Reg[54]) ); AND3X1TS U2266 ( .A(n2555), .B(n2983), .C(FS_Module_state_reg[0]), .Y(n871) ); NAND2X1TS U2267 ( .A(n1089), .B(Add_Subt_result[25]), .Y(n1171) ); OAI211X1TS U2268 ( .A0(n1171), .A1(n1081), .B0(n1080), .C0(n1079), .Y(n1152) ); OAI211XLTS U2269 ( .A0(Add_Subt_result[10]), .A1(Add_Subt_result[8]), .B0( n1082), .C0(n3020), .Y(n1093) ); NAND2X1TS U2270 ( .A(n1083), .B(Add_Subt_result[30]), .Y(n1085) ); OAI2BB2X1TS U2271 ( .B0(n1146), .B1(n1085), .A0N(Add_Subt_result[22]), .A1N( n1084), .Y(n1166) ); INVX2TS U2272 ( .A(n1166), .Y(n1086) ); OAI31X1TS U2273 ( .A0(n1087), .A1(Add_Subt_result[47]), .A2(n1121), .B0( n1086), .Y(n1088) ); NOR3BX1TS U2274 ( .AN(Add_Subt_result[19]), .B(n1099), .C( Add_Subt_result[20]), .Y(n1097) ); NAND2X1TS U2275 ( .A(n1116), .B(Add_Subt_result[21]), .Y(n1159) ); AOI21X1TS U2276 ( .A0(n2912), .A1(Add_Subt_result[39]), .B0( Add_Subt_result[41]), .Y(n1095) ); OAI22X1TS U2277 ( .A0(n1159), .A1(Add_Subt_result[22]), .B0(n1095), .B1( n1094), .Y(n1096) ); AOI211X1TS U2278 ( .A0(n1098), .A1(Add_Subt_result[3]), .B0(n1097), .C0( n1096), .Y(n1158) ); AOI211X1TS U2279 ( .A0(n3055), .A1(n2912), .B0(n1100), .C0( Add_Subt_result[43]), .Y(n1101) ); AOI21X1TS U2280 ( .A0(n1102), .A1(Add_Subt_result[20]), .B0(n1101), .Y(n1105) ); INVX2TS U2281 ( .A(n1103), .Y(n2605) ); INVX2TS U2282 ( .A(n1154), .Y(n1107) ); NAND2X1TS U2283 ( .A(n1106), .B(Add_Subt_result[9]), .Y(n1131) ); INVX2TS U2284 ( .A(n1109), .Y(n1110) ); OAI22X1TS U2285 ( .A0(n1113), .A1(n1112), .B0(n1111), .B1(n1110), .Y(n1114) ); AOI211X1TS U2286 ( .A0(n1116), .A1(Add_Subt_result[22]), .B0(n1115), .C0( n1114), .Y(n1119) ); INVX2TS U2287 ( .A(n1117), .Y(n1118) ); OAI22X1TS U2288 ( .A0(n1160), .A1(n1226), .B0(n1121), .B1(n3022), .Y(n1123) ); OAI21X1TS U2289 ( .A0(n1125), .A1(n3020), .B0(n1124), .Y(n1153) ); AOI211X1TS U2290 ( .A0(n1127), .A1(Add_Subt_result[12]), .B0(n1126), .C0( n1153), .Y(n1128) ); NAND2X1TS U2291 ( .A(n1129), .B(n1128), .Y( Leading_Zero_Detector_Module_Codec_to_Reg[2]) ); NOR2X2TS U2292 ( .A(n1238), .B(n922), .Y(n2561) ); INVX2TS U2293 ( .A(n2561), .Y(n1130) ); NOR2XLTS U2294 ( .A(FS_Module_state_reg[1]), .B(n1130), .Y(FSM_LZA_load) ); OAI31X1TS U2295 ( .A0(Add_Subt_result[14]), .A1(n2610), .A2(n3026), .B0( n1131), .Y(n1132) ); AOI21X1TS U2296 ( .A0(n1133), .A1(Add_Subt_result[1]), .B0(n1132), .Y(n2613) ); AOI21X1TS U2297 ( .A0(n2921), .A1(Add_Subt_result[15]), .B0( Add_Subt_result[17]), .Y(n1151) ); NOR3BX1TS U2298 ( .AN(Add_Subt_result[35]), .B(n1135), .C( Add_Subt_result[36]), .Y(n1136) ); AOI21X1TS U2299 ( .A0(Add_Subt_result[37]), .A1(n1137), .B0(n1136), .Y(n1145) ); INVX2TS U2300 ( .A(n1138), .Y(n1144) ); AOI21X1TS U2301 ( .A0(n3025), .A1(Add_Subt_result[49]), .B0( Add_Subt_result[51]), .Y(n1139) ); OAI31X1TS U2302 ( .A0(n1145), .A1(Add_Subt_result[38]), .A2(n1144), .B0( n1143), .Y(n1148) ); NOR3BX1TS U2303 ( .AN(Add_Subt_result[31]), .B(n1146), .C( Add_Subt_result[32]), .Y(n1147) ); AOI211X1TS U2304 ( .A0(n1164), .A1(n3052), .B0(n1148), .C0(n1147), .Y(n1149) ); OAI31X1TS U2305 ( .A0(Add_Subt_result[18]), .A1(n1151), .A2(n1150), .B0( n1149), .Y(n1155) ); NOR4X1TS U2306 ( .A(n1155), .B(n1154), .C(n1153), .D(n1152), .Y(n1157) ); AOI21X1TS U2307 ( .A0(n1163), .A1(n3052), .B0(n1162), .Y(n1165) ); NOR4X1TS U2308 ( .A(n1167), .B(n1166), .C(n1165), .D(n1164), .Y(n1172) ); INVX2TS U2309 ( .A(n1168), .Y(n1169) ); NAND2X1TS U2310 ( .A(n2129), .B(exp_oper_result[2]), .Y(n1174) ); NAND2X4TS U2311 ( .A(n1175), .B(n1174), .Y(n2706) ); INVX2TS U2312 ( .A(n1558), .Y(n1333) ); NAND2X1TS U2313 ( .A(n2917), .B(exp_oper_result[0]), .Y(n1176) ); NAND2X2TS U2314 ( .A(n1177), .B(n1176), .Y(n1895) ); NAND2X1TS U2315 ( .A(n1178), .B(exp_oper_result[1]), .Y(n1179) ); NAND2X2TS U2316 ( .A(n1895), .B(n2725), .Y(n1661) ); INVX2TS U2317 ( .A(n1661), .Y(n2678) ); INVX2TS U2318 ( .A(FSM_selector_C), .Y(n2736) ); BUFX3TS U2319 ( .A(n2736), .Y(n2841) ); NAND2X1TS U2320 ( .A(n1244), .B(Add_Subt_result[37]), .Y(n1182) ); INVX2TS U2321 ( .A(n2573), .Y(n2744) ); AOI22X1TS U2322 ( .A0(n895), .A1(Add_Subt_result[17]), .B0(DmP[35]), .B1( n3023), .Y(n1181) ); NAND2X2TS U2323 ( .A(n1182), .B(n1181), .Y(n1329) ); NAND2X1TS U2324 ( .A(n2678), .B(n1329), .Y(n1189) ); OR2X2TS U2325 ( .A(n1895), .B(n1922), .Y(n1667) ); INVX2TS U2326 ( .A(n1667), .Y(n2680) ); NAND2X1TS U2327 ( .A(n1244), .B(Add_Subt_result[36]), .Y(n1184) ); AOI22X1TS U2328 ( .A0(n1265), .A1(Add_Subt_result[18]), .B0(DmP[34]), .B1( n3023), .Y(n1183) ); NAND2X2TS U2329 ( .A(n1184), .B(n1183), .Y(n1275) ); NAND2X1TS U2330 ( .A(n2680), .B(n1275), .Y(n1188) ); AND2X2TS U2331 ( .A(n1895), .B(n1922), .Y(n2669) ); NAND2X1TS U2332 ( .A(n1244), .B(Add_Subt_result[39]), .Y(n1186) ); AOI22X1TS U2333 ( .A0(n1909), .A1(Add_Subt_result[15]), .B0(DmP[37]), .B1( n2736), .Y(n1185) ); NAND2X1TS U2334 ( .A(n1186), .B(n1185), .Y(n1271) ); NAND2X1TS U2335 ( .A(n2669), .B(n1271), .Y(n1187) ); BUFX3TS U2336 ( .A(n2706), .Y(n1331) ); INVX2TS U2337 ( .A(n1661), .Y(n1890) ); INVX2TS U2338 ( .A(n2766), .Y(n2860) ); NAND2X1TS U2339 ( .A(n2860), .B(Add_Subt_result[33]), .Y(n1191) ); BUFX3TS U2340 ( .A(n2736), .Y(n1891) ); AOI22X1TS U2341 ( .A0(n2859), .A1(Add_Subt_result[21]), .B0(DmP[31]), .B1( n1891), .Y(n1190) ); NAND2X2TS U2342 ( .A(n1191), .B(n1190), .Y(n1923) ); NAND2X1TS U2343 ( .A(n1890), .B(n1923), .Y(n1198) ); INVX2TS U2344 ( .A(n1667), .Y(n1889) ); NAND2X1TS U2345 ( .A(n2860), .B(Add_Subt_result[32]), .Y(n1193) ); AOI22X1TS U2346 ( .A0(n1265), .A1(Add_Subt_result[22]), .B0(DmP[30]), .B1( n1891), .Y(n1192) ); NAND2X2TS U2347 ( .A(n1193), .B(n1192), .Y(n1902) ); NAND2X1TS U2348 ( .A(n2667), .B(n1902), .Y(n1197) ); NAND2X1TS U2349 ( .A(n1244), .B(Add_Subt_result[35]), .Y(n1195) ); AOI22X1TS U2350 ( .A0(n1909), .A1(Add_Subt_result[19]), .B0(DmP[33]), .B1( n1891), .Y(n1194) ); NAND2X1TS U2351 ( .A(n1195), .B(n1194), .Y(n1276) ); NAND2X1TS U2352 ( .A(n2669), .B(n1276), .Y(n1196) ); OR2X2TS U2353 ( .A(n1895), .B(n2725), .Y(n1207) ); NAND2X1TS U2354 ( .A(n1244), .B(Add_Subt_result[38]), .Y(n1200) ); AOI22X1TS U2355 ( .A0(n1265), .A1(Add_Subt_result[16]), .B0(DmP[36]), .B1( n3023), .Y(n1199) ); NAND2X2TS U2356 ( .A(n1200), .B(n1199), .Y(n1325) ); NOR2X2TS U2357 ( .A(n1207), .B(n1558), .Y(n2868) ); BUFX3TS U2358 ( .A(n2868), .Y(n2844) ); NAND2X1TS U2359 ( .A(n1244), .B(Add_Subt_result[34]), .Y(n1202) ); AOI22X1TS U2360 ( .A0(n1265), .A1(Add_Subt_result[20]), .B0(DmP[32]), .B1( n1891), .Y(n1201) ); NAND2X2TS U2361 ( .A(n1202), .B(n1201), .Y(n1917) ); AOI22X1TS U2362 ( .A0(n2645), .A1(n1325), .B0(n2844), .B1(n1917), .Y(n1203) ); OAI221XLTS U2363 ( .A0(n1333), .A1(n1248), .B0(n1331), .B1(n1324), .C0(n1203), .Y(Barrel_Shifter_module_Mux_Array_Data_array[32]) ); NAND2X1TS U2364 ( .A(n1890), .B(n1325), .Y(n1206) ); NAND2X1TS U2365 ( .A(n2679), .B(n1271), .Y(n1205) ); NAND2X1TS U2366 ( .A(n1889), .B(n1329), .Y(n1204) ); NAND2X1TS U2367 ( .A(n2678), .B(n1917), .Y(n1210) ); INVX2TS U2368 ( .A(n1207), .Y(n2653) ); NAND2X1TS U2369 ( .A(n2653), .B(n1276), .Y(n1209) ); NAND2X1TS U2370 ( .A(n2680), .B(n1923), .Y(n1208) ); INVX2TS U2371 ( .A(n2669), .Y(n1211) ); BUFX3TS U2372 ( .A(n2706), .Y(n2711) ); NOR2X4TS U2373 ( .A(n1211), .B(n2711), .Y(n2779) ); BUFX3TS U2374 ( .A(n2779), .Y(n2703) ); NOR2X2TS U2375 ( .A(n1211), .B(n2726), .Y(n2648) ); BUFX3TS U2376 ( .A(n2648), .Y(n2701) ); NAND2X1TS U2377 ( .A(n1244), .B(Add_Subt_result[40]), .Y(n1213) ); INVX2TS U2378 ( .A(n2573), .Y(n1265) ); AOI22X1TS U2379 ( .A0(n2616), .A1(Add_Subt_result[14]), .B0(DmP[38]), .B1( n3023), .Y(n1212) ); NAND2X2TS U2380 ( .A(n1213), .B(n1212), .Y(n1284) ); AOI22X1TS U2381 ( .A0(n2703), .A1(n1275), .B0(n2701), .B1(n1284), .Y(n1214) ); OAI221XLTS U2382 ( .A0(n1333), .A1(n1286), .B0(n1331), .B1(n1229), .C0(n1214), .Y(Barrel_Shifter_module_Mux_Array_Data_array[33]) ); NAND2X1TS U2383 ( .A(n2666), .B(n1271), .Y(n1217) ); NAND2X1TS U2384 ( .A(n2653), .B(n1284), .Y(n1216) ); NAND2X1TS U2385 ( .A(n2667), .B(n1325), .Y(n1215) ); NAND2X1TS U2386 ( .A(n2666), .B(n1276), .Y(n1220) ); NAND2X1TS U2387 ( .A(n2679), .B(n1275), .Y(n1219) ); NAND2X1TS U2388 ( .A(n2667), .B(n1917), .Y(n1218) ); NAND2X1TS U2389 ( .A(n1244), .B(Add_Subt_result[41]), .Y(n1222) ); AOI22X1TS U2390 ( .A0(n2859), .A1(Add_Subt_result[13]), .B0(DmP[39]), .B1( n2736), .Y(n1221) ); NAND2X2TS U2391 ( .A(n1222), .B(n1221), .Y(n2702) ); AOI22X1TS U2392 ( .A0(n2703), .A1(n1329), .B0(n2701), .B1(n2702), .Y(n1223) ); OAI221XLTS U2393 ( .A0(n1333), .A1(n2705), .B0(n1331), .B1(n1332), .C0(n1223), .Y(Barrel_Shifter_module_Mux_Array_Data_array[34]) ); INVX2TS U2394 ( .A(n2766), .Y(n1907) ); AOI22X1TS U2395 ( .A0(n1265), .A1(Add_Subt_result[24]), .B0(n1891), .B1( DmP[28]), .Y(n1224) ); OAI2BB1X2TS U2396 ( .A0N(Add_Subt_result[30]), .A1N(n1907), .B0(n1224), .Y( n1916) ); AOI22X1TS U2397 ( .A0(n2744), .A1(Add_Subt_result[25]), .B0(n1891), .B1( DmP[27]), .Y(n1225) ); AOI22X1TS U2398 ( .A0(n2616), .A1(Add_Subt_result[23]), .B0(n1891), .B1( DmP[29]), .Y(n1227) ); OAI2BB1X1TS U2399 ( .A0N(Add_Subt_result[31]), .A1N(n2860), .B0(n1227), .Y( n1328) ); BUFX3TS U2400 ( .A(n2779), .Y(n2854) ); AOI22X1TS U2401 ( .A0(n2854), .A1(n1902), .B0(n2701), .B1(n1275), .Y(n1228) ); OAI221XLTS U2402 ( .A0(n1333), .A1(n1229), .B0(n1331), .B1(n1905), .C0(n1228), .Y(Barrel_Shifter_module_Mux_Array_Data_array[29]) ); CLKBUFX3TS U2403 ( .A(n1231), .Y(n1233) ); BUFX3TS U2404 ( .A(n1233), .Y(n3064) ); CLKBUFX3TS U2405 ( .A(n1231), .Y(n1230) ); BUFX3TS U2406 ( .A(n1230), .Y(n3082) ); BUFX3TS U2407 ( .A(n1233), .Y(n3093) ); CLKBUFX3TS U2408 ( .A(n1231), .Y(n1232) ); BUFX3TS U2409 ( .A(n1232), .Y(n3097) ); BUFX3TS U2410 ( .A(n1232), .Y(n3098) ); CLKBUFX3TS U2411 ( .A(n1231), .Y(n1235) ); BUFX3TS U2412 ( .A(n1235), .Y(n3068) ); BUFX3TS U2413 ( .A(n1231), .Y(n3067) ); BUFX3TS U2414 ( .A(n1230), .Y(n3084) ); BUFX3TS U2415 ( .A(n1233), .Y(n3073) ); BUFX3TS U2416 ( .A(n1231), .Y(n3066) ); BUFX3TS U2417 ( .A(n1230), .Y(n3083) ); BUFX3TS U2418 ( .A(n1230), .Y(n3065) ); CLKBUFX3TS U2419 ( .A(n1231), .Y(n1234) ); BUFX3TS U2420 ( .A(n1234), .Y(n3100) ); BUFX3TS U2421 ( .A(n1231), .Y(n3080) ); BUFX3TS U2422 ( .A(n1234), .Y(n3101) ); BUFX3TS U2423 ( .A(n1232), .Y(n3094) ); BUFX3TS U2424 ( .A(n1230), .Y(n3077) ); BUFX3TS U2425 ( .A(n1232), .Y(n3079) ); BUFX3TS U2426 ( .A(n1234), .Y(n3078) ); BUFX3TS U2427 ( .A(n1235), .Y(n3060) ); BUFX3TS U2428 ( .A(n1235), .Y(n3081) ); BUFX3TS U2429 ( .A(n1232), .Y(n3059) ); BUFX3TS U2430 ( .A(n1233), .Y(n3076) ); BUFX3TS U2431 ( .A(n1232), .Y(n3099) ); BUFX3TS U2432 ( .A(n1232), .Y(n3072) ); BUFX3TS U2433 ( .A(n1230), .Y(n3086) ); BUFX3TS U2434 ( .A(n1230), .Y(n3087) ); BUFX3TS U2435 ( .A(n1230), .Y(n3069) ); BUFX3TS U2436 ( .A(n1233), .Y(n3088) ); BUFX3TS U2437 ( .A(n1231), .Y(n3070) ); BUFX3TS U2438 ( .A(n1230), .Y(n3085) ); BUFX3TS U2439 ( .A(n1232), .Y(n3096) ); CLKBUFX3TS U2440 ( .A(n1234), .Y(n3102) ); BUFX3TS U2441 ( .A(n1231), .Y(n3071) ); BUFX3TS U2442 ( .A(n1232), .Y(n3095) ); BUFX3TS U2443 ( .A(n1235), .Y(n3074) ); BUFX3TS U2444 ( .A(n1233), .Y(n3091) ); BUFX3TS U2445 ( .A(n1233), .Y(n3089) ); BUFX3TS U2446 ( .A(n1233), .Y(n3092) ); BUFX3TS U2447 ( .A(n1235), .Y(n3108) ); BUFX3TS U2448 ( .A(n1235), .Y(n3061) ); BUFX3TS U2449 ( .A(n1234), .Y(n3104) ); BUFX3TS U2450 ( .A(n1234), .Y(n3105) ); BUFX3TS U2451 ( .A(n1235), .Y(n3107) ); BUFX3TS U2452 ( .A(n1233), .Y(n3090) ); BUFX3TS U2453 ( .A(n1235), .Y(n3106) ); BUFX3TS U2454 ( .A(n1234), .Y(n3075) ); BUFX3TS U2455 ( .A(n1235), .Y(n3062) ); BUFX3TS U2456 ( .A(n1234), .Y(n3103) ); BUFX3TS U2457 ( .A(n1234), .Y(n3063) ); CLKBUFX3TS U2458 ( .A(n1235), .Y(n3109) ); BUFX3TS U2459 ( .A(n1236), .Y(n2628) ); NAND2X1TS U2460 ( .A(n2628), .B(n2924), .Y( final_result_ieee_Module_Exp_S_mux[5]) ); NAND2X1TS U2461 ( .A(n2628), .B(n1729), .Y( final_result_ieee_Module_Exp_S_mux[3]) ); NOR2X2TS U2462 ( .A(n1238), .B(n1237), .Y(n873) ); NAND2X1TS U2463 ( .A(n1890), .B(n2702), .Y(n1243) ); NAND2X1TS U2464 ( .A(n2667), .B(n1284), .Y(n1242) ); NAND2X1TS U2465 ( .A(n1244), .B(Add_Subt_result[43]), .Y(n1240) ); AOI22X1TS U2466 ( .A0(n1909), .A1(Add_Subt_result[11]), .B0(DmP[41]), .B1( n2736), .Y(n1239) ); NAND2X1TS U2467 ( .A(n2669), .B(n2677), .Y(n1241) ); BUFX3TS U2468 ( .A(n2868), .Y(n2832) ); BUFX3TS U2469 ( .A(n2645), .Y(n2870) ); NAND2X1TS U2470 ( .A(n1244), .B(Add_Subt_result[42]), .Y(n1246) ); AOI22X1TS U2471 ( .A0(n2859), .A1(Add_Subt_result[12]), .B0(DmP[40]), .B1( n3023), .Y(n1245) ); NAND2X2TS U2472 ( .A(n1246), .B(n1245), .Y(n2696) ); AOI22X1TS U2473 ( .A0(n2832), .A1(n1325), .B0(n2870), .B1(n2696), .Y(n1247) ); OAI221XLTS U2474 ( .A0(n2708), .A1(n2693), .B0(n1331), .B1(n1248), .C0(n1247), .Y(Barrel_Shifter_module_Mux_Array_Data_array[36]) ); NAND2X1TS U2475 ( .A(n1651), .B(Add_Subt_result[48]), .Y(n1250) ); BUFX3TS U2476 ( .A(n2736), .Y(n2818) ); AOI22X1TS U2477 ( .A0(n2859), .A1(Add_Subt_result[6]), .B0(DmP[46]), .B1( n2818), .Y(n1249) ); NAND2X2TS U2478 ( .A(n1250), .B(n1249), .Y(n2687) ); NAND2X1TS U2479 ( .A(n1890), .B(n2687), .Y(n1257) ); NAND2X1TS U2480 ( .A(n1651), .B(Add_Subt_result[49]), .Y(n1252) ); AOI22X1TS U2481 ( .A0(n895), .A1(Add_Subt_result[5]), .B0(DmP[47]), .B1( n2818), .Y(n1251) ); NAND2X2TS U2482 ( .A(n1252), .B(n1251), .Y(n2684) ); NAND2X1TS U2483 ( .A(n2679), .B(n2684), .Y(n1256) ); NAND2X1TS U2484 ( .A(n1651), .B(Add_Subt_result[47]), .Y(n1254) ); AOI22X1TS U2485 ( .A0(n1909), .A1(Add_Subt_result[7]), .B0(DmP[45]), .B1( n2818), .Y(n1253) ); NAND2X1TS U2486 ( .A(n1254), .B(n1253), .Y(n2668) ); NAND2X1TS U2487 ( .A(n2667), .B(n2668), .Y(n1255) ); NAND2X1TS U2488 ( .A(n1651), .B(Add_Subt_result[44]), .Y(n1259) ); AOI22X1TS U2489 ( .A0(n2859), .A1(Add_Subt_result[10]), .B0(DmP[42]), .B1( n2818), .Y(n1258) ); NAND2X2TS U2490 ( .A(n1259), .B(n1258), .Y(n2688) ); NAND2X1TS U2491 ( .A(n2678), .B(n2688), .Y(n1264) ); NAND2X1TS U2492 ( .A(n1651), .B(Add_Subt_result[45]), .Y(n1261) ); AOI22X1TS U2493 ( .A0(n2744), .A1(Add_Subt_result[9]), .B0(DmP[43]), .B1( n2818), .Y(n1260) ); NAND2X2TS U2494 ( .A(n1261), .B(n1260), .Y(n2700) ); NAND2X1TS U2495 ( .A(n2653), .B(n2700), .Y(n1263) ); NAND2X1TS U2496 ( .A(n2680), .B(n2677), .Y(n1262) ); NAND2X1TS U2497 ( .A(n1651), .B(Add_Subt_result[46]), .Y(n1267) ); AOI22X1TS U2498 ( .A0(n2616), .A1(Add_Subt_result[8]), .B0(DmP[44]), .B1( n2818), .Y(n1266) ); NAND2X2TS U2499 ( .A(n1267), .B(n1266), .Y(n2695) ); NAND2X1TS U2500 ( .A(n1651), .B(Add_Subt_result[50]), .Y(n1269) ); INVX2TS U2501 ( .A(n2573), .Y(n2616) ); AOI22X1TS U2502 ( .A0(n2744), .A1(Add_Subt_result[4]), .B0(DmP[48]), .B1( n2818), .Y(n1268) ); NAND2X2TS U2503 ( .A(n1269), .B(n1268), .Y(n2673) ); AOI22X1TS U2504 ( .A0(n2703), .A1(n2695), .B0(n2701), .B1(n2673), .Y(n1270) ); OAI221XLTS U2505 ( .A0(n2708), .A1(n2651), .B0(n1558), .B1(n2699), .C0(n1270), .Y(Barrel_Shifter_module_Mux_Array_Data_array[43]) ); NAND2X1TS U2506 ( .A(n1890), .B(n1284), .Y(n1274) ); NAND2X1TS U2507 ( .A(n2679), .B(n2702), .Y(n1273) ); NAND2X1TS U2508 ( .A(n1889), .B(n1271), .Y(n1272) ); NAND2X1TS U2509 ( .A(n2678), .B(n1275), .Y(n1279) ); NAND2X1TS U2510 ( .A(n2653), .B(n1329), .Y(n1278) ); NAND2X1TS U2511 ( .A(n1889), .B(n1276), .Y(n1277) ); AOI22X1TS U2512 ( .A0(n2703), .A1(n1325), .B0(n2701), .B1(n2696), .Y(n1280) ); OAI221XLTS U2513 ( .A0(n2676), .A1(n2698), .B0(n1331), .B1(n1327), .C0(n1280), .Y(Barrel_Shifter_module_Mux_Array_Data_array[35]) ); NAND2X1TS U2514 ( .A(n2678), .B(n2696), .Y(n1283) ); NAND2X1TS U2515 ( .A(n2653), .B(n2677), .Y(n1282) ); NAND2X1TS U2516 ( .A(n2680), .B(n2702), .Y(n1281) ); AOI22X1TS U2517 ( .A0(n2703), .A1(n1284), .B0(n2701), .B1(n2688), .Y(n1285) ); OAI221XLTS U2518 ( .A0(n2708), .A1(n2690), .B0(n1331), .B1(n1286), .C0(n1285), .Y(Barrel_Shifter_module_Mux_Array_Data_array[37]) ); INVX2TS U2519 ( .A(n1849), .Y(n2030) ); NOR2X2TS U2520 ( .A(n919), .B(LZA_output[4]), .Y(n1866) ); INVX2TS U2521 ( .A(n1866), .Y(n1735) ); INVX2TS U2522 ( .A(n1694), .Y(n1986) ); NAND2X2TS U2523 ( .A(n1986), .B(n2627), .Y(n1868) ); NOR2X1TS U2524 ( .A(n2979), .B(n1729), .Y(n1288) ); NOR2X1TS U2525 ( .A(n2950), .B(n1730), .Y(n1287) ); AOI22X1TS U2526 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[76]), .A1( n1857), .B0(Barrel_Shifter_module_Mux_Array_Data_array[68]), .B1(n1027), .Y(n1292) ); NOR2X4TS U2527 ( .A(n2627), .B(n1729), .Y(n2123) ); AOI2BB2X1TS U2528 ( .B0(Barrel_Shifter_module_Mux_Array_Data_array[68]), .B1(n1758), .A0N(n1289), .A1N(n894), .Y(n1291) ); NOR2X4TS U2529 ( .A(n2919), .B(n881), .Y(n2122) ); AOI22X1TS U2530 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[92]), .A1( n2122), .B0(Barrel_Shifter_module_Mux_Array_Data_array[84]), .B1(n1035), .Y(n1290) ); AOI32X1TS U2531 ( .A0(n1292), .A1(n1291), .A2(n1290), .B0(n899), .B1(n1291), .Y(n1689) ); OAI21X1TS U2532 ( .A0(n2030), .A1(n1735), .B0(n1293), .Y(n1690) ); NOR2X1TS U2533 ( .A(n2841), .B(add_overflow_flag), .Y(n1294) ); NOR2X1TS U2534 ( .A(n2982), .B(n882), .Y(n1296) ); NOR2X1TS U2535 ( .A(n2954), .B(n1730), .Y(n1295) ); NAND2X1TS U2536 ( .A(n2620), .B(FSM_selector_C), .Y(n1298) ); BUFX3TS U2537 ( .A(n1299), .Y(n2137) ); NOR2X1TS U2538 ( .A(n894), .B(exp_oper_result[4]), .Y(n1691) ); NAND2X1TS U2539 ( .A(n2049), .B(n1691), .Y(n2135) ); OA21X2TS U2540 ( .A0(n2088), .A1(n973), .B0(n2135), .Y(n1885) ); INVX2TS U2541 ( .A(n2088), .Y(n2133) ); NAND2X1TS U2542 ( .A(n2133), .B(n897), .Y(n1300) ); OAI31X4TS U2543 ( .A0(n899), .A1(n2137), .A2(LZA_output[4]), .B0(n1300), .Y( n1879) ); NAND2X1TS U2544 ( .A(n891), .B( Barrel_Shifter_module_Mux_Array_Data_array[96]), .Y(n1302) ); NAND2X1TS U2545 ( .A(Barrel_Shifter_module_Mux_Array_Data_array[104]), .B( LZA_output[3]), .Y(n1301) ); NAND2X2TS U2546 ( .A(n1302), .B(n1301), .Y(n2007) ); NAND2X1TS U2547 ( .A(n1879), .B(n2007), .Y(n1306) ); NAND2X1TS U2548 ( .A(n2141), .B(FSM_selector_B[1]), .Y(n2003) ); INVX2TS U2549 ( .A(n2003), .Y(n1882) ); NAND2X2TS U2550 ( .A(n1025), .B(n2133), .Y(n2081) ); NAND2X2TS U2551 ( .A(n2081), .B(n1304), .Y(n1881) ); AOI21X1TS U2552 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[96]), .A1( n1882), .B0(n1881), .Y(n1305) ); INVX2TS U2553 ( .A(n1878), .Y(n2066) ); NOR2X1TS U2554 ( .A(n2978), .B(n882), .Y(n1309) ); NOR2X1TS U2555 ( .A(n2952), .B(exp_oper_result[3]), .Y(n1308) ); AOI22X1TS U2556 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[77]), .A1( n1857), .B0(Barrel_Shifter_module_Mux_Array_Data_array[69]), .B1(n1027), .Y(n1313) ); AOI2BB2X1TS U2557 ( .B0(Barrel_Shifter_module_Mux_Array_Data_array[69]), .B1(n1758), .A0N(n1310), .A1N(n894), .Y(n1312) ); AOI22X1TS U2558 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[93]), .A1( n2122), .B0(Barrel_Shifter_module_Mux_Array_Data_array[85]), .B1(n1035), .Y(n1311) ); AOI32X1TS U2559 ( .A0(n1313), .A1(n1312), .A2(n1311), .B0(n899), .B1(n1312), .Y(n1700) ); OAI21X1TS U2560 ( .A0(n2066), .A1(n1735), .B0(n1314), .Y(n1701) ); NOR2X1TS U2561 ( .A(n2977), .B(n882), .Y(n1316) ); NOR2X1TS U2562 ( .A(n2949), .B(n901), .Y(n1315) ); NOR2X2TS U2563 ( .A(n1316), .B(n1315), .Y(n2048) ); NAND2X1TS U2564 ( .A(n891), .B( Barrel_Shifter_module_Mux_Array_Data_array[95]), .Y(n1318) ); NAND2X1TS U2565 ( .A(Barrel_Shifter_module_Mux_Array_Data_array[103]), .B( LZA_output[3]), .Y(n1317) ); NAND2X2TS U2566 ( .A(n1318), .B(n1317), .Y(n2050) ); NAND2X1TS U2567 ( .A(n1879), .B(n2050), .Y(n1320) ); AOI21X1TS U2568 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[95]), .A1( n1882), .B0(n1881), .Y(n1319) ); AOI22X1TS U2569 ( .A0(n2616), .A1(Add_Subt_result[26]), .B0(n1891), .B1( DmP[26]), .Y(n1322) ); AOI22X1TS U2570 ( .A0(n2870), .A1(n1917), .B0(n2868), .B1(n1916), .Y(n1323) ); OAI221XLTS U2571 ( .A0(n2676), .A1(n1324), .B0(n1331), .B1(n1900), .C0(n1323), .Y(Barrel_Shifter_module_Mux_Array_Data_array[28]) ); BUFX3TS U2572 ( .A(n2648), .Y(n2781) ); AOI22X1TS U2573 ( .A0(n2781), .A1(n1325), .B0(n2779), .B1(n1917), .Y(n1326) ); OAI221XLTS U2574 ( .A0(n1333), .A1(n1327), .B0(n1331), .B1(n1921), .C0(n1326), .Y(Barrel_Shifter_module_Mux_Array_Data_array[31]) ); AOI222X1TS U2575 ( .A0(n1328), .A1(n2678), .B0(n1916), .B1(n2680), .C0(n1902), .C1(n2679), .Y(n1926) ); AOI22X1TS U2576 ( .A0(n2854), .A1(n1923), .B0(n2701), .B1(n1329), .Y(n1330) ); OAI221XLTS U2577 ( .A0(n1333), .A1(n1332), .B0(n1331), .B1(n1926), .C0(n1330), .Y(Barrel_Shifter_module_Mux_Array_Data_array[30]) ); NOR2X1TS U2578 ( .A(n1334), .B(n889), .Y(n2001) ); INVX2TS U2579 ( .A(n1035), .Y(n1337) ); AOI21X1TS U2580 ( .A0(n2122), .A1( Barrel_Shifter_module_Mux_Array_Data_array[94]), .B0(LZA_output[5]), .Y(n1336) ); AOI22X1TS U2581 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[70]), .A1( n1027), .B0(Barrel_Shifter_module_Mux_Array_Data_array[78]), .B1(n1857), .Y(n1335) ); AOI22X1TS U2582 ( .A0(n1986), .A1(n2002), .B0(n2001), .B1(n1988), .Y(n1340) ); NAND2X2TS U2583 ( .A(n893), .B(exp_oper_result[4]), .Y(n2074) ); AOI22X1TS U2584 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[70]), .A1( n1758), .B0(n886), .B1(n1988), .Y(n1338) ); AOI31X1TS U2585 ( .A0(n893), .A1( Barrel_Shifter_module_Mux_Array_Data_array[78]), .A2(n1860), .B0(n1339), .Y(n1991) ); OAI21X1TS U2586 ( .A0(n1340), .A1(n2957), .B0(n1991), .Y(n1996) ); NOR2X1TS U2587 ( .A(n2957), .B(n882), .Y(n1342) ); NOR2X1TS U2588 ( .A(n2956), .B(n1730), .Y(n1341) ); NOR2X2TS U2589 ( .A(n1342), .B(n1341), .Y(n2075) ); NAND2X1TS U2590 ( .A(n891), .B( Barrel_Shifter_module_Mux_Array_Data_array[94]), .Y(n1344) ); NAND2X1TS U2591 ( .A(Barrel_Shifter_module_Mux_Array_Data_array[102]), .B( LZA_output[3]), .Y(n1343) ); NAND2X2TS U2592 ( .A(n1344), .B(n1343), .Y(n2085) ); AOI22X1TS U2593 ( .A0(n1879), .A1(n2085), .B0(n1882), .B1( Barrel_Shifter_module_Mux_Array_Data_array[94]), .Y(n1346) ); INVX2TS U2594 ( .A(n1881), .Y(n1345) ); AOI21X1TS U2595 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[95]), .A1( n2143), .B0(n1349), .Y(n1352) ); NAND2X1TS U2596 ( .A(Barrel_Shifter_module_Mux_Array_Data_array[79]), .B( n1350), .Y(n1351) ); OAI211X1TS U2597 ( .A0(n2591), .A1(n908), .B0(n1352), .C0(n1351), .Y(n2116) ); OAI21XLTS U2598 ( .A0(FS_Module_state_reg[1]), .A1(add_overflow_flag), .B0( n2561), .Y(n1353) ); NAND3X2TS U2599 ( .A(n1354), .B(n922), .C(n2983), .Y(n860) ); NOR4X1TS U2600 ( .A(FS_Module_state_reg[0]), .B(n925), .C(n2983), .D(n922), .Y(ready) ); NOR3X2TS U2601 ( .A(FS_Module_state_reg[3]), .B(n925), .C(n2983), .Y( FSM_Add_Subt_Sgf_load) ); OR2X8TS U2602 ( .A(n2553), .B(n1980), .Y(n1984) ); NOR2BX1TS U2603 ( .AN(Sgf_normalized_result[1]), .B(n1973), .Y(n1355) ); XOR2X1TS U2604 ( .A(n1382), .B(n1355), .Y(n2539) ); NOR2X2TS U2605 ( .A(n2539), .B(n2538), .Y(n2547) ); XOR2X1TS U2606 ( .A(n1382), .B(n1356), .Y(n1362) ); NOR2X1TS U2607 ( .A(n1362), .B(n1361), .Y(n2541) ); NOR2X1TS U2608 ( .A(n2547), .B(n2541), .Y(n1364) ); NOR2BX1TS U2609 ( .AN(Sgf_normalized_result[0]), .B(n1973), .Y(n1357) ); XOR2X1TS U2610 ( .A(n1983), .B(n1357), .Y(n2548) ); INVX2TS U2611 ( .A(n2548), .Y(n1360) ); NOR2X1TS U2612 ( .A(n1983), .B(n1358), .Y(n2549) ); NAND2X1TS U2613 ( .A(n1983), .B(n1358), .Y(n1359) ); OAI21X1TS U2614 ( .A0(n1360), .A1(n2549), .B0(n1359), .Y(n2537) ); NAND2X1TS U2615 ( .A(n1362), .B(n1361), .Y(n2542) ); INVX2TS U2616 ( .A(n2542), .Y(n1363) ); AOI21X2TS U2617 ( .A0(n1364), .A1(n2537), .B0(n1363), .Y(n2513) ); NOR2BX1TS U2618 ( .AN(Sgf_normalized_result[3]), .B(n1980), .Y(n1365) ); XOR2X1TS U2619 ( .A(n1382), .B(n1365), .Y(n1370) ); NOR2X1TS U2620 ( .A(n1370), .B(n1369), .Y(n2526) ); NOR2BX1TS U2621 ( .AN(Sgf_normalized_result[4]), .B(n1980), .Y(n1366) ); XOR2X1TS U2622 ( .A(n1382), .B(n1366), .Y(n1372) ); NOR2X2TS U2623 ( .A(n1372), .B(n1371), .Y(n2528) ); NOR2BX1TS U2624 ( .AN(Sgf_normalized_result[5]), .B(n1964), .Y(n1367) ); XOR2X1TS U2625 ( .A(n1382), .B(n1367), .Y(n1374) ); NOR2X2TS U2626 ( .A(n1374), .B(n1373), .Y(n2521) ); NOR2BX1TS U2627 ( .AN(Sgf_normalized_result[6]), .B(n1933), .Y(n1368) ); XOR2X1TS U2628 ( .A(n1382), .B(n1368), .Y(n1376) ); NOR2X2TS U2629 ( .A(n1376), .B(n1375), .Y(n2516) ); NAND2X1TS U2630 ( .A(n1370), .B(n1369), .Y(n2533) ); NAND2X1TS U2631 ( .A(n1372), .B(n1371), .Y(n2529) ); OAI21X1TS U2632 ( .A0(n2528), .A1(n2533), .B0(n2529), .Y(n2514) ); NAND2X1TS U2633 ( .A(n1374), .B(n1373), .Y(n2522) ); NAND2X1TS U2634 ( .A(n1376), .B(n1375), .Y(n2517) ); AOI21X1TS U2635 ( .A0(n2514), .A1(n1378), .B0(n1377), .Y(n1379) ); NOR2BX1TS U2636 ( .AN(Sgf_normalized_result[7]), .B(n1461), .Y(n1381) ); XOR2X1TS U2637 ( .A(n1382), .B(n1381), .Y(n1387) ); NOR2X2TS U2638 ( .A(n1387), .B(n1386), .Y(n2508) ); NOR2BX1TS U2639 ( .AN(Sgf_normalized_result[8]), .B(n1461), .Y(n1383) ); XOR2X1TS U2640 ( .A(n1454), .B(n1383), .Y(n1389) ); NOR2X2TS U2641 ( .A(n1389), .B(n1388), .Y(n2503) ); NOR2BX1TS U2642 ( .AN(Sgf_normalized_result[9]), .B(n1461), .Y(n1384) ); XOR2X1TS U2643 ( .A(n1454), .B(n1384), .Y(n1391) ); NOR2BX1TS U2644 ( .AN(Sgf_normalized_result[10]), .B(n1461), .Y(n1385) ); XOR2X1TS U2645 ( .A(n1454), .B(n1385), .Y(n1393) ); NOR2X2TS U2646 ( .A(n1393), .B(n1392), .Y(n1412) ); NAND2X1TS U2647 ( .A(n1389), .B(n1388), .Y(n2504) ); OAI21X1TS U2648 ( .A0(n2503), .A1(n2509), .B0(n2504), .Y(n1407) ); NAND2X1TS U2649 ( .A(n1391), .B(n1390), .Y(n2499) ); NAND2X1TS U2650 ( .A(n1393), .B(n1392), .Y(n1413) ); OAI21X1TS U2651 ( .A0(n1412), .A1(n2499), .B0(n1413), .Y(n1394) ); OAI21X1TS U2652 ( .A0(n2512), .A1(n1439), .B0(n1447), .Y(n1417) ); NOR2BX1TS U2653 ( .AN(Sgf_normalized_result[11]), .B(n1980), .Y(n1396) ); XOR2X1TS U2654 ( .A(n1454), .B(n1396), .Y(n1398) ); INVX4TS U2655 ( .A(n2920), .Y(n1458) ); INVX2TS U2656 ( .A(n1420), .Y(n1418) ); NAND2X1TS U2657 ( .A(n1398), .B(n1397), .Y(n1422) ); INVX2TS U2658 ( .A(n1422), .Y(n1399) ); AOI21X1TS U2659 ( .A0(n1417), .A1(n1418), .B0(n1399), .Y(n1405) ); NOR2X2TS U2660 ( .A(n1402), .B(n1401), .Y(n1423) ); NAND2X1TS U2661 ( .A(n1402), .B(n1401), .Y(n1421) ); NAND2X1TS U2662 ( .A(n1403), .B(n1421), .Y(n1404) ); INVX2TS U2663 ( .A(n1406), .Y(n1409) ); INVX2TS U2664 ( .A(n1407), .Y(n1408) ); OAI21X1TS U2665 ( .A0(n2512), .A1(n1409), .B0(n1408), .Y(n2502) ); INVX2TS U2666 ( .A(n1410), .Y(n2500) ); INVX2TS U2667 ( .A(n2499), .Y(n1411) ); AOI21X1TS U2668 ( .A0(n2502), .A1(n2500), .B0(n1411), .Y(n1416) ); NAND2X1TS U2669 ( .A(n1414), .B(n1413), .Y(n1415) ); INVX2TS U2670 ( .A(n1417), .Y(n1426) ); NAND2X1TS U2671 ( .A(n1418), .B(n1422), .Y(n1419) ); INVX2TS U2672 ( .A(n1438), .Y(n1425) ); OAI21X1TS U2673 ( .A0(n1423), .A1(n1422), .B0(n1421), .Y(n1444) ); INVX2TS U2674 ( .A(n1444), .Y(n1424) ); OAI21X1TS U2675 ( .A0(n1426), .A1(n1425), .B0(n1424), .Y(n2498) ); NOR2BX1TS U2676 ( .AN(Sgf_normalized_result[13]), .B(n1461), .Y(n1427) ); XOR2X1TS U2677 ( .A(n1454), .B(n1427), .Y(n1429) ); INVX2TS U2678 ( .A(n1437), .Y(n2496) ); NAND2X1TS U2679 ( .A(n1429), .B(n1428), .Y(n2495) ); INVX2TS U2680 ( .A(n2495), .Y(n1430) ); AOI21X1TS U2681 ( .A0(n2498), .A1(n2496), .B0(n1430), .Y(n1436) ); NOR2BX1TS U2682 ( .AN(Sgf_normalized_result[14]), .B(n1461), .Y(n1431) ); XOR2X1TS U2683 ( .A(n1454), .B(n1431), .Y(n1433) ); NOR2X2TS U2684 ( .A(n1433), .B(n1432), .Y(n1441) ); INVX2TS U2685 ( .A(n1441), .Y(n1434) ); NAND2X1TS U2686 ( .A(n1433), .B(n1432), .Y(n1440) ); NAND2X1TS U2687 ( .A(n1434), .B(n1440), .Y(n1435) ); OAI21X1TS U2688 ( .A0(n1441), .A1(n2495), .B0(n1440), .Y(n1442) ); AOI21X1TS U2689 ( .A0(n1444), .A1(n1443), .B0(n1442), .Y(n1445) ); NOR2BX1TS U2690 ( .AN(Sgf_normalized_result[15]), .B(n1461), .Y(n1451) ); XOR2X1TS U2691 ( .A(n1454), .B(n1451), .Y(n1473) ); NOR2X1TS U2692 ( .A(n1473), .B(n1472), .Y(n2484) ); NOR2BX1TS U2693 ( .AN(Sgf_normalized_result[16]), .B(n1461), .Y(n1452) ); XOR2X1TS U2694 ( .A(n1454), .B(n1452), .Y(n1475) ); NOR2X2TS U2695 ( .A(n1475), .B(n1474), .Y(n2486) ); NOR2BX1TS U2696 ( .AN(Sgf_normalized_result[17]), .B(FSM_selector_D), .Y( n1453) ); XOR2X1TS U2697 ( .A(n1454), .B(n1453), .Y(n1477) ); NOR2X2TS U2698 ( .A(n1477), .B(n1476), .Y(n2479) ); NOR2BX1TS U2699 ( .AN(Sgf_normalized_result[18]), .B(FSM_selector_D), .Y( n1455) ); XOR2X1TS U2700 ( .A(n1467), .B(n1455), .Y(n1479) ); NOR2X2TS U2701 ( .A(n1479), .B(n1478), .Y(n2474) ); NOR2BX1TS U2702 ( .AN(Sgf_normalized_result[19]), .B(FSM_selector_D), .Y( n1456) ); XOR2X1TS U2703 ( .A(n1467), .B(n1456), .Y(n1483) ); NOR2X2TS U2704 ( .A(n1483), .B(n1482), .Y(n2467) ); NOR2BX1TS U2705 ( .AN(Sgf_normalized_result[20]), .B(FSM_selector_D), .Y( n1457) ); XOR2X1TS U2706 ( .A(n1467), .B(n1457), .Y(n1485) ); NOR2X2TS U2707 ( .A(n1485), .B(n1484), .Y(n2462) ); NOR2BX1TS U2708 ( .AN(Sgf_normalized_result[21]), .B(n1980), .Y(n1459) ); XOR2X1TS U2709 ( .A(n1467), .B(n1459), .Y(n1487) ); INVX4TS U2710 ( .A(n2920), .Y(n1471) ); NOR2X2TS U2711 ( .A(n1487), .B(n1486), .Y(n2456) ); NOR2BX1TS U2712 ( .AN(Sgf_normalized_result[22]), .B(FSM_selector_D), .Y( n1460) ); XOR2X1TS U2713 ( .A(n1467), .B(n1460), .Y(n1489) ); NOR2X2TS U2714 ( .A(n1489), .B(n1488), .Y(n2451) ); NOR2X2TS U2715 ( .A(n2445), .B(n1493), .Y(n2394) ); NOR2BX1TS U2716 ( .AN(Sgf_normalized_result[23]), .B(n1461), .Y(n1462) ); XOR2X1TS U2717 ( .A(n1467), .B(n1462), .Y(n1495) ); NOR2X2TS U2718 ( .A(n1495), .B(n1494), .Y(n2440) ); NOR2BX1TS U2719 ( .AN(Sgf_normalized_result[24]), .B(FSM_selector_D), .Y( n1463) ); XOR2X1TS U2720 ( .A(n1467), .B(n1463), .Y(n1497) ); NOR2X2TS U2721 ( .A(n1497), .B(n1496), .Y(n2435) ); NOR2BX1TS U2722 ( .AN(Sgf_normalized_result[25]), .B(FSM_selector_D), .Y( n1464) ); XOR2X1TS U2723 ( .A(n1467), .B(n1464), .Y(n1499) ); NOR2X2TS U2724 ( .A(n1499), .B(n1498), .Y(n2429) ); NOR2BX1TS U2725 ( .AN(Sgf_normalized_result[26]), .B(FSM_selector_D), .Y( n1465) ); XOR2X1TS U2726 ( .A(n1467), .B(n1465), .Y(n1501) ); NOR2X2TS U2727 ( .A(n1501), .B(n1500), .Y(n2424) ); NOR2BX1TS U2728 ( .AN(Sgf_normalized_result[27]), .B(n1931), .Y(n1466) ); XOR2X1TS U2729 ( .A(n1467), .B(n1466), .Y(n1505) ); NOR2X2TS U2730 ( .A(n1505), .B(n1504), .Y(n2417) ); NOR2BX1TS U2731 ( .AN(Sgf_normalized_result[28]), .B(n1931), .Y(n1468) ); XOR2X1TS U2732 ( .A(n1788), .B(n1468), .Y(n1507) ); NOR2X2TS U2733 ( .A(n1507), .B(n1506), .Y(n2412) ); NOR2BX1TS U2734 ( .AN(Sgf_normalized_result[29]), .B(n1931), .Y(n1469) ); XOR2X1TS U2735 ( .A(n1788), .B(n1469), .Y(n1509) ); NOR2X2TS U2736 ( .A(n1509), .B(n1508), .Y(n2406) ); NOR2BX1TS U2737 ( .AN(Sgf_normalized_result[30]), .B(n1931), .Y(n1470) ); XOR2X1TS U2738 ( .A(n1788), .B(n1470), .Y(n1511) ); NOR2X2TS U2739 ( .A(n1511), .B(n1510), .Y(n2401) ); NOR2X2TS U2740 ( .A(n2395), .B(n1515), .Y(n1517) ); NAND2X1TS U2741 ( .A(n1473), .B(n1472), .Y(n2491) ); NAND2X1TS U2742 ( .A(n1475), .B(n1474), .Y(n2487) ); OAI21X1TS U2743 ( .A0(n2486), .A1(n2491), .B0(n2487), .Y(n2472) ); NAND2X1TS U2744 ( .A(n1477), .B(n1476), .Y(n2480) ); NAND2X1TS U2745 ( .A(n1479), .B(n1478), .Y(n2475) ); OAI21X1TS U2746 ( .A0(n2474), .A1(n2480), .B0(n2475), .Y(n1480) ); AOI21X2TS U2747 ( .A0(n2472), .A1(n1481), .B0(n1480), .Y(n2446) ); NAND2X1TS U2748 ( .A(n1483), .B(n1482), .Y(n2468) ); NAND2X1TS U2749 ( .A(n1485), .B(n1484), .Y(n2463) ); OAI21X1TS U2750 ( .A0(n2462), .A1(n2468), .B0(n2463), .Y(n2449) ); NAND2X1TS U2751 ( .A(n1487), .B(n1486), .Y(n2457) ); NAND2X1TS U2752 ( .A(n1489), .B(n1488), .Y(n2452) ); AOI21X1TS U2753 ( .A0(n2449), .A1(n1491), .B0(n1490), .Y(n1492) ); NAND2X1TS U2754 ( .A(n1495), .B(n1494), .Y(n2441) ); NAND2X1TS U2755 ( .A(n1497), .B(n1496), .Y(n2436) ); OAI21X1TS U2756 ( .A0(n2435), .A1(n2441), .B0(n2436), .Y(n2422) ); NAND2X1TS U2757 ( .A(n1499), .B(n1498), .Y(n2430) ); NAND2X1TS U2758 ( .A(n1501), .B(n1500), .Y(n2425) ); AOI21X1TS U2759 ( .A0(n2422), .A1(n1503), .B0(n1502), .Y(n2396) ); NAND2X1TS U2760 ( .A(n1505), .B(n1504), .Y(n2418) ); NAND2X1TS U2761 ( .A(n1507), .B(n1506), .Y(n2413) ); OAI21X1TS U2762 ( .A0(n2412), .A1(n2418), .B0(n2413), .Y(n2399) ); NAND2X1TS U2763 ( .A(n1509), .B(n1508), .Y(n2407) ); NAND2X1TS U2764 ( .A(n1511), .B(n1510), .Y(n2402) ); OAI21X1TS U2765 ( .A0(n2401), .A1(n2407), .B0(n2402), .Y(n1512) ); AOI21X1TS U2766 ( .A0(n2399), .A1(n1513), .B0(n1512), .Y(n1514) ); OAI21X1TS U2767 ( .A0(n2396), .A1(n1515), .B0(n1514), .Y(n1516) ); AOI21X2TS U2768 ( .A0(n2393), .A1(n1517), .B0(n1516), .Y(n1518) ); OAI21X4TS U2769 ( .A0(n2392), .A1(n1519), .B0(n1518), .Y(n1950) ); NOR2BX1TS U2770 ( .AN(Sgf_normalized_result[31]), .B(n1931), .Y(n1520) ); XOR2X1TS U2771 ( .A(n1788), .B(n1520), .Y(n1525) ); NOR2X2TS U2772 ( .A(n1525), .B(n1524), .Y(n2387) ); NOR2BX1TS U2773 ( .AN(Sgf_normalized_result[32]), .B(n1931), .Y(n1521) ); XOR2X1TS U2774 ( .A(n1788), .B(n1521), .Y(n1527) ); NOR2X2TS U2775 ( .A(n1527), .B(n1526), .Y(n2382) ); NOR2BX1TS U2776 ( .AN(Sgf_normalized_result[33]), .B(n1931), .Y(n1522) ); XOR2X1TS U2777 ( .A(n1788), .B(n1522), .Y(n1529) ); NOR2BX1TS U2778 ( .AN(Sgf_normalized_result[34]), .B(FSM_selector_D), .Y( n1523) ); XOR2X1TS U2779 ( .A(n1788), .B(n1523), .Y(n1531) ); NOR2X2TS U2780 ( .A(n1531), .B(n1530), .Y(n1551) ); NAND2X1TS U2781 ( .A(n1527), .B(n1526), .Y(n2383) ); OAI21X1TS U2782 ( .A0(n2382), .A1(n2388), .B0(n2383), .Y(n1546) ); NAND2X1TS U2783 ( .A(n1529), .B(n1528), .Y(n2378) ); NAND2X1TS U2784 ( .A(n1531), .B(n1530), .Y(n1552) ); OAI21X1TS U2785 ( .A0(n1551), .A1(n2378), .B0(n1552), .Y(n1532) ); AOI21X2TS U2786 ( .A0(n1546), .A1(n1533), .B0(n1532), .Y(n1780) ); NOR2BX1TS U2787 ( .AN(Sgf_normalized_result[35]), .B(n1931), .Y(n1534) ); INVX2TS U2788 ( .A(n1671), .Y(n1562) ); INVX2TS U2789 ( .A(n1673), .Y(n1538) ); AOI21X1TS U2790 ( .A0(n1561), .A1(n1562), .B0(n1538), .Y(n1544) ); NOR2BX1TS U2791 ( .AN(Sgf_normalized_result[36]), .B(n1931), .Y(n1539) ); XOR2X1TS U2792 ( .A(n1788), .B(n1539), .Y(n1541) ); NOR2X2TS U2793 ( .A(n1541), .B(n1540), .Y(n1674) ); INVX2TS U2794 ( .A(n1674), .Y(n1542) ); NAND2X1TS U2795 ( .A(n1541), .B(n1540), .Y(n1672) ); NAND2X1TS U2796 ( .A(n1542), .B(n1672), .Y(n1543) ); INVX2TS U2797 ( .A(n1545), .Y(n1548) ); INVX2TS U2798 ( .A(n1546), .Y(n1547) ); OAI21X1TS U2799 ( .A0(n2391), .A1(n1548), .B0(n1547), .Y(n2381) ); INVX2TS U2800 ( .A(n1549), .Y(n2379) ); INVX2TS U2801 ( .A(n2378), .Y(n1550) ); AOI21X1TS U2802 ( .A0(n2381), .A1(n2379), .B0(n1550), .Y(n1555) ); INVX2TS U2803 ( .A(n1551), .Y(n1553) ); NAND2X1TS U2804 ( .A(n1553), .B(n1552), .Y(n1554) ); BUFX3TS U2805 ( .A(n2743), .Y(n2863) ); NAND2X1TS U2806 ( .A(n1651), .B(Add_Subt_result[53]), .Y(n1557) ); AOI22X1TS U2807 ( .A0(n2744), .A1(Add_Subt_result[1]), .B0(DmP[51]), .B1( n3023), .Y(n1556) ); NAND2X2TS U2808 ( .A(n1557), .B(n1556), .Y(n2657) ); BUFX3TS U2809 ( .A(n2757), .Y(n2839) ); OA22X2TS U2810 ( .A0(n2787), .A1(Add_Subt_result[54]), .B0( Add_Subt_result[0]), .B1(n2152), .Y(n2649) ); AOI22X1TS U2811 ( .A0(n2863), .A1(n2657), .B0(n2839), .B1(n2649), .Y(n1560) ); NOR2X2TS U2812 ( .A(n2726), .B(n2568), .Y(n1668) ); INVX2TS U2813 ( .A(n1668), .Y(n1559) ); NAND2X1TS U2814 ( .A(n1562), .B(n1673), .Y(n1563) ); INVX2TS U2815 ( .A(r_mode[1]), .Y(n1564) ); INVX2TS U2816 ( .A(r_mode[0]), .Y(n1565) ); INVX2TS U2817 ( .A(n2560), .Y(n1643) ); NOR2X1TS U2818 ( .A(n922), .B(FS_Module_state_reg[1]), .Y(n2551) ); NAND2X1TS U2819 ( .A(n2551), .B(n1568), .Y(n2559) ); NAND2BX1TS U2820 ( .AN(n2158), .B(FS_Module_state_reg[0]), .Y(n2883) ); NAND2X1TS U2821 ( .A(FS_Module_state_reg[1]), .B(n2561), .Y(n2619) ); OAI211X1TS U2822 ( .A0(n3023), .A1(n2883), .B0(n2884), .C0(n2619), .Y(n2558) ); NOR4BX1TS U2823 ( .AN(n1569), .B(n2558), .C(FSM_Add_Subt_Sgf_load), .D( FSM_Final_Result_load), .Y(n1642) ); OAI22X1TS U2824 ( .A0(n2933), .A1(intDY[1]), .B0(n887), .B1(intDY[62]), .Y( n1570) ); AOI221X1TS U2825 ( .A0(n2933), .A1(intDY[1]), .B0(intDY[62]), .B1(n887), .C0(n1570), .Y(n1571) ); AOI22X1TS U2826 ( .A0(n2892), .A1(intDY[5]), .B0(n2938), .B1(intDY[4]), .Y( n1572) ); AOI22X1TS U2827 ( .A0(n2966), .A1(intDY[3]), .B0(n2900), .B1(intDY[2]), .Y( n1573) ); OAI221XLTS U2828 ( .A0(n2966), .A1(intDY[3]), .B0(n2900), .B1(intDY[2]), .C0(n1573), .Y(n1582) ); OAI22X1TS U2829 ( .A0(n2959), .A1(intDY[8]), .B0(n2896), .B1(intDY[9]), .Y( n1574) ); AOI221X1TS U2830 ( .A0(n2959), .A1(intDY[8]), .B0(intDY[9]), .B1(n2896), .C0(n1574), .Y(n1580) ); OAI22X1TS U2831 ( .A0(n2932), .A1(intDY[6]), .B0(n2891), .B1(intDY[7]), .Y( n1575) ); AOI221X1TS U2832 ( .A0(n2932), .A1(intDY[6]), .B0(intDY[7]), .B1(n2891), .C0(n1575), .Y(n1579) ); OAI22X1TS U2833 ( .A0(n2936), .A1(intDY[12]), .B0(n2935), .B1(intDY[13]), .Y(n1576) ); AOI221X1TS U2834 ( .A0(n2936), .A1(intDY[12]), .B0(intDY[13]), .B1(n2935), .C0(n1576), .Y(n1578) ); OAI22X1TS U2835 ( .A0(n2887), .A1(intDY[10]), .B0(n2923), .B1(intDY[11]), .Y(n2191) ); AOI221X1TS U2836 ( .A0(n2887), .A1(intDY[10]), .B0(intDY[11]), .B1(n2923), .C0(n2191), .Y(n1577) ); NOR4X1TS U2837 ( .A(n1584), .B(n1582), .C(n1583), .D(n1581), .Y(n1640) ); AOI22X1TS U2838 ( .A0(n2965), .A1(intDY[26]), .B0(n2969), .B1(intDY[25]), .Y(n1585) ); AOI22X1TS U2839 ( .A0(n2898), .A1(intDY[24]), .B0(n2902), .B1(intDY[22]), .Y(n1586) ); OAI221XLTS U2840 ( .A0(n2898), .A1(intDY[24]), .B0(n2902), .B1(intDY[22]), .C0(n1586), .Y(n1591) ); AOI22X1TS U2841 ( .A0(n2899), .A1(intDY[30]), .B0(n2941), .B1(intDY[29]), .Y(n1587) ); AOI22X1TS U2842 ( .A0(n2940), .A1(intDY[28]), .B0(n2903), .B1(intDY[27]), .Y(n1588) ); OAI221XLTS U2843 ( .A0(n2940), .A1(intDY[28]), .B0(n2903), .B1(intDY[27]), .C0(n1588), .Y(n1589) ); NOR4X1TS U2844 ( .A(n1592), .B(n1591), .C(n1590), .D(n1589), .Y(n1639) ); AOI22X1TS U2845 ( .A0(n2964), .A1(intDY[17]), .B0(n2937), .B1(intDY[16]), .Y(n1593) ); AOI22X1TS U2846 ( .A0(n2967), .A1(intDY[15]), .B0(n2901), .B1(intDY[14]), .Y(n1594) ); OAI221XLTS U2847 ( .A0(n2967), .A1(intDY[15]), .B0(n2901), .B1(intDY[14]), .C0(n1594), .Y(n1599) ); AOI22X1TS U2848 ( .A0(n2939), .A1(intDY[21]), .B0(n2942), .B1(intDY[20]), .Y(n1595) ); AOI22X1TS U2849 ( .A0(n2904), .A1(intDY[19]), .B0(n2968), .B1(intDY[18]), .Y(n1596) ); OAI221XLTS U2850 ( .A0(n2904), .A1(intDY[19]), .B0(n2968), .B1(intDY[18]), .C0(n1596), .Y(n1597) ); NOR4X1TS U2851 ( .A(n1600), .B(n1599), .C(n1598), .D(n1597), .Y(n1638) ); OAI22X1TS U2852 ( .A0(n2928), .A1(intDY[41]), .B0(n2905), .B1(intDY[42]), .Y(n1601) ); AOI221X1TS U2853 ( .A0(n2928), .A1(intDY[41]), .B0(intDY[42]), .B1(n2905), .C0(n1601), .Y(n1608) ); OAI22X1TS U2854 ( .A0(n2897), .A1(intDY[39]), .B0(n2885), .B1(intDY[40]), .Y(n1602) ); AOI221X1TS U2855 ( .A0(n2897), .A1(intDY[39]), .B0(intDY[40]), .B1(n2885), .C0(n1602), .Y(n1607) ); OAI22X1TS U2856 ( .A0(n2945), .A1(intDY[45]), .B0(n2926), .B1(intDY[46]), .Y(n1603) ); AOI221X1TS U2857 ( .A0(n2945), .A1(intDY[45]), .B0(intDY[46]), .B1(n2926), .C0(n1603), .Y(n1606) ); OAI22X1TS U2858 ( .A0(n2944), .A1(intDY[43]), .B0(n2925), .B1(intDY[44]), .Y(n1604) ); AOI221X1TS U2859 ( .A0(n2944), .A1(intDY[43]), .B0(intDY[44]), .B1(n2925), .C0(n1604), .Y(n1605) ); OAI22X1TS U2860 ( .A0(n2962), .A1(intDY[33]), .B0(n2895), .B1(intDY[34]), .Y(n1609) ); AOI221X1TS U2861 ( .A0(n2962), .A1(intDY[33]), .B0(intDY[34]), .B1(n2895), .C0(n1609), .Y(n1616) ); OAI22X1TS U2862 ( .A0(n2961), .A1(intDY[31]), .B0(n2894), .B1(intDY[32]), .Y(n1610) ); AOI221X1TS U2863 ( .A0(n2961), .A1(intDY[31]), .B0(intDY[32]), .B1(n2894), .C0(n1610), .Y(n1615) ); OAI22X1TS U2864 ( .A0(n2934), .A1(intDY[37]), .B0(n2893), .B1(intDY[38]), .Y(n1611) ); AOI221X1TS U2865 ( .A0(n2934), .A1(intDY[37]), .B0(intDY[38]), .B1(n2893), .C0(n1611), .Y(n1614) ); OAI22X1TS U2866 ( .A0(n2963), .A1(intDY[35]), .B0(n2960), .B1(intDY[36]), .Y(n1612) ); AOI221X1TS U2867 ( .A0(n2963), .A1(intDY[35]), .B0(intDY[36]), .B1(n2960), .C0(n1612), .Y(n1613) ); OAI22X1TS U2868 ( .A0(n3058), .A1(intDY[57]), .B0(n3112), .B1(intDY[58]), .Y(n1617) ); AOI221X1TS U2869 ( .A0(n3058), .A1(intDY[57]), .B0(intDY[58]), .B1(n3112), .C0(n1617), .Y(n1624) ); OAI22X1TS U2870 ( .A0(n3111), .A1(intDY[55]), .B0(n2889), .B1(intDY[56]), .Y(n1618) ); AOI221X1TS U2871 ( .A0(n3111), .A1(intDY[55]), .B0(intDY[56]), .B1(n2889), .C0(n1618), .Y(n1623) ); OAI22X1TS U2872 ( .A0(n2930), .A1(intDX[23]), .B0(n888), .B1(intDY[61]), .Y( n1619) ); AOI221X1TS U2873 ( .A0(n2930), .A1(intDX[23]), .B0(intDY[61]), .B1(n888), .C0(n1619), .Y(n1622) ); OAI22X1TS U2874 ( .A0(n2908), .A1(intDY[59]), .B0(n2947), .B1(intDY[60]), .Y(n1620) ); AOI221X1TS U2875 ( .A0(n2908), .A1(intDY[59]), .B0(intDY[60]), .B1(n2947), .C0(n1620), .Y(n1621) ); OAI22X1TS U2876 ( .A0(n2946), .A1(intDY[49]), .B0(n2943), .B1(intDY[50]), .Y(n1625) ); AOI221X1TS U2877 ( .A0(n2946), .A1(intDY[49]), .B0(intDY[50]), .B1(n2943), .C0(n1625), .Y(n1632) ); OAI22X1TS U2878 ( .A0(n2888), .A1(intDY[47]), .B0(n2927), .B1(intDY[48]), .Y(n1626) ); AOI221X1TS U2879 ( .A0(n2888), .A1(intDY[47]), .B0(intDY[48]), .B1(n2927), .C0(n1626), .Y(n1631) ); OAI22X1TS U2880 ( .A0(n2948), .A1(intDY[53]), .B0(n2890), .B1(intDY[54]), .Y(n1627) ); AOI221X1TS U2881 ( .A0(n2948), .A1(intDY[53]), .B0(intDY[54]), .B1(n2890), .C0(n1627), .Y(n1630) ); OAI22X1TS U2882 ( .A0(n2909), .A1(intDY[51]), .B0(n2929), .B1(intDY[52]), .Y(n1628) ); AOI221X1TS U2883 ( .A0(n2909), .A1(intDY[51]), .B0(intDY[52]), .B1(n2929), .C0(n1628), .Y(n1629) ); NOR4X1TS U2884 ( .A(n1636), .B(n1635), .C(n1634), .D(n1633), .Y(n1637) ); NAND4X1TS U2885 ( .A(n1640), .B(n1639), .C(n1638), .D(n1637), .Y(n2554) ); NAND2X1TS U2886 ( .A(n1890), .B(n2657), .Y(n1649) ); NAND2X1TS U2887 ( .A(n1651), .B(Add_Subt_result[52]), .Y(n1645) ); AOI22X1TS U2888 ( .A0(n2744), .A1(Add_Subt_result[2]), .B0(DmP[50]), .B1( n3023), .Y(n1644) ); NAND2X2TS U2889 ( .A(n1645), .B(n1644), .Y(n2663) ); NAND2X1TS U2890 ( .A(n1889), .B(n2663), .Y(n1648) ); NAND2X1TS U2891 ( .A(n2669), .B(n1646), .Y(n1647) ); BUFX3TS U2892 ( .A(n2868), .Y(n2851) ); AOI21X1TS U2893 ( .A0(n2851), .A1(n2649), .B0(n1668), .Y(n1650) ); NAND2X1TS U2894 ( .A(n2678), .B(n2663), .Y(n1656) ); NAND2X1TS U2895 ( .A(n2653), .B(n2657), .Y(n1655) ); NAND2X1TS U2896 ( .A(n1651), .B(Add_Subt_result[51]), .Y(n1653) ); AOI22X1TS U2897 ( .A0(n1909), .A1(Add_Subt_result[3]), .B0(DmP[49]), .B1( n3023), .Y(n1652) ); NAND2X1TS U2898 ( .A(n1653), .B(n1652), .Y(n2641) ); NAND2X1TS U2899 ( .A(n1889), .B(n2641), .Y(n1654) ); AND3X2TS U2900 ( .A(n1656), .B(n1655), .C(n1654), .Y(n2652) ); BUFX3TS U2901 ( .A(n2779), .Y(n2833) ); AOI21X1TS U2902 ( .A0(n2833), .A1(n2649), .B0(n1668), .Y(n1657) ); NAND2X1TS U2903 ( .A(n2666), .B(n2673), .Y(n1660) ); NAND2X1TS U2904 ( .A(n2679), .B(n2641), .Y(n1659) ); NAND2X1TS U2905 ( .A(n2680), .B(n2684), .Y(n1658) ); AOI22X1TS U2906 ( .A0(n913), .A1(n2657), .B0(n1668), .B1(n1922), .Y(n1663) ); AOI22X1TS U2907 ( .A0(n909), .A1(n2649), .B0(n2833), .B1(n2663), .Y(n1662) ); NAND2X1TS U2908 ( .A(n2666), .B(n2641), .Y(n1666) ); NAND2X1TS U2909 ( .A(n2679), .B(n2663), .Y(n1665) ); NAND2X1TS U2910 ( .A(n2680), .B(n2673), .Y(n1664) ); AOI22X1TS U2911 ( .A0(n2703), .A1(n2657), .B0(n1668), .B1(n1667), .Y(n1670) ); NAND2X1TS U2912 ( .A(n912), .B(n2649), .Y(n1669) ); INVX2TS U2913 ( .A(n1771), .Y(n1676) ); INVX2TS U2914 ( .A(n1777), .Y(n1675) ); OAI21X2TS U2915 ( .A0(n1677), .A1(n1676), .B0(n1675), .Y(n2377) ); NOR2BX1TS U2916 ( .AN(Sgf_normalized_result[37]), .B(n1955), .Y(n1678) ); XOR2X1TS U2917 ( .A(n1952), .B(n1678), .Y(n1680) ); INVX2TS U2918 ( .A(n1770), .Y(n2375) ); NAND2X1TS U2919 ( .A(n1680), .B(n1679), .Y(n2374) ); INVX2TS U2920 ( .A(n2374), .Y(n1681) ); AOI21X1TS U2921 ( .A0(n2377), .A1(n2375), .B0(n1681), .Y(n1687) ); NOR2BX1TS U2922 ( .AN(Sgf_normalized_result[38]), .B(n1955), .Y(n1682) ); XOR2X1TS U2923 ( .A(n1952), .B(n1682), .Y(n1684) ); NOR2X2TS U2924 ( .A(n1684), .B(n1683), .Y(n1774) ); INVX2TS U2925 ( .A(n1774), .Y(n1685) ); NAND2X1TS U2926 ( .A(n1684), .B(n1683), .Y(n1773) ); NAND2X1TS U2927 ( .A(n1685), .B(n1773), .Y(n1686) ); INVX2TS U2928 ( .A(n919), .Y(n1869) ); AOI21X1TS U2929 ( .A0(n1869), .A1(n1849), .B0(n1689), .Y(n1699) ); NAND2X1TS U2930 ( .A(n1690), .B(n2049), .Y(n1698) ); NOR3X4TS U2931 ( .A(n899), .B(LZA_output[4]), .C(n2141), .Y(n1992) ); NAND2X2TS U2932 ( .A(n1691), .B(n906), .Y(n2087) ); NAND2X2TS U2933 ( .A(n2133), .B(n1986), .Y(n1764) ); OAI22X1TS U2934 ( .A0(n2132), .A1(n2922), .B0(n1694), .B1(n2627), .Y(n1695) ); AND2X2TS U2935 ( .A(n1695), .B(n2133), .Y(n1872) ); AOI211X1TS U2936 ( .A0(n1992), .A1(n2007), .B0(n1696), .C0(n1872), .Y(n1697) ); AOI21X1TS U2937 ( .A0(n1869), .A1(n1878), .B0(n1700), .Y(n1706) ); NAND2X1TS U2938 ( .A(n1701), .B(n2049), .Y(n1705) ); AOI211X1TS U2939 ( .A0(n1992), .A1(n2050), .B0(n1703), .C0(n1872), .Y(n1704) ); AOI22X1TS U2940 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[75]), .A1( n1857), .B0(Barrel_Shifter_module_Mux_Array_Data_array[67]), .B1(n1027), .Y(n1710) ); AOI2BB2X1TS U2941 ( .B0(Barrel_Shifter_module_Mux_Array_Data_array[67]), .B1(n1758), .A0N(n1707), .A1N(n894), .Y(n1709) ); AOI22X1TS U2942 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[91]), .A1( n2122), .B0(Barrel_Shifter_module_Mux_Array_Data_array[83]), .B1(n1035), .Y(n1708) ); AOI32X1TS U2943 ( .A0(n1710), .A1(n1709), .A2(n1708), .B0(n899), .B1(n1709), .Y(n1713) ); AOI21X1TS U2944 ( .A0(n1869), .A1(n1853), .B0(n1713), .Y(n1723) ); INVX2TS U2945 ( .A(n1853), .Y(n2039) ); NOR2X1TS U2946 ( .A(n2980), .B(n1729), .Y(n1712) ); NOR2X1TS U2947 ( .A(n2951), .B(exp_oper_result[3]), .Y(n1711) ); OAI21X1TS U2948 ( .A0(n2039), .A1(n1735), .B0(n1714), .Y(n1836) ); NAND2X1TS U2949 ( .A(n1836), .B(n918), .Y(n1722) ); NAND2X1TS U2950 ( .A(n891), .B( Barrel_Shifter_module_Mux_Array_Data_array[97]), .Y(n1716) ); NAND2X1TS U2951 ( .A(Barrel_Shifter_module_Mux_Array_Data_array[105]), .B( LZA_output[3]), .Y(n1715) ); NAND2X2TS U2952 ( .A(n1716), .B(n1715), .Y(n2018) ); NOR2X1TS U2953 ( .A(n2981), .B(n1729), .Y(n1718) ); NOR2X1TS U2954 ( .A(n2953), .B(n901), .Y(n1717) ); AOI211X1TS U2955 ( .A0(n1992), .A1(n2018), .B0(n1720), .C0(n1872), .Y(n1721) ); CLKMX2X2TS U2956 ( .A(Barrel_Shifter_module_Mux_Array_Data_array[98]), .B( Barrel_Shifter_module_Mux_Array_Data_array[106]), .S0(LZA_output[3]), .Y(n1839) ); AOI22X1TS U2957 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[74]), .A1( n1857), .B0(Barrel_Shifter_module_Mux_Array_Data_array[66]), .B1(n1027), .Y(n1728) ); AOI222X1TS U2958 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[82]), .A1( n1861), .B0(Barrel_Shifter_module_Mux_Array_Data_array[74]), .B1(n1860), .C0(Barrel_Shifter_module_Mux_Array_Data_array[90]), .C1(n2123), .Y(n1725) ); AOI2BB2X1TS U2959 ( .B0(Barrel_Shifter_module_Mux_Array_Data_array[66]), .B1(n1758), .A0N(n1725), .A1N(n1034), .Y(n1727) ); AOI22X1TS U2960 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[82]), .A1( n1035), .B0(Barrel_Shifter_module_Mux_Array_Data_array[90]), .B1(n2122), .Y(n1726) ); AOI32X1TS U2961 ( .A0(n1728), .A1(n1727), .A2(n1726), .B0(n899), .B1(n1727), .Y(n1733) ); AOI21X1TS U2962 ( .A0(n1869), .A1(n1839), .B0(n1733), .Y(n1741) ); INVX2TS U2963 ( .A(n1839), .Y(n1736) ); NOR2X1TS U2964 ( .A(n2976), .B(n1729), .Y(n1732) ); NOR2X1TS U2965 ( .A(n2955), .B(n901), .Y(n1731) ); NOR2X2TS U2966 ( .A(n1732), .B(n1731), .Y(n1843) ); OAI21X1TS U2967 ( .A0(n1736), .A1(n1735), .B0(n1734), .Y(n1840) ); NAND2X1TS U2968 ( .A(n1840), .B(n918), .Y(n1740) ); AOI21X1TS U2969 ( .A0(n1764), .A1(n2087), .B0(n1843), .Y(n1737) ); NOR3X1TS U2970 ( .A(n1738), .B(n1872), .C(n1737), .Y(n1739) ); INVX2TS U2971 ( .A(n2081), .Y(n1743) ); OAI22X1TS U2972 ( .A0(n2074), .A1(n1843), .B0(n3021), .B1(n2144), .Y(n1742) ); AOI211X1TS U2973 ( .A0(n2077), .A1(n1839), .B0(n1743), .C0(n1742), .Y(n1744) ); AOI22X1TS U2974 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[73]), .A1( n1857), .B0(Barrel_Shifter_module_Mux_Array_Data_array[65]), .B1(n1027), .Y(n1749) ); AOI2BB2X1TS U2975 ( .B0(Barrel_Shifter_module_Mux_Array_Data_array[65]), .B1(n1758), .A0N(n1746), .A1N(n1034), .Y(n1748) ); AOI22X1TS U2976 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[81]), .A1( n1035), .B0(Barrel_Shifter_module_Mux_Array_Data_array[89]), .B1(n2122), .Y(n1747) ); AOI32X1TS U2977 ( .A0(n1749), .A1(n1748), .A2(n1747), .B0(n899), .B1(n1748), .Y(n1750) ); AOI21X1TS U2978 ( .A0(n1869), .A1(n2018), .B0(n1750), .Y(n1756) ); AOI21X1TS U2979 ( .A0(n1866), .A1(n2018), .B0(n1750), .Y(n1751) ); OAI21X1TS U2980 ( .A0(n2017), .A1(n1868), .B0(n1751), .Y(n1854) ); NAND2X1TS U2981 ( .A(n1854), .B(n918), .Y(n1755) ); AOI211X1TS U2982 ( .A0(n1992), .A1(n1853), .B0(n1753), .C0(n1872), .Y(n1754) ); AOI22X1TS U2983 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[72]), .A1( n1857), .B0(Barrel_Shifter_module_Mux_Array_Data_array[64]), .B1(n1027), .Y(n1761) ); AOI2BB2X1TS U2984 ( .B0(Barrel_Shifter_module_Mux_Array_Data_array[64]), .B1(n1758), .A0N(n1757), .A1N(n894), .Y(n1760) ); AOI22X1TS U2985 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[80]), .A1( n1035), .B0(Barrel_Shifter_module_Mux_Array_Data_array[88]), .B1(n2122), .Y(n1759) ); AOI32X1TS U2986 ( .A0(n1761), .A1(n1760), .A2(n1759), .B0(n899), .B1(n1760), .Y(n1762) ); AOI21X1TS U2987 ( .A0(n1869), .A1(n2007), .B0(n1762), .Y(n1769) ); AOI21X1TS U2988 ( .A0(n1866), .A1(n2007), .B0(n1762), .Y(n1763) ); OAI21X1TS U2989 ( .A0(n2005), .A1(n1868), .B0(n1763), .Y(n1850) ); NAND2X1TS U2990 ( .A(n1850), .B(n918), .Y(n1768) ); AOI211X1TS U2991 ( .A0(n1992), .A1(n1849), .B0(n1766), .C0(n1872), .Y(n1767) ); NOR2X2TS U2992 ( .A(n1772), .B(n1779), .Y(n1930) ); INVX2TS U2993 ( .A(n1930), .Y(n1782) ); OAI21X1TS U2994 ( .A0(n1774), .A1(n2374), .B0(n1773), .Y(n1775) ); AOI21X1TS U2995 ( .A0(n1777), .A1(n1776), .B0(n1775), .Y(n1778) ); OAI21X2TS U2996 ( .A0(n1780), .A1(n1779), .B0(n1778), .Y(n1945) ); INVX2TS U2997 ( .A(n1945), .Y(n1781) ); NOR2BX1TS U2998 ( .AN(Sgf_normalized_result[39]), .B(n1955), .Y(n1783) ); NOR2X1TS U2999 ( .A(n1790), .B(n1789), .Y(n2362) ); NOR2BX1TS U3000 ( .AN(Sgf_normalized_result[40]), .B(n1955), .Y(n1784) ); XOR2X1TS U3001 ( .A(n1952), .B(n1784), .Y(n1792) ); NOR2X2TS U3002 ( .A(n1792), .B(n1791), .Y(n2365) ); NOR2BX1TS U3003 ( .AN(Sgf_normalized_result[41]), .B(n1955), .Y(n1785) ); XOR2X1TS U3004 ( .A(n1952), .B(n1785), .Y(n1794) ); NOR2X1TS U3005 ( .A(n1794), .B(n1793), .Y(n1813) ); NOR2BX1TS U3006 ( .AN(Sgf_normalized_result[42]), .B(n1955), .Y(n1787) ); XOR2X1TS U3007 ( .A(n1788), .B(n1787), .Y(n1796) ); NOR2X2TS U3008 ( .A(n1796), .B(n1795), .Y(n1815) ); NAND2X1TS U3009 ( .A(n1790), .B(n1789), .Y(n2370) ); NAND2X1TS U3010 ( .A(n1792), .B(n1791), .Y(n2366) ); OAI21X1TS U3011 ( .A0(n2365), .A1(n2370), .B0(n2366), .Y(n1810) ); NAND2X1TS U3012 ( .A(n1794), .B(n1793), .Y(n2358) ); NAND2X1TS U3013 ( .A(n1796), .B(n1795), .Y(n1816) ); OAI21X1TS U3014 ( .A0(n1815), .A1(n2358), .B0(n1816), .Y(n1797) ); OAI21X2TS U3015 ( .A0(n2373), .A1(n1929), .B0(n1942), .Y(n1833) ); NOR2BX1TS U3016 ( .AN(Sgf_normalized_result[43]), .B(n1955), .Y(n1799) ); XOR2X1TS U3017 ( .A(n1952), .B(n1799), .Y(n1801) ); INVX2TS U3018 ( .A(n1927), .Y(n1834) ); NAND2X1TS U3019 ( .A(n1801), .B(n1800), .Y(n1935) ); INVX2TS U3020 ( .A(n1935), .Y(n1802) ); AOI21X1TS U3021 ( .A0(n1833), .A1(n1834), .B0(n1802), .Y(n1808) ); NOR2BX1TS U3022 ( .AN(Sgf_normalized_result[44]), .B(n1955), .Y(n1803) ); XOR2X1TS U3023 ( .A(n1952), .B(n1803), .Y(n1805) ); NOR2X2TS U3024 ( .A(n1805), .B(n1804), .Y(n1936) ); INVX2TS U3025 ( .A(n1936), .Y(n1806) ); NAND2X1TS U3026 ( .A(n1805), .B(n1804), .Y(n1934) ); NAND2X1TS U3027 ( .A(n1806), .B(n1934), .Y(n1807) ); INVX2TS U3028 ( .A(n1809), .Y(n1812) ); INVX2TS U3029 ( .A(n1810), .Y(n1811) ); INVX2TS U3030 ( .A(n1813), .Y(n2359) ); INVX2TS U3031 ( .A(n2358), .Y(n1814) ); AOI21X1TS U3032 ( .A0(n2361), .A1(n2359), .B0(n1814), .Y(n1819) ); INVX2TS U3033 ( .A(n1815), .Y(n1817) ); NAND2X1TS U3034 ( .A(n1817), .B(n1816), .Y(n1818) ); AOI22X1TS U3035 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[70]), .A1( n1857), .B0(n1027), .B1(Barrel_Shifter_module_Mux_Array_Data_array[62]), .Y(n1821) ); AOI22X1TS U3036 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[86]), .A1( n2122), .B0(n1035), .B1(Barrel_Shifter_module_Mux_Array_Data_array[78]), .Y(n1820) ); AOI21X1TS U3037 ( .A0(n1821), .A1(n1820), .B0(n899), .Y(n1825) ); AOI22X1TS U3038 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[70]), .A1( n1860), .B0(n2002), .B1(Barrel_Shifter_module_Mux_Array_Data_array[62]), .Y(n1823) ); AOI22X1TS U3039 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[86]), .A1( n2123), .B0(Barrel_Shifter_module_Mux_Array_Data_array[78]), .B1(n1861), .Y(n1822) ); AOI21X1TS U3040 ( .A0(n1823), .A1(n1822), .B0(n1034), .Y(n1824) ); AOI211X1TS U3041 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[62]), .A1( FSM_selector_B[1]), .B0(n1825), .C0(n1824), .Y(n1829) ); INVX2TS U3042 ( .A(n1868), .Y(n1826) ); INVX2TS U3043 ( .A(n2075), .Y(n2083) ); AOI22X1TS U3044 ( .A0(n1826), .A1(n2083), .B0(n1866), .B1(n2085), .Y(n1827) ); INVX2TS U3045 ( .A(n1844), .Y(n1831) ); AOI22X1TS U3046 ( .A0(n1869), .A1(n2085), .B0(n2083), .B1(n1986), .Y(n1828) ); AOI21X1TS U3047 ( .A0(n1829), .A1(n1828), .B0(n2088), .Y(n1830) ); AOI211X1TS U3048 ( .A0(n906), .A1(n1831), .B0(n1830), .C0(n1872), .Y(n1832) ); INVX2TS U3049 ( .A(n1833), .Y(n2353) ); NAND2X1TS U3050 ( .A(n1834), .B(n1935), .Y(n1835) ); AOI22X1TS U3051 ( .A0(n2058), .A1(n1836), .B0(n1879), .B1(n2018), .Y(n1838) ); AOI21X1TS U3052 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[97]), .A1( n1882), .B0(n1881), .Y(n1837) ); AOI22X1TS U3053 ( .A0(n2058), .A1(n1840), .B0(n1879), .B1(n1839), .Y(n1842) ); AOI21X1TS U3054 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[98]), .A1( n1882), .B0(n1881), .Y(n1841) ); OAI22X1TS U3055 ( .A0(n1845), .A1(n2141), .B0(n2137), .B1(n1844), .Y(n1848) ); AOI22X1TS U3056 ( .A0(n2058), .A1(n1850), .B0(n1879), .B1(n1849), .Y(n1852) ); AOI21X1TS U3057 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[100]), .A1( n1882), .B0(n1881), .Y(n1851) ); AOI22X1TS U3058 ( .A0(n906), .A1(n1854), .B0(n1879), .B1(n1853), .Y(n1856) ); AOI21X1TS U3059 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[99]), .A1( n1882), .B0(n1881), .Y(n1855) ); AOI22X1TS U3060 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[71]), .A1( n1857), .B0(Barrel_Shifter_module_Mux_Array_Data_array[63]), .B1(n890), .Y(n1859) ); AOI22X1TS U3061 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[79]), .A1( n1035), .B0(Barrel_Shifter_module_Mux_Array_Data_array[87]), .B1(n2122), .Y(n1858) ); AOI21X1TS U3062 ( .A0(n1859), .A1(n1858), .B0(n898), .Y(n1865) ); AOI22X1TS U3063 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[71]), .A1( n1860), .B0(Barrel_Shifter_module_Mux_Array_Data_array[63]), .B1(n2002), .Y(n1863) ); AOI22X1TS U3064 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[79]), .A1( n1861), .B0(Barrel_Shifter_module_Mux_Array_Data_array[87]), .B1(n2123), .Y(n1862) ); AOI21X1TS U3065 ( .A0(n1863), .A1(n1862), .B0(n1034), .Y(n1864) ); NAND2X1TS U3066 ( .A(n1866), .B(n2050), .Y(n1867) ); OAI211X1TS U3067 ( .A0(n2048), .A1(n1868), .B0(n1871), .C0(n1867), .Y(n1880) ); INVX2TS U3068 ( .A(n2048), .Y(n2051) ); AOI22X1TS U3069 ( .A0(n1869), .A1(n2050), .B0(n2051), .B1(n1986), .Y(n1870) ); AOI21X1TS U3070 ( .A0(n1871), .A1(n1870), .B0(n920), .Y(n1876) ); INVX2TS U3071 ( .A(n1872), .Y(n1874) ); AOI22X1TS U3072 ( .A0(n1992), .A1(n1878), .B0(n907), .B1( Barrel_Shifter_module_Mux_Array_Data_array[101]), .Y(n1873) ); AOI211X1TS U3073 ( .A0(n1880), .A1(n2049), .B0(n1876), .C0(n1875), .Y(n1877) ); INVX2TS U3074 ( .A(n1877), .Y(n3117) ); AOI22X1TS U3075 ( .A0(n2058), .A1(n1880), .B0(n1879), .B1(n1878), .Y(n1884) ); AOI21X1TS U3076 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[101]), .A1( n1882), .B0(n1881), .Y(n1883) ); BUFX3TS U3077 ( .A(n2736), .Y(n2764) ); AOI22X1TS U3078 ( .A0(n2859), .A1(Add_Subt_result[30]), .B0(n2764), .B1( DmP[22]), .Y(n1886) ); OAI2BB1X2TS U3079 ( .A0N(Add_Subt_result[24]), .A1N(n1907), .B0(n1886), .Y( n2738) ); AOI22X1TS U3080 ( .A0(n2744), .A1(Add_Subt_result[31]), .B0(n2764), .B1( DmP[21]), .Y(n1887) ); OAI2BB1X2TS U3081 ( .A0N(Add_Subt_result[23]), .A1N(n1907), .B0(n1887), .Y( n2746) ); AOI22X1TS U3082 ( .A0(n895), .A1(Add_Subt_result[29]), .B0(n1891), .B1( DmP[23]), .Y(n1888) ); OAI2BB1X2TS U3083 ( .A0N(Add_Subt_result[25]), .A1N(n1907), .B0(n1888), .Y( n2731) ); AOI222X1TS U3084 ( .A0(n2738), .A1(n2666), .B0(n2746), .B1(n2667), .C0(n2731), .C1(n2679), .Y(n1915) ); BUFX3TS U3085 ( .A(n2779), .Y(n2872) ); AOI22X1TS U3086 ( .A0(n1909), .A1(Add_Subt_result[28]), .B0(n1891), .B1( DmP[24]), .Y(n1892) ); OAI2BB1X2TS U3087 ( .A0N(Add_Subt_result[26]), .A1N(n1907), .B0(n1892), .Y( n2717) ); AOI22X1TS U3088 ( .A0(n2870), .A1(n2710), .B0(n2872), .B1(n2717), .Y(n1894) ); NOR2X1TS U3089 ( .A(n1922), .B(n2719), .Y(n1918) ); AOI22X1TS U3090 ( .A0(n2781), .A1(n1916), .B0(n1918), .B1(n2711), .Y(n1893) ); BUFX3TS U3091 ( .A(n2743), .Y(n2850) ); BUFX3TS U3092 ( .A(n2757), .Y(n2865) ); AOI22X1TS U3093 ( .A0(n2850), .A1(n2738), .B0(n2865), .B1(n2731), .Y(n1899) ); NAND2X1TS U3094 ( .A(n2708), .B(n1922), .Y(n1901) ); AOI22X1TS U3095 ( .A0(n2850), .A1(n2731), .B0(n2865), .B1(n2717), .Y(n1904) ); AOI22X1TS U3096 ( .A0(n896), .A1(Add_Subt_result[33]), .B0(n2764), .B1( DmP[19]), .Y(n1906) ); OAI2BB1X2TS U3097 ( .A0N(Add_Subt_result[21]), .A1N(n1907), .B0(n1906), .Y( n2759) ); AOI22X1TS U3098 ( .A0(n895), .A1(Add_Subt_result[34]), .B0(n2764), .B1( DmP[18]), .Y(n1908) ); OAI2BB1X2TS U3099 ( .A0N(Add_Subt_result[20]), .A1N(n2806), .B0(n1908), .Y( n2767) ); AOI22X1TS U3100 ( .A0(n2851), .A1(n2759), .B0(n2865), .B1(n2767), .Y(n1914) ); AOI22X1TS U3101 ( .A0(n1265), .A1(Add_Subt_result[32]), .B0(n2764), .B1( DmP[20]), .Y(n1910) ); OAI21X4TS U3102 ( .A0(n2787), .A1(n2975), .B0(n1910), .Y(n2752) ); AOI22X1TS U3103 ( .A0(n2616), .A1(Add_Subt_result[35]), .B0(DmP[17]), .B1( n2736), .Y(n1911) ); OAI2BB1X2TS U3104 ( .A0N(Add_Subt_result[19]), .A1N(n2806), .B0(n1911), .Y( n2773) ); BUFX3TS U3105 ( .A(n2648), .Y(n2874) ); AOI21X1TS U3106 ( .A0(n2779), .A1(n2752), .B0(n1912), .Y(n1913) ); AOI22X1TS U3107 ( .A0(n2851), .A1(n2710), .B0(n2779), .B1(n1916), .Y(n1920) ); AOI22X1TS U3108 ( .A0(n2676), .A1(n1918), .B0(n2781), .B1(n1917), .Y(n1919) ); AOI22X1TS U3109 ( .A0(n2851), .A1(n2709), .B0(n2872), .B1(n2710), .Y(n1925) ); NOR2X1TS U3110 ( .A(n1922), .B(n2724), .Y(n2712) ); AOI22X1TS U3111 ( .A0(n2708), .A1(n2712), .B0(n2781), .B1(n1923), .Y(n1924) ); NOR2BX1TS U3112 ( .AN(Sgf_normalized_result[45]), .B(n1955), .Y(n1928) ); XOR2X1TS U3113 ( .A(n1952), .B(n1928), .Y(n1938) ); NOR2X2TS U3114 ( .A(n1929), .B(n1941), .Y(n1944) ); NOR2BX1TS U3115 ( .AN(Sgf_normalized_result[46]), .B(n1931), .Y(n1932) ); XOR2X1TS U3116 ( .A(n1952), .B(n1932), .Y(n1947) ); NOR2X2TS U3117 ( .A(n1947), .B(n1946), .Y(n2344) ); NOR2X2TS U3118 ( .A(n2343), .B(n2344), .Y(n1949) ); OAI21X1TS U3119 ( .A0(n1936), .A1(n1935), .B0(n1934), .Y(n2350) ); NAND2X1TS U3120 ( .A(n1938), .B(n1937), .Y(n2354) ); INVX2TS U3121 ( .A(n2354), .Y(n1939) ); AOI21X1TS U3122 ( .A0(n2350), .A1(n2355), .B0(n1939), .Y(n1940) ); OAI21X1TS U3123 ( .A0(n1942), .A1(n1941), .B0(n1940), .Y(n1943) ); AOI21X2TS U3124 ( .A0(n1945), .A1(n1944), .B0(n1943), .Y(n2342) ); NAND2X1TS U3125 ( .A(n1947), .B(n1946), .Y(n2345) ); OAI21X2TS U3126 ( .A0(n2342), .A1(n2344), .B0(n2345), .Y(n1948) ); AOI21X4TS U3127 ( .A0(n1950), .A1(n1949), .B0(n1948), .Y(n2341) ); NOR2BX1TS U3128 ( .AN(Sgf_normalized_result[47]), .B(n1981), .Y(n1951) ); XOR2X1TS U3129 ( .A(n1952), .B(n1951), .Y(n1954) ); NOR2X1TS U3130 ( .A(n1954), .B(n1953), .Y(n2337) ); NAND2X1TS U3131 ( .A(n1954), .B(n1953), .Y(n2338) ); OAI21X4TS U3132 ( .A0(n2341), .A1(n2337), .B0(n2338), .Y(n2336) ); NOR2BX1TS U3133 ( .AN(Sgf_normalized_result[48]), .B(n1955), .Y(n1956) ); XOR2X1TS U3134 ( .A(n1983), .B(n1956), .Y(n1958) ); NAND2X1TS U3135 ( .A(n1958), .B(n1957), .Y(n2333) ); INVX2TS U3136 ( .A(n2333), .Y(n1959) ); AOI21X4TS U3137 ( .A0(n2336), .A1(n2334), .B0(n1959), .Y(n2332) ); NOR2BX1TS U3138 ( .AN(Sgf_normalized_result[49]), .B(n1981), .Y(n1960) ); XOR2X1TS U3139 ( .A(n1983), .B(n1960), .Y(n1962) ); NOR2X1TS U3140 ( .A(n1962), .B(n1961), .Y(n2328) ); NAND2X1TS U3141 ( .A(n1962), .B(n1961), .Y(n2329) ); OAI21X4TS U3142 ( .A0(n2332), .A1(n2328), .B0(n2329), .Y(n2327) ); NOR2BX1TS U3143 ( .AN(Sgf_normalized_result[50]), .B(n1981), .Y(n1963) ); XOR2X1TS U3144 ( .A(n1983), .B(n1963), .Y(n1966) ); NAND2X1TS U3145 ( .A(n1966), .B(n1965), .Y(n2324) ); INVX2TS U3146 ( .A(n2324), .Y(n1967) ); AOI21X4TS U3147 ( .A0(n2327), .A1(n2325), .B0(n1967), .Y(n2323) ); NOR2BX1TS U3148 ( .AN(Sgf_normalized_result[51]), .B(n1981), .Y(n1968) ); XOR2X1TS U3149 ( .A(n1983), .B(n1968), .Y(n1971) ); NOR2X1TS U3150 ( .A(n1971), .B(n1970), .Y(n2319) ); NAND2X1TS U3151 ( .A(n1971), .B(n1970), .Y(n2320) ); OAI21X4TS U3152 ( .A0(n2323), .A1(n2319), .B0(n2320), .Y(n2318) ); NOR2BX1TS U3153 ( .AN(Sgf_normalized_result[52]), .B(n1981), .Y(n1972) ); XOR2X1TS U3154 ( .A(n1983), .B(n1972), .Y(n1975) ); NAND2X1TS U3155 ( .A(n1975), .B(n1974), .Y(n2315) ); INVX2TS U3156 ( .A(n2315), .Y(n1976) ); AOI21X4TS U3157 ( .A0(n2318), .A1(n2316), .B0(n1976), .Y(n2314) ); NOR2BX1TS U3158 ( .AN(Sgf_normalized_result[53]), .B(n1981), .Y(n1977) ); XOR2X1TS U3159 ( .A(n1983), .B(n1977), .Y(n1979) ); NOR2X1TS U3160 ( .A(n1979), .B(n1978), .Y(n2310) ); NAND2X1TS U3161 ( .A(n1979), .B(n1978), .Y(n2311) ); NOR2BX1TS U3162 ( .AN(Sgf_normalized_result[54]), .B(n1981), .Y(n1982) ); XOR2X1TS U3163 ( .A(n1983), .B(n1982), .Y(n2305) ); AOI22X1TS U3164 ( .A0(n1992), .A1(n2085), .B0( Barrel_Shifter_module_Mux_Array_Data_array[94]), .B1(n1692), .Y(n1993) ); AOI211X1TS U3165 ( .A0(n2049), .A1(n1996), .B0(n1995), .C0(n1994), .Y(n1997) ); INVX2TS U3166 ( .A(n1997), .Y(n3131) ); AOI22X2TS U3167 ( .A0(n893), .A1(n2002), .B0(n886), .B1(n1027), .Y(n2044) ); OAI22X1TS U3168 ( .A0(n2027), .A1(n2074), .B0(n2044), .B1(n2971), .Y(n1998) ); AOI21X1TS U3169 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[92]), .A1( n2072), .B0(n1998), .Y(n2034) ); INVX2TS U3170 ( .A(n2044), .Y(n2071) ); AOI22X1TS U3171 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[80]), .A1( n2071), .B0(Barrel_Shifter_module_Mux_Array_Data_array[88]), .B1(n2072), .Y(n2000) ); NAND2X1TS U3172 ( .A(n2077), .B(n2007), .Y(n1999) ); NAND2X1TS U3173 ( .A(n2025), .B(n918), .Y(n2013) ); AOI21X1TS U3174 ( .A0(n2002), .A1(n2129), .B0(n2001), .Y(n2004) ); OAI21X4TS U3175 ( .A0(n2004), .A1(n2088), .B0(n2003), .Y(n2092) ); OAI2BB1X1TS U3176 ( .A0N(n1692), .A1N( Barrel_Shifter_module_Mux_Array_Data_array[84]), .B0(n2081), .Y(n2011) ); INVX2TS U3177 ( .A(n2005), .Y(n2008) ); INVX2TS U3178 ( .A(n2006), .Y(n2082) ); INVX2TS U3179 ( .A(n2132), .Y(n2084) ); NAND2X1TS U3180 ( .A(n2077), .B(n906), .Y(n2052) ); OAI22X1TS U3181 ( .A0(n2009), .A1(n2088), .B0(n2030), .B1(n2052), .Y(n2010) ); AOI211X1TS U3182 ( .A0(n2092), .A1( Barrel_Shifter_module_Mux_Array_Data_array[80]), .B0(n2011), .C0(n2010), .Y(n2012) ); OAI22X1TS U3183 ( .A0(n2036), .A1(n2074), .B0(n2044), .B1(n2970), .Y(n2014) ); AOI21X1TS U3184 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[91]), .A1( n2072), .B0(n2014), .Y(n2043) ); AOI22X1TS U3185 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[81]), .A1( n2071), .B0(Barrel_Shifter_module_Mux_Array_Data_array[89]), .B1(n2072), .Y(n2016) ); NAND2X1TS U3186 ( .A(n2077), .B(n2018), .Y(n2015) ); NAND2X1TS U3187 ( .A(n2035), .B(n2049), .Y(n2024) ); OAI2BB1X1TS U3188 ( .A0N(n1692), .A1N( Barrel_Shifter_module_Mux_Array_Data_array[83]), .B0(n2081), .Y(n2022) ); INVX2TS U3189 ( .A(n2017), .Y(n2019) ); OAI22X1TS U3190 ( .A0(n2020), .A1(n2088), .B0(n2039), .B1(n2052), .Y(n2021) ); AOI211X1TS U3191 ( .A0(n2092), .A1( Barrel_Shifter_module_Mux_Array_Data_array[81]), .B0(n2022), .C0(n2021), .Y(n2023) ); NAND2X1TS U3192 ( .A(n2025), .B(n2058), .Y(n2033) ); INVX2TS U3193 ( .A(n2086), .Y(n2026) ); NOR2X2TS U3194 ( .A(n2026), .B(n2088), .Y(n2063) ); NAND2X1TS U3195 ( .A(n2133), .B(n2082), .Y(n2061) ); AOI21X1TS U3196 ( .A0(n2063), .A1( Barrel_Shifter_module_Mux_Array_Data_array[92]), .B0(n2028), .Y(n2029) ); AOI21X1TS U3197 ( .A0(n2092), .A1( Barrel_Shifter_module_Mux_Array_Data_array[84]), .B0(n2031), .Y(n2032) ); NAND2X1TS U3198 ( .A(n2035), .B(n2058), .Y(n2042) ); AOI21X1TS U3199 ( .A0(n2063), .A1( Barrel_Shifter_module_Mux_Array_Data_array[91]), .B0(n2037), .Y(n2038) ); AOI21X1TS U3200 ( .A0(n2092), .A1( Barrel_Shifter_module_Mux_Array_Data_array[83]), .B0(n2040), .Y(n2041) ); OAI22X1TS U3201 ( .A0(n2060), .A1(n2074), .B0(n2044), .B1(n2972), .Y(n2045) ); AOI21X1TS U3202 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[93]), .A1( n2072), .B0(n2045), .Y(n2070) ); AOI22X1TS U3203 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[79]), .A1( n2071), .B0(Barrel_Shifter_module_Mux_Array_Data_array[87]), .B1(n2072), .Y(n2047) ); NAND2X1TS U3204 ( .A(n2077), .B(n2050), .Y(n2046) ); OAI211X1TS U3205 ( .A0(n2048), .A1(n2074), .B0(n2047), .C0(n2046), .Y(n2059) ); NAND2X1TS U3206 ( .A(n2059), .B(n2049), .Y(n2057) ); OAI2BB1X1TS U3207 ( .A0N(n907), .A1N( Barrel_Shifter_module_Mux_Array_Data_array[85]), .B0(n2081), .Y(n2055) ); OAI22X1TS U3208 ( .A0(n2053), .A1(n2088), .B0(n2066), .B1(n2052), .Y(n2054) ); NAND2X1TS U3209 ( .A(n2059), .B(n906), .Y(n2069) ); OAI2BB2XLTS U3210 ( .B0(n2061), .B1(n2060), .A0N(n907), .A1N( Barrel_Shifter_module_Mux_Array_Data_array[79]), .Y(n2062) ); AOI21X1TS U3211 ( .A0(n2063), .A1( Barrel_Shifter_module_Mux_Array_Data_array[93]), .B0(n2062), .Y(n2064) ); AOI21X1TS U3212 ( .A0(n2092), .A1( Barrel_Shifter_module_Mux_Array_Data_array[85]), .B0(n2067), .Y(n2068) ); AOI22X1TS U3213 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[86]), .A1( n2072), .B0(Barrel_Shifter_module_Mux_Array_Data_array[78]), .B1(n2071), .Y(n2073) ); AOI21X1TS U3214 ( .A0(n2077), .A1(n2085), .B0(n2076), .Y(n2142) ); OAI22X1TS U3215 ( .A0(n2078), .A1(n2956), .B0(n889), .B1(n2886), .Y(n2121) ); NOR2X1TS U3216 ( .A(n2914), .B(n2886), .Y(n2127) ); AOI211X1TS U3217 ( .A0(n2121), .A1(n886), .B0(n2127), .C0(n2080), .Y(n2138) ); OAI22X1TS U3218 ( .A0(n2089), .A1(n920), .B0(n2136), .B1(n2087), .Y(n2090) ); INVX2TS U3219 ( .A(n2597), .Y(n2096) ); OAI2BB2XLTS U3220 ( .B0(n2144), .B1(n3053), .A0N(n2143), .A1N( Barrel_Shifter_module_Mux_Array_Data_array[98]), .Y(n2094) ); AOI211X1TS U3221 ( .A0(n2096), .A1(n2126), .B0(n2095), .C0(n2094), .Y(n2582) ); INVX2TS U3222 ( .A(n2118), .Y(n2150) ); NAND2X1TS U3223 ( .A(n2580), .B(n2150), .Y(n2097) ); INVX2TS U3224 ( .A(n2615), .Y(n2100) ); OAI2BB2XLTS U3225 ( .B0(n2144), .B1(n2971), .A0N(n2143), .A1N( Barrel_Shifter_module_Mux_Array_Data_array[100]), .Y(n2098) ); AOI211X1TS U3226 ( .A0(n2100), .A1(n1025), .B0(n2099), .C0(n2098), .Y(n2576) ); NAND2X1TS U3227 ( .A(n2574), .B(n2150), .Y(n2101) ); INVX2TS U3228 ( .A(n2600), .Y(n2104) ); OAI2BB2XLTS U3229 ( .B0(n2144), .B1(n2970), .A0N(n2143), .A1N( Barrel_Shifter_module_Mux_Array_Data_array[99]), .Y(n2102) ); AOI211X1TS U3230 ( .A0(n2104), .A1(n1025), .B0(n2103), .C0(n2102), .Y(n2579) ); NAND2X1TS U3231 ( .A(n2577), .B(n2150), .Y(n2105) ); INVX2TS U3232 ( .A(n2593), .Y(n2108) ); OAI2BB2XLTS U3233 ( .B0(n2144), .B1(n2974), .A0N(n2143), .A1N( Barrel_Shifter_module_Mux_Array_Data_array[96]), .Y(n2106) ); AOI211X1TS U3234 ( .A0(n2108), .A1(n1025), .B0(n2107), .C0(n2106), .Y(n2589) ); NAND2X1TS U3235 ( .A(n2587), .B(n2150), .Y(n2109) ); INVX2TS U3236 ( .A(n2595), .Y(n2112) ); OAI2BB2XLTS U3237 ( .B0(n2144), .B1(n2973), .A0N(n2143), .A1N( Barrel_Shifter_module_Mux_Array_Data_array[97]), .Y(n2110) ); AOI211X1TS U3238 ( .A0(n2112), .A1(n2126), .B0(n2111), .C0(n2110), .Y(n2586) ); NAND2X1TS U3239 ( .A(n2584), .B(n2150), .Y(n2113) ); INVX2TS U3240 ( .A(n2115), .Y(n2119) ); NAND2X1TS U3241 ( .A(n2116), .B(n2842), .Y(n2117) ); AOI21X1TS U3242 ( .A0(exp_oper_result[4]), .A1( Barrel_Shifter_module_Mux_Array_Data_array[102]), .B0(n2123), .Y(n2124) ); OAI211XLTS U3243 ( .A0(n2132), .A1(n2957), .B0(n2131), .C0(n2130), .Y(n2134) ); AOI22X1TS U3244 ( .A0(n2134), .A1(n2133), .B0( Barrel_Shifter_module_Mux_Array_Data_array[78]), .B1(n1692), .Y(n2140) ); OA22X1TS U3245 ( .A0(n2138), .A1(n2137), .B0(n2136), .B1(n2135), .Y(n2139) ); OAI2BB2XLTS U3246 ( .B0(n2144), .B1(n2972), .A0N(n2143), .A1N( Barrel_Shifter_module_Mux_Array_Data_array[101]), .Y(n2145) ); AOI21X1TS U3247 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[77]), .A1( n904), .B0(n2145), .Y(n2147) ); AOI21X1TS U3248 ( .A0(n905), .A1( Barrel_Shifter_module_Mux_Array_Data_array[93]), .B0(n2148), .Y(n2571) ); NAND2X1TS U3249 ( .A(n2570), .B(n2150), .Y(n2151) ); AND4X1TS U3250 ( .A(Exp_Operation_Module_Data_S[3]), .B( Exp_Operation_Module_Data_S[2]), .C(Exp_Operation_Module_Data_S[1]), .D(Exp_Operation_Module_Data_S[0]), .Y(n2153) ); AND4X1TS U3251 ( .A(Exp_Operation_Module_Data_S[6]), .B( Exp_Operation_Module_Data_S[5]), .C(Exp_Operation_Module_Data_S[4]), .D(n2153), .Y(n2154) ); AOI21X1TS U3252 ( .A0(n2983), .A1(FS_Module_state_reg[1]), .B0(n2906), .Y( n2157) ); AOI21X1TS U3253 ( .A0(n2158), .A1(n2906), .B0(n2157), .Y( FSM_exp_operation_load_diff) ); OAI22X1TS U3254 ( .A0(n3111), .A1(intDY[55]), .B0(intDY[54]), .B1(n2890), .Y(n2279) ); AOI211X1TS U3255 ( .A0(intDX[52]), .A1(n3042), .B0(n2159), .C0(n2279), .Y( n2281) ); NOR2BX1TS U3256 ( .AN(intDX[56]), .B(intDY[56]), .Y(n2160) ); NOR2X1TS U3257 ( .A(n3058), .B(intDY[57]), .Y(n2233) ); NAND2X1TS U3258 ( .A(n3045), .B(intDX[61]), .Y(n2239) ); OAI211X1TS U3259 ( .A0(intDY[60]), .A1(n2947), .B0(n2243), .C0(n2239), .Y( n2245) ); OAI21X1TS U3260 ( .A0(intDY[58]), .A1(n3112), .B0(n2235), .Y(n2237) ); NOR4X2TS U3261 ( .A(n2160), .B(n2233), .C(n2245), .D(n2237), .Y(n2290) ); NOR2X1TS U3262 ( .A(n2946), .B(intDY[49]), .Y(n2282) ); OAI21X1TS U3263 ( .A0(intDY[50]), .A1(n2943), .B0(n2284), .Y(n2288) ); AOI211X1TS U3264 ( .A0(intDX[48]), .A1(n3032), .B0(n2282), .C0(n2288), .Y( n2161) ); NOR2BX1TS U3265 ( .AN(intDX[39]), .B(intDY[39]), .Y(n2273) ); AOI21X1TS U3266 ( .A0(intDX[38]), .A1(n3051), .B0(n2273), .Y(n2272) ); NOR2X1TS U3267 ( .A(n2945), .B(intDY[45]), .Y(n2247) ); OAI21X1TS U3268 ( .A0(intDY[46]), .A1(n2926), .B0(n2246), .Y(n2256) ); AOI211X2TS U3269 ( .A0(intDX[44]), .A1(n3031), .B0(n2247), .C0(n2256), .Y( n2254) ); OA22X1TS U3270 ( .A0(n2905), .A1(intDY[42]), .B0(n2944), .B1(intDY[43]), .Y( n2252) ); NAND4X1TS U3271 ( .A(n2254), .B(n2252), .C(n2163), .D(n2162), .Y(n2296) ); OA22X1TS U3272 ( .A0(n2895), .A1(intDY[34]), .B0(n2963), .B1(intDY[35]), .Y( n2267) ); OAI2BB2XLTS U3273 ( .B0(intDX[28]), .B1(n2166), .A0N(intDY[29]), .A1N(n2941), .Y(n2175) ); OAI21X1TS U3274 ( .A0(intDY[26]), .A1(n2965), .B0(n2169), .Y(n2228) ); NOR2X1TS U3275 ( .A(n2969), .B(intDY[25]), .Y(n2225) ); AOI22X1TS U3276 ( .A0(n2168), .A1(intDY[24]), .B0(intDY[25]), .B1(n2969), .Y(n2171) ); AOI32X1TS U3277 ( .A0(n2965), .A1(n2169), .A2(intDY[26]), .B0(intDY[27]), .B1(n2903), .Y(n2170) ); OAI32X1TS U3278 ( .A0(n2228), .A1(n2227), .A2(n2171), .B0(n2170), .B1(n2227), .Y(n2174) ); OAI2BB2XLTS U3279 ( .B0(intDX[30]), .B1(n2172), .A0N(intDY[31]), .A1N(n2961), .Y(n2173) ); OAI2BB1X1TS U3280 ( .A0N(n3048), .A1N(intDX[5]), .B0(intDY[4]), .Y(n2179) ); OAI22X1TS U3281 ( .A0(intDX[4]), .A1(n2179), .B0(n3048), .B1(intDX[5]), .Y( n2190) ); OAI2BB1X1TS U3282 ( .A0N(n3046), .A1N(intDX[7]), .B0(intDY[6]), .Y(n2180) ); OAI22X1TS U3283 ( .A0(intDX[6]), .A1(n2180), .B0(n3046), .B1(intDX[7]), .Y( n2189) ); OAI211X1TS U3284 ( .A0(n2966), .A1(intDY[3]), .B0(n2183), .C0(n2182), .Y( n2186) ); AOI222X1TS U3285 ( .A0(intDX[4]), .A1(n923), .B0(intDX[5]), .B1(n3048), .C0( n2186), .C1(n2185), .Y(n2188) ); AOI22X1TS U3286 ( .A0(intDX[7]), .A1(n3046), .B0(intDX[6]), .B1(n2910), .Y( n2187) ); OAI32X1TS U3287 ( .A0(n2190), .A1(n2189), .A2(n2188), .B0(n2187), .B1(n2189), .Y(n2208) ); INVX2TS U3288 ( .A(n2191), .Y(n2198) ); OAI2BB2XLTS U3289 ( .B0(intDX[12]), .B1(n2192), .A0N(intDY[13]), .A1N(n2935), .Y(n2204) ); AOI22X1TS U3290 ( .A0(intDY[11]), .A1(n2923), .B0(intDY[10]), .B1(n2194), .Y(n2200) ); AOI21X1TS U3291 ( .A0(n2197), .A1(n2196), .B0(n2209), .Y(n2199) ); OAI2BB2XLTS U3292 ( .B0(intDX[14]), .B1(n2201), .A0N(intDY[15]), .A1N(n2967), .Y(n2202) ); AOI211X1TS U3293 ( .A0(n2205), .A1(n2204), .B0(n2203), .C0(n2202), .Y(n2206) ); OAI31X1TS U3294 ( .A0(n2209), .A1(n2208), .A2(n2207), .B0(n2206), .Y(n2211) ); NOR2X1TS U3295 ( .A(n2964), .B(intDY[17]), .Y(n2213) ); OAI21X1TS U3296 ( .A0(intDY[18]), .A1(n2968), .B0(n2215), .Y(n2219) ); AOI211X1TS U3297 ( .A0(intDX[16]), .A1(n3006), .B0(n2213), .C0(n2219), .Y( n2210) ); OAI2BB2XLTS U3298 ( .B0(intDX[20]), .B1(n2212), .A0N(intDY[21]), .A1N(n2939), .Y(n2223) ); AOI22X1TS U3299 ( .A0(n2214), .A1(intDY[16]), .B0(intDY[17]), .B1(n2964), .Y(n2217) ); AOI32X1TS U3300 ( .A0(n2968), .A1(n2215), .A2(intDY[18]), .B0(intDY[19]), .B1(n2904), .Y(n2216) ); OAI32X1TS U3301 ( .A0(n2219), .A1(n2218), .A2(n2217), .B0(n2216), .B1(n2218), .Y(n2222) ); OAI2BB2XLTS U3302 ( .B0(intDX[22]), .B1(n2220), .A0N(intDY[23]), .A1N(n3050), .Y(n2221) ); AOI211X1TS U3303 ( .A0(n2224), .A1(n2223), .B0(n2222), .C0(n2221), .Y(n2230) ); NOR2BX1TS U3304 ( .AN(intDX[24]), .B(intDY[24]), .Y(n2226) ); OR4X2TS U3305 ( .A(n2228), .B(n2227), .C(n2226), .D(n2225), .Y(n2229) ); AOI32X1TS U3306 ( .A0(n2232), .A1(n2231), .A2(n2230), .B0(n2229), .B1(n2232), .Y(n2301) ); AOI22X1TS U3307 ( .A0(intDY[57]), .A1(n3058), .B0(intDY[56]), .B1(n2234), .Y(n2238) ); AOI32X1TS U3308 ( .A0(n3112), .A1(n2235), .A2(intDY[58]), .B0(intDY[59]), .B1(n2908), .Y(n2236) ); OA21XLTS U3309 ( .A0(n2238), .A1(n2237), .B0(n2236), .Y(n2244) ); NOR2BX1TS U3310 ( .AN(n2246), .B(intDX[46]), .Y(n2260) ); AOI22X1TS U3311 ( .A0(intDY[45]), .A1(n2945), .B0(intDY[44]), .B1(n2248), .Y(n2257) ); OAI2BB2XLTS U3312 ( .B0(intDX[40]), .B1(n2249), .A0N(intDY[41]), .A1N(n2928), .Y(n2253) ); OAI2BB2XLTS U3313 ( .B0(intDX[42]), .B1(n2250), .A0N(intDY[43]), .A1N(n2944), .Y(n2251) ); AOI32X1TS U3314 ( .A0(n2254), .A1(n2253), .A2(n2252), .B0(n2251), .B1(n2254), .Y(n2255) ); NOR2BX1TS U3315 ( .AN(intDY[47]), .B(intDX[47]), .Y(n2258) ); AOI211X1TS U3316 ( .A0(intDY[46]), .A1(n2260), .B0(n2259), .C0(n2258), .Y( n2297) ); OAI2BB2XLTS U3317 ( .B0(intDX[32]), .B1(n2264), .A0N(intDY[33]), .A1N(n2962), .Y(n2268) ); OAI2BB2XLTS U3318 ( .B0(intDX[34]), .B1(n2265), .A0N(intDY[35]), .A1N(n2963), .Y(n2266) ); AOI32X1TS U3319 ( .A0(n2269), .A1(n2268), .A2(n2267), .B0(n2266), .B1(n2269), .Y(n2270) ); NOR2BX1TS U3320 ( .AN(intDY[39]), .B(intDX[39]), .Y(n2276) ); NOR3X1TS U3321 ( .A(n3051), .B(n2273), .C(intDX[38]), .Y(n2275) ); INVX2TS U3322 ( .A(n2298), .Y(n2274) ); OAI31X1TS U3323 ( .A0(n2277), .A1(n2276), .A2(n2275), .B0(n2274), .Y(n2295) ); AOI22X1TS U3324 ( .A0(intDY[49]), .A1(n2946), .B0(intDY[48]), .B1(n2283), .Y(n2286) ); AOI32X1TS U3325 ( .A0(n2943), .A1(n2284), .A2(intDY[50]), .B0(intDY[51]), .B1(n2909), .Y(n2285) ); OAI32X1TS U3326 ( .A0(n2288), .A1(n2287), .A2(n2286), .B0(n2285), .B1(n2287), .Y(n2292) ); OAI2BB2XLTS U3327 ( .B0(intDX[54]), .B1(n2289), .A0N(intDY[55]), .A1N(n3111), .Y(n2291) ); OAI31X1TS U3328 ( .A0(n2293), .A1(n2292), .A2(n2291), .B0(n2290), .Y(n2294) ); INVX4TS U3329 ( .A(n2634), .Y(n2639) ); AOI21X1TS U3330 ( .A0(n2639), .A1(n2554), .B0(intDX[63]), .Y(n2304) ); OAI2BB2XLTS U3331 ( .B0(n2304), .B1(n3110), .A0N(intDX[63]), .A1N(n2569), .Y(n3113) ); XNOR2X1TS U3332 ( .A(add_subt), .B(Data_Y[63]), .Y(n3057) ); INVX2TS U3333 ( .A(n2305), .Y(n2306) ); NAND2X1TS U3334 ( .A(n2307), .B(n2306), .Y(n2308) ); XNOR2X1TS U3335 ( .A(n2309), .B(n2308), .Y(Add_Subt_Sgf_module_S_to_D[54]) ); INVX2TS U3336 ( .A(n2310), .Y(n2312) ); NAND2X1TS U3337 ( .A(n2312), .B(n2311), .Y(n2313) ); NAND2X1TS U3338 ( .A(n2316), .B(n2315), .Y(n2317) ); XNOR2X1TS U3339 ( .A(n2318), .B(n2317), .Y(Add_Subt_Sgf_module_S_to_D[52]) ); INVX2TS U3340 ( .A(n2319), .Y(n2321) ); NAND2X1TS U3341 ( .A(n2321), .B(n2320), .Y(n2322) ); NAND2X1TS U3342 ( .A(n2325), .B(n2324), .Y(n2326) ); XNOR2X1TS U3343 ( .A(n2327), .B(n2326), .Y(Add_Subt_Sgf_module_S_to_D[50]) ); INVX2TS U3344 ( .A(n2328), .Y(n2330) ); NAND2X1TS U3345 ( .A(n2330), .B(n2329), .Y(n2331) ); NAND2X1TS U3346 ( .A(n2334), .B(n2333), .Y(n2335) ); XNOR2X1TS U3347 ( .A(n2336), .B(n2335), .Y(Add_Subt_Sgf_module_S_to_D[48]) ); INVX2TS U3348 ( .A(n2337), .Y(n2339) ); NAND2X1TS U3349 ( .A(n2339), .B(n2338), .Y(n2340) ); INVX2TS U3350 ( .A(n2344), .Y(n2346) ); NAND2X1TS U3351 ( .A(n2346), .B(n2345), .Y(n2347) ); XNOR2X1TS U3352 ( .A(n2348), .B(n2347), .Y(Add_Subt_Sgf_module_S_to_D[46]) ); INVX2TS U3353 ( .A(n2349), .Y(n2352) ); INVX2TS U3354 ( .A(n2350), .Y(n2351) ); NAND2X1TS U3355 ( .A(n2355), .B(n2354), .Y(n2356) ); XNOR2X1TS U3356 ( .A(n2357), .B(n2356), .Y(Add_Subt_Sgf_module_S_to_D[45]) ); NAND2X1TS U3357 ( .A(n2359), .B(n2358), .Y(n2360) ); XNOR2X1TS U3358 ( .A(n2361), .B(n2360), .Y(Add_Subt_Sgf_module_S_to_D[41]) ); INVX2TS U3359 ( .A(n2362), .Y(n2371) ); INVX2TS U3360 ( .A(n2370), .Y(n2363) ); AOI21X1TS U3361 ( .A0(n2364), .A1(n2371), .B0(n2363), .Y(n2369) ); INVX2TS U3362 ( .A(n2365), .Y(n2367) ); NAND2X1TS U3363 ( .A(n2367), .B(n2366), .Y(n2368) ); NAND2X1TS U3364 ( .A(n2371), .B(n2370), .Y(n2372) ); NAND2X1TS U3365 ( .A(n2375), .B(n2374), .Y(n2376) ); XNOR2X1TS U3366 ( .A(n2377), .B(n2376), .Y(Add_Subt_Sgf_module_S_to_D[37]) ); NAND2X1TS U3367 ( .A(n2379), .B(n2378), .Y(n2380) ); XNOR2X1TS U3368 ( .A(n2381), .B(n2380), .Y(Add_Subt_Sgf_module_S_to_D[33]) ); INVX2TS U3369 ( .A(n2382), .Y(n2384) ); NAND2X1TS U3370 ( .A(n2384), .B(n2383), .Y(n2385) ); XNOR2X1TS U3371 ( .A(n2386), .B(n2385), .Y(Add_Subt_Sgf_module_S_to_D[32]) ); INVX2TS U3372 ( .A(n2387), .Y(n2389) ); NAND2X1TS U3373 ( .A(n2389), .B(n2388), .Y(n2390) ); INVX2TS U3374 ( .A(n2395), .Y(n2398) ); INVX2TS U3375 ( .A(n2396), .Y(n2397) ); AOI21X2TS U3376 ( .A0(n2444), .A1(n2398), .B0(n2397), .Y(n2411) ); INVX2TS U3377 ( .A(n2411), .Y(n2421) ); AOI21X2TS U3378 ( .A0(n2421), .A1(n2400), .B0(n2399), .Y(n2410) ); INVX2TS U3379 ( .A(n2401), .Y(n2403) ); NAND2X1TS U3380 ( .A(n2403), .B(n2402), .Y(n2404) ); XNOR2X1TS U3381 ( .A(n2405), .B(n2404), .Y(Add_Subt_Sgf_module_S_to_D[30]) ); INVX2TS U3382 ( .A(n2406), .Y(n2408) ); NAND2X1TS U3383 ( .A(n2408), .B(n2407), .Y(n2409) ); INVX2TS U3384 ( .A(n2412), .Y(n2414) ); NAND2X1TS U3385 ( .A(n2414), .B(n2413), .Y(n2415) ); XNOR2X1TS U3386 ( .A(n2416), .B(n2415), .Y(Add_Subt_Sgf_module_S_to_D[28]) ); INVX2TS U3387 ( .A(n2417), .Y(n2419) ); NAND2X1TS U3388 ( .A(n2419), .B(n2418), .Y(n2420) ); XNOR2X1TS U3389 ( .A(n2421), .B(n2420), .Y(Add_Subt_Sgf_module_S_to_D[27]) ); AOI21X1TS U3390 ( .A0(n2444), .A1(n2423), .B0(n2422), .Y(n2433) ); INVX2TS U3391 ( .A(n2424), .Y(n2426) ); NAND2X1TS U3392 ( .A(n2426), .B(n2425), .Y(n2427) ); XNOR2X1TS U3393 ( .A(n2428), .B(n2427), .Y(Add_Subt_Sgf_module_S_to_D[26]) ); INVX2TS U3394 ( .A(n2429), .Y(n2431) ); NAND2X1TS U3395 ( .A(n2431), .B(n2430), .Y(n2432) ); INVX2TS U3396 ( .A(n2435), .Y(n2437) ); NAND2X1TS U3397 ( .A(n2437), .B(n2436), .Y(n2438) ); XNOR2X1TS U3398 ( .A(n2439), .B(n2438), .Y(Add_Subt_Sgf_module_S_to_D[24]) ); INVX2TS U3399 ( .A(n2440), .Y(n2442) ); NAND2X1TS U3400 ( .A(n2442), .B(n2441), .Y(n2443) ); XNOR2X1TS U3401 ( .A(n2444), .B(n2443), .Y(Add_Subt_Sgf_module_S_to_D[23]) ); INVX2TS U3402 ( .A(n2445), .Y(n2448) ); INVX2TS U3403 ( .A(n2446), .Y(n2447) ); INVX2TS U3404 ( .A(n2461), .Y(n2471) ); AOI21X1TS U3405 ( .A0(n2471), .A1(n2450), .B0(n2449), .Y(n2460) ); INVX2TS U3406 ( .A(n2451), .Y(n2453) ); NAND2X1TS U3407 ( .A(n2453), .B(n2452), .Y(n2454) ); XNOR2X1TS U3408 ( .A(n2455), .B(n2454), .Y(Add_Subt_Sgf_module_S_to_D[22]) ); INVX2TS U3409 ( .A(n2456), .Y(n2458) ); NAND2X1TS U3410 ( .A(n2458), .B(n2457), .Y(n2459) ); INVX2TS U3411 ( .A(n2462), .Y(n2464) ); NAND2X1TS U3412 ( .A(n2464), .B(n2463), .Y(n2465) ); XNOR2X1TS U3413 ( .A(n2466), .B(n2465), .Y(Add_Subt_Sgf_module_S_to_D[20]) ); INVX2TS U3414 ( .A(n2467), .Y(n2469) ); NAND2X1TS U3415 ( .A(n2469), .B(n2468), .Y(n2470) ); XNOR2X1TS U3416 ( .A(n2471), .B(n2470), .Y(Add_Subt_Sgf_module_S_to_D[19]) ); AOI21X1TS U3417 ( .A0(n2494), .A1(n2473), .B0(n2472), .Y(n2483) ); INVX2TS U3418 ( .A(n2474), .Y(n2476) ); NAND2X1TS U3419 ( .A(n2476), .B(n2475), .Y(n2477) ); XNOR2X1TS U3420 ( .A(n2478), .B(n2477), .Y(Add_Subt_Sgf_module_S_to_D[18]) ); INVX2TS U3421 ( .A(n2479), .Y(n2481) ); NAND2X1TS U3422 ( .A(n2481), .B(n2480), .Y(n2482) ); INVX2TS U3423 ( .A(n2484), .Y(n2492) ); INVX2TS U3424 ( .A(n2491), .Y(n2485) ); AOI21X1TS U3425 ( .A0(n2494), .A1(n2492), .B0(n2485), .Y(n2490) ); INVX2TS U3426 ( .A(n2486), .Y(n2488) ); NAND2X1TS U3427 ( .A(n2488), .B(n2487), .Y(n2489) ); NAND2X1TS U3428 ( .A(n2492), .B(n2491), .Y(n2493) ); XNOR2X1TS U3429 ( .A(n2494), .B(n2493), .Y(Add_Subt_Sgf_module_S_to_D[15]) ); NAND2X1TS U3430 ( .A(n2496), .B(n2495), .Y(n2497) ); XNOR2X1TS U3431 ( .A(n2498), .B(n2497), .Y(Add_Subt_Sgf_module_S_to_D[13]) ); NAND2X1TS U3432 ( .A(n2500), .B(n2499), .Y(n2501) ); XNOR2X1TS U3433 ( .A(n2502), .B(n2501), .Y(Add_Subt_Sgf_module_S_to_D[9]) ); INVX2TS U3434 ( .A(n2503), .Y(n2505) ); NAND2X1TS U3435 ( .A(n2505), .B(n2504), .Y(n2506) ); XNOR2X1TS U3436 ( .A(n2507), .B(n2506), .Y(Add_Subt_Sgf_module_S_to_D[8]) ); INVX2TS U3437 ( .A(n2508), .Y(n2510) ); NAND2X1TS U3438 ( .A(n2510), .B(n2509), .Y(n2511) ); INVX2TS U3439 ( .A(n2513), .Y(n2536) ); AOI21X1TS U3440 ( .A0(n2536), .A1(n2515), .B0(n2514), .Y(n2525) ); INVX2TS U3441 ( .A(n2516), .Y(n2518) ); NAND2X1TS U3442 ( .A(n2518), .B(n2517), .Y(n2519) ); XNOR2X1TS U3443 ( .A(n2520), .B(n2519), .Y(Add_Subt_Sgf_module_S_to_D[6]) ); INVX2TS U3444 ( .A(n2521), .Y(n2523) ); NAND2X1TS U3445 ( .A(n2523), .B(n2522), .Y(n2524) ); INVX2TS U3446 ( .A(n2526), .Y(n2534) ); INVX2TS U3447 ( .A(n2533), .Y(n2527) ); AOI21X1TS U3448 ( .A0(n2536), .A1(n2534), .B0(n2527), .Y(n2532) ); INVX2TS U3449 ( .A(n2528), .Y(n2530) ); NAND2X1TS U3450 ( .A(n2530), .B(n2529), .Y(n2531) ); NAND2X1TS U3451 ( .A(n2534), .B(n2533), .Y(n2535) ); XNOR2X1TS U3452 ( .A(n2536), .B(n2535), .Y(Add_Subt_Sgf_module_S_to_D[3]) ); INVX2TS U3453 ( .A(n2537), .Y(n2546) ); NAND2X1TS U3454 ( .A(n2539), .B(n2538), .Y(n2540) ); INVX2TS U3455 ( .A(n2541), .Y(n2543) ); NAND2X1TS U3456 ( .A(n2543), .B(n2542), .Y(n2544) ); XNOR2X1TS U3457 ( .A(n2545), .B(n2544), .Y(Add_Subt_Sgf_module_S_to_D[2]) ); XNOR2X1TS U3458 ( .A(n2549), .B(n2548), .Y(Add_Subt_Sgf_module_S_to_D[0]) ); INVX2TS U3459 ( .A(n2550), .Y(n2552) ); NOR2X1TS U3460 ( .A(FSM_selector_C), .B(n2883), .Y(n2618) ); OR4X2TS U3461 ( .A(n2552), .B(n2551), .C(n2618), .D( FSM_exp_operation_load_diff), .Y(FS_Module_state_next[2]) ); NAND2X1TS U3462 ( .A(n2906), .B(n2555), .Y(n2556) ); NAND2X1TS U3463 ( .A(n2623), .B(n2920), .Y(n866) ); MXI2X1TS U3464 ( .A(n2909), .B(n3033), .S0(n2562), .Y( Oper_Start_in_module_intM[51]) ); MXI2X1TS U3465 ( .A(n2943), .B(n3030), .S0(n2563), .Y( Oper_Start_in_module_intM[50]) ); MXI2X1TS U3466 ( .A(n2946), .B(n3029), .S0(n2564), .Y( Oper_Start_in_module_intM[49]) ); MXI2X1TS U3467 ( .A(n2927), .B(n3032), .S0(n2563), .Y( Oper_Start_in_module_intM[48]) ); MXI2X1TS U3468 ( .A(n2888), .B(n3036), .S0(n2563), .Y( Oper_Start_in_module_intM[47]) ); MXI2X1TS U3469 ( .A(n2926), .B(n3027), .S0(n2563), .Y( Oper_Start_in_module_intM[46]) ); MXI2X1TS U3470 ( .A(n2945), .B(n3028), .S0(n2638), .Y( Oper_Start_in_module_intM[45]) ); MXI2X1TS U3471 ( .A(n2925), .B(n3031), .S0(n2563), .Y( Oper_Start_in_module_intM[44]) ); OAI2BB1X1TS U3472 ( .A0N(FSM_Add_Subt_Sgf_load), .A1N(n2906), .B0(n3023), .Y(n867) ); MXI2X1TS U3473 ( .A(n2917), .B(add_overflow_flag), .S0(n2561), .Y(n865) ); MXI2X1TS U3474 ( .A(n887), .B(n3044), .S0(n2638), .Y( Oper_Start_in_module_intM[62]) ); BUFX3TS U3475 ( .A(n2563), .Y(n2564) ); MXI2X1TS U3476 ( .A(n888), .B(n3045), .S0(n2564), .Y( Oper_Start_in_module_intM[61]) ); BUFX3TS U3477 ( .A(n2563), .Y(n2562) ); MXI2X1TS U3478 ( .A(n2947), .B(n3038), .S0(n2562), .Y( Oper_Start_in_module_intM[60]) ); MXI2X1TS U3479 ( .A(n2908), .B(n3043), .S0(n2563), .Y( Oper_Start_in_module_intM[59]) ); MXI2X1TS U3480 ( .A(n3112), .B(n3040), .S0(n2562), .Y( Oper_Start_in_module_intM[58]) ); MXI2X1TS U3481 ( .A(n3058), .B(n3037), .S0(n2564), .Y( Oper_Start_in_module_intM[57]) ); MXI2X1TS U3482 ( .A(n2889), .B(n3041), .S0(n2562), .Y( Oper_Start_in_module_intM[56]) ); MXI2X1TS U3483 ( .A(n3111), .B(n3019), .S0(n2564), .Y( Oper_Start_in_module_intM[55]) ); MXI2X1TS U3484 ( .A(n2890), .B(n3039), .S0(n2562), .Y( Oper_Start_in_module_intM[54]) ); MXI2X1TS U3485 ( .A(n2948), .B(n3018), .S0(n2564), .Y( Oper_Start_in_module_intM[53]) ); MXI2X1TS U3486 ( .A(n2929), .B(n3042), .S0(n2562), .Y( Oper_Start_in_module_intM[52]) ); BUFX3TS U3487 ( .A(n2563), .Y(n2566) ); MXI2X1TS U3488 ( .A(n3044), .B(n887), .S0(n2566), .Y( Oper_Start_in_module_intm[62]) ); BUFX3TS U3489 ( .A(n2563), .Y(n2565) ); MXI2X1TS U3490 ( .A(n3045), .B(n888), .S0(n2565), .Y( Oper_Start_in_module_intm[61]) ); MXI2X1TS U3491 ( .A(n3038), .B(n2947), .S0(n2566), .Y( Oper_Start_in_module_intm[60]) ); MXI2X1TS U3492 ( .A(n3043), .B(n2908), .S0(n2565), .Y( Oper_Start_in_module_intm[59]) ); MXI2X1TS U3493 ( .A(n3040), .B(n3112), .S0(n2564), .Y( Oper_Start_in_module_intm[58]) ); MXI2X1TS U3494 ( .A(n3037), .B(n3058), .S0(n2565), .Y( Oper_Start_in_module_intm[57]) ); MXI2X1TS U3495 ( .A(n3041), .B(n2889), .S0(n2566), .Y( Oper_Start_in_module_intm[56]) ); MXI2X1TS U3496 ( .A(n3019), .B(n3111), .S0(n2565), .Y( Oper_Start_in_module_intm[55]) ); MXI2X1TS U3497 ( .A(n3039), .B(n2890), .S0(n2566), .Y( Oper_Start_in_module_intm[54]) ); MXI2X1TS U3498 ( .A(n3018), .B(n2948), .S0(n2565), .Y( Oper_Start_in_module_intm[53]) ); MXI2X1TS U3499 ( .A(n3042), .B(n2929), .S0(n2566), .Y( Oper_Start_in_module_intm[52]) ); INVX2TS U3500 ( .A(n2649), .Y(n2567) ); MXI2X1TS U3501 ( .A(n2568), .B(n2567), .S0(n2863), .Y( Barrel_Shifter_module_Mux_Array_Data_array[54]) ); MXI2X1TS U3502 ( .A(n2944), .B(n3016), .S0(n2639), .Y( Oper_Start_in_module_intM[43]) ); MXI2X1TS U3503 ( .A(n2905), .B(n3034), .S0(n2639), .Y( Oper_Start_in_module_intM[42]) ); MXI2X1TS U3504 ( .A(n2928), .B(n3017), .S0(n2639), .Y( Oper_Start_in_module_intM[41]) ); MXI2X1TS U3505 ( .A(n2885), .B(n3035), .S0(n2639), .Y( Oper_Start_in_module_intM[40]) ); INVX2TS U3506 ( .A(n2570), .Y(n2572) ); OAI22X1TS U3507 ( .A0(n2572), .A1(n916), .B0(n2859), .B1(n2571), .Y( Barrel_Shifter_module_Data_Reg[22]) ); INVX2TS U3508 ( .A(n2573), .Y(n2859) ); INVX2TS U3509 ( .A(n2574), .Y(n2575) ); OAI22X1TS U3510 ( .A0(n2576), .A1(n2616), .B0(n2575), .B1(n916), .Y( Barrel_Shifter_module_Data_Reg[21]) ); INVX2TS U3511 ( .A(n2577), .Y(n2578) ); OAI22X1TS U3512 ( .A0(n2579), .A1(n1265), .B0(n2578), .B1(n916), .Y( Barrel_Shifter_module_Data_Reg[20]) ); INVX2TS U3513 ( .A(n2580), .Y(n2581) ); OAI22X1TS U3514 ( .A0(n2582), .A1(n2744), .B0(n2581), .B1(n916), .Y( Barrel_Shifter_module_Data_Reg[19]) ); INVX2TS U3515 ( .A(n2584), .Y(n2585) ); OAI22X1TS U3516 ( .A0(n2586), .A1(n896), .B0(n2585), .B1(n916), .Y( Barrel_Shifter_module_Data_Reg[18]) ); INVX2TS U3517 ( .A(n2587), .Y(n2588) ); OAI22X1TS U3518 ( .A0(n2589), .A1(n1265), .B0(n2588), .B1(n916), .Y( Barrel_Shifter_module_Data_Reg[17]) ); OAI22X1TS U3519 ( .A0(n2592), .A1(n896), .B0(n2591), .B1(n916), .Y( Barrel_Shifter_module_Data_Reg[6]) ); OAI22X1TS U3520 ( .A0(n2594), .A1(n895), .B0(n2593), .B1(n915), .Y( Barrel_Shifter_module_Data_Reg[5]) ); OAI22X1TS U3521 ( .A0(n2596), .A1(n895), .B0(n2595), .B1(n915), .Y( Barrel_Shifter_module_Data_Reg[4]) ); OAI22X1TS U3522 ( .A0(n2598), .A1(n2616), .B0(n2597), .B1(n915), .Y( Barrel_Shifter_module_Data_Reg[3]) ); OAI22X1TS U3523 ( .A0(n2601), .A1(n896), .B0(n2600), .B1(n915), .Y( Barrel_Shifter_module_Data_Reg[2]) ); OAI22X1TS U3524 ( .A0(n2603), .A1(n1909), .B0(n915), .B1(n2602), .Y( Barrel_Shifter_module_Data_Reg[0]) ); OAI21XLTS U3525 ( .A0(Add_Subt_result[2]), .A1(n2605), .B0(n2604), .Y(n2609) ); OAI21XLTS U3526 ( .A0(Add_Subt_result[14]), .A1(n2607), .B0(n2606), .Y(n2608) ); OAI22X1TS U3527 ( .A0(n2617), .A1(n2744), .B0(n2615), .B1(n916), .Y( Barrel_Shifter_module_Data_Reg[1]) ); NOR3BX1TS U3528 ( .AN(n2619), .B(n2618), .C(FSM_Final_Result_load), .Y(n2622) ); AOI211X1TS U3529 ( .A0(FS_Module_state_reg[0]), .A1(FSM_Add_Subt_Sgf_load), .B0(n873), .C0(n871), .Y(n2621) ); CLKBUFX2TS U3530 ( .A(n1236), .Y(n2880) ); BUFX3TS U3531 ( .A(n2880), .Y(n2625) ); BUFX3TS U3532 ( .A(n2880), .Y(n2879) ); BUFX3TS U3533 ( .A(n2880), .Y(n2624) ); BUFX3TS U3534 ( .A(n1236), .Y(n2626) ); NAND2X1TS U3535 ( .A(n2628), .B(n2627), .Y( final_result_ieee_Module_Exp_S_mux[4]) ); AOI21X1TS U3536 ( .A0(n2911), .A1(n3056), .B0(overflow_flag), .Y( final_result_ieee_Module_Sign_S_mux) ); AOI22X1TS U3537 ( .A0(n2634), .A1(n2907), .B0(n2958), .B1(n2633), .Y( Oper_Start_in_module_intm[0]) ); AOI22X1TS U3538 ( .A0(n2632), .A1(n3049), .B0(n2933), .B1(n2639), .Y( Oper_Start_in_module_intm[1]) ); AOI22X1TS U3539 ( .A0(n2632), .A1(n3015), .B0(n2900), .B1(n2639), .Y( Oper_Start_in_module_intm[2]) ); AOI22X1TS U3540 ( .A0(n2634), .A1(n2984), .B0(n2966), .B1(n2639), .Y( Oper_Start_in_module_intm[3]) ); AOI22X1TS U3541 ( .A0(n2632), .A1(n923), .B0(n2938), .B1(n2639), .Y( Oper_Start_in_module_intm[4]) ); BUFX3TS U3542 ( .A(n2632), .Y(n2630) ); AOI22X1TS U3543 ( .A0(n2630), .A1(n3048), .B0(n2892), .B1(n2629), .Y( Oper_Start_in_module_intm[5]) ); AOI22X1TS U3544 ( .A0(n2630), .A1(n2910), .B0(n2932), .B1(n2629), .Y( Oper_Start_in_module_intm[6]) ); AOI22X1TS U3545 ( .A0(n2630), .A1(n3046), .B0(n2891), .B1(n2629), .Y( Oper_Start_in_module_intm[7]) ); AOI22X1TS U3546 ( .A0(n2630), .A1(n2993), .B0(n2959), .B1(n2629), .Y( Oper_Start_in_module_intm[8]) ); AOI22X1TS U3547 ( .A0(n2630), .A1(n3009), .B0(n2896), .B1(n2629), .Y( Oper_Start_in_module_intm[9]) ); AOI22X1TS U3548 ( .A0(n2630), .A1(n3047), .B0(n2887), .B1(n2629), .Y( Oper_Start_in_module_intm[10]) ); AOI22X1TS U3549 ( .A0(n2630), .A1(n2995), .B0(n2923), .B1(n2629), .Y( Oper_Start_in_module_intm[11]) ); AOI22X1TS U3550 ( .A0(n2630), .A1(n2992), .B0(n2936), .B1(n2629), .Y( Oper_Start_in_module_intm[12]) ); AOI22X1TS U3551 ( .A0(n2630), .A1(n2988), .B0(n2935), .B1(n2629), .Y( Oper_Start_in_module_intm[13]) ); AOI22X1TS U3552 ( .A0(n2630), .A1(n3012), .B0(n2901), .B1(n2629), .Y( Oper_Start_in_module_intm[14]) ); BUFX3TS U3553 ( .A(n2632), .Y(n2631) ); AOI22X1TS U3554 ( .A0(n2631), .A1(n2989), .B0(n2967), .B1(n2566), .Y( Oper_Start_in_module_intm[15]) ); AOI22X1TS U3555 ( .A0(n2631), .A1(n3006), .B0(n2937), .B1(n2564), .Y( Oper_Start_in_module_intm[16]) ); AOI22X1TS U3556 ( .A0(n2631), .A1(n3002), .B0(n2964), .B1(n2565), .Y( Oper_Start_in_module_intm[17]) ); AOI22X1TS U3557 ( .A0(n2631), .A1(n3001), .B0(n2968), .B1(n2566), .Y( Oper_Start_in_module_intm[18]) ); AOI22X1TS U3558 ( .A0(n2631), .A1(n3011), .B0(n2904), .B1(n2565), .Y( Oper_Start_in_module_intm[19]) ); AOI22X1TS U3559 ( .A0(n2631), .A1(n3000), .B0(n2942), .B1(n2564), .Y( Oper_Start_in_module_intm[20]) ); AOI22X1TS U3560 ( .A0(n2631), .A1(n2990), .B0(n2939), .B1(n2562), .Y( Oper_Start_in_module_intm[21]) ); AOI22X1TS U3561 ( .A0(n2631), .A1(n3013), .B0(n2902), .B1(n2566), .Y( Oper_Start_in_module_intm[22]) ); AOI22X1TS U3562 ( .A0(n2631), .A1(n2930), .B0(n3050), .B1(n2562), .Y( Oper_Start_in_module_intm[23]) ); AOI22X1TS U3563 ( .A0(n2631), .A1(n3003), .B0(n2898), .B1(n2565), .Y( Oper_Start_in_module_intm[24]) ); BUFX3TS U3564 ( .A(n2632), .Y(n2640) ); AOI22X1TS U3565 ( .A0(n2640), .A1(n3005), .B0(n2969), .B1(n2633), .Y( Oper_Start_in_module_intm[25]) ); AOI22X1TS U3566 ( .A0(n2640), .A1(n2998), .B0(n2965), .B1(n2633), .Y( Oper_Start_in_module_intm[26]) ); AOI22X1TS U3567 ( .A0(n2640), .A1(n3014), .B0(n2903), .B1(n2633), .Y( Oper_Start_in_module_intm[27]) ); AOI22X1TS U3568 ( .A0(n2640), .A1(n2997), .B0(n2940), .B1(n2633), .Y( Oper_Start_in_module_intm[28]) ); AOI22X1TS U3569 ( .A0(n2640), .A1(n2991), .B0(n2941), .B1(n2633), .Y( Oper_Start_in_module_intm[29]) ); AOI22X1TS U3570 ( .A0(n2640), .A1(n3010), .B0(n2899), .B1(n2633), .Y( Oper_Start_in_module_intm[30]) ); AOI22X1TS U3571 ( .A0(n2640), .A1(n2986), .B0(n2961), .B1(n2633), .Y( Oper_Start_in_module_intm[31]) ); AOI22X1TS U3572 ( .A0(n2640), .A1(n3007), .B0(n2894), .B1(n2633), .Y( Oper_Start_in_module_intm[32]) ); AOI22X1TS U3573 ( .A0(n2640), .A1(n2985), .B0(n2962), .B1(n2633), .Y( Oper_Start_in_module_intm[33]) ); BUFX3TS U3574 ( .A(n2634), .Y(n2636) ); AOI22X1TS U3575 ( .A0(n2636), .A1(n3004), .B0(n2895), .B1(n2635), .Y( Oper_Start_in_module_intm[34]) ); AOI22X1TS U3576 ( .A0(n2636), .A1(n2987), .B0(n2963), .B1(n2635), .Y( Oper_Start_in_module_intm[35]) ); AOI22X1TS U3577 ( .A0(n2636), .A1(n2994), .B0(n2960), .B1(n2635), .Y( Oper_Start_in_module_intm[36]) ); AOI22X1TS U3578 ( .A0(n2636), .A1(n924), .B0(n2934), .B1(n2635), .Y( Oper_Start_in_module_intm[37]) ); AOI22X1TS U3579 ( .A0(n2636), .A1(n3051), .B0(n2893), .B1(n2635), .Y( Oper_Start_in_module_intm[38]) ); AOI22X1TS U3580 ( .A0(n2636), .A1(n3008), .B0(n2897), .B1(n2635), .Y( Oper_Start_in_module_intm[39]) ); AOI22X1TS U3581 ( .A0(n2636), .A1(n3035), .B0(n2885), .B1(n2635), .Y( Oper_Start_in_module_intm[40]) ); AOI22X1TS U3582 ( .A0(n2636), .A1(n3017), .B0(n2928), .B1(n2635), .Y( Oper_Start_in_module_intm[41]) ); AOI22X1TS U3583 ( .A0(n2636), .A1(n3034), .B0(n2905), .B1(n2635), .Y( Oper_Start_in_module_intm[42]) ); AOI22X1TS U3584 ( .A0(n2636), .A1(n3016), .B0(n2944), .B1(n2635), .Y( Oper_Start_in_module_intm[43]) ); INVX2TS U3585 ( .A(n2637), .Y(n2638) ); AOI22X1TS U3586 ( .A0(n2569), .A1(n3031), .B0(n2925), .B1(n2638), .Y( Oper_Start_in_module_intm[44]) ); AOI22X1TS U3587 ( .A0(n2637), .A1(n3028), .B0(n2945), .B1(n2638), .Y( Oper_Start_in_module_intm[45]) ); AOI22X1TS U3588 ( .A0(n2637), .A1(n3027), .B0(n2926), .B1(n2638), .Y( Oper_Start_in_module_intm[46]) ); AOI22X1TS U3589 ( .A0(n2637), .A1(n3036), .B0(n2888), .B1(n2638), .Y( Oper_Start_in_module_intm[47]) ); AOI22X1TS U3590 ( .A0(n2637), .A1(n3032), .B0(n2927), .B1(n2638), .Y( Oper_Start_in_module_intm[48]) ); AOI22X1TS U3591 ( .A0(n2303), .A1(n3029), .B0(n2946), .B1(n2638), .Y( Oper_Start_in_module_intm[49]) ); AOI22X1TS U3592 ( .A0(n2637), .A1(n3030), .B0(n2943), .B1(n2638), .Y( Oper_Start_in_module_intm[50]) ); AOI22X1TS U3593 ( .A0(n2640), .A1(n3033), .B0(n2909), .B1(n2639), .Y( Oper_Start_in_module_intm[51]) ); NAND2X1TS U3594 ( .A(n2678), .B(n2684), .Y(n2644) ); NAND2X1TS U3595 ( .A(n2680), .B(n2687), .Y(n2643) ); NAND2X1TS U3596 ( .A(n2669), .B(n2641), .Y(n2642) ); BUFX3TS U3597 ( .A(n2645), .Y(n2840) ); AOI22X1TS U3598 ( .A0(n2649), .A1(n2840), .B0(n2851), .B1(n2673), .Y(n2646) ); OAI221XLTS U3599 ( .A0(n2676), .A1(n2647), .B0(n2711), .B1(n2675), .C0(n2646), .Y(Barrel_Shifter_module_Mux_Array_Data_array[48]) ); BUFX3TS U3600 ( .A(n2648), .Y(n2853) ); AOI22X1TS U3601 ( .A0(n2649), .A1(n2853), .B0(n2833), .B1(n2673), .Y(n2650) ); OAI221XLTS U3602 ( .A0(n2676), .A1(n2652), .B0(n1558), .B1(n2651), .C0(n2650), .Y(Barrel_Shifter_module_Mux_Array_Data_array[47]) ); NAND2X1TS U3603 ( .A(n2666), .B(n2668), .Y(n2656) ); NAND2X1TS U3604 ( .A(n2653), .B(n2687), .Y(n2655) ); NAND2X1TS U3605 ( .A(n2667), .B(n2695), .Y(n2654) ); AOI22X1TS U3606 ( .A0(n2703), .A1(n2684), .B0(n2853), .B1(n2657), .Y(n2658) ); OAI221XLTS U3607 ( .A0(n2676), .A1(n2659), .B0(n1558), .B1(n2686), .C0(n2658), .Y(Barrel_Shifter_module_Mux_Array_Data_array[46]) ); NAND2X1TS U3608 ( .A(n1890), .B(n2695), .Y(n2662) ); NAND2X1TS U3609 ( .A(n2679), .B(n2668), .Y(n2661) ); NAND2X1TS U3610 ( .A(n1889), .B(n2700), .Y(n2660) ); AOI22X1TS U3611 ( .A0(n2833), .A1(n2687), .B0(n2781), .B1(n2663), .Y(n2664) ); OAI221XLTS U3612 ( .A0(n2676), .A1(n2665), .B0(n2711), .B1(n2691), .C0(n2664), .Y(Barrel_Shifter_module_Mux_Array_Data_array[45]) ); NAND2X1TS U3613 ( .A(n2666), .B(n2700), .Y(n2672) ); NAND2X1TS U3614 ( .A(n1889), .B(n2688), .Y(n2671) ); NAND2X1TS U3615 ( .A(n2669), .B(n2668), .Y(n2670) ); AOI22X1TS U3616 ( .A0(n2832), .A1(n2695), .B0(n2870), .B1(n2673), .Y(n2674) ); OAI221XLTS U3617 ( .A0(n2676), .A1(n2675), .B0(n1558), .B1(n2694), .C0(n2674), .Y(Barrel_Shifter_module_Mux_Array_Data_array[44]) ); NAND2X1TS U3618 ( .A(n2666), .B(n2677), .Y(n2683) ); NAND2X1TS U3619 ( .A(n2679), .B(n2688), .Y(n2682) ); NAND2X1TS U3620 ( .A(n2667), .B(n2696), .Y(n2681) ); AOI22X1TS U3621 ( .A0(n2703), .A1(n2700), .B0(n2701), .B1(n2684), .Y(n2685) ); OAI221XLTS U3622 ( .A0(n2708), .A1(n2686), .B0(n2706), .B1(n2707), .C0(n2685), .Y(Barrel_Shifter_module_Mux_Array_Data_array[42]) ); AOI22X1TS U3623 ( .A0(n2833), .A1(n2688), .B0(n2781), .B1(n2687), .Y(n2689) ); OAI221XLTS U3624 ( .A0(n2708), .A1(n2691), .B0(n2706), .B1(n2690), .C0(n2689), .Y(Barrel_Shifter_module_Mux_Array_Data_array[41]) ); AOI22X1TS U3625 ( .A0(n2832), .A1(n2696), .B0(n2870), .B1(n2695), .Y(n2692) ); OAI221XLTS U3626 ( .A0(n2708), .A1(n2694), .B0(n2706), .B1(n2693), .C0(n2692), .Y(Barrel_Shifter_module_Mux_Array_Data_array[40]) ); AOI22X1TS U3627 ( .A0(n2703), .A1(n2696), .B0(n2701), .B1(n2695), .Y(n2697) ); OAI221XLTS U3628 ( .A0(n2708), .A1(n2699), .B0(n2706), .B1(n2698), .C0(n2697), .Y(Barrel_Shifter_module_Mux_Array_Data_array[39]) ); AOI22X1TS U3629 ( .A0(n2703), .A1(n2702), .B0(n2701), .B1(n2700), .Y(n2704) ); OAI221XLTS U3630 ( .A0(n2708), .A1(n2707), .B0(n2706), .B1(n2705), .C0(n2704), .Y(Barrel_Shifter_module_Mux_Array_Data_array[38]) ); AOI22X1TS U3631 ( .A0(n2870), .A1(n2709), .B0(n2865), .B1(n2746), .Y(n2716) ); AOI22X1TS U3632 ( .A0(n2833), .A1(n2731), .B0(n2850), .B1(n2752), .Y(n2715) ); AOI22X1TS U3633 ( .A0(n2851), .A1(n2738), .B0(n2781), .B1(n2710), .Y(n2714) ); NAND2X1TS U3634 ( .A(n2712), .B(n2711), .Y(n2713) ); AOI22X1TS U3635 ( .A0(n2865), .A1(n2752), .B0(n909), .B1(n2717), .Y(n2718) ); OAI31X1TS U3636 ( .A0(n2726), .A1(n2725), .A2(n2719), .B0(n2718), .Y(n2722) ); AOI22X1TS U3637 ( .A0(n2833), .A1(n2738), .B0(n2850), .B1(n2759), .Y(n2721) ); AOI22X1TS U3638 ( .A0(n2851), .A1(n2746), .B0(n913), .B1(n2731), .Y(n2720) ); AOI22X1TS U3639 ( .A0(n2851), .A1(n2752), .B0(n2850), .B1(n2767), .Y(n2723) ); AOI22X1TS U3640 ( .A0(n914), .A1(n2738), .B0(n910), .B1(n2731), .Y(n2728) ); AOI22X1TS U3641 ( .A0(n2833), .A1(n2746), .B0(n2865), .B1(n2759), .Y(n2727) ); AOI22X1TS U3642 ( .A0(n914), .A1(n2752), .B0(n911), .B1(n2746), .Y(n2735) ); AOI22X1TS U3643 ( .A0(n2840), .A1(n2738), .B0(n2839), .B1(n2773), .Y(n2734) ); AOI22X1TS U3644 ( .A0(n896), .A1(Add_Subt_result[36]), .B0(n2764), .B1( DmP[16]), .Y(n2730) ); OAI2BB1X2TS U3645 ( .A0N(Add_Subt_result[18]), .A1N(n2806), .B0(n2730), .Y( n2780) ); AOI22X1TS U3646 ( .A0(n2844), .A1(n2767), .B0(n2850), .B1(n2780), .Y(n2733) ); AOI22X1TS U3647 ( .A0(n2874), .A1(n2731), .B0(n2872), .B1(n2759), .Y(n2732) ); AOI22X1TS U3648 ( .A0(n913), .A1(n2759), .B0(n910), .B1(n2752), .Y(n2742) ); AOI22X1TS U3649 ( .A0(n2870), .A1(n2746), .B0(n2865), .B1(n2780), .Y(n2741) ); AOI22X1TS U3650 ( .A0(n2744), .A1(Add_Subt_result[37]), .B0(DmP[15]), .B1( n2736), .Y(n2737) ); OAI2BB1X2TS U3651 ( .A0N(Add_Subt_result[17]), .A1N(n2806), .B0(n2737), .Y( n2788) ); AOI22X1TS U3652 ( .A0(n2832), .A1(n2773), .B0(n2863), .B1(n2788), .Y(n2740) ); AOI22X1TS U3653 ( .A0(n2781), .A1(n2738), .B0(n2872), .B1(n2767), .Y(n2739) ); AOI22X1TS U3654 ( .A0(n914), .A1(n2767), .B0(n911), .B1(n2759), .Y(n2750) ); AOI22X1TS U3655 ( .A0(n2840), .A1(n2752), .B0(n2839), .B1(n2788), .Y(n2749) ); AOI22X1TS U3656 ( .A0(n896), .A1(Add_Subt_result[38]), .B0(n2764), .B1( DmP[14]), .Y(n2745) ); OAI2BB1X2TS U3657 ( .A0N(Add_Subt_result[16]), .A1N(n2806), .B0(n2745), .Y( n2794) ); AOI22X1TS U3658 ( .A0(n2844), .A1(n2780), .B0(n2743), .B1(n2794), .Y(n2748) ); AOI22X1TS U3659 ( .A0(n2854), .A1(n2773), .B0(n2853), .B1(n2746), .Y(n2747) ); AOI22X1TS U3660 ( .A0(n913), .A1(n2773), .B0(n910), .B1(n2767), .Y(n2756) ); AOI22X1TS U3661 ( .A0(n2870), .A1(n2759), .B0(n2865), .B1(n2794), .Y(n2755) ); AOI22X1TS U3662 ( .A0(n2859), .A1(Add_Subt_result[39]), .B0(n2764), .B1( DmP[13]), .Y(n2751) ); OAI21X4TS U3663 ( .A0(n2787), .A1(n2999), .B0(n2751), .Y(n2800) ); AOI22X1TS U3664 ( .A0(n2832), .A1(n2788), .B0(n2863), .B1(n2800), .Y(n2754) ); AOI22X1TS U3665 ( .A0(n2874), .A1(n2752), .B0(n2872), .B1(n2780), .Y(n2753) ); AOI22X1TS U3666 ( .A0(n913), .A1(n2780), .B0(n910), .B1(n2773), .Y(n2763) ); AOI22X1TS U3667 ( .A0(n2870), .A1(n2767), .B0(n2757), .B1(n2800), .Y(n2762) ); AOI22X1TS U3668 ( .A0(n2616), .A1(Add_Subt_result[40]), .B0(n2764), .B1( DmP[12]), .Y(n2758) ); OAI2BB1X2TS U3669 ( .A0N(Add_Subt_result[14]), .A1N(n2806), .B0(n2758), .Y( n2807) ); AOI22X1TS U3670 ( .A0(n2844), .A1(n2794), .B0(n2743), .B1(n2807), .Y(n2761) ); AOI22X1TS U3671 ( .A0(n2854), .A1(n2788), .B0(n2853), .B1(n2759), .Y(n2760) ); AOI22X1TS U3672 ( .A0(n914), .A1(n2788), .B0(n911), .B1(n2780), .Y(n2771) ); AOI22X1TS U3673 ( .A0(n2840), .A1(n2773), .B0(n2839), .B1(n2807), .Y(n2770) ); AOI22X1TS U3674 ( .A0(n1265), .A1(Add_Subt_result[41]), .B0(n2764), .B1( DmP[11]), .Y(n2765) ); OAI21X4TS U3675 ( .A0(n2766), .A1(n3026), .B0(n2765), .Y(n2813) ); AOI22X1TS U3676 ( .A0(n2844), .A1(n2800), .B0(n2743), .B1(n2813), .Y(n2769) ); AOI22X1TS U3677 ( .A0(n2874), .A1(n2767), .B0(n2872), .B1(n2794), .Y(n2768) ); AOI22X1TS U3678 ( .A0(n913), .A1(n2794), .B0(n910), .B1(n2788), .Y(n2777) ); AOI22X1TS U3679 ( .A0(n2645), .A1(n2780), .B0(n2757), .B1(n2813), .Y(n2776) ); AOI22X1TS U3680 ( .A0(n2616), .A1(Add_Subt_result[42]), .B0(n2841), .B1( DmP[10]), .Y(n2772) ); OAI2BB1X2TS U3681 ( .A0N(Add_Subt_result[12]), .A1N(n2806), .B0(n2772), .Y( n2820) ); AOI22X1TS U3682 ( .A0(n2844), .A1(n2807), .B0(n2743), .B1(n2820), .Y(n2775) ); AOI22X1TS U3683 ( .A0(n2854), .A1(n2800), .B0(n2853), .B1(n2773), .Y(n2774) ); AOI22X1TS U3684 ( .A0(n913), .A1(n2800), .B0(n910), .B1(n2794), .Y(n2785) ); AOI22X1TS U3685 ( .A0(n2840), .A1(n2788), .B0(n2839), .B1(n2820), .Y(n2784) ); AOI22X1TS U3686 ( .A0(n1909), .A1(Add_Subt_result[43]), .B0(n2841), .B1( DmP[9]), .Y(n2778) ); OAI21X4TS U3687 ( .A0(n2787), .A1(n3020), .B0(n2778), .Y(n2826) ); AOI22X1TS U3688 ( .A0(n2844), .A1(n2813), .B0(n2743), .B1(n2826), .Y(n2783) ); AOI22X1TS U3689 ( .A0(n2781), .A1(n2780), .B0(n2779), .B1(n2807), .Y(n2782) ); AOI22X1TS U3690 ( .A0(n914), .A1(n2807), .B0(n911), .B1(n2800), .Y(n2792) ); AOI22X1TS U3691 ( .A0(n2645), .A1(n2794), .B0(n2757), .B1(n2826), .Y(n2791) ); AOI22X1TS U3692 ( .A0(n896), .A1(Add_Subt_result[44]), .B0(n2841), .B1( DmP[8]), .Y(n2786) ); OAI21X4TS U3693 ( .A0(n2787), .A1(n2996), .B0(n2786), .Y(n2834) ); AOI22X1TS U3694 ( .A0(n2844), .A1(n2820), .B0(n2743), .B1(n2834), .Y(n2790) ); AOI22X1TS U3695 ( .A0(n2854), .A1(n2813), .B0(n2853), .B1(n2788), .Y(n2789) ); AOI22X1TS U3696 ( .A0(n914), .A1(n2813), .B0(n910), .B1(n2807), .Y(n2798) ); AOI22X1TS U3697 ( .A0(n2645), .A1(n2800), .B0(n2757), .B1(n2834), .Y(n2797) ); AOI22X1TS U3698 ( .A0(n2859), .A1(Add_Subt_result[45]), .B0(DmP[7]), .B1( n2818), .Y(n2793) ); OAI2BB1X2TS U3699 ( .A0N(Add_Subt_result[9]), .A1N(n2806), .B0(n2793), .Y( n2845) ); AOI22X1TS U3700 ( .A0(n2832), .A1(n2826), .B0(n2863), .B1(n2845), .Y(n2796) ); AOI22X1TS U3701 ( .A0(n2874), .A1(n2794), .B0(n2872), .B1(n2820), .Y(n2795) ); AOI22X1TS U3702 ( .A0(n914), .A1(n2820), .B0(n911), .B1(n2813), .Y(n2804) ); AOI22X1TS U3703 ( .A0(n2840), .A1(n2807), .B0(n2839), .B1(n2845), .Y(n2803) ); AOI22X1TS U3704 ( .A0(n2842), .A1(Add_Subt_result[46]), .B0(DmP[6]), .B1( n2818), .Y(n2799) ); OAI2BB1X2TS U3705 ( .A0N(Add_Subt_result[8]), .A1N(n2806), .B0(n2799), .Y( n2852) ); AOI22X1TS U3706 ( .A0(n2832), .A1(n2834), .B0(n2863), .B1(n2852), .Y(n2802) ); AOI22X1TS U3707 ( .A0(n2874), .A1(n2800), .B0(n2872), .B1(n2826), .Y(n2801) ); AOI22X1TS U3708 ( .A0(n913), .A1(n2826), .B0(n911), .B1(n2820), .Y(n2811) ); AOI22X1TS U3709 ( .A0(n2840), .A1(n2813), .B0(n2839), .B1(n2852), .Y(n2810) ); AOI22X1TS U3710 ( .A0(n2842), .A1(Add_Subt_result[47]), .B0(n2841), .B1( DmP[5]), .Y(n2805) ); OAI2BB1X2TS U3711 ( .A0N(Add_Subt_result[7]), .A1N(n2806), .B0(n2805), .Y( n2873) ); AOI22X1TS U3712 ( .A0(n2832), .A1(n2845), .B0(n2863), .B1(n2873), .Y(n2809) ); AOI22X1TS U3713 ( .A0(n2874), .A1(n2807), .B0(n2833), .B1(n2834), .Y(n2808) ); AOI22X1TS U3714 ( .A0(n914), .A1(n2834), .B0(n911), .B1(n2826), .Y(n2817) ); AOI22X1TS U3715 ( .A0(n2645), .A1(n2820), .B0(n2757), .B1(n2873), .Y(n2816) ); AOI22X1TS U3716 ( .A0(n2842), .A1(Add_Subt_result[48]), .B0(n2841), .B1( DmP[4]), .Y(n2812) ); OAI2BB1X2TS U3717 ( .A0N(Add_Subt_result[6]), .A1N(n2860), .B0(n2812), .Y( n2869) ); AOI22X1TS U3718 ( .A0(n2832), .A1(n2852), .B0(n2863), .B1(n2869), .Y(n2815) ); AOI22X1TS U3719 ( .A0(n2854), .A1(n2845), .B0(n2853), .B1(n2813), .Y(n2814) ); AOI22X1TS U3720 ( .A0(n912), .A1(n2845), .B0(n909), .B1(n2834), .Y(n2824) ); AOI22X1TS U3721 ( .A0(n2645), .A1(n2826), .B0(n2757), .B1(n2869), .Y(n2823) ); AOI22X1TS U3722 ( .A0(n2842), .A1(Add_Subt_result[49]), .B0(DmP[3]), .B1( n2818), .Y(n2819) ); OAI2BB1X2TS U3723 ( .A0N(Add_Subt_result[5]), .A1N(n2860), .B0(n2819), .Y( n2861) ); AOI22X1TS U3724 ( .A0(n2851), .A1(n2873), .B0(n2863), .B1(n2861), .Y(n2822) ); AOI22X1TS U3725 ( .A0(n2854), .A1(n2852), .B0(n2853), .B1(n2820), .Y(n2821) ); AOI22X1TS U3726 ( .A0(n912), .A1(n2852), .B0(n909), .B1(n2845), .Y(n2830) ); AOI22X1TS U3727 ( .A0(n2840), .A1(n2834), .B0(n2839), .B1(n2861), .Y(n2829) ); AOI22X1TS U3728 ( .A0(n2842), .A1(Add_Subt_result[50]), .B0(n2841), .B1( DmP[2]), .Y(n2825) ); OAI2BB1X2TS U3729 ( .A0N(Add_Subt_result[4]), .A1N(n2860), .B0(n2825), .Y( n2866) ); AOI22X1TS U3730 ( .A0(n2844), .A1(n2869), .B0(n2743), .B1(n2866), .Y(n2828) ); AOI22X1TS U3731 ( .A0(n2874), .A1(n2826), .B0(n2872), .B1(n2873), .Y(n2827) ); AOI22X1TS U3732 ( .A0(n912), .A1(n2873), .B0(n909), .B1(n2852), .Y(n2838) ); AOI22X1TS U3733 ( .A0(n2840), .A1(n2845), .B0(n2839), .B1(n2866), .Y(n2837) ); AOI22X1TS U3734 ( .A0(n2842), .A1(Add_Subt_result[51]), .B0(n2841), .B1( DmP[1]), .Y(n2831) ); OAI2BB1X1TS U3735 ( .A0N(Add_Subt_result[3]), .A1N(n2860), .B0(n2831), .Y( n2871) ); AOI22X1TS U3736 ( .A0(n2832), .A1(n2861), .B0(n2850), .B1(n2871), .Y(n2836) ); AOI22X1TS U3737 ( .A0(n2874), .A1(n2834), .B0(n2833), .B1(n2869), .Y(n2835) ); AOI22X1TS U3738 ( .A0(n912), .A1(n2869), .B0(n909), .B1(n2873), .Y(n2849) ); AOI22X1TS U3739 ( .A0(n2840), .A1(n2852), .B0(n2839), .B1(n2871), .Y(n2848) ); AOI22X1TS U3740 ( .A0(n2842), .A1(Add_Subt_result[52]), .B0(n2841), .B1( DmP[0]), .Y(n2843) ); OAI2BB1X1TS U3741 ( .A0N(Add_Subt_result[2]), .A1N(n2860), .B0(n2843), .Y( n2867) ); AOI22X1TS U3742 ( .A0(n2844), .A1(n2866), .B0(n2850), .B1(n2867), .Y(n2847) ); AOI22X1TS U3743 ( .A0(n2854), .A1(n2861), .B0(n2853), .B1(n2845), .Y(n2846) ); AOI22X1TS U3744 ( .A0(n912), .A1(n2861), .B0(n910), .B1(n2869), .Y(n2858) ); AOI22X1TS U3745 ( .A0(n2645), .A1(n2873), .B0(n2865), .B1(n2867), .Y(n2857) ); AOI22X1TS U3746 ( .A0(n2851), .A1(n2871), .B0(n2850), .B1(n2864), .Y(n2856) ); AOI22X1TS U3747 ( .A0(n2854), .A1(n2866), .B0(n2853), .B1(n2852), .Y(n2855) ); AOI22X1TS U3748 ( .A0(n2863), .A1(n2862), .B0(n911), .B1(n2861), .Y(n2878) ); AOI22X1TS U3749 ( .A0(n912), .A1(n2866), .B0(n2865), .B1(n2864), .Y(n2877) ); AOI22X1TS U3750 ( .A0(n2870), .A1(n2869), .B0(n2868), .B1(n2867), .Y(n2876) ); AOI22X1TS U3751 ( .A0(n2874), .A1(n2873), .B0(n2872), .B1(n2871), .Y(n2875) ); CLKBUFX2TS U3752 ( .A(n2880), .Y(n2881) ); INVX2TS U3754 ( .A(ack_FSM), .Y(n2882) ); NAND2X1TS U3755 ( .A(n2884), .B(n2883), .Y(FSM_barrel_shifter_load) ); initial $sdf_annotate("FPU_Add_Subtract_Function_ASIC_fpu_syn_constraints_clk10.tcl_GATED_syn.sdf"); endmodule
module header // Internal signals // // Generated Signal List // wire bidi_pad_di; wire bidi_pad_do; wire bidi_pad_en; wire ext0_pad_di; wire ext1_pad_do; wire ext2_pad_do; wire vec_in_0_pad_di; wire vec_in_1_pad_di; wire vec_in_2_pad_di; wire vec_in_3_pad_di; wire vec_in_4_pad_di; wire vec_in_5_pad_di; wire vec_in_6_pad_di; wire vec_in_7_pad_di; wire vec_out_0_pad_do; wire vec_out_1_pad_do; wire vec_out_2_pad_do; wire vec_out_3_pad_do; // // End of Generated Signal List // // %COMPILER_OPTS% // // Generated Signal Assignments // // // Generated Instances and Port Mappings // // Generated Instance Port Map for lp_bs_i1 lp_bs lp_bs_i1 ( // LP bs .bidi_pad_di(bidi_pad_di), // from EXTERNALPAD <-> Iocell connect (IO) .bidi_pad_do(bidi_pad_do), // to EXTERNALPAD <-> Iocell connect (IO) .bidi_pad_en(bidi_pad_en), // to EXTERNALPAD <-> Iocell connect (IO) .ext0_pad_di(ext0_pad_di), // from EXTERNALPAD <-> Iocell connect (IO) .ext1_pad_do(ext1_pad_do), // from bluePAD <-> Iocell connect (IO) .ext2_pad_do(ext2_pad_do), // from bluePAD <-> Iocell connect (IO) .vec_in_0_pad_di(vec_in_0_pad_di), // testPAD <-> Iocell connect (IO) .vec_in_1_pad_di(vec_in_1_pad_di), // testPAD <-> Iocell connect (IO) .vec_in_2_pad_di(vec_in_2_pad_di), // testPAD <-> Iocell connect (IO) .vec_in_3_pad_di(vec_in_3_pad_di), // testPAD <-> Iocell connect (IO) .vec_in_4_pad_di(vec_in_4_pad_di), // testPAD <-> Iocell connect (IO) .vec_in_5_pad_di(vec_in_5_pad_di), // testPAD <-> Iocell connect (IO) .vec_in_6_pad_di(vec_in_6_pad_di), // testPAD <-> Iocell connect (IO) .vec_in_7_pad_di(vec_in_7_pad_di), // testPAD <-> Iocell connect (IO) .vec_out_0_pad_do(vec_out_0_pad_do), // testPAD <-> Iocell connect (IO) .vec_out_1_pad_do(vec_out_1_pad_do), // testPAD <-> Iocell connect (IO) .vec_out_2_pad_do(vec_out_2_pad_do), // testPAD <-> Iocell connect (IO) .vec_out_3_pad_do(vec_out_3_pad_do) // testPAD <-> Iocell connect (IO) ); // End of Generated Instance Port Map for lp_bs_i1 // Generated Instance Port Map for lp_padframe_i1 lp_padframe lp_padframe_i1 ( // LP padframe .bidi(bidi), // PAD <-> Iocell connect (IO) .bidi_pad_di(bidi_pad_di), // from EXTERNALPAD <-> Iocell connect (IO) .bidi_pad_do(bidi_pad_do), // to EXTERNALPAD <-> Iocell connect (IO) .bidi_pad_en(bidi_pad_en), // to EXTERNALPAD <-> Iocell connect (IO) .ext0(ext0), // PAD <-> Iocell connect (IO) .ext0_pad_di(ext0_pad_di), // from EXTERNALPAD <-> Iocell connect (IO) .ext1(ext1), // PAD <-> Iocell connect (IO) .ext1_pad_do(ext1_pad_do), // from bluePAD <-> Iocell connect (IO) .ext2(ext2), // PAD <-> Iocell connect (IO) .ext2_pad_do(ext2_pad_do), // from bluePAD <-> Iocell connect (IO) .vec_in_0(vec_in_0), // PAD <-> Iocell connect (IO) .vec_in_0_pad_di(vec_in_0_pad_di), // testPAD <-> Iocell connect (IO) .vec_in_1(vec_in_1), // PAD <-> Iocell connect (IO) .vec_in_1_pad_di(vec_in_1_pad_di), // testPAD <-> Iocell connect (IO) .vec_in_2(vec_in_2), // PAD <-> Iocell connect (IO) .vec_in_2_pad_di(vec_in_2_pad_di), // testPAD <-> Iocell connect (IO) .vec_in_3(vec_in_3), // PAD <-> Iocell connect (IO) .vec_in_3_pad_di(vec_in_3_pad_di), // testPAD <-> Iocell connect (IO) .vec_in_4(vec_in_4), // PAD <-> Iocell connect (IO) .vec_in_4_pad_di(vec_in_4_pad_di), // testPAD <-> Iocell connect (IO) .vec_in_5(vec_in_5), // PAD <-> Iocell connect (IO) .vec_in_5_pad_di(vec_in_5_pad_di), // testPAD <-> Iocell connect (IO) .vec_in_6(vec_in_6), // PAD <-> Iocell connect (IO) .vec_in_6_pad_di(vec_in_6_pad_di), // testPAD <-> Iocell connect (IO) .vec_in_7(vec_in_7), // PAD <-> Iocell connect (IO) .vec_in_7_pad_di(vec_in_7_pad_di), // testPAD <-> Iocell connect (IO) .vec_out_0(vec_out_0), // PAD <-> Iocell connect (IO) .vec_out_0_pad_do(vec_out_0_pad_do), // testPAD <-> Iocell connect (IO) .vec_out_1(vec_out_1), // PAD <-> Iocell connect (IO) .vec_out_1_pad_do(vec_out_1_pad_do), // testPAD <-> Iocell connect (IO) .vec_out_2(vec_out_2), // PAD <-> Iocell connect (IO) .vec_out_2_pad_do(vec_out_2_pad_do), // testPAD <-> Iocell connect (IO) .vec_out_3(vec_out_3), // PAD <-> Iocell connect (IO) .vec_out_3_pad_do(vec_out_3_pad_do) // testPAD <-> Iocell connect (IO) ); // End of Generated Instance Port Map for lp_padframe_i1 endmodule
module alu_testbench (); reg [15:0] A, B; reg [4:0] Op; reg Swap; wire [15:0] Q; wire Carry, Zero, Sign; BitsliceALU DUT (A, B, Op, Q, Flags); task test_vector; input [4:0] testOp; input [15:0] testA, testB; input [15:0] expectQ; input expectCarry, expectZero, expectMinus1; begin $display($time, "M=%b, S=%h, Cn=%b, A = %h, B = %h", testOp, testSwap, testA, testB); A = testA; B = testB; Op = testOp; Swap = testSwap; #10 if ( (Q==expectQ) && (Carry==expectCarry) && (Zero==expectZero) && (Minus1==expectMinus1) ) $display($time, " passed."); else begin if (Q != expectQ) $display($time, " ... FAILED with Q = %h", Q); if (Carry != expectCarry) $display($time, " ... FAILED with Carry = %h", Carry); if (Zero != expectZero) $display($time, " ... FAILED with Zero = %h", Zero); if (Minus1 != expectMinus1) $display($time, " ... FAILED with Minus1 = %h", Minus1); end end endtask initial begin $display($time, " ##### Testing addition... #####"); // MSSSS AAAA BBBB QQQQ C Z M1 #10 test_vector(5'b01001,1'b1,16'h4444,16'h2345,16'h8967,1'b0,1'b0,1'b0); #10 test_vector(5'b01001,1'b0,16'hf00f,16'hc7c8,16'hb7d7,1'b1,1'b0,1'b0); #10 test_vector(5'b01001,1'b1,16'h3cc3,16'h7cc7,16'h8ab9,1'b0,1'b0,1'b0); #10 test_vector(5'b01001,1'b0,16'hff00,16'h0100,16'h0000,1'b1,1'b1,1'b0); #10 test_vector(5'b01001,1'b1,16'h0000,16'h0000,16'h0000,1'b0,1'b1,1'b0); #10 test_vector(5'b01001,1'b0,16'h7777,16'h8888,16'hffff,1'b0,1'b0,1'b1); end endmodule
module sky130_fd_sc_ls__o32a ( X , A1, A2, A3, B1, B2 ); // Module ports output X ; input A1; input A2; input A3; input B1; input B2; // Module supplies supply1 VPWR; supply0 VGND; supply1 VPB ; supply0 VNB ; // Local signals wire or0_out ; wire or1_out ; wire and0_out_X; // Name Output Other arguments or or0 (or0_out , A2, A1, A3 ); or or1 (or1_out , B2, B1 ); and and0 (and0_out_X, or0_out, or1_out); buf buf0 (X , and0_out_X ); endmodule
module fpu_div_exp_dp ( inq_in1, inq_in2, d1stg_step, d234stg_fdiv, div_expadd1_in1_dbl, div_expadd1_in1_sng, div_expadd1_in2_exp_in2_dbl, div_expadd1_in2_exp_in2_sng, d3stg_fdiv, d4stg_fdiv, div_shl_cnt, div_exp1_expadd1, div_exp1_0835, div_exp1_0118, div_exp1_zero, div_exp1_load, div_expadd2_in1_exp_out, d5stg_fdiva, d5stg_fdivd, d5stg_fdivs, d6stg_fdiv, d7stg_fdiv, div_expadd2_no_decr_inv, div_expadd2_cin, div_exp_out_expadd2, div_exp_out_expadd22_inv, div_exp_out_of, d7stg_to_0_inv, d7stg_fdivd, div_exp_out_exp_out, d7stg_rndup_inv, div_frac_add_52_inv, div_exp_out_load, fdiv_clken_l, rclk, div_exp1, div_expadd2_12, div_exp_out, div_exp_outa, se, si, so ); input [62:52] inq_in1; // request operand 1 to op pipes input [62:52] inq_in2; // request operand 2 to op pipes input d1stg_step; // divide pipe load input d234stg_fdiv; // select line to div_expadd1 input div_expadd1_in1_dbl; // select line to div_expadd1 input div_expadd1_in1_sng; // select line to div_expadd1 input div_expadd1_in2_exp_in2_dbl; // select line to div_expadd1 input div_expadd1_in2_exp_in2_sng; //select line to div_expadd1 input d3stg_fdiv; // divide operation- divide stage 3 input d4stg_fdiv; // divide operation- divide stage 4 input [5:0] div_shl_cnt; // divide left shift amount input div_exp1_expadd1; // select line to div_exp1 input div_exp1_0835; // select line to div_exp1 input div_exp1_0118; // select line to div_exp1 input div_exp1_zero; // select line to div_exp1 input div_exp1_load; // load enable to div_exp1 input div_expadd2_in1_exp_out; // select line to div_expadd2 input d5stg_fdiva; // divide operation- divide stage 5 input d5stg_fdivd; // divide double- divide stage 5 input d5stg_fdivs; // divide single- divide stage 5 input d6stg_fdiv; // divide operation- divide stage 6 input d7stg_fdiv; // divide operation- divide stage 7 input div_expadd2_no_decr_inv; // no exponent decrement input div_expadd2_cin; // carry in to 2nd exponent adder input div_exp_out_expadd2; // select line to div_exp_out input div_exp_out_expadd22_inv; // select line to div_exp_out input div_exp_out_of; // overflow to exponent output input d7stg_to_0_inv; // result to infinity on overflow input d7stg_fdivd; // divide double- divide stage 7 input div_exp_out_exp_out; // select line to div_exp_out input d7stg_rndup_inv; // no rounding increment input div_frac_add_52_inv; // div_frac_add bit[52] inverted input div_exp_out_load; // load enable to div_exp_out input fdiv_clken_l; // div pipe clk enable - asserted low input rclk; // global clock output [12:0] div_exp1; // divide exponent- intermediate value output div_expadd2_12; // divide exponent- 2nd adder output output [12:0] div_exp_out; // divide exponent output output [10:0] div_exp_outa; // divide exponent output- buffered copy input se; // scan_enable input si; // scan in output so; // scan out wire [10:0] div_exp_in1; wire [10:0] div_exp_in2; wire [12:0] div_expadd1_in1; wire [12:0] div_expadd1_in2; wire [12:0] div_expadd1; wire [12:0] div_exp1_in; wire [12:0] div_exp1; wire [12:0] div_expadd2_in1; wire [12:0] div_expadd2_in2; wire [12:0] div_expadd2; wire div_expadd2_12; wire [12:0] div_exp_out_in; wire [12:0] div_exp_out; wire [10:0] div_exp_outa; wire se_l; assign se_l = ~se; clken_buf ckbuf_div_exp_dp ( .clk(clk), .rclk(rclk), .enb_l(fdiv_clken_l), .tmb_l(se_l) ); /////////////////////////////////////////////////////////////////////////////// // // Divide exponent inputs. // /////////////////////////////////////////////////////////////////////////////// dffe #(11) i_div_exp_in1 ( .din (inq_in1[62:52]), .en (d1stg_step), .clk (clk), .q (div_exp_in1[10:0]), .se (se), .si (), .so () ); dffe #(11) i_div_exp_in2 ( .din (inq_in2[62:52]), .en (d1stg_step), .clk (clk), .q (div_exp_in2[10:0]), .se (se), .si (), .so () ); /////////////////////////////////////////////////////////////////////////////// // // Divide exponent adder in the front end of the divide pipe. // /////////////////////////////////////////////////////////////////////////////// assign div_expadd1_in1[12:0]= ({13{d234stg_fdiv}} & div_exp1[12:0]) \| ({13{div_expadd1_in1_dbl}} & {2'b0, div_exp_in1[10:0]}) \| ({13{div_expadd1_in1_sng}} & {5'b0, div_exp_in1[10:3]}); assign div_expadd1_in2[12:0]= ({13{div_expadd1_in1_dbl}} & 13'h0436) \| ({13{div_expadd1_in1_sng}} & 13'h0099) \| ({13{div_expadd1_in2_exp_in2_dbl}} & (~{2'b0, div_exp_in2[10:0]})) \| ({13{div_expadd1_in2_exp_in2_sng}} & (~{5'b0, div_exp_in2[10:3]})) \| ({13{d3stg_fdiv}} & (~{7'b0, div_shl_cnt[5:0]})) \| ({13{d4stg_fdiv}} & {7'b0, div_shl_cnt[5:0]}); assign div_expadd1[12:0]= (div_expadd1_in1[12:0] + div_expadd1_in2[12:0]); assign div_exp1_in[12:0]= ({13{div_exp1_expadd1}} & div_expadd1[12:0]) \| ({13{div_exp1_0835}} & 13'h0835) \| ({13{div_exp1_0118}} & 13'h0118) \| ({13{div_exp1_zero}} & 13'h0000); dffe #(13) i_div_exp1 ( .din (div_exp1_in[12:0]), .en (div_exp1_load), .clk (clk), .q (div_exp1[12:0]), .se (se), .si (), .so () ); /////////////////////////////////////////////////////////////////////////////// // // Divide exponent adder in the back end of the divide pipe. // /////////////////////////////////////////////////////////////////////////////// assign div_expadd2_in1[12:0]= ({13{div_expadd2_in1_exp_out}} & div_exp_out[12:0]) \| ({13{d5stg_fdiva}} & div_exp1[12:0]); assign div_expadd2_in2[12:0]= ({13{d5stg_fdiva}} & {7'h7f, d5stg_fdivs, 1'b0, d5stg_fdivd, d5stg_fdivs, 1'b1, d5stg_fdivs}) \| ({13{d6stg_fdiv}} & {13{div_expadd2_no_decr_inv}}) \| ({13{d7stg_fdiv}} & 13'h0000); assign div_expadd2[12:0]= (div_expadd2_in1[12:0] + div_expadd2_in2[12:0] + {12'b0, div_expadd2_cin}); assign div_expadd2_12 = div_expadd2[12]; assign div_exp_out_in[12:0]= ({13{(div_exp_out_expadd2 && (!(div_frac_add_52_inv && div_exp_out_expadd22_inv)))}} & div_expadd2[12:0]) \| ({13{div_exp_out_of}} & {2'b00, {3{d7stg_fdivd}}, 7'h7f, d7stg_to_0_inv}) \| ({13{(div_exp_out_exp_out && (div_frac_add_52_inv \|\| d7stg_rndup_inv))}} & div_exp_out[12:0]); dffe #(13) i_div_exp_out ( .din (div_exp_out_in[12:0]), .en (div_exp_out_load), .clk (clk), .q (div_exp_out[12:0]), .se (se), .si (), .so () ); assign div_exp_outa[10:0]= div_exp_out[10:0]; endmodule
module axi_spi_test; // Inputs reg clk_i; reg reset_n_i; reg awvalid_i; reg [27:0] awaddr_i; reg awprot_i; reg wvalid_i; reg [31:0] wdata_i; reg [3:0] wstrb_i; reg bready_i; reg arvalid_i; reg [27:0] araddr_i; reg [2:0] arprot_i; reg rready_i; reg spi_miso_i; // Outputs wire awready_o; wire wready_o; wire bvalid_o; wire [1:0] bresp_o; wire arready_o; wire rvalid_o; wire [31:0] rdata_o; wire [1:0] rresp_o; wire [3:0] spi_ssel_o; wire spi_sck_o; wire spi_mosi_o; // Instantiate the Unit Under Test (UUT) axi_spi_if uut ( .clk_i(clk_i), .reset_n_i(reset_n_i), .awvalid_i(awvalid_i), .awready_o(awready_o), .awaddr_i(awaddr_i), .awprot_i(awprot_i), .wvalid_i(wvalid_i), .wready_o(wready_o), .wdata_i(wdata_i), .wstrb_i(wstrb_i), .bvalid_o(bvalid_o), .bready_i(bready_i), .bresp_o(bresp_o), .arvalid_i(arvalid_i), .arready_o(arready_o), .araddr_i(araddr_i), .arprot_i(arprot_i), .rvalid_o(rvalid_o), .rready_i(rready_i), .rdata_o(rdata_o), .rresp_o(rresp_o), .spi_ssel_o(spi_ssel_o), .spi_sck_o(spi_sck_o), .spi_mosi_o(spi_mosi_o), .spi_miso_i(spi_miso_i) ); initial begin // Initialize Inputs clk_i = 0; reset_n_i = 0; awvalid_i = 0; awaddr_i = 0; awprot_i = 0; wvalid_i = 0; wdata_i = 0; wstrb_i = 0; bready_i = 0; arvalid_i = 0; araddr_i = 0; arprot_i = 0; rready_i = 0; spi_miso_i = 0; // Wait 100 ns for global reset to finish #100; // Add stimulus here reset_n_i = 1; spi_miso_i = 1; /* reg_control_i = 32'h0000_0602; reg_trans_ctrl_i = 32'h0000_0002; */ wdata_i = 32'h0000_0602; awaddr_i = 0; awvalid_i = 1; wvalid_i = 1; wait(awready_o && wready_o); @(posedge clk_i) #1; awvalid_i = 0; wvalid_i = 0; #1000; wdata_i = 32'h0000_0002; awaddr_i = 1; awvalid_i = 1; wvalid_i = 1; wait(awready_o && wready_o); @(posedge clk_i) #1; awvalid_i = 0; wvalid_i = 0; #100; wdata_i = 32'h0000_0073; awaddr_i = 3; awvalid_i = 1; wvalid_i = 1; wait(awready_o && wready_o); @(posedge clk_i) #1; awvalid_i = 0; wvalid_i = 0; #100; wdata_i = 32'h0000_0073; awaddr_i = 4; awvalid_i = 1; wvalid_i = 1; wait(awready_o && wready_o); @(posedge clk_i) #1; awvalid_i = 0; wvalid_i = 0; #100; end always #5 clk_i = ~clk_i; endmodule
module sky130_fd_sc_lp__or4b ( X , A , B , C , D_N ); // Module ports output X ; input A ; input B ; input C ; input D_N; // Module supplies supply1 VPWR; supply0 VGND; supply1 VPB ; supply0 VNB ; // Local signals wire not0_out ; wire or0_out_X; // Name Output Other arguments not not0 (not0_out , D_N ); or or0 (or0_out_X, not0_out, C, B, A); buf buf0 (X , or0_out_X ); endmodule
module sky130_fd_sc_lp__or3 ( X , A , B , C , VPWR, VGND, VPB , VNB ); // Module ports output X ; input A ; input B ; input C ; input VPWR; input VGND; input VPB ; input VNB ; // Local signals wire or0_out_X ; wire pwrgood_pp0_out_X; // Name Output Other arguments or or0 (or0_out_X , B, A, C ); sky130_fd_sc_lp__udp_pwrgood_pp$PG pwrgood_pp0 (pwrgood_pp0_out_X, or0_out_X, VPWR, VGND); buf buf0 (X , pwrgood_pp0_out_X ); endmodule
module sky130_fd_sc_hdll__isobufsrc ( X , SLEEP, A , VPWR , VGND , VPB , VNB ); // Module ports output X ; input SLEEP; input A ; input VPWR ; input VGND ; input VPB ; input VNB ; // Local signals wire not0_out ; wire and0_out_X ; wire pwrgood_pp0_out_X; // Name Output Other arguments not not0 (not0_out , SLEEP ); and and0 (and0_out_X , not0_out, A ); sky130_fd_sc_hdll__udp_pwrgood_pp$PG$S pwrgood_pp0 (pwrgood_pp0_out_X, and0_out_X, VPWR, VGND, SLEEP); buf buf0 (X , pwrgood_pp0_out_X ); endmodule
module instantiated with wrong parameters"); $stop; end instantiated_with_wrong_parameters_error_see_comment_above s2f_width_check ( .error(1'b1) ); end endgenerate spw_babasu_hps_0_fpga_interfaces fpga_interfaces ( .h2f_rst_n (h2f_rst_n), // h2f_reset.reset_n .h2f_axi_clk (h2f_axi_clk), // h2f_axi_clock.clk .h2f_AWID (h2f_AWID), // h2f_axi_master.awid .h2f_AWADDR (h2f_AWADDR), // .awaddr .h2f_AWLEN (h2f_AWLEN), // .awlen .h2f_AWSIZE (h2f_AWSIZE), // .awsize .h2f_AWBURST (h2f_AWBURST), // .awburst .h2f_AWLOCK (h2f_AWLOCK), // .awlock .h2f_AWCACHE (h2f_AWCACHE), // .awcache .h2f_AWPROT (h2f_AWPROT), // .awprot .h2f_AWVALID (h2f_AWVALID), // .awvalid .h2f_AWREADY (h2f_AWREADY), // .awready .h2f_WID (h2f_WID), // .wid .h2f_WDATA (h2f_WDATA), // .wdata .h2f_WSTRB (h2f_WSTRB), // .wstrb .h2f_WLAST (h2f_WLAST), // .wlast .h2f_WVALID (h2f_WVALID), // .wvalid .h2f_WREADY (h2f_WREADY), // .wready .h2f_BID (h2f_BID), // .bid .h2f_BRESP (h2f_BRESP), // .bresp .h2f_BVALID (h2f_BVALID), // .bvalid .h2f_BREADY (h2f_BREADY), // .bready .h2f_ARID (h2f_ARID), // .arid .h2f_ARADDR (h2f_ARADDR), // .araddr .h2f_ARLEN (h2f_ARLEN), // .arlen .h2f_ARSIZE (h2f_ARSIZE), // .arsize .h2f_ARBURST (h2f_ARBURST), // .arburst .h2f_ARLOCK (h2f_ARLOCK), // .arlock .h2f_ARCACHE (h2f_ARCACHE), // .arcache .h2f_ARPROT (h2f_ARPROT), // .arprot .h2f_ARVALID (h2f_ARVALID), // .arvalid .h2f_ARREADY (h2f_ARREADY), // .arready .h2f_RID (h2f_RID), // .rid .h2f_RDATA (h2f_RDATA), // .rdata .h2f_RRESP (h2f_RRESP), // .rresp .h2f_RLAST (h2f_RLAST), // .rlast .h2f_RVALID (h2f_RVALID), // .rvalid .h2f_RREADY (h2f_RREADY) // .rready ); spw_babasu_hps_0_hps_io hps_io ( .mem_a (mem_a), // memory.mem_a .mem_ba (mem_ba), // .mem_ba .mem_ck (mem_ck), // .mem_ck .mem_ck_n (mem_ck_n), // .mem_ck_n .mem_cke (mem_cke), // .mem_cke .mem_cs_n (mem_cs_n), // .mem_cs_n .mem_ras_n (mem_ras_n), // .mem_ras_n .mem_cas_n (mem_cas_n), // .mem_cas_n .mem_we_n (mem_we_n), // .mem_we_n .mem_reset_n (mem_reset_n), // .mem_reset_n .mem_dq (mem_dq), // .mem_dq .mem_dqs (mem_dqs), // .mem_dqs .mem_dqs_n (mem_dqs_n), // .mem_dqs_n .mem_odt (mem_odt), // .mem_odt .mem_dm (mem_dm), // .mem_dm .oct_rzqin (oct_rzqin) // .oct_rzqin ); endmodule
module ramcart( clka, wea, addra, dina, douta, clkb, web, addrb, dinb, doutb ); input clka; input [0 : 0] wea; input [14 : 0] addra; input [7 : 0] dina; output [7 : 0] douta; input clkb; input [0 : 0] web; input [12 : 0] addrb; input [31 : 0] dinb; output [31 : 0] doutb; // synthesis translate_off BLK_MEM_GEN_V7_3 #( .C_ADDRA_WIDTH(15), .C_ADDRB_WIDTH(13), .C_ALGORITHM(1), .C_AXI_ID_WIDTH(4), .C_AXI_SLAVE_TYPE(0), .C_AXI_TYPE(1), .C_BYTE_SIZE(9), .C_COMMON_CLK(0), .C_DEFAULT_DATA("0"), .C_DISABLE_WARN_BHV_COLL(0), .C_DISABLE_WARN_BHV_RANGE(0), .C_ENABLE_32BIT_ADDRESS(0), .C_FAMILY("spartan6"), .C_HAS_AXI_ID(0), .C_HAS_ENA(0), .C_HAS_ENB(0), .C_HAS_INJECTERR(0), .C_HAS_MEM_OUTPUT_REGS_A(0), .C_HAS_MEM_OUTPUT_REGS_B(0), .C_HAS_MUX_OUTPUT_REGS_A(0), .C_HAS_MUX_OUTPUT_REGS_B(0), .C_HAS_REGCEA(0), .C_HAS_REGCEB(0), .C_HAS_RSTA(0), .C_HAS_RSTB(0), .C_HAS_SOFTECC_INPUT_REGS_A(0), .C_HAS_SOFTECC_OUTPUT_REGS_B(0), .C_INIT_FILE("BlankString"), .C_INIT_FILE_NAME("ramcart.mif"), .C_INITA_VAL("0"), .C_INITB_VAL("0"), .C_INTERFACE_TYPE(0), .C_LOAD_INIT_FILE(1), .C_MEM_TYPE(2), .C_MUX_PIPELINE_STAGES(0), .C_PRIM_TYPE(1), .C_READ_DEPTH_A(32768), .C_READ_DEPTH_B(8192), .C_READ_WIDTH_A(8), .C_READ_WIDTH_B(32), .C_RST_PRIORITY_A("CE"), .C_RST_PRIORITY_B("CE"), .C_RST_TYPE("SYNC"), .C_RSTRAM_A(0), .C_RSTRAM_B(0), .C_SIM_COLLISION_CHECK("ALL"), .C_USE_BRAM_BLOCK(0), .C_USE_BYTE_WEA(0), .C_USE_BYTE_WEB(0), .C_USE_DEFAULT_DATA(0), .C_USE_ECC(0), .C_USE_SOFTECC(0), .C_WEA_WIDTH(1), .C_WEB_WIDTH(1), .C_WRITE_DEPTH_A(32768), .C_WRITE_DEPTH_B(8192), .C_WRITE_MODE_A("WRITE_FIRST"), .C_WRITE_MODE_B("WRITE_FIRST"), .C_WRITE_WIDTH_A(8), .C_WRITE_WIDTH_B(32), .C_XDEVICEFAMILY("spartan6") ) inst ( .CLKA(clka), .WEA(wea), .ADDRA(addra), .DINA(dina), .DOUTA(douta), .CLKB(clkb), .WEB(web), .ADDRB(addrb), .DINB(dinb), .DOUTB(doutb), .RSTA(), .ENA(), .REGCEA(), .RSTB(), .ENB(), .REGCEB(), .INJECTSBITERR(), .INJECTDBITERR(), .SBITERR(), .DBITERR(), .RDADDRECC(), .S_ACLK(), .S_ARESETN(), .S_AXI_AWID(), .S_AXI_AWADDR(), .S_AXI_AWLEN(), .S_AXI_AWSIZE(), .S_AXI_AWBURST(), .S_AXI_AWVALID(), .S_AXI_AWREADY(), .S_AXI_WDATA(), .S_AXI_WSTRB(), .S_AXI_WLAST(), .S_AXI_WVALID(), .S_AXI_WREADY(), .S_AXI_BID(), .S_AXI_BRESP(), .S_AXI_BVALID(), .S_AXI_BREADY(), .S_AXI_ARID(), .S_AXI_ARADDR(), .S_AXI_ARLEN(), .S_AXI_ARSIZE(), .S_AXI_ARBURST(), .S_AXI_ARVALID(), .S_AXI_ARREADY(), .S_AXI_RID(), .S_AXI_RDATA(), .S_AXI_RRESP(), .S_AXI_RLAST(), .S_AXI_RVALID(), .S_AXI_RREADY(), .S_AXI_INJECTSBITERR(), .S_AXI_INJECTDBITERR(), .S_AXI_SBITERR(), .S_AXI_DBITERR(), .S_AXI_RDADDRECC() ); // synthesis translate_on endmodule
module cpu(input clk, output [31:0] alu_output, data, nxt_pc); reg [31:0] pc; wire [31:0] readData1, readData2, b; wire regDest0, regDst1, regWrite, aluSrc, zero, memToReg0, memToReg1; wire memRead, memWrite, branch, branch_ne, s_branch, jump; wire [31:0] sExtended, alu_output, memData, writeData, j_addr, mux3_output, mux4_output; wire [3:0] alu_ctrl; wire [2:0] alu_op; wire [4:0] writeReg; wire [31:0] fa1_output, ex_shifted, pc_4; initial pc <= 32'd0; im i_mem(.clk(clk), .data(data), .addr(pc)); mux5bit_4to1 mux0(.i0(data[20:16]), .i1(data[15:11]), .i2(5'd31), .s({regDst1, regDst0}), .z(writeReg)); reg_file rf(.readReg1(data[25:21]), .readReg2(data[20:16]), .writeReg(writeReg), .clk(clk), .regWrite(regWrite), .readData1(readData1), .readData2(readData2), .writeData(writeData)); sign_extend se(.a(data[15:0]), .b(sExtended)); mux32bit_2to1 mux1(.i0(readData2), .i1(sExtended), .s(aluSrc), .z(b)); alu main_alu(.op(alu_ctrl), .a(readData1), .b(b), .z(alu_output), .zero(zero)); alu_control ac (.funct(data[5:0]), .alu_op(alu_op), .aluctrl(alu_ctrl)); control c(.op(data[31:26]), .alu_op(alu_op), .regDst0(regDst0), .regDst1(regDst1), .aluSrc(aluSrc), .memToReg0(memToReg0), .memToReg1(memToReg1), .regWrite(regWrite), .memRead(memRead), .memWrite(memWrite), .branch(branch), .branch_ne(branch_ne), .jump(jump)); dm mem(.clk(clk), .addr(alu_output), .writeData(readData2), .memWrite(memWrite), .memRead(memRead), .readData(memData)); mux32bit_4to1 mux2(.i0(alu_output), .i1(memData), .i2(pc_4), .s({memToReg1, memToReg0}), .z(writeData)); shift_left_2 sll2(.a(sExtended), .b(ex_shifted)); //alu fa1(.op(4'd2), .a(pc_4), .b(ex_shifted), .z(fa1_output)); alu fa1(.op(4'd2), .a(pc_4), .b(sExtended), .z(fa1_output)); wire int0, int1; and (int0, branch, zero); and (int1, branch_ne, ~zero); or (s_branch, int0, int1); wire jr; and and1(jr , ~data[5], ~data[4], data[3], ~data[2], ~data[1], ~data[0] , ~data[26], ~data[27],~data[28], ~data[29], ~data[30], ~data[31] ); //always @(*) jr = ~data[26] & ~data[27] & data[28] & ~data[29] & ~data[30] & ~data[31]; jump_addr ja(.inst(data[25:0]), .pc_4(pc_4[31:28]), .j_addr(j_addr)); //mux32bit_2to1 mux3(.i0(pc_4), .i1(fa1_output), .s(s_branch), .z(nxt_pc)); mux32bit_2to1_2 mux3(.i0(pc_4), .i1(fa1_output), .s(s_branch), .z(mux3_output)); mux32bit_2to1_2 mux4(.i0(mux3_output), .i1(j_addr), .s(jump), .z(mux4_output)); mux32bit_2to1_2 mux5(.i1(readData1), .i0(mux4_output), .z(nxt_pc), .s(jr)); //mux32bit_2to1 mux4(.i1(j_addr), .i0(mux3_output), .z(nxt_pc), .s(jump)); alu fa2(.op(4'd2), .a(pc), .b(32'd1), .z(pc_4)); always @(posedge clk) begin pc <= nxt_pc; end endmodule
module or1200_top( openRISC_pc, // System clk_i, rst_i, pic_ints_i, clmode_i, // Instruction WISHBONE INTERFACE iwb_clk_i, iwb_rst_i, iwb_ack_i, iwb_err_i, iwb_rty_i, iwb_dat_i, iwb_cyc_o, iwb_adr_o, iwb_stb_o, iwb_we_o, iwb_sel_o, iwb_dat_o, `ifdef OR1200_WB_CAB iwb_cab_o, `endif `ifdef OR1200_WB_B3 iwb_cti_o, iwb_bte_o, `endif // Data WISHBONE INTERFACE dwb_clk_i, dwb_rst_i, dwb_ack_i, dwb_err_i, dwb_rty_i, dwb_dat_i, dwb_cyc_o, dwb_adr_o, dwb_stb_o, dwb_we_o, dwb_sel_o, dwb_dat_o, `ifdef OR1200_WB_CAB dwb_cab_o, `endif `ifdef OR1200_WB_B3 dwb_cti_o, dwb_bte_o, `endif // External Debug Interface dbg_stall_i, dbg_ewt_i, dbg_lss_o, dbg_is_o, dbg_wp_o, dbg_bp_o, dbg_stb_i, dbg_we_i, dbg_adr_i, dbg_dat_i, dbg_dat_o, dbg_ack_o, `ifdef OR1200_BIST // RAM BIST mbist_si_i, mbist_so_o, mbist_ctrl_i, `endif // Power Management pm_cpustall_i, pm_clksd_o, pm_dc_gate_o, pm_ic_gate_o, pm_dmmu_gate_o, pm_immu_gate_o, pm_tt_gate_o, pm_cpu_gate_o, pm_wakeup_o, pm_lvolt_o ); parameter dw = `OR1200_OPERAND_WIDTH; parameter aw = `OR1200_OPERAND_WIDTH; parameter ppic_ints = `OR1200_PIC_INTS; // // I/O // // // System // output [31:0] openRISC_pc; input clk_i; input rst_i; input [1:0] clmode_i; // 00 WB=RISC, 01 WB=RISC/2, 10 N/A, 11 WB=RISC/4 input [ppic_ints-1:0] pic_ints_i; // // Instruction WISHBONE interface // input iwb_clk_i; // clock input input iwb_rst_i; // reset input input iwb_ack_i; // normal termination input iwb_err_i; // termination w/ error input iwb_rty_i; // termination w/ retry input [dw-1:0] iwb_dat_i; // input data bus output iwb_cyc_o; // cycle valid output output [aw-1:0] iwb_adr_o; // address bus outputs output iwb_stb_o; // strobe output output iwb_we_o; // indicates write transfer output [3:0] iwb_sel_o; // byte select outputs output [dw-1:0] iwb_dat_o; // output data bus `ifdef OR1200_WB_CAB output iwb_cab_o; // indicates consecutive address burst `endif `ifdef OR1200_WB_B3 output [2:0] iwb_cti_o; // cycle type identifier output [1:0] iwb_bte_o; // burst type extension `endif // // Data WISHBONE interface // input dwb_clk_i; // clock input input dwb_rst_i; // reset input input dwb_ack_i; // normal termination input dwb_err_i; // termination w/ error input dwb_rty_i; // termination w/ retry input [dw-1:0] dwb_dat_i; // input data bus output dwb_cyc_o; // cycle valid output output [aw-1:0] dwb_adr_o; // address bus outputs output dwb_stb_o; // strobe output output dwb_we_o; // indicates write transfer output [3:0] dwb_sel_o; // byte select outputs output [dw-1:0] dwb_dat_o; // output data bus `ifdef OR1200_WB_CAB output dwb_cab_o; // indicates consecutive address burst `endif `ifdef OR1200_WB_B3 output [2:0] dwb_cti_o; // cycle type identifier output [1:0] dwb_bte_o; // burst type extension `endif // // External Debug Interface // input dbg_stall_i; // External Stall Input input dbg_ewt_i; // External Watchpoint Trigger Input output [3:0] dbg_lss_o; // External Load/Store Unit Status output [1:0] dbg_is_o; // External Insn Fetch Status output [10:0] dbg_wp_o; // Watchpoints Outputs output dbg_bp_o; // Breakpoint Output input dbg_stb_i; // External Address/Data Strobe input dbg_we_i; // External Write Enable input [aw-1:0] dbg_adr_i; // External Address Input input [dw-1:0] dbg_dat_i; // External Data Input output [dw-1:0] dbg_dat_o; // External Data Output output dbg_ack_o; // External Data Acknowledge (not WB compatible) `ifdef OR1200_BIST // // RAM BIST // input mbist_si_i; input [`OR1200_MBIST_CTRL_WIDTH - 1:0] mbist_ctrl_i; output mbist_so_o; `endif // // Power Management // input pm_cpustall_i; output [3:0] pm_clksd_o; output pm_dc_gate_o; output pm_ic_gate_o; output pm_dmmu_gate_o; output pm_immu_gate_o; output pm_tt_gate_o; output pm_cpu_gate_o; output pm_wakeup_o; output pm_lvolt_o; // // Internal wires and regs // // // DC to SB // wire [dw-1:0] dcsb_dat_dc; wire [aw-1:0] dcsb_adr_dc; wire dcsb_cyc_dc; wire dcsb_stb_dc; wire dcsb_we_dc; wire [3:0] dcsb_sel_dc; wire dcsb_cab_dc; wire [dw-1:0] dcsb_dat_sb; wire dcsb_ack_sb; wire dcsb_err_sb; // // SB to BIU // wire [dw-1:0] sbbiu_dat_sb; wire [aw-1:0] sbbiu_adr_sb; wire sbbiu_cyc_sb; wire sbbiu_stb_sb; wire sbbiu_we_sb; wire [3:0] sbbiu_sel_sb; wire sbbiu_cab_sb; wire [dw-1:0] sbbiu_dat_biu; wire sbbiu_ack_biu; wire sbbiu_err_biu; // // IC to BIU // wire [dw-1:0] icbiu_dat_ic; wire [aw-1:0] icbiu_adr_ic; wire icbiu_cyc_ic; wire icbiu_stb_ic; wire icbiu_we_ic; wire [3:0] icbiu_sel_ic; wire [3:0] icbiu_tag_ic; wire icbiu_cab_ic; wire [dw-1:0] icbiu_dat_biu; wire icbiu_ack_biu; wire icbiu_err_biu; wire [3:0] icbiu_tag_biu; // // CPU's SPR access to various RISC units (shared wires) // wire supv; wire [aw-1:0] spr_addr; wire [dw-1:0] spr_dat_cpu; wire [31:0] spr_cs; wire spr_we; // // DMMU and CPU // wire dmmu_en; wire [31:0] spr_dat_dmmu; // // DMMU and QMEM // wire qmemdmmu_err_qmem; wire [3:0] qmemdmmu_tag_qmem; wire [aw-1:0] qmemdmmu_adr_dmmu; wire qmemdmmu_cycstb_dmmu; wire qmemdmmu_ci_dmmu; // // CPU and data memory subsystem // wire dc_en; wire [31:0] dcpu_adr_cpu; wire dcpu_cycstb_cpu; wire dcpu_we_cpu; wire [3:0] dcpu_sel_cpu; wire [3:0] dcpu_tag_cpu; wire [31:0] dcpu_dat_cpu; wire [31:0] dcpu_dat_qmem; wire dcpu_ack_qmem; wire dcpu_rty_qmem; wire dcpu_err_dmmu; wire [3:0] dcpu_tag_dmmu; // // IMMU and CPU // wire immu_en; wire [31:0] spr_dat_immu; // // CPU and insn memory subsystem // wire ic_en; wire [31:0] icpu_adr_cpu; wire icpu_cycstb_cpu; wire [3:0] icpu_sel_cpu; wire [3:0] icpu_tag_cpu; wire [31:0] icpu_dat_qmem; wire icpu_ack_qmem; wire [31:0] icpu_adr_immu; wire icpu_err_immu; wire [3:0] icpu_tag_immu; wire icpu_rty_immu; // // IMMU and QMEM // wire [aw-1:0] qmemimmu_adr_immu; wire qmemimmu_rty_qmem; wire qmemimmu_err_qmem; wire [3:0] qmemimmu_tag_qmem; wire qmemimmu_cycstb_immu; wire qmemimmu_ci_immu; // // QMEM and IC // wire [aw-1:0] icqmem_adr_qmem; wire icqmem_rty_ic; wire icqmem_err_ic; wire [3:0] icqmem_tag_ic; wire icqmem_cycstb_qmem; wire icqmem_ci_qmem; wire [31:0] icqmem_dat_ic; wire icqmem_ack_ic; // // QMEM and DC // wire [aw-1:0] dcqmem_adr_qmem; wire dcqmem_rty_dc; wire dcqmem_err_dc; wire [3:0] dcqmem_tag_dc; wire dcqmem_cycstb_qmem; wire dcqmem_ci_qmem; wire [31:0] dcqmem_dat_dc; wire [31:0] dcqmem_dat_qmem; wire dcqmem_we_qmem; wire [3:0] dcqmem_sel_qmem; wire dcqmem_ack_dc; // // Connection between CPU and PIC // wire [dw-1:0] spr_dat_pic; wire pic_wakeup; wire sig_int; // // Connection between CPU and PM // wire [dw-1:0] spr_dat_pm; // // CPU and TT // wire [dw-1:0] spr_dat_tt; wire sig_tick; // // Debug port and caches/MMUs // wire [dw-1:0] spr_dat_du; wire du_stall; wire [dw-1:0] du_addr; wire [dw-1:0] du_dat_du; wire du_read; wire du_write; wire [12:0] du_except; wire [`OR1200_DU_DSR_WIDTH-1:0] du_dsr; wire [dw-1:0] du_dat_cpu; wire du_hwbkpt; wire ex_freeze; wire [31:0] ex_insn; wire [31:0] id_pc; wire [`OR1200_BRANCHOP_WIDTH-1:0] branch_op; wire [31:0] spr_dat_npc; wire [31:0] rf_dataw; `ifdef OR1200_BIST // // RAM BIST // wire mbist_immu_so; wire mbist_ic_so; wire mbist_dmmu_so; wire mbist_dc_so; wire mbist_qmem_so; wire mbist_immu_si = mbist_si_i; wire mbist_ic_si = mbist_immu_so; wire mbist_qmem_si = mbist_ic_so; wire mbist_dmmu_si = mbist_qmem_so; wire mbist_dc_si = mbist_dmmu_so; assign mbist_so_o = mbist_dc_so; `endif wire [3:0] icqmem_sel_qmem; wire [3:0] icqmem_tag_qmem; wire [3:0] dcqmem_tag_qmem; // // Instantiation of Instruction WISHBONE BIU // or1200_iwb_biu iwb_biu( // RISC clk, rst and clock control .clk(clk_i), .rst(rst_i), .clmode(clmode_i), // WISHBONE interface .wb_clk_i(iwb_clk_i), .wb_rst_i(iwb_rst_i), .wb_ack_i(iwb_ack_i), .wb_err_i(iwb_err_i), .wb_rty_i(iwb_rty_i), .wb_dat_i(iwb_dat_i), .wb_cyc_o(iwb_cyc_o), .wb_adr_o(iwb_adr_o), .wb_stb_o(iwb_stb_o), .wb_we_o(iwb_we_o), .wb_sel_o(iwb_sel_o), .wb_dat_o(iwb_dat_o), `ifdef OR1200_WB_CAB .wb_cab_o(iwb_cab_o), `endif `ifdef OR1200_WB_B3 .wb_cti_o(iwb_cti_o), .wb_bte_o(iwb_bte_o), `endif // Internal RISC bus .biu_dat_i(icbiu_dat_ic), .biu_adr_i(icbiu_adr_ic), .biu_cyc_i(icbiu_cyc_ic), .biu_stb_i(icbiu_stb_ic), .biu_we_i(icbiu_we_ic), .biu_sel_i(icbiu_sel_ic), .biu_cab_i(icbiu_cab_ic), .biu_dat_o(icbiu_dat_biu), .biu_ack_o(icbiu_ack_biu), .biu_err_o(icbiu_err_biu) ); // // Instantiation of Data WISHBONE BIU // or1200_wb_biu dwb_biu( // RISC clk, rst and clock control .clk(clk_i), .rst(rst_i), .clmode(clmode_i), // WISHBONE interface .wb_clk_i(dwb_clk_i), .wb_rst_i(dwb_rst_i), .wb_ack_i(dwb_ack_i), .wb_err_i(dwb_err_i), .wb_rty_i(dwb_rty_i), .wb_dat_i(dwb_dat_i), .wb_cyc_o(dwb_cyc_o), .wb_adr_o(dwb_adr_o), .wb_stb_o(dwb_stb_o), .wb_we_o(dwb_we_o), .wb_sel_o(dwb_sel_o), .wb_dat_o(dwb_dat_o), `ifdef OR1200_WB_CAB .wb_cab_o(dwb_cab_o), `endif `ifdef OR1200_WB_B3 .wb_cti_o(dwb_cti_o), .wb_bte_o(dwb_bte_o), `endif // Internal RISC bus .biu_dat_i(sbbiu_dat_sb), .biu_adr_i(sbbiu_adr_sb), .biu_cyc_i(sbbiu_cyc_sb), .biu_stb_i(sbbiu_stb_sb), .biu_we_i(sbbiu_we_sb), .biu_sel_i(sbbiu_sel_sb), .biu_cab_i(sbbiu_cab_sb), .biu_dat_o(sbbiu_dat_biu), .biu_ack_o(sbbiu_ack_biu), .biu_err_o(sbbiu_err_biu) ); // // Instantiation of IMMU // or1200_immu_top or1200_immu_top( // Rst and clk .clk(clk_i), .rst(rst_i), `ifdef OR1200_BIST // RAM BIST .mbist_si_i(mbist_immu_si), .mbist_so_o(mbist_immu_so), .mbist_ctrl_i(mbist_ctrl_i), `endif // CPU and IMMU .ic_en(ic_en), .immu_en(immu_en), .supv(supv), .icpu_adr_i(icpu_adr_cpu), .icpu_cycstb_i(icpu_cycstb_cpu), .icpu_adr_o(icpu_adr_immu), .icpu_tag_o(icpu_tag_immu), .icpu_rty_o(icpu_rty_immu), .icpu_err_o(icpu_err_immu), // SPR access .spr_cs(spr_cs[`OR1200_SPR_GROUP_IMMU]), .spr_write(spr_we), .spr_addr(spr_addr), .spr_dat_i(spr_dat_cpu), .spr_dat_o(spr_dat_immu), // QMEM and IMMU .qmemimmu_rty_i(qmemimmu_rty_qmem), .qmemimmu_err_i(qmemimmu_err_qmem), .qmemimmu_tag_i(qmemimmu_tag_qmem), .qmemimmu_adr_o(qmemimmu_adr_immu), .qmemimmu_cycstb_o(qmemimmu_cycstb_immu), .qmemimmu_ci_o(qmemimmu_ci_immu) ); // // Instantiation of Instruction Cache // or1200_ic_top or1200_ic_top( .clk(clk_i), .rst(rst_i), `ifdef OR1200_BIST // RAM BIST .mbist_si_i(mbist_ic_si), .mbist_so_o(mbist_ic_so), .mbist_ctrl_i(mbist_ctrl_i), `endif // IC and QMEM .ic_en(ic_en), .icqmem_adr_i(icqmem_adr_qmem), .icqmem_cycstb_i(icqmem_cycstb_qmem), .icqmem_ci_i(icqmem_ci_qmem), .icqmem_sel_i(icqmem_sel_qmem), .icqmem_tag_i(icqmem_tag_qmem), .icqmem_dat_o(icqmem_dat_ic), .icqmem_ack_o(icqmem_ack_ic), .icqmem_rty_o(icqmem_rty_ic), .icqmem_err_o(icqmem_err_ic), .icqmem_tag_o(icqmem_tag_ic), // SPR access .spr_cs(spr_cs[`OR1200_SPR_GROUP_IC]), .spr_write(spr_we), .spr_dat_i(spr_dat_cpu), // IC and BIU .icbiu_dat_o(icbiu_dat_ic), .icbiu_adr_o(icbiu_adr_ic), .icbiu_cyc_o(icbiu_cyc_ic), .icbiu_stb_o(icbiu_stb_ic), .icbiu_we_o(icbiu_we_ic), .icbiu_sel_o(icbiu_sel_ic), .icbiu_cab_o(icbiu_cab_ic), .icbiu_dat_i(icbiu_dat_biu), .icbiu_ack_i(icbiu_ack_biu), .icbiu_err_i(icbiu_err_biu) ); // // Instantiation of Instruction Cache // or1200_cpu or1200_cpu( .clk(clk_i), .rst(rst_i), // Connection QMEM and IFETCHER inside CPU .ic_en(ic_en), .icpu_adr_o(icpu_adr_cpu), .icpu_cycstb_o(icpu_cycstb_cpu), .icpu_sel_o(icpu_sel_cpu), .icpu_tag_o(icpu_tag_cpu), .icpu_dat_i(icpu_dat_qmem), .icpu_ack_i(icpu_ack_qmem), .icpu_rty_i(icpu_rty_immu), .icpu_adr_i(icpu_adr_immu), .icpu_err_i(icpu_err_immu), .icpu_tag_i(icpu_tag_immu), // Connection CPU to external Debug port .ex_freeze(ex_freeze), .ex_insn(ex_insn), .id_pc(id_pc), .branch_op(branch_op), .du_stall(du_stall), .du_addr(du_addr), .du_dat_du(du_dat_du), .du_read(du_read), .du_write(du_write), .du_dsr(du_dsr), .du_except(du_except), .du_dat_cpu(du_dat_cpu), .du_hwbkpt(du_hwbkpt), .rf_dataw(rf_dataw), // Connection IMMU and CPU internally .immu_en(immu_en), // Connection QMEM and CPU .dc_en(dc_en), .dcpu_adr_o(dcpu_adr_cpu), .dcpu_cycstb_o(dcpu_cycstb_cpu), .dcpu_we_o(dcpu_we_cpu), .dcpu_sel_o(dcpu_sel_cpu), .dcpu_tag_o(dcpu_tag_cpu), .dcpu_dat_o(dcpu_dat_cpu), .dcpu_dat_i(dcpu_dat_qmem), .dcpu_ack_i(dcpu_ack_qmem), .dcpu_rty_i(dcpu_rty_qmem), .dcpu_err_i(dcpu_err_dmmu), .dcpu_tag_i(dcpu_tag_dmmu), // Connection DMMU and CPU internally .dmmu_en(dmmu_en), // Connection PIC and CPU's EXCEPT .sig_int(sig_int), .sig_tick(sig_tick), // SPRs .supv(supv), .spr_addr(spr_addr), .spr_dat_cpu(spr_dat_cpu), .spr_dat_pic(spr_dat_pic), .spr_dat_tt(spr_dat_tt), .spr_dat_pm(spr_dat_pm), .spr_dat_dmmu(spr_dat_dmmu), .spr_dat_immu(spr_dat_immu), .spr_dat_du(spr_dat_du), .spr_dat_npc(spr_dat_npc), .spr_cs(spr_cs), .spr_we(spr_we) ); // // Instantiation of DMMU // or1200_dmmu_top or1200_dmmu_top( // Rst and clk .clk(clk_i), .rst(rst_i), `ifdef OR1200_BIST // RAM BIST .mbist_si_i(mbist_dmmu_si), .mbist_so_o(mbist_dmmu_so), .mbist_ctrl_i(mbist_ctrl_i), `endif // CPU i/f .dc_en(dc_en), .dmmu_en(dmmu_en), .supv(supv), .dcpu_adr_i(dcpu_adr_cpu), .dcpu_cycstb_i(dcpu_cycstb_cpu), .dcpu_we_i(dcpu_we_cpu), .dcpu_tag_o(dcpu_tag_dmmu), .dcpu_err_o(dcpu_err_dmmu), // SPR access .spr_cs(spr_cs[`OR1200_SPR_GROUP_DMMU]), .spr_write(spr_we), .spr_addr(spr_addr), .spr_dat_i(spr_dat_cpu), .spr_dat_o(spr_dat_dmmu), // QMEM and DMMU .qmemdmmu_err_i(qmemdmmu_err_qmem), .qmemdmmu_tag_i(qmemdmmu_tag_qmem), .qmemdmmu_adr_o(qmemdmmu_adr_dmmu), .qmemdmmu_cycstb_o(qmemdmmu_cycstb_dmmu), .qmemdmmu_ci_o(qmemdmmu_ci_dmmu) ); // // Instantiation of Data Cache // or1200_dc_top or1200_dc_top( .clk(clk_i), .rst(rst_i), `ifdef OR1200_BIST // RAM BIST .mbist_si_i(mbist_dc_si), .mbist_so_o(mbist_dc_so), .mbist_ctrl_i(mbist_ctrl_i), `endif // DC and QMEM .dc_en(dc_en), .dcqmem_adr_i(dcqmem_adr_qmem), .dcqmem_cycstb_i(dcqmem_cycstb_qmem), .dcqmem_ci_i(dcqmem_ci_qmem), .dcqmem_we_i(dcqmem_we_qmem), .dcqmem_sel_i(dcqmem_sel_qmem), .dcqmem_tag_i(dcqmem_tag_qmem), .dcqmem_dat_i(dcqmem_dat_qmem), .dcqmem_dat_o(dcqmem_dat_dc), .dcqmem_ack_o(dcqmem_ack_dc), .dcqmem_rty_o(dcqmem_rty_dc), .dcqmem_err_o(dcqmem_err_dc), .dcqmem_tag_o(dcqmem_tag_dc), // SPR access .spr_cs(spr_cs[`OR1200_SPR_GROUP_DC]), .spr_write(spr_we), .spr_dat_i(spr_dat_cpu), // DC and BIU .dcsb_dat_o(dcsb_dat_dc), .dcsb_adr_o(dcsb_adr_dc), .dcsb_cyc_o(dcsb_cyc_dc), .dcsb_stb_o(dcsb_stb_dc), .dcsb_we_o(dcsb_we_dc), .dcsb_sel_o(dcsb_sel_dc), .dcsb_cab_o(dcsb_cab_dc), .dcsb_dat_i(dcsb_dat_sb), .dcsb_ack_i(dcsb_ack_sb), .dcsb_err_i(dcsb_err_sb) ); // // Instantiation of embedded memory - qmem // or1200_qmem_top or1200_qmem_top( .clk(clk_i), .rst(rst_i), `ifdef OR1200_BIST // RAM BIST .mbist_si_i(mbist_qmem_si), .mbist_so_o(mbist_qmem_so), .mbist_ctrl_i(mbist_ctrl_i), `endif // QMEM and CPU/IMMU .qmemimmu_adr_i(qmemimmu_adr_immu), .qmemimmu_cycstb_i(qmemimmu_cycstb_immu), .qmemimmu_ci_i(qmemimmu_ci_immu), .qmemicpu_sel_i(icpu_sel_cpu), .qmemicpu_tag_i(icpu_tag_cpu), .qmemicpu_dat_o(icpu_dat_qmem), .qmemicpu_ack_o(icpu_ack_qmem), .qmemimmu_rty_o(qmemimmu_rty_qmem), .qmemimmu_err_o(qmemimmu_err_qmem), .qmemimmu_tag_o(qmemimmu_tag_qmem), // QMEM and IC .icqmem_adr_o(icqmem_adr_qmem), .icqmem_cycstb_o(icqmem_cycstb_qmem), .icqmem_ci_o(icqmem_ci_qmem), .icqmem_sel_o(icqmem_sel_qmem), .icqmem_tag_o(icqmem_tag_qmem), .icqmem_dat_i(icqmem_dat_ic), .icqmem_ack_i(icqmem_ack_ic), .icqmem_rty_i(icqmem_rty_ic), .icqmem_err_i(icqmem_err_ic), .icqmem_tag_i(icqmem_tag_ic), // QMEM and CPU/DMMU .qmemdmmu_adr_i(qmemdmmu_adr_dmmu), .qmemdmmu_cycstb_i(qmemdmmu_cycstb_dmmu), .qmemdmmu_ci_i(qmemdmmu_ci_dmmu), .qmemdcpu_we_i(dcpu_we_cpu), .qmemdcpu_sel_i(dcpu_sel_cpu), .qmemdcpu_tag_i(dcpu_tag_cpu), .qmemdcpu_dat_i(dcpu_dat_cpu), .qmemdcpu_dat_o(dcpu_dat_qmem), .qmemdcpu_ack_o(dcpu_ack_qmem), .qmemdcpu_rty_o(dcpu_rty_qmem), .qmemdmmu_err_o(qmemdmmu_err_qmem), .qmemdmmu_tag_o(qmemdmmu_tag_qmem), // QMEM and DC .dcqmem_adr_o(dcqmem_adr_qmem), .dcqmem_cycstb_o(dcqmem_cycstb_qmem), .dcqmem_ci_o(dcqmem_ci_qmem), .dcqmem_we_o(dcqmem_we_qmem), .dcqmem_sel_o(dcqmem_sel_qmem), .dcqmem_tag_o(dcqmem_tag_qmem), .dcqmem_dat_o(dcqmem_dat_qmem), .dcqmem_dat_i(dcqmem_dat_dc), .dcqmem_ack_i(dcqmem_ack_dc), .dcqmem_rty_i(dcqmem_rty_dc), .dcqmem_err_i(dcqmem_err_dc), .dcqmem_tag_i(dcqmem_tag_dc) ); // // Instantiation of Store Buffer // or1200_sb or1200_sb( // RISC clock, reset .clk(clk_i), .rst(rst_i), // Internal RISC bus (DC<->SB) .dcsb_dat_i(dcsb_dat_dc), .dcsb_adr_i(dcsb_adr_dc), .dcsb_cyc_i(dcsb_cyc_dc), .dcsb_stb_i(dcsb_stb_dc), .dcsb_we_i(dcsb_we_dc), .dcsb_sel_i(dcsb_sel_dc), .dcsb_cab_i(dcsb_cab_dc), .dcsb_dat_o(dcsb_dat_sb), .dcsb_ack_o(dcsb_ack_sb), .dcsb_err_o(dcsb_err_sb), // SB and BIU .sbbiu_dat_o(sbbiu_dat_sb), .sbbiu_adr_o(sbbiu_adr_sb), .sbbiu_cyc_o(sbbiu_cyc_sb), .sbbiu_stb_o(sbbiu_stb_sb), .sbbiu_we_o(sbbiu_we_sb), .sbbiu_sel_o(sbbiu_sel_sb), .sbbiu_cab_o(sbbiu_cab_sb), .sbbiu_dat_i(sbbiu_dat_biu), .sbbiu_ack_i(sbbiu_ack_biu), .sbbiu_err_i(sbbiu_err_biu) ); // // Instantiation of Debug Unit // or1200_du or1200_du( // RISC Internal Interface .clk(clk_i), .rst(rst_i), .dcpu_cycstb_i(dcpu_cycstb_cpu), .dcpu_we_i(dcpu_we_cpu), .dcpu_adr_i(dcpu_adr_cpu), .dcpu_dat_lsu(dcpu_dat_cpu), .dcpu_dat_dc(dcpu_dat_qmem), .icpu_cycstb_i(icpu_cycstb_cpu), .ex_freeze(ex_freeze), .branch_op(branch_op), .ex_insn(ex_insn), .id_pc(id_pc), .du_dsr(du_dsr), // For Trace buffer .spr_dat_npc(spr_dat_npc), .rf_dataw(rf_dataw), // DU's access to SPR unit .du_stall(du_stall), .du_addr(du_addr), .du_dat_i(du_dat_cpu), .du_dat_o(du_dat_du), .du_read(du_read), .du_write(du_write), .du_except(du_except), .du_hwbkpt(du_hwbkpt), // Access to DU's SPRs .spr_cs(spr_cs[`OR1200_SPR_GROUP_DU]), .spr_write(spr_we), .spr_addr(spr_addr), .spr_dat_i(spr_dat_cpu), .spr_dat_o(spr_dat_du), // External Debug Interface .dbg_stall_i(dbg_stall_i), .dbg_ewt_i(dbg_ewt_i), .dbg_lss_o(dbg_lss_o), .dbg_is_o(dbg_is_o), .dbg_wp_o(dbg_wp_o), .dbg_bp_o(dbg_bp_o), .dbg_stb_i(dbg_stb_i), .dbg_we_i(dbg_we_i), .dbg_adr_i(dbg_adr_i), .dbg_dat_i(dbg_dat_i), .dbg_dat_o(dbg_dat_o), .dbg_ack_o(dbg_ack_o) ); // // Programmable interrupt controller // or1200_pic or1200_pic( // RISC Internal Interface .clk(clk_i), .rst(rst_i), .spr_cs(spr_cs[`OR1200_SPR_GROUP_PIC]), .spr_write(spr_we), .spr_addr(spr_addr), .spr_dat_i(spr_dat_cpu), .spr_dat_o(spr_dat_pic), .pic_wakeup(pic_wakeup), .intr(sig_int), // PIC Interface .pic_int(pic_ints_i) ); // // Instantiation of Tick timer // or1200_tt or1200_tt( // RISC Internal Interface .clk(clk_i), .rst(rst_i), .du_stall(du_stall), .spr_cs(spr_cs[`OR1200_SPR_GROUP_TT]), .spr_write(spr_we), .spr_addr(spr_addr), .spr_dat_i(spr_dat_cpu), .spr_dat_o(spr_dat_tt), .intr(sig_tick) ); // // Instantiation of Power Management // or1200_pm or1200_pm( // RISC Internal Interface .clk(clk_i), .rst(rst_i), .pic_wakeup(pic_wakeup), .spr_write(spr_we), .spr_addr(spr_addr), .spr_dat_i(spr_dat_cpu), .spr_dat_o(spr_dat_pm), // Power Management Interface .pm_cpustall(pm_cpustall_i), .pm_clksd(pm_clksd_o), .pm_dc_gate(pm_dc_gate_o), .pm_ic_gate(pm_ic_gate_o), .pm_dmmu_gate(pm_dmmu_gate_o), .pm_immu_gate(pm_immu_gate_o), .pm_tt_gate(pm_tt_gate_o), .pm_cpu_gate(pm_cpu_gate_o), .pm_wakeup(pm_wakeup_o), .pm_lvolt(pm_lvolt_o) ); assign openRISC_pc = id_pc; endmodule
module scbuf_evict (/AUTOARG/ // Outputs so, scbuf_dram_wr_data_r5_pb, scbuf_dram_data_vld_r5_pb, scbuf_dram_data_mecc_r5_pb, scbuf_sctag_ev_uerr_r5_pb, scbuf_sctag_ev_cerr_r5_pb, sctag_scbuf_wbrd_en_r1_v1, sctag_scbuf_wbrd_en_r1_v2, sctag_scbuf_wbrd_en_r1_v3, sctag_scbuf_wbrd_en_r1_v4, sctag_scbuf_wbrd_wl_r1_v1, sctag_scbuf_wbrd_wl_r1_v2, sctag_scbuf_wbrd_wl_r1_v3, sctag_scbuf_wbrd_wl_r1_v4, sctag_scbuf_wbwr_wen_c8_v1, sctag_scbuf_wbwr_wen_c8_v2, sctag_scbuf_wbwr_wen_c8_v3, sctag_scbuf_wbwr_wen_c8_v4, sctag_scbuf_wbwr_wl_c8_v1, sctag_scbuf_wbwr_wl_c8_v2, sctag_scbuf_wbwr_wl_c8_v3, sctag_scbuf_wbwr_wl_c8_v4, sctag_scbuf_rdma_rden_r1_v1, sctag_scbuf_rdma_rden_r1_v2, sctag_scbuf_rdma_rden_r1_v3, sctag_scbuf_rdma_rden_r1_v4, sctag_scbuf_rdma_rdwl_r1_v1, sctag_scbuf_rdma_rdwl_r1_v2, sctag_scbuf_rdma_rdwl_r1_v3, sctag_scbuf_rdma_rdwl_r1_v4, sctag_scbuf_rdma_wren_s3, sctag_scbuf_rdma_wren_s3_v4, sctag_scbuf_rdma_wren_s3_v3, sctag_scbuf_rdma_wren_s3_v2, sctag_scbuf_rdma_wren_s3_v1, sctag_scbuf_rdma_wrwl_s3_v1, sctag_scbuf_rdma_wrwl_s3_v2, sctag_scbuf_rdma_wrwl_s3_v3, sctag_scbuf_rdma_wrwl_s3_v4, rdma_array_din, // Inputs rclk, arst_l, grst_l, se, sehold, si, sctag_scbuf_wbrd_en_r0, wb_array_dout, sctag_scbuf_evict_en_r0, sctag_scbuf_ev_dword_r0, sctag_scbuf_rdma_rden_r0, rdma_array_dout, sctag_scbuf_wbrd_wl_r0, sctag_scbuf_wbwr_wen_c6, sctag_scbuf_wbwr_wl_c6, sctag_scbuf_rdma_rdwl_r0, sctag_scbuf_rdma_wren_s2, sctag_scbuf_rdma_wrwl_s2, jbi_sctag_req, jbi_scbuf_ecc ) ; // Inputs input rclk; input arst_l; input grst_l; input se, sehold, si; input sctag_scbuf_wbrd_en_r0; input [623:0] wb_array_dout; input sctag_scbuf_evict_en_r0; input [2:0] sctag_scbuf_ev_dword_r0; input sctag_scbuf_rdma_rden_r0; input [623:0] rdma_array_dout; input [2:0] sctag_scbuf_wbrd_wl_r0; input sctag_scbuf_wbwr_wen_c6; input [2:0] sctag_scbuf_wbwr_wl_c6; input [1:0] sctag_scbuf_rdma_rdwl_r0; input [15:0] sctag_scbuf_rdma_wren_s2; input [1:0] sctag_scbuf_rdma_wrwl_s2; input [31:0] jbi_sctag_req ; input [6:0] jbi_scbuf_ecc ; // Outputs output so; output [63:0] scbuf_dram_wr_data_r5_pb; output scbuf_dram_data_vld_r5_pb; output scbuf_dram_data_mecc_r5_pb; output scbuf_sctag_ev_uerr_r5_pb; output scbuf_sctag_ev_cerr_r5_pb; output sctag_scbuf_wbrd_en_r1_v1; output sctag_scbuf_wbrd_en_r1_v2; output sctag_scbuf_wbrd_en_r1_v3; output sctag_scbuf_wbrd_en_r1_v4; output [2:0] sctag_scbuf_wbrd_wl_r1_v1; output [2:0] sctag_scbuf_wbrd_wl_r1_v2; output [2:0] sctag_scbuf_wbrd_wl_r1_v3; output [2:0] sctag_scbuf_wbrd_wl_r1_v4; output sctag_scbuf_wbwr_wen_c8_v1; output sctag_scbuf_wbwr_wen_c8_v2; output sctag_scbuf_wbwr_wen_c8_v3; output sctag_scbuf_wbwr_wen_c8_v4; output [2:0] sctag_scbuf_wbwr_wl_c8_v1; output [2:0] sctag_scbuf_wbwr_wl_c8_v2; output [2:0] sctag_scbuf_wbwr_wl_c8_v3; output [2:0] sctag_scbuf_wbwr_wl_c8_v4; output sctag_scbuf_rdma_rden_r1_v1; output sctag_scbuf_rdma_rden_r1_v2; output sctag_scbuf_rdma_rden_r1_v3; output sctag_scbuf_rdma_rden_r1_v4; output [1:0] sctag_scbuf_rdma_rdwl_r1_v1; output [1:0] sctag_scbuf_rdma_rdwl_r1_v2; output [1:0] sctag_scbuf_rdma_rdwl_r1_v3; output [1:0] sctag_scbuf_rdma_rdwl_r1_v4; output [15:0] sctag_scbuf_rdma_wren_s3; output sctag_scbuf_rdma_wren_s3_v4 ; output sctag_scbuf_rdma_wren_s3_v3 ; output sctag_scbuf_rdma_wren_s3_v2 ; output sctag_scbuf_rdma_wren_s3_v1 ; output [1:0] sctag_scbuf_rdma_wrwl_s3_v1; output [1:0] sctag_scbuf_rdma_wrwl_s3_v2; output [1:0] sctag_scbuf_rdma_wrwl_s3_v3; output [1:0] sctag_scbuf_rdma_wrwl_s3_v4; output [623:0] rdma_array_din ; //////////////////////////////////////////////////////////////////////////////// wire sctag_scbuf_wbrd_en_r2; wire sctag_scbuf_rdma_rden_r1; wire sctag_scbuf_rdma_rden_r2; wire wb_or_rdma_rden_r2; wire [623:0] wb_rdma_mux_out; wire [623:0] wb_array_dout_r3; wire [ 77:0] wb_array_dout_r4; wire [ 63:0] wb_array_dout_r5; wire [ 2:0] sctag_scbuf_ev_dword_r1; wire [ 2:0] sctag_scbuf_ev_dword_r2; wire [ 2:0] sctag_scbuf_ev_dword_r3; wire sel_in0; wire sel_in1; wire sel_in2; wire sel_in3; wire [155:0] wb_array_dout_r3_4t1; wire [ 77:0] wb_array_dout_r3_8t1; wire [ 63:0] wb_array_dout_ecc_r4; wire [ 5:0] check0_r4; wire [ 5:0] check1_r4; wire evict_uncorr_err_r4; wire evict_corr_err_r4; wire sctag_scbuf_wbwr_wen_c7; wire [ 2:0] sctag_scbuf_wbwr_wl_c7; wire [38:0] jbi_sctag_req_ecc_s2 ; wire [38:0] jbi_sctag_req_ecc_s3; wire [2:0] sctag_scbuf_wbrd_wl_r1; wire sctag_scbuf_wbwr_wen_c8; wire [2:0] sctag_scbuf_wbwr_wl_c8; wire [1:0] sctag_scbuf_rdma_rdwl_r1; wire [1:0] sctag_scbuf_rdma_wrwl_s3; wire sctag_scbuf_evict_en_r3; wire evict_uncorr_err_unqual_r4; wire error_qual_in; wire error_qual; dffrl_async #(1) reset_flop (.q (dbb_rst_l), .clk (rclk), .rst_l (arst_l), .din (grst_l), .se (se), .si(), .so()); //////////////////////////////////////////////////////////////////////////////// // Data arriving from jbus is flopped and fanned out to 624 bits here. //////////////////////////////////////////////////////////////////////////////// assign jbi_sctag_req_ecc_s2 = {jbi_sctag_req[31:0], jbi_scbuf_ecc[6:0]} ; dff_s #(39) ff_jbi_sctag_req_ecc_s3 (.din(jbi_sctag_req_ecc_s2[38:0]), .clk(rclk), .q(jbi_sctag_req_ecc_s3[38:0]), .se(1'b0), .si(), .so()); assign rdma_array_din = {16{jbi_sctag_req_ecc_s3[38:0]}} ; //////////////////////////////////////////////////////////////////////////////// dff_s #(1) ff_sctag_scbuf_wbwr_wen_c7 (.q (sctag_scbuf_wbwr_wen_c7), .din (sctag_scbuf_wbwr_wen_c6), .clk (rclk), .se (1'b0), .si (), .so ()) ; dff_s #(1) ff_sctag_scbuf_wbwr_wen_c8 (.q (sctag_scbuf_wbwr_wen_c8), .din (sctag_scbuf_wbwr_wen_c7), .clk (rclk), .se (1'b0), .si (), .so ()) ; assign sctag_scbuf_wbwr_wen_c8_v1 = sctag_scbuf_wbwr_wen_c8 ; assign sctag_scbuf_wbwr_wen_c8_v2 = sctag_scbuf_wbwr_wen_c8 ; assign sctag_scbuf_wbwr_wen_c8_v3 = sctag_scbuf_wbwr_wen_c8 ; assign sctag_scbuf_wbwr_wen_c8_v4 = sctag_scbuf_wbwr_wen_c8 ; dff_s #(3) ff_sctag_scbuf_wbwr_wl_c7 (.q (sctag_scbuf_wbwr_wl_c7[2:0]), .din (sctag_scbuf_wbwr_wl_c6[2:0]), .clk (rclk), .se (1'b0), .si (), .so ()) ; dff_s #(3) ff_sctag_scbuf_wbwr_wl_c8 (.q (sctag_scbuf_wbwr_wl_c8[2:0]), .din (sctag_scbuf_wbwr_wl_c7[2:0]), .clk (rclk), .se (1'b0), .si (), .so ()) ; assign sctag_scbuf_wbwr_wl_c8_v1[2:0] = sctag_scbuf_wbwr_wl_c8[2:0] ; assign sctag_scbuf_wbwr_wl_c8_v2[2:0] = sctag_scbuf_wbwr_wl_c8[2:0] ; assign sctag_scbuf_wbwr_wl_c8_v3[2:0] = sctag_scbuf_wbwr_wl_c8[2:0] ; assign sctag_scbuf_wbwr_wl_c8_v4[2:0] = sctag_scbuf_wbwr_wl_c8[2:0] ; dff_s #(3) ff_sctag_scbuf_wbrd_wl_r1 (.q (sctag_scbuf_wbrd_wl_r1[2:0]), .din (sctag_scbuf_wbrd_wl_r0[2:0]), .clk (rclk), .se (1'b0), .si (), .so ()) ; assign sctag_scbuf_wbrd_wl_r1_v1[2:0] = sctag_scbuf_wbrd_wl_r1[2:0] ; assign sctag_scbuf_wbrd_wl_r1_v2[2:0] = sctag_scbuf_wbrd_wl_r1[2:0] ; assign sctag_scbuf_wbrd_wl_r1_v3[2:0] = sctag_scbuf_wbrd_wl_r1[2:0] ; assign sctag_scbuf_wbrd_wl_r1_v4[2:0] = sctag_scbuf_wbrd_wl_r1[2:0] ; dff_s #(2) ff_sctag_scbuf_rdma_rdwl_r1 (.q (sctag_scbuf_rdma_rdwl_r1[1:0]), .din (sctag_scbuf_rdma_rdwl_r0[1:0]), .clk (rclk), .se (1'b0), .si (), .so ()) ; assign sctag_scbuf_rdma_rdwl_r1_v1[1:0] = sctag_scbuf_rdma_rdwl_r1[1:0] ; assign sctag_scbuf_rdma_rdwl_r1_v2[1:0] = sctag_scbuf_rdma_rdwl_r1[1:0] ; assign sctag_scbuf_rdma_rdwl_r1_v3[1:0] = sctag_scbuf_rdma_rdwl_r1[1:0] ; assign sctag_scbuf_rdma_rdwl_r1_v4[1:0] = sctag_scbuf_rdma_rdwl_r1[1:0] ; dff_s #(16) ff_sctag_scbuf_rdma_wren_s3 (.q (sctag_scbuf_rdma_wren_s3[15:0]), .din (sctag_scbuf_rdma_wren_s2[15:0]), .clk (rclk), .se (1'b0), .si (), .so ()) ; assign sctag_scbuf_rdma_wren_s3_v4 = (sctag_scbuf_rdma_wren_s3[6] \| sctag_scbuf_rdma_wren_s3[4] \| sctag_scbuf_rdma_wren_s3[2] \| sctag_scbuf_rdma_wren_s3[0]) ; assign sctag_scbuf_rdma_wren_s3_v3 = (sctag_scbuf_rdma_wren_s3[7] \| sctag_scbuf_rdma_wren_s3[5] \| sctag_scbuf_rdma_wren_s3[3] \| sctag_scbuf_rdma_wren_s3[1]) ; assign sctag_scbuf_rdma_wren_s3_v2 = (sctag_scbuf_rdma_wren_s3[14] \| sctag_scbuf_rdma_wren_s3[12] \| sctag_scbuf_rdma_wren_s3[10] \| sctag_scbuf_rdma_wren_s3[8]) ; assign sctag_scbuf_rdma_wren_s3_v1 = (sctag_scbuf_rdma_wren_s3[15] \| sctag_scbuf_rdma_wren_s3[13] \| sctag_scbuf_rdma_wren_s3[11] \| sctag_scbuf_rdma_wren_s3[9]) ; dff_s #(2) ff_sctag_scbuf_rdma_wrwl_s3 (.q (sctag_scbuf_rdma_wrwl_s3[1:0]), .din (sctag_scbuf_rdma_wrwl_s2[1:0]), .clk (rclk), .se (1'b0), .si (), .so ()) ; assign sctag_scbuf_rdma_wrwl_s3_v1[1:0] = sctag_scbuf_rdma_wrwl_s3[1:0] ; assign sctag_scbuf_rdma_wrwl_s3_v2[1:0] = sctag_scbuf_rdma_wrwl_s3[1:0] ; assign sctag_scbuf_rdma_wrwl_s3_v3[1:0] = sctag_scbuf_rdma_wrwl_s3[1:0] ; assign sctag_scbuf_rdma_wrwl_s3_v4[1:0] = sctag_scbuf_rdma_wrwl_s3[1:0] ; //////////////////////////////////////////////////////////////////////////////// dff_s #(1) ff_sctag_scbuf_wbrd_en_r1 (.q (sctag_scbuf_wbrd_en_r1), .din (sctag_scbuf_wbrd_en_r0), .clk (rclk), .se (1'b0), .si (), .so ()) ; assign sctag_scbuf_wbrd_en_r1_v1 = sctag_scbuf_wbrd_en_r1 ; assign sctag_scbuf_wbrd_en_r1_v2 = sctag_scbuf_wbrd_en_r1 ; assign sctag_scbuf_wbrd_en_r1_v3 = sctag_scbuf_wbrd_en_r1 ; assign sctag_scbuf_wbrd_en_r1_v4 = sctag_scbuf_wbrd_en_r1 ; mux2ds #(1) mux_wbrd_en_r1_in (.dout (sctag_scbuf_wbrd_en_r1_in), .in0 (sctag_scbuf_wbrd_en_r1), .sel0 (~sehold), .in1 (sctag_scbuf_wbrd_en_r2), .sel1 (sehold)) ; dff_s #(1) ff_sctag_scbuf_wbrd_en_r2 (.q (sctag_scbuf_wbrd_en_r2), .din (sctag_scbuf_wbrd_en_r1_in), .clk (rclk), .se (1'b0), .si (), .so ()) ; dff_s #(1) ff_sctag_scbuf_rdma_rden_r1 (.q (sctag_scbuf_rdma_rden_r1), .din (sctag_scbuf_rdma_rden_r0), .clk (rclk), .se (1'b0), .si (), .so ()) ; assign sctag_scbuf_rdma_rden_r1_v1 = sctag_scbuf_rdma_rden_r1 ; assign sctag_scbuf_rdma_rden_r1_v2 = sctag_scbuf_rdma_rden_r1 ; assign sctag_scbuf_rdma_rden_r1_v3 = sctag_scbuf_rdma_rden_r1 ; assign sctag_scbuf_rdma_rden_r1_v4 = sctag_scbuf_rdma_rden_r1 ; dff_s #(1) ff_sctag_scbuf_rdma_rden_r2 (.q (sctag_scbuf_rdma_rden_r2), .din (sctag_scbuf_rdma_rden_r1), .clk (rclk), .se (1'b0), .si (), .so ()) ; dff_s #(1) ff_sctag_scbuf_rdma_rden_r3 (.q (sctag_scbuf_rdma_rden_r3), .din (sctag_scbuf_rdma_rden_r2), .clk (rclk), .se (1'b0), .si (), .so ()) ; assign error_qual_in = sctag_scbuf_rdma_rden_r3 \| (error_qual & sctag_scbuf_evict_en_r3) ; dffrl_s #(1) ff_array_rd_ptr (.q (error_qual), .din (error_qual_in), .clk (rclk), .rst_l (dbb_rst_l), .se (se), .si (), .so ()) ; assign wb_or_rdma_rden_r2 = (sctag_scbuf_wbrd_en_r2 \| sctag_scbuf_rdma_rden_r2) \| sehold ; clken_buf clk_buf_r2 (.clk(en_clk_r2), .rclk(rclk), .enb_l(~wb_or_rdma_rden_r2), .tmb_l(~se)); clken_buf clk_buf_r3 (.clk(en_clk_r3), .rclk(rclk), .enb_l(~sctag_scbuf_evict_en_r3), .tmb_l(~se)); mux2ds #(624) mux_wb_rdma_mux_out (.dout (wb_rdma_mux_out[623:0]), .in0 (wb_array_dout[623:0]), .sel0 (sctag_scbuf_wbrd_en_r2), .in1 (rdma_array_dout[623:0]), .sel1 (~sctag_scbuf_wbrd_en_r2)) ; dff_s #(624) ff_wb_array_dout_r3 (.q (wb_array_dout_r3[623:0]), .din (wb_rdma_mux_out[623:0]), .clk (en_clk_r2), .se (1'b0), .si (), .so ()) ; //////////////////////////////////////////////////////////////////////////////// dff_s #(1) ff_sctag_scbuf_evict_en_r1 (.q (sctag_scbuf_evict_en_r1), .din (sctag_scbuf_evict_en_r0), .clk (rclk), .se (1'b0), .si (), .so ()) ; dff_s #(1) ff_sctag_scbuf_evict_en_r2 (.q (sctag_scbuf_evict_en_r2), .din (sctag_scbuf_evict_en_r1), .clk (rclk), .se (1'b0), .si (), .so ()) ; dff_s #(1) ff_sctag_scbuf_evict_en_r3 (.q (sctag_scbuf_evict_en_r3), .din (sctag_scbuf_evict_en_r2), .clk (rclk), .se (1'b0), .si (), .so ()) ; dff_s #(1) ff_sctag_scbuf_evict_en_r4 (.q (sctag_scbuf_evict_en_r4), .din (sctag_scbuf_evict_en_r3), .clk (rclk), .se (1'b0), .si (), .so ()) ; dff_s #(1) ff_sctag_scbuf_evict_en_r5 (.q (sctag_scbuf_evict_en_r5), .din (sctag_scbuf_evict_en_r4), .clk (rclk), .se (1'b0), .si (), .so ()) ; dff_s #(3) ff_ev_dword_r1 (.q (sctag_scbuf_ev_dword_r1[2:0]), .din (sctag_scbuf_ev_dword_r0[2:0]), .clk (rclk), .se (1'b0), .si (), .so ()) ; dff_s #(3) ff_ev_dword_r2 (.q (sctag_scbuf_ev_dword_r2[2:0]), .din (sctag_scbuf_ev_dword_r1[2:0]), .clk (rclk), .se (1'b0), .si (), .so ()) ; dff_s #(3) ff_ev_dword_r3 (.q (sctag_scbuf_ev_dword_r3[2:0]), .din (sctag_scbuf_ev_dword_r2[2:0]), .clk (rclk), .se (1'b0), .si (), .so ()) ; assign sel_in0 = (sctag_scbuf_ev_dword_r3[1:0] == 2'b00) ; assign sel_in1 = (sctag_scbuf_ev_dword_r3[1:0] == 2'b01) ; assign sel_in2 = (sctag_scbuf_ev_dword_r3[1:0] == 2'b10) ; assign sel_in3 = ~(sel_in0 \| sel_in1 \| sel_in2) ; mux4ds #(78) mux_wb_array_dout_1 (.dout (wb_array_dout_r3_4t1[77:0]), .in0 (wb_array_dout_r3[ 77: 0]), .sel0 (sel_in3), .in1 (wb_array_dout_r3[155: 78]), .sel1 (sel_in2), .in2 (wb_array_dout_r3[233:156]), .sel2 (sel_in1), .in3 (wb_array_dout_r3[311:234]), .sel3 (sel_in0)) ; mux4ds #(78) mux_wb_array_dout_2 (.dout (wb_array_dout_r3_4t1[155:78]), .in0 (wb_array_dout_r3[389:312]), .sel0 (sel_in3), .in1 (wb_array_dout_r3[467:390]), .sel1 (sel_in2), .in2 (wb_array_dout_r3[545:468]), .sel2 (sel_in1), .in3 (wb_array_dout_r3[623:546]), .sel3 (sel_in0)) ; mux2ds #(78) mux_wb_array_dout_8t1 (.dout (wb_array_dout_r3_8t1[77:0]), .in0 (wb_array_dout_r3_4t1[ 77: 0]), .sel0 (sctag_scbuf_ev_dword_r3[2]), .in1 (wb_array_dout_r3_4t1[155:78]), .sel1 (~sctag_scbuf_ev_dword_r3[2])) ; dff_s #(78) ff_wb_array_dout_r4 (.q (wb_array_dout_r4[77:0]), .din (wb_array_dout_r3_8t1[77:0]), .clk (en_clk_r3), .se (1'b0), .si (), .so ()) ; //////////////////////////////////////////////////////////////////////////////// zzecc_sctag_ecc39 u_ecctree_39b_1 (.dout (wb_array_dout_ecc_r4[31:0]), .cflag (check0_r4[5:0]), .pflag (parity0_r4), .parity (wb_array_dout_r4[6:0]), .din (wb_array_dout_r4[38:7])) ; zzecc_sctag_ecc39 u_ecctree_39b_2 (.dout (wb_array_dout_ecc_r4[63:32]), .cflag (check1_r4[5:0]), .pflag (parity1_r4), .parity (wb_array_dout_r4[45:39]), .din (wb_array_dout_r4[77:46])) ; assign evict_uncorr_err_r4 = (sctag_scbuf_evict_en_r4 & !error_qual) & (((\|check0_r4[5:0]) & ~parity0_r4) \| ((\|check1_r4[5:0]) & ~parity1_r4)) ; assign evict_uncorr_err_unqual_r4 = sctag_scbuf_evict_en_r4 & (((\|check0_r4[5:0]) & ~parity0_r4) \| ((\|check1_r4[5:0]) & ~parity1_r4)) ; assign evict_corr_err_r4 = (sctag_scbuf_evict_en_r4 & !error_qual) & (parity0_r4 \| parity1_r4) ; dff_s #(64) ff_wb_array_dout_r5 (.q (wb_array_dout_r5[63:0]), .din (wb_array_dout_ecc_r4[63:0]), .clk (rclk), .se (1'b0), .si (), .so ()) ; dff_s #(1) ff_evict_uncorr_err_r5 (.q (evict_uncorr_err_r5), .din (evict_uncorr_err_r4), .clk (rclk), .se (1'b0), .si (), .so ()) ; dff_s #(1) ff_evict_uncorr_err_unqual_r5 (.q (evict_uncorr_err_unqual_r5), .din (evict_uncorr_err_unqual_r4), .clk (rclk), .se (1'b0), .si (), .so ()) ; dff_s #(1) ff_evict_corr_err_r5 (.q (evict_corr_err_r5), .din (evict_corr_err_r4), .clk (rclk), .se (1'b0), .si (), .so ()) ; //////////////////////////////////////////////////////////////////////////////// assign scbuf_dram_wr_data_r5_pb = wb_array_dout_r5[63:0] ; assign scbuf_dram_data_vld_r5_pb = sctag_scbuf_evict_en_r5 ; assign scbuf_dram_data_mecc_r5_pb = evict_uncorr_err_unqual_r5 ; assign scbuf_sctag_ev_uerr_r5_pb = evict_uncorr_err_r5 ; assign scbuf_sctag_ev_cerr_r5_pb = evict_corr_err_r5 ; //////////////////////////////////////////////////////////////////////////////// endmodule
module gsu( input clkin, input [7:0] DI, output [7:0] DO, input [23:0] ADDR, input CS, input reg_we_rising, input [7:0] ROM_BUS_DI, output [23:0] ROM_BUS_ADDR, output ROM_BUS_RRQ, input ROM_BUS_RDY, input [7:0] RAM_BUS_DI, input [7:0] RAM_BUS_DO, output [18:0] RAM_BUS_ADDR, output RAM_BUS_RRQ, output RAM_BUS_WRQ, input RAM_BUS_RDY, output gsu_active, output ron, output ran ); wire mmio_enable = CS & !ADDR[22] & (ADDR[15:12] == 4'b0011) & (ADDR[15:0] < 16'h3040); wire MMIO_WR_EN = mmio_enable & reg_we_rising; reg [7:0] MMIO_DOr; wire [7:0] MMIO_DO; assign MMIO_DO = MMIO_DOr; wire cache_enable = CS & !ADDR[22] & (ADDR[15:12] == 4'b0011) & (ADDR[9] ^ ADDR[8]) & (ADDR[15:0] < 16'h3300); wire CACHE_WR_EN = cache_enable & reg_we_rising; reg [7:0] CACHE_DOr; wire [7:0] CACHE_DO; assign CACHE_DO = CACHE_DOr; assign DO = mmio_enable ? MMIO_DO : cache_enable ? CACHE_DO : 8'h00; reg [15:0] regs [15:0]; // General purpose registers R0~R15 parameter RAP = 4'd14, PC = 4'd15 ; // Status/flag register flags reg [15:0] sfr; wire z = sfr[1]; // Zero wire cy = sfr[2]; // Carry wire s = sfr[3]; // Sign wire ov = sfr[4]; // Overflow wire g = sfr[5]; // Go wire r = sfr[6]; // Reading ROM using R14 wire alt1 = sfr[8]; // Mode flag for next insn wire alt2 = sfr[9]; // Mode flag for next insn wire il = sfr[10]; // Immediate lower wire ih = sfr[11]; // Immediate higher wire b = sfr[12]; // Instruction executed with WITH wire irq = sfr[15]; // Interrupt parameter Z = 4'd1, CY = 4'd2, S = 4'd3, OV = 4'd4, G = 4'd5, R = 4'd6, ALT1 = 4'd8, ALT2 = 4'd9, IL = 4'd10, IH = 4'd11, B = 4'd12, IRQ = 4'd15 ; reg [7:0] pbr; // Program bank register reg [7:0] rombr; // Game Pak ROM bank register reg rambr; // Game Pak RAM bank register reg [15:0] cbr; // Cache base register. [3:0] are always 0. // TODO: why not make the register only 12 bits wide? reg [7:0] scbr; // Screen base register reg [5:0] scmr; // Screen mode register reg [7:0] colr; // Color register reg [4:0] por; // Plot option register reg bramr; // Back-up RAM register reg [7:0] vcr; // Version code register reg [7:0] cfgr; // Config register reg clsr; // Clock select register reg [7:0] pipeline; reg [3:0] src_reg; reg [15:0] src_reg_reg; reg [3:0] dst_reg; reg [3:0] dst1; reg [15:0] dst1_reg; reg dst1_reg_assigned; initial dst1_reg_assigned = 1'b0; /* reg [3:0] dst2; reg [15:0] dst2_reg; reg dst2_reg_assigned; initial dst2_reg_assigned = 1'b0; / reg [16:0] res17; / ROM/RAM bus access flags / assign ron = scmr[4]; assign ran = scmr[3]; / Cache RAM and cache flags / reg [31:0] cache_flags; initial cache_flags = 32'h00000000; wire [7:0] cache_outa; wire [7:0] cache_in; wire [8:0] cache_addra; wire cache_we; wire [7:0] cache_byte; wire [7:0] cache_outb; wire [8:0] cache_addrb; gsu_cache cache ( .douta(cache_outa), .dina(cache_in), .addra(cache_addra), .wea(cache_we), .doutb(cache_outb), .addrb(cache_addrb), .clk(clkin) ); wire [8:0] RESOLVED_CACHE_ADDR = (ADDR[9:0] + cbr) & 9'h1ff; wire [8:0] RESOLVED_CACHE_PC = (regs[PC][9:0] + cbr) & 9'h1ff; assign cache_addrb = RESOLVED_CACHE_ADDR; assign cache_byte = cache_outa; / Cache flag of byte in cache pointed to by the program counter / wire cache_flag = cache_flags[RESOLVED_CACHE_PC[8:4]]; / Bytes of the current instruction / reg [7:0] curr_inst [2:0]; reg [2:0] curr_inst_valid; reg [2:0] curr_inst_fetches; / Byte in pipeline / reg [7:0] pipeline_byte; / Immediate parts of current instruction / wire [3:0] imm = cache_byte[3:0]; reg [3:0] immr4; reg [7:0] immr8 [1:0]; / For plotting, two pixel caches. / reg[7:0] primary_pcache [7:0]; reg[7:0] primary_pcache_flags; reg[7:0] secondary_pcache [7:0]; reg[7:0] secondary_pcache_flags; reg fetch_cached_insn; reg[7:0] state; parameter STATE_IDLE = 8'b00000001; parameter STATE_CPU1 = 8'b00000010; parameter STATE_CPU2 = 8'b00000100; parameter STATE_CPU3 = 8'b00001000; parameter STATE_CPU4 = 8'b00010000; parameter OP_ALT1 = 8'b00111101; parameter OP_ALT2 = 8'b00111110; parameter OP_ALT3 = 8'b00111111; parameter OP_FROM = 8'b1011xxxx; parameter OP_TO = 8'b0001xxxx; parameter OP_ADX = 8'b0101xxxx; parameter OP_BEQ = 8'b00001001; parameter OP_NOP = 8'b00000001; parameter OP_IWT = 8'b1111xxxx; // Also LM, SM reg [7:0] curr_op; initial begin: initial_blk reg [4:0] i; state = STATE_IDLE; for (i = 5'h0; i <= PC; i = i + 5'h1) begin regs[i] = 16'h0000; end curr_op = OP_NOP; curr_inst[0] = OP_NOP; curr_inst[1] = 8'b0; curr_inst[2] = 8'b0; for (i = 2'h0; i < 2'h3; i = i + 2'h1) begin curr_inst_valid[i] = 1'b0; end pipeline_byte = OP_NOP; end reg [2:0] gsu_busy; parameter BUSY_CACHE = 2'b00; parameter BUSY_CACHE_SCPU = 2'b01; parameter BUSY_CPU = 2'b10; //assign gsu_busy_out = gsu_busy; assign gsu_active = \|gsu_busy; reg [7:0] scpu_di_r; initial scpu_di_r = 8'h00; reg [8:0] gsu_cache_addra; initial gsu_cache_addra = 9'h000; reg [8:0] scpu_cache_addra; initial scpu_cache_addra = 9'h000; reg gsu_cache_we; initial gsu_cache_we = 1'b0; reg scpu_cache_we; initial scpu_cache_we = 1'b0; assign cache_in = gsu_busy[BUSY_CACHE] ? ROM_BUS_DI : gsu_busy[BUSY_CACHE_SCPU] ? scpu_di_r : 8'h00; assign cache_addra = gsu_busy[BUSY_CACHE] ? gsu_cache_addra : gsu_busy[BUSY_CACHE_SCPU] ? scpu_cache_addra : RESOLVED_CACHE_PC; assign cache_we = gsu_busy[BUSY_CACHE] ? gsu_cache_we : gsu_busy[BUSY_CACHE_SCPU] ? scpu_cache_we : 1'b0; reg [23:0] CACHE_SRC_ADDRr; wire [22:0] MAPPED_CACHE_ROM_ADDR = (~\|CACHE_SRC_ADDRr[23:22] & CACHE_SRC_ADDRr[15]) ? / Bank 0x00-0x3f, Offset 8000-ffff / ({3'b000, CACHE_SRC_ADDRr[21:16], CACHE_SRC_ADDRr[14:0]}) : / Bank 0x40-0x5f, Offset 0000-ffff / ({3'b000, CACHE_SRC_ADDRr[20:0]}); reg CACHE_ROM_BUS_RRQr; initial CACHE_ROM_BUS_RRQr = 1'b0; / CPU ROM bus access related flags and registers / reg cpu_rom_bus_rq; reg [7:0] cpu_rombusdata; reg [23:0] cpu_rombusaddr; assign MAPPED_CPU_ROM_ADDR = (~\|cpu_rombusaddr[23:22] & cpu_rombusaddr[15]) ? / Bank 0x00-0x3f, Offset 8000-ffff / ({3'b000, cpu_rombusaddr[21:16], cpu_rombusaddr[14:0]}) : / Bank 0x40-0x5f, Offset 0000-ffff / ({3'b000, cpu_rombusaddr[20:0]}); assign ROM_BUS_RRQ = CACHE_ROM_BUS_RRQr \| cpu_rom_bus_rq; assign ROM_BUS_ADDR = gsu_busy[BUSY_CACHE] ? MAPPED_CACHE_ROM_ADDR : MAPPED_CPU_ROM_ADDR; reg [4:0] CACHE_ST; parameter ST_CACHE_IDLE = 5'b00001; parameter ST_CACHE_START = 5'b00010; parameter ST_CACHE_WAIT = 5'b00100; parameter ST_CACHE_ADDR = 5'b01000; parameter ST_CACHE_END = 5'b10000; initial CACHE_ST = ST_CACHE_IDLE; reg CACHE_TRIG_ENr; reg CACHE_TRIG_EN2r; reg cpu_cache_en; initial begin CACHE_TRIG_ENr = 1'b0; CACHE_TRIG_EN2r = 1'b0; cpu_cache_en = 1'b0; end always @(posedge clkin) CACHE_TRIG_EN2r <= CACHE_TRIG_ENr; wire CACHE_TRIG_EN = CACHE_TRIG_EN2r; / FSM for writing to cache. There are two paths: 1) Filling a non-resident cache block from ROM through internal operation - Source address: program counter - Address in cache: (cache base + program counter) & 0x1f0 - Total bytes read and written: 16 2) Writing to the cache from the S-CPU - Source data: wire DI from main.v - Address in cache: (cache base + ADDR[9:0]) & 0x1ff - Total bytes read and written: 1 Filling non-resident cache blocks has priority. / reg [3:0] cache_count; initial cache_count = 4'b0; always @(posedge clkin) begin case(CACHE_ST) ST_CACHE_IDLE: begin if(CACHE_TRIG_EN & ~cache_flags[RESOLVED_CACHE_PC[8:4] / XXX /]) begin CACHE_ST <= ST_CACHE_START; gsu_busy[BUSY_CACHE] <= 1'b1; end else if(cpu_cache_en & ~cache_flags[RESOLVED_CACHE_PC[8:4] / XXX /]) begin CACHE_ST <= ST_CACHE_START; gsu_busy[BUSY_CACHE] <= 1'b1; end else if (CACHE_WR_EN) begin CACHE_ST <= ST_CACHE_START; gsu_busy[BUSY_CACHE_SCPU] <= 1'b1; end else CACHE_ST <= ST_CACHE_IDLE; end ST_CACHE_START: begin if (gsu_busy[BUSY_CACHE]) begin CACHE_ST <= ST_CACHE_WAIT; CACHE_SRC_ADDRr <= regs[PC] / XXX /; gsu_cache_addra <= {RESOLVED_CACHE_PC[8:4], 4'h0} / XXX /; cache_count <= 4'b0; CACHE_ROM_BUS_RRQr <= 1'b1; end else if (gsu_busy[BUSY_CACHE_SCPU]) begin CACHE_ST <= ST_CACHE_WAIT; scpu_cache_addra <= RESOLVED_CACHE_ADDR; scpu_di_r <= DI; end else CACHE_ST <= ST_CACHE_IDLE; end ST_CACHE_WAIT: begin if (gsu_busy[BUSY_CACHE]) begin CACHE_ROM_BUS_RRQr <= 1'b0; if(~CACHE_ROM_BUS_RRQr & ROM_BUS_RDY) begin CACHE_ST <= ST_CACHE_ADDR; gsu_cache_we <= 1'b1; end else CACHE_ST <= ST_CACHE_WAIT; end else if (gsu_busy[BUSY_CACHE_SCPU]) begin CACHE_ST <= ST_CACHE_ADDR; scpu_cache_we <= 1'b1; end else CACHE_ST <= ST_CACHE_IDLE; end ST_CACHE_ADDR: begin if (gsu_busy[BUSY_CACHE]) begin gsu_cache_we <= 1'b0; CACHE_SRC_ADDRr <= CACHE_SRC_ADDRr + 1; cache_count <= cache_count + 1; gsu_cache_addra <= (gsu_cache_addra + 10'b1) & 9'h1ff; if (cache_count == 4'hf) begin // Set the cache flag, as the last byte in the cache block was written cache_flags[gsu_cache_addra[8:4]] <= 1'b1; gsu_busy[BUSY_CACHE] <= 1'b0; CACHE_ST <= ST_CACHE_IDLE; end else begin CACHE_ROM_BUS_RRQr <= 1'b1; CACHE_ST <= ST_CACHE_WAIT; end end else if (gsu_busy[BUSY_CACHE_SCPU]) begin CACHE_ST <= ST_CACHE_IDLE; gsu_busy[BUSY_CACHE_SCPU] <= 1'b0; scpu_cache_we <= 1'b0; // Set the cache flag if the last byte in the cache block was written if (&scpu_cache_addra[3:0]) begin cache_flags[scpu_cache_addra[8:4]] <= 1'b1; end // the write will have hit the cache by the next cycle end else CACHE_ST <= ST_CACHE_IDLE; end endcase end reg [3:0] PIPELINE_ST; parameter ST_PIPELINE_IDLE = 4'b0001; parameter ST_PIPELINE_START = 4'b0010; parameter ST_PIPELINE_WAIT = 4'b0100; parameter ST_PIPELINE_END = 4'b1000; initial PIPELINE_ST = ST_PIPELINE_IDLE; reg [3:0] pipeline_delay; reg pipeline_cache_wait; initial pipeline_cache_wait = 0; / Process to read instructions from either the cache or the gamepak ROM. / // XXX: take into account interaction with cache write operations always @(posedge clkin) begin case (PIPELINE_ST) ST_PIPELINE_IDLE: begin PIPELINE_ST <= ST_PIPELINE_IDLE; if (sfr[G]) begin PIPELINE_ST <= ST_PIPELINE_START; end end ST_PIPELINE_START: begin PIPELINE_ST <= ST_PIPELINE_START; CACHE_TRIG_ENr <= 1'b0; if ((cbr[15:4] == regs[PC][15:4]) & cache_flags[RESOLVED_CACHE_PC[8:4]]) begin PIPELINE_ST <= ST_PIPELINE_END; pipeline_cache_wait <= 1'b0; pipeline_byte <= cache_outa; pipeline_delay <= 3; // XXX end else if (cbr[15:4] == regs[PC][15:4]) begin // Pull the block into cache. Then the branch above takes over. if (~pipeline_cache_wait) begin CACHE_TRIG_ENr <= 1'b1; pipeline_cache_wait <= 1'b1; end end else begin // Read the block from gamepak ROM PIPELINE_ST <= ST_PIPELINE_WAIT; cpu_rom_bus_rq <= 1'b1; cpu_rombusaddr <= {pbr, regs[PC]}; end end ST_PIPELINE_WAIT: begin PIPELINE_ST <= ST_PIPELINE_WAIT; cpu_rom_bus_rq <= 1'b0; if (~cpu_rom_bus_rq & ROM_BUS_RDY) begin // XXX: what if cache and this are reading at the same time? PIPELINE_ST <= ST_PIPELINE_END; pipeline_byte <= ROM_BUS_DI; pipeline_delay <= 3; // XXX end end ST_PIPELINE_END: begin PIPELINE_ST <= ST_PIPELINE_END; pipeline_delay <= pipeline_delay - 1; if (pipeline_delay == 0) PIPELINE_ST <= sfr[G] ? ST_PIPELINE_START : ST_PIPELINE_IDLE; end endcase end // XXX: somehow move pipeline byte to current instruction when necessary always @(posedge clkin) begin case (state) STATE_IDLE: begin state <= STATE_IDLE; if (MMIO_WR_EN) begin casex (ADDR[9:0]) / GPRs R0~R15 For some reason, unless these are written this way, the code either fails to synthesize or fails timing constraints on clkin / 10'h000: regs[0] <= {regs[0][15:8], DI}; 10'h001: regs[0] <= {DI, regs[0][7:0]}; 10'h002: regs[1] <= {regs[1][15:8], DI}; 10'h003: regs[1] <= {DI, regs[1][7:0]}; 10'h004: regs[2] <= {regs[2][15:8], DI}; 10'h005: regs[2] <= {DI, regs[2][7:0]}; 10'h006: regs[3] <= {regs[3][15:8], DI}; 10'h007: regs[3] <= {DI, regs[3][7:0]}; 10'h008: regs[4] <= {regs[4][15:8], DI}; 10'h009: regs[4] <= {DI, regs[4][7:0]}; 10'h00a: regs[5] <= {regs[5][15:8], DI}; 10'h00b: regs[5] <= {DI, regs[5][7:0]}; 10'h00c: regs[6] <= {regs[6][15:8], DI}; 10'h00d: regs[6] <= {DI, regs[6][7:0]}; 10'h00e: regs[7] <= {regs[7][15:8], DI}; 10'h00f: regs[7] <= {DI, regs[7][7:0]}; 10'h010: regs[8] <= {regs[8][15:8], DI}; 10'h011: regs[8] <= {DI, regs[8][7:0]}; 10'h012: regs[9] <= {regs[9][15:8], DI}; 10'h013: regs[9] <= {DI, regs[9][7:0]}; 10'h014: regs[10] <= {regs[10][15:8], DI}; 10'h015: regs[10] <= {DI, regs[10][7:0]}; 10'h016: regs[11] <= {regs[11][15:8], DI}; 10'h017: regs[11] <= {DI, regs[11][7:0]}; 10'h018: regs[12] <= {regs[12][15:8], DI}; 10'h019: regs[12] <= {DI, regs[12][7:0]}; 10'h01a: regs[13] <= {regs[13][15:8], DI}; 10'h01b: regs[13] <= {DI, regs[13][7:0]}; 10'h01c: begin regs[14] <= {regs[14][15:8], DI}; // TODO: should update ROM buffer end 10'h01d: begin regs[14] <= {DI, regs[14][7:0]}; // TODO: should update ROM buffer end 10'h01e: regs[15] <= {regs[15][15:8], DI}; 10'h01f: begin regs[15] <= {DI, regs[15][7:0]}; sfr[G] <= 1'b1; state <= STATE_CPU1; end // Status flag register 10'h030: begin sfr[7:0] <= {1'b0, DI[6:1], 1'b0}; if (DI[G]) begin state <= STATE_CPU1; end end 10'h031: sfr[15:8] <= {DI[7], 2'b00, DI[4:0]}; //10'h032: Unused // Back-up RAM register 10'h033: bramr <= DI[0]; // Program bank register 10'h034: pbr <= DI; // Game Pak ROM bank register: read only //10'h036: rombr <= DI; // Config register: 10'h037: cfgr <= {DI[7], 1'b0, DI[5], 5'b00000}; // Screen base register 10'h038: scbr <= DI; // Clock select register 10'h039: clsr <= DI[0]; // Screen mode register 10'h03a: scmr <= DI[5:0]; // Version code register: read only //10'h03b: vcr <= DI; // Game Pak RAM bank register: read only //10'h03c: rambr <= DI[0]; //10'h03d: Unused // Cache base register: read only //10'h03e: cbr[7:0] <= {DI[7:4], 4'b0000}; //10'h03f: cbr[15:8] <= DI; // Color register: no access from SNES CPU // Plot option register: no access from SNES CPU endcase end end STATE_CPU1: begin state <= STATE_CPU2; src_reg_reg <= regs[src_reg]; if (curr_inst_valid[0]) begin // First, read first byte of instruction from cache curr_op <= curr_inst[0]; casex (cache_byte) OP_ALT1: begin sfr[ALT1] <= 1'b1; sfr[ALT2] <= 1'b0; regs[PC] <= regs[PC] + 16'h1; end OP_ALT2: begin sfr[ALT1] <= 1'b0; sfr[ALT2] <= 1'b1; regs[PC] <= regs[PC] + 16'h1; end OP_ALT3: begin sfr[ALT1] <= 1'b1; sfr[ALT2] <= 1'b1; regs[PC] <= regs[PC] + 16'h1; end OP_FROM: begin if (~b) src_reg <= imm; else begin dst1 <= dst_reg; dst1_reg <= regs[imm]; dst1_reg_assigned <= 1'b1; if (dst_reg != PC) begin regs[PC] <= regs[PC] + 16'h1; end // XXX: need to reset regs end end OP_TO: begin if (~b) dst_reg <= imm; else begin dst1 <= imm; dst1_reg <= regs[src_reg]; dst1_reg_assigned <= 1'b1; if (imm != PC) begin regs[PC] <= regs[PC] + 16'h1; end // XXX: need to reset regs end end OP_IWT: begin immr4 <= imm; regs[PC] <= regs[PC] + 16'h1; end OP_NOP: begin // Just reset regs. sfr[B] <= 1'b0; sfr[ALT1] <= 1'b0; sfr[ALT2] <= 1'b0; src_reg <= 4'h0; dst_reg <= 4'h0; regs[PC] <= regs[PC] + 16'h1; end endcase end end STATE_CPU2: begin state <= STATE_CPU3; // Wait until the second byte of the instruction is in the cache if (cache_flag) begin casex (curr_op) OP_ADX: begin if (!alt1 && !alt2) begin // ADD Rn res17 <= src_reg_reg + regs[imm]; end else if (alt1 && !alt2) begin // ADC Rn res17 <= src_reg_reg + regs[imm] + cy; end else if (!alt1 && alt2) begin // ADD #n res17 <= src_reg_reg + imm; end else / if (alt1 && alt2) / begin // ADC #n res17 <= src_reg_reg + imm + cy; end end OP_BEQ: begin: op_beq_blk / reg signed [7:0] tmp; tmp = pipeline; regs[PC] <= regs[PC] + 16'h1; //pipeline = 8'b1; // XXX: NOP for now. Should read. //fetch_next_cached_insn; if (z) begin // XXX this is ugly! regs[PC] <= $unsigned($signed(regs[PC]) + tmp); end / end OP_IWT: begin immr8[0] <= cache_byte; regs[PC] <= regs[PC] + 16'h1; end endcase end end STATE_CPU3: begin state <= STATE_CPU4; // Wait until the third byte of the instruction is in the cache if (cache_flag) begin casex (curr_op) OP_ADX: begin // Set flags sfr[OV] <= (~(src_reg_reg ^ (alt2 ? regs[imm] : imm)) & ((alt2 ? regs[imm] : imm) ^ res17) & 16'h8000) != 0; sfr[S] <= (res17 & 16'h8000) != 0; sfr[CY] <= res17 >= 17'h10000; sfr[Z] <= (res17 & 16'hffff) == 0; // Write the result dst1 <= dst_reg; dst1_reg <= res17; dst1_reg_assigned <= 1'b1; // Increment program counter if it was not set above if (dst_reg != PC) begin regs[PC] <= regs[PC] + 16'h1; end end OP_IWT: begin regs[immr4] <= {immr8[0], cache_byte}; if (immr4 != PC) begin regs[PC] <= regs[PC] + 16'h1; end end endcase end end STATE_CPU4: begin state <= sfr[G] ? STATE_CPU1 : STATE_IDLE; casex (curr_op) OP_ADX, OP_IWT: begin // Register reset sfr[B] <= 1'b0; sfr[ALT1] <= 1'b0; sfr[ALT2] <= 1'b0; src_reg <= 4'h0; dst_reg <= 4'h0; end endcase // Move results to destination GPRs. if (dst1_reg_assigned) begin regs[dst1] <= dst1_reg; dst1_reg_assigned <= 1'b0; end end endcase end / MMIO read process / always @(posedge clkin) begin casex (ADDR[9:0]) / GPRs R0~R15 / 10'b00000xxxx0: MMIO_DOr <= regs[ADDR[4:1]][7:0]; 10'b00000xxxx1: MMIO_DOr <= regs[ADDR[4:1]][15:8]; // Status flag register 10'h030: MMIO_DOr <= sfr[7:0]; 10'h031: MMIO_DOr <= sfr[15:8]; // TODO: should reset IRQ flag //10'h032: Unused // Back-up RAM register: write only //10'h033: MMIO_DOr <= {7'b0000000, bramr}; // Program bank register 10'h034: MMIO_DOr <= pbr; // Game Pak ROM bank register 10'h036: MMIO_DOr <= rombr; // Config register: write only //10'h037: MMIO_DOr <= cfgr; // Screen base register: write only //10'h038: MMIO_DOr <= scbr; // Clock select register: write only //10'h039: MMIO_DOr <= {7'b0000000, clsr}; // Screen mode register: write only //10'h03a: MMIO_DOr <= {2'b00, scmr}; // Version code register 10'h03b: MMIO_DOr <= vcr; // Game Pak RAM bank register 10'h03c: MMIO_DOr <= {7'b0000000, rambr}; //10'h03d: Unused // Cache base register 10'h03e: MMIO_DOr <= {cbr[7:4], 4'b0000}; 10'h03f: MMIO_DOr <= cbr[15:8]; // Color register: no access from SNES CPU // Plot option register: no access from SNES CPU default: MMIO_DOr <= 8'hff; endcase end / // For some reason, enabling this makes timing constraints start to fail!? always @(posedge clkin) begin casex (ADDR[9:0]) // Cache RAM 10'h1xx, 10'h2xx: CACHE_DOr <= cache_outb; endcase end / / State machine for reading the gamepak ROM to CPU / reg[2:0] ROMBUSRD_STATE; parameter ST_ROMBUSRD_IDLE = 3'b001; parameter ST_ROMBUSRD_WAIT = 3'b010; parameter ST_ROMBUSRD_END = 3'b100; initial ROMBUSRD_STATE = ST_ROMBUSRD_IDLE; / This is just cpu_rom_bus_rq delayed by one cycle. / reg cpu_rom_bus_rq2; always @(posedge clkin) cpu_rom_bus_rq2 <= cpu_rom_bus_rq; / This is just CACHE_ROM_BUS_RRQr delayed by one cycle. / reg cache_rom_bus_rq2; always @(posedge clkin) cache_rom_bus_rq2 <= CACHE_ROM_BUS_RRQr; always @(posedge clkin) begin case(ROMBUSRD_STATE) ST_ROMBUSRD_IDLE: begin if(cpu_rom_bus_rq2 \| cache_rom_bus_rq2) begin ROMBUSRD_STATE <= ST_ROMBUSRD_WAIT; end end ST_ROMBUSRD_WAIT: begin if(ROM_BUS_RDY) ROMBUSRD_STATE <= ST_ROMBUSRD_END; else ROMBUSRD_STATE <= ST_ROMBUSRD_WAIT; end ST_ROMBUSRD_END: begin / if(~cpu_rombusaddr[22]) cpu_rombusdata <= ROM_BUS_DI; else cpu_rombusdata <= 8'h00; / cpu_rombusdata <= ROM_BUS_DI; / XXX: Should we have a transition out of this state? Note that the CX4 core has no such transition. */ ROMBUSRD_STATE <= ST_ROMBUSRD_IDLE; end endcase end endmodule

module SCB_P4_v1_20_0 ( sclk, interrupt, clock); output sclk; output interrupt; input clock; wire Net_427; wire Net_416; wire Net_245; wire Net_676; wire Net_452; wire Net_459; wire Net_496; wire Net_660; wire Net_656; wire Net_687; wire Net_703; wire Net_682; wire Net_422; wire Net_379; wire Net_555; wire Net_387; wire uncfg_rx_irq; wire Net_458; wire Net_596; wire Net_252; wire Net_547; wire rx_irq; wire [3:0] ss; wire Net_467; wire Net_655; wire Net_663; wire Net_581; wire Net_474; wire Net_651; wire Net_580; wire Net_654; wire Net_653; wire Net_652; wire Net_284; cy_clock_v1_0 #(.id("1ec6effd-8f31-4dd5-a825-0c49238d524e/81fcee8a-3b8b-4be1-9a5f-a5e2e619a938"), .source_clock_id(""), .divisor(0), .period("723379629.62963"), .is_direct(0), .is_digital(0)) SCBCLK (.clock_out(Net_284)); ZeroTerminal ZeroTerminal_5 ( .z(Net_459)); // select_s_VM (cy_virtualmux_v1_0) assign Net_652 = Net_459; ZeroTerminal ZeroTerminal_4 ( .z(Net_452)); ZeroTerminal ZeroTerminal_3 ( .z(Net_676)); ZeroTerminal ZeroTerminal_2 ( .z(Net_245)); ZeroTerminal ZeroTerminal_1 ( .z(Net_416)); // rx_VM (cy_virtualmux_v1_0) assign Net_654 = Net_379; // rx_wake_VM (cy_virtualmux_v1_0) assign Net_682 = uncfg_rx_irq; // clock_VM (cy_virtualmux_v1_0) assign Net_655 = Net_284; // sclk_s_VM (cy_virtualmux_v1_0) assign Net_653 = Net_416; // mosi_s_VM (cy_virtualmux_v1_0) assign Net_651 = Net_676; // miso_m_VM (cy_virtualmux_v1_0) assign Net_663 = Net_245; wire [0:0] tmpOE__tx_net; wire [0:0] tmpFB_0__tx_net; wire [0:0] tmpIO_0__tx_net; wire [0:0] tmpINTERRUPT_0__tx_net; electrical [0:0] tmpSIOVREF__tx_net; cy_psoc3_pins_v1_10 #(.id("1ec6effd-8f31-4dd5-a825-0c49238d524e/23b8206d-1c77-4e61-be4a-b4037d5de5fc"), .drive_mode(3'b110), .ibuf_enabled(1'b0), .init_dr_st(1'b1), .input_clk_en(0), .input_sync(1'b0), .input_sync_mode(1'b0), .intr_mode(2'b00), .invert_in_clock(0), .invert_in_clock_en(0), .invert_in_reset(0), .invert_out_clock(0), .invert_out_clock_en(0), .invert_out_reset(0), .io_voltage(""), .layout_mode("CONTIGUOUS"), .oe_conn(1'b0), .oe_reset(0), .oe_sync(1'b0), .output_clk_en(0), .output_clock_mode(1'b0), .output_conn(1'b1), .output_mode(1'b0), .output_reset(0), .output_sync(1'b0), .pa_in_clock(-1), .pa_in_clock_en(-1), .pa_in_reset(-1), .pa_out_clock(-1), .pa_out_clock_en(-1), .pa_out_reset(-1), .pin_aliases(""), .pin_mode("B"), .por_state(4), .sio_group_cnt(0), .sio_hyst(1'b0), .sio_ibuf(""), .sio_info(2'b00), .sio_obuf(""), .sio_refsel(""), .sio_vtrip(""), .slew_rate(1'b0), .spanning(0), .use_annotation(1'b0), .vtrip(2'b00), .width(1)) tx (.oe(tmpOE__tx_net), .y({Net_656}), .fb({tmpFB_0__tx_net[0:0]}), .io({tmpIO_0__tx_net[0:0]}), .siovref(tmpSIOVREF__tx_net), .interrupt({tmpINTERRUPT_0__tx_net[0:0]}), .in_clock({1'b0}), .in_clock_en({1'b1}), .in_reset({1'b0}), .out_clock({1'b0}), .out_clock_en({1'b1}), .out_reset({1'b0})); assign tmpOE__tx_net = (`CYDEV_CHIP_MEMBER_USED == `CYDEV_CHIP_MEMBER_3A && `CYDEV_CHIP_REVISION_USED < `CYDEV_CHIP_REVISION_3A_ES3) ? ~{1'b1} : {1'b1}; ZeroTerminal ZeroTerminal_7 ( .z(Net_427)); assign sclk = Net_284 | Net_427; wire [0:0] tmpOE__rx_net; wire [0:0] tmpIO_0__rx_net; wire [0:0] tmpINTERRUPT_0__rx_net; electrical [0:0] tmpSIOVREF__rx_net; cy_psoc3_pins_v1_10 #(.id("1ec6effd-8f31-4dd5-a825-0c49238d524e/78e33e5d-45ea-4b75-88d5-73274e8a7ce4"), .drive_mode(3'b001), .ibuf_enabled(1'b1), .init_dr_st(1'b0), .input_clk_en(0), .input_sync(1'b0), .input_sync_mode(1'b0), .intr_mode(2'b00), .invert_in_clock(0), .invert_in_clock_en(0), .invert_in_reset(0), .invert_out_clock(0), .invert_out_clock_en(0), .invert_out_reset(0), .io_voltage(""), .layout_mode("CONTIGUOUS"), .oe_conn(1'b0), .oe_reset(0), .oe_sync(1'b0), .output_clk_en(0), .output_clock_mode(1'b0), .output_conn(1'b0), .output_mode(1'b0), .output_reset(0), .output_sync(1'b0), .pa_in_clock(-1), .pa_in_clock_en(-1), .pa_in_reset(-1), .pa_out_clock(-1), .pa_out_clock_en(-1), .pa_out_reset(-1), .pin_aliases(""), .pin_mode("I"), .por_state(4), .sio_group_cnt(0), .sio_hyst(1'b0), .sio_ibuf(""), .sio_info(2'b00), .sio_obuf(""), .sio_refsel(""), .sio_vtrip(""), .slew_rate(1'b0), .spanning(0), .use_annotation(1'b0), .vtrip(2'b00), .width(1)) rx (.oe(tmpOE__rx_net), .y({1'b0}), .fb({Net_379}), .io({tmpIO_0__rx_net[0:0]}), .siovref(tmpSIOVREF__rx_net), .interrupt({tmpINTERRUPT_0__rx_net[0:0]}), .in_clock({1'b0}), .in_clock_en({1'b1}), .in_reset({1'b0}), .out_clock({1'b0}), .out_clock_en({1'b1}), .out_reset({1'b0})); assign tmpOE__rx_net = (`CYDEV_CHIP_MEMBER_USED == `CYDEV_CHIP_MEMBER_3A && `CYDEV_CHIP_REVISION_USED < `CYDEV_CHIP_REVISION_3A_ES3) ? ~{1'b1} : {1'b1}; cy_m0s8_scb_v1_0 SCB ( .rx(Net_654), .miso_m(Net_663), .clock(Net_655), .select_m(ss[3:0]), .sclk_m(Net_687), .mosi_s(Net_651), .select_s(Net_652), .sclk_s(Net_653), .mosi_m(Net_660), .scl(Net_580), .sda(Net_581), .tx(Net_656), .miso_s(Net_703), .interrupt(interrupt)); defparam SCB.scb_mode = 2; endmodule

module IDAC_P4_v1_0_1 ( Iout); inout Iout; electrical Iout; wire Net_3; cy_psoc4_csidac_v1_0 cy_psoc4_idac ( .en(Net_3), .iout(Iout)); defparam cy_psoc4_idac.resolution = 7; OneTerminal OneTerminal_1 ( .o(Net_3)); endmodule

module IDAC_P4_v1_0_2 ( Iout); inout Iout; electrical Iout; wire Net_3; cy_psoc4_csidac_v1_0 cy_psoc4_idac ( .en(Net_3), .iout(Iout)); defparam cy_psoc4_idac.resolution = 8; OneTerminal OneTerminal_1 ( .o(Net_3)); endmodule

module CapSense_CSD_P4_v2_0_3 ( sclk2); output sclk2; wire Net_534; wire Net_474; wire Net_540; wire Net_329; wire Net_312; wire Net_104; wire Net_328; electrical Net_398; electrical Net_241; electrical Net_246; wire Net_420; wire Net_429; electrical [3:0] Net_245; wire Net_248; electrical Net_270; cy_psoc4_csd_v1_0 CSD_FFB ( .source(Net_245[3:0]), .csh(Net_246), .shield(Net_241), .cmod(Net_398), .sample_out(Net_328), .sense_in(Net_104), .clk1(Net_429), .clk2(Net_420), .irq(Net_248), .sample_in(Net_312), .sense_out(Net_329), .amuxa(Net_270)); defparam CSD_FFB.sensors_count = 4; defparam CSD_FFB.shield_count = 1; cy_clock_v1_0 #(.id("3c8c7eac-aaf5-41b9-9d0a-e31e77bfd8ce/74063576-f256-4f8f-8a82-9abdee876261"), .source_clock_id("413DE2EF-D9F2-4233-A808-DFAF137FD877"), .divisor(255), .period("0"), .is_direct(0), .is_digital(0)) SampleClk (.clock_out(Net_420)); wire [0:0] tmpOE__Cmod_net; wire [0:0] tmpFB_0__Cmod_net; wire [0:0] tmpIO_0__Cmod_net; wire [0:0] tmpINTERRUPT_0__Cmod_net; electrical [0:0] tmpSIOVREF__Cmod_net; cy_psoc3_pins_v1_10 #(.id("3c8c7eac-aaf5-41b9-9d0a-e31e77bfd8ce/899719c0-e797-4403-a44f-07a66de2cbeb"), .drive_mode(3'b000), .ibuf_enabled(1'b0), .init_dr_st(1'b1), .input_clk_en(0), .input_sync(1'b1), .input_sync_mode(1'b0), .intr_mode(2'b00), .invert_in_clock(0), .invert_in_clock_en(0), .invert_in_reset(0), .invert_out_clock(0), .invert_out_clock_en(0), .invert_out_reset(0), .io_voltage(""), .layout_mode("CONTIGUOUS"), .oe_conn(1'b0), .oe_reset(0), .oe_sync(1'b0), .output_clk_en(0), .output_clock_mode(1'b0), .output_conn(1'b0), .output_mode(1'b0), .output_reset(0), .output_sync(1'b0), .pa_in_clock(-1), .pa_in_clock_en(-1), .pa_in_reset(-1), .pa_out_clock(-1), .pa_out_clock_en(-1), .pa_out_reset(-1), .pin_aliases("Cmod"), .pin_mode("A"), .por_state(4), .sio_group_cnt(0), .sio_hyst(1'b0), .sio_ibuf(""), .sio_info(2'b00), .sio_obuf(""), .sio_refsel(""), .sio_vtrip(""), .slew_rate(1'b0), .spanning(0), .use_annotation(1'b0), .vtrip(2'b10), .width(1)) Cmod (.oe(tmpOE__Cmod_net), .y({1'b0}), .fb({tmpFB_0__Cmod_net[0:0]}), .analog({Net_398}), .io({tmpIO_0__Cmod_net[0:0]}), .siovref(tmpSIOVREF__Cmod_net), .interrupt({tmpINTERRUPT_0__Cmod_net[0:0]}), .in_clock({1'b0}), .in_clock_en({1'b1}), .in_reset({1'b0}), .out_clock({1'b0}), .out_clock_en({1'b1}), .out_reset({1'b0})); assign tmpOE__Cmod_net = (`CYDEV_CHIP_MEMBER_USED == `CYDEV_CHIP_MEMBER_3A && `CYDEV_CHIP_REVISION_USED < `CYDEV_CHIP_REVISION_3A_ES3) ? ~{1'b1} : {1'b1}; cy_isr_v1_0 #(.int_type(2'b10)) ISR (.int_signal(Net_248)); IDAC_P4_v1_0_1 IDAC2 ( .Iout(Net_270)); wire [3:0] tmpOE__Sns_net; wire [3:0] tmpFB_3__Sns_net; wire [3:0] tmpIO_3__Sns_net; wire [0:0] tmpINTERRUPT_0__Sns_net; electrical [0:0] tmpSIOVREF__Sns_net; cy_psoc3_pins_v1_10 #(.id("3c8c7eac-aaf5-41b9-9d0a-e31e77bfd8ce/73b612cd-240c-4d8e-8340-ea28aabf4b11"), .drive_mode(12'b000_000_000_000), .ibuf_enabled(4'b0_0_0_0), .init_dr_st(4'b1_1_1_1), .input_clk_en(0), .input_sync(4'b1_1_1_1), .input_sync_mode(4'b0_0_0_0), .intr_mode(8'b00_00_00_00), .invert_in_clock(0), .invert_in_clock_en(0), .invert_in_reset(0), .invert_out_clock(0), .invert_out_clock_en(0), .invert_out_reset(0), .io_voltage(",,,"), .layout_mode("NONCONTIGUOUS"), .oe_conn(4'b0_0_0_0), .oe_reset(0), .oe_sync(4'b0_0_0_0), .output_clk_en(0), .output_clock_mode(4'b0_0_0_0), .output_conn(4'b0_0_0_0), .output_mode(4'b0_0_0_0), .output_reset(0), .output_sync(4'b0_0_0_0), .pa_in_clock(-1), .pa_in_clock_en(-1), .pa_in_reset(-1), .pa_out_clock(-1), .pa_out_clock_en(-1), .pa_out_reset(-1), .pin_aliases("Button0__BTN,Button1__BTN,Button2__BTN,Button3__BTN"), .pin_mode("AAAA"), .por_state(4), .sio_group_cnt(0), .sio_hyst(4'b0_0_0_0), .sio_ibuf(""), .sio_info(8'b00_00_00_00), .sio_obuf(""), .sio_refsel(""), .sio_vtrip(""), .slew_rate(4'b0_0_0_0), .spanning(1), .use_annotation(4'b0_0_0_0), .vtrip(8'b10_10_10_10), .width(4)) Sns (.oe(tmpOE__Sns_net), .y({4'b0}), .fb({tmpFB_3__Sns_net[3:0]}), .analog({Net_245[3:0]}), .io({tmpIO_3__Sns_net[3:0]}), .siovref(tmpSIOVREF__Sns_net), .interrupt({tmpINTERRUPT_0__Sns_net[0:0]}), .in_clock({1'b0}), .in_clock_en({1'b1}), .in_reset({1'b0}), .out_clock({1'b0}), .out_clock_en({1'b1}), .out_reset({1'b0})); assign tmpOE__Sns_net = (`CYDEV_CHIP_MEMBER_USED == `CYDEV_CHIP_MEMBER_3A && `CYDEV_CHIP_REVISION_USED < `CYDEV_CHIP_REVISION_3A_ES3) ? ~{4'b1111} : {4'b1111}; IDAC_P4_v1_0_2 IDAC1 ( .Iout(Net_270)); ZeroTerminal ZeroTerminal_1 ( .z(Net_312)); ZeroTerminal ZeroTerminal_2 ( .z(Net_104)); assign sclk2 = Net_420 | Net_474; ZeroTerminal ZeroTerminal_7 ( .z(Net_474)); cy_clock_v1_0 #(.id("3c8c7eac-aaf5-41b9-9d0a-e31e77bfd8ce/9a635726-510c-483c-9c5c-3e233ee2906a"), .source_clock_id("413DE2EF-D9F2-4233-A808-DFAF137FD877"), .divisor(255), .period("0"), .is_direct(0), .is_digital(0)) SenseClk (.clock_out(Net_429)); endmodule

module SCB_P4_v1_20_4 ( sclk, interrupt, clock); output sclk; output interrupt; input clock; wire Net_427; wire Net_416; wire Net_245; wire Net_676; wire Net_452; wire Net_459; wire Net_496; wire Net_660; wire Net_656; wire Net_687; wire Net_703; wire Net_682; wire Net_422; wire Net_379; wire Net_555; wire Net_387; wire uncfg_rx_irq; wire Net_458; wire Net_596; wire Net_252; wire Net_547; wire rx_irq; wire [3:0] ss; wire Net_467; wire Net_655; wire Net_663; wire Net_581; wire Net_474; wire Net_651; wire Net_580; wire Net_654; wire Net_653; wire Net_652; wire Net_284; cy_clock_v1_0 #(.id("4ee47aff-a351-4cef-924e-4fb02af36bdf/81fcee8a-3b8b-4be1-9a5f-a5e2e619a938"), .source_clock_id(""), .divisor(0), .period("156250000"), .is_direct(0), .is_digital(0)) SCBCLK (.clock_out(Net_284)); ZeroTerminal ZeroTerminal_5 ( .z(Net_459)); // select_s_VM (cy_virtualmux_v1_0) assign Net_652 = Net_459; ZeroTerminal ZeroTerminal_4 ( .z(Net_452)); ZeroTerminal ZeroTerminal_3 ( .z(Net_676)); ZeroTerminal ZeroTerminal_2 ( .z(Net_245)); ZeroTerminal ZeroTerminal_1 ( .z(Net_416)); // rx_VM (cy_virtualmux_v1_0) assign Net_654 = Net_452; // rx_wake_VM (cy_virtualmux_v1_0) assign Net_682 = uncfg_rx_irq; // clock_VM (cy_virtualmux_v1_0) assign Net_655 = Net_284; // sclk_s_VM (cy_virtualmux_v1_0) assign Net_653 = Net_416; // mosi_s_VM (cy_virtualmux_v1_0) assign Net_651 = Net_676; // miso_m_VM (cy_virtualmux_v1_0) assign Net_663 = Net_245; wire [0:0] tmpOE__sda_net; wire [0:0] tmpFB_0__sda_net; wire [0:0] tmpINTERRUPT_0__sda_net; electrical [0:0] tmpSIOVREF__sda_net; cy_psoc3_pins_v1_10 #(.id("4ee47aff-a351-4cef-924e-4fb02af36bdf/5382e105-1382-4a2e-b9f4-3bb2feba71e0"), .drive_mode(3'b100), .ibuf_enabled(1'b1), .init_dr_st(1'b1), .input_clk_en(0), .input_sync(1'b0), .input_sync_mode(1'b0), .intr_mode(2'b00), .invert_in_clock(0), .invert_in_clock_en(0), .invert_in_reset(0), .invert_out_clock(0), .invert_out_clock_en(0), .invert_out_reset(0), .io_voltage(""), .layout_mode("CONTIGUOUS"), .oe_conn(1'b0), .oe_reset(0), .oe_sync(1'b0), .output_clk_en(0), .output_clock_mode(1'b0), .output_conn(1'b0), .output_mode(1'b0), .output_reset(0), .output_sync(1'b0), .pa_in_clock(-1), .pa_in_clock_en(-1), .pa_in_reset(-1), .pa_out_clock(-1), .pa_out_clock_en(-1), .pa_out_reset(-1), .pin_aliases(""), .pin_mode("B"), .por_state(4), .sio_group_cnt(0), .sio_hyst(1'b0), .sio_ibuf(""), .sio_info(2'b00), .sio_obuf(""), .sio_refsel(""), .sio_vtrip(""), .slew_rate(1'b0), .spanning(0), .use_annotation(1'b0), .vtrip(2'b00), .width(1)) sda (.oe(tmpOE__sda_net), .y({1'b0}), .fb({tmpFB_0__sda_net[0:0]}), .io({Net_581}), .siovref(tmpSIOVREF__sda_net), .interrupt({tmpINTERRUPT_0__sda_net[0:0]}), .in_clock({1'b0}), .in_clock_en({1'b1}), .in_reset({1'b0}), .out_clock({1'b0}), .out_clock_en({1'b1}), .out_reset({1'b0})); assign tmpOE__sda_net = (`CYDEV_CHIP_MEMBER_USED == `CYDEV_CHIP_MEMBER_3A && `CYDEV_CHIP_REVISION_USED < `CYDEV_CHIP_REVISION_3A_ES3) ? ~{1'b1} : {1'b1}; wire [0:0] tmpOE__scl_net; wire [0:0] tmpFB_0__scl_net; wire [0:0] tmpINTERRUPT_0__scl_net; electrical [0:0] tmpSIOVREF__scl_net; cy_psoc3_pins_v1_10 #(.id("4ee47aff-a351-4cef-924e-4fb02af36bdf/22863ebe-a37b-476f-b252-6e49a8c00b12"), .drive_mode(3'b100), .ibuf_enabled(1'b1), .init_dr_st(1'b1), .input_clk_en(0), .input_sync(1'b0), .input_sync_mode(1'b0), .intr_mode(2'b00), .invert_in_clock(0), .invert_in_clock_en(0), .invert_in_reset(0), .invert_out_clock(0), .invert_out_clock_en(0), .invert_out_reset(0), .io_voltage(""), .layout_mode("CONTIGUOUS"), .oe_conn(1'b0), .oe_reset(0), .oe_sync(1'b0), .output_clk_en(0), .output_clock_mode(1'b0), .output_conn(1'b0), .output_mode(1'b0), .output_reset(0), .output_sync(1'b0), .pa_in_clock(-1), .pa_in_clock_en(-1), .pa_in_reset(-1), .pa_out_clock(-1), .pa_out_clock_en(-1), .pa_out_reset(-1), .pin_aliases(""), .pin_mode("B"), .por_state(4), .sio_group_cnt(0), .sio_hyst(1'b0), .sio_ibuf(""), .sio_info(2'b00), .sio_obuf(""), .sio_refsel(""), .sio_vtrip(""), .slew_rate(1'b0), .spanning(0), .use_annotation(1'b0), .vtrip(2'b00), .width(1)) scl (.oe(tmpOE__scl_net), .y({1'b0}), .fb({tmpFB_0__scl_net[0:0]}), .io({Net_580}), .siovref(tmpSIOVREF__scl_net), .interrupt({tmpINTERRUPT_0__scl_net[0:0]}), .in_clock({1'b0}), .in_clock_en({1'b1}), .in_reset({1'b0}), .out_clock({1'b0}), .out_clock_en({1'b1}), .out_reset({1'b0})); assign tmpOE__scl_net = (`CYDEV_CHIP_MEMBER_USED == `CYDEV_CHIP_MEMBER_3A && `CYDEV_CHIP_REVISION_USED < `CYDEV_CHIP_REVISION_3A_ES3) ? ~{1'b1} : {1'b1}; ZeroTerminal ZeroTerminal_7 ( .z(Net_427)); assign sclk = Net_284 | Net_427; cy_isr_v1_0 #(.int_type(2'b10)) SCB_IRQ (.int_signal(interrupt)); cy_m0s8_scb_v1_0 SCB ( .rx(Net_654), .miso_m(Net_663), .clock(Net_655), .select_m(ss[3:0]), .sclk_m(Net_687), .mosi_s(Net_651), .select_s(Net_652), .sclk_s(Net_653), .mosi_m(Net_660), .scl(Net_580), .sda(Net_581), .tx(Net_656), .miso_s(Net_703), .interrupt(interrupt)); defparam SCB.scb_mode = 0; endmodule

module top ; wire Net_21; wire Net_20; wire Net_19; wire Net_27; wire Net_3; wire Net_2; wire Net_1; SCB_P4_v1_20_0 UART ( .sclk(Net_1), .interrupt(Net_2), .clock(1'b0)); CapSense_CSD_P4_v2_0_3 CapSense ( .sclk2(Net_27)); SCB_P4_v1_20_4 SCB_1 ( .sclk(Net_19), .interrupt(Net_20), .clock(1'b0)); endmodule

module sky130_fd_sc_lp__and4b ( X , A_N, B , C , D ); output X ; input A_N; input B ; input C ; input D ; // Voltage supply signals supply1 VPWR; supply0 VGND; supply1 VPB ; supply0 VNB ; endmodule

module hamming_distance ( input wire clock, input wire [7:0] val_a, val_b, output reg [3:0] distance ); wire [7:0] bit_diff; assign bit_diff = val_a ^ val_b; always @(posedge clock) begin // Unless I misunderstood him, Marshall said this should work distance = bit_diff[0] + bit_diff[1] + bit_diff[2] + bit_diff[3] + bit_diff[4] + bit_diff[5] + bit_diff[6] + bit_diff[7]; end endmodule

module populate_candidates ( input wire clock, input wire [7:0] code, input wire [7:0] base_candidate_addr, output reg [7:0] addr_candidates, input wire [7:0] read_candidates, input wire [7:0] candidate_len, input wire [7:0] base_next_cand_addr, output reg [7:0] addr_next_cand, output reg [7:0] data_next_cand, output wire wren_next_cand, output reg [7:0] next_cand_len, input wire [3:0] min_dist, input wire start, output wire complete ); wire [3:0] distance; reg [7:0] ham_in_a, ham_in_b; hamming_distance hd ( .clock ( clock), .val_a ( ham_in_a ), .val_b ( ham_in_b ), .distance ( distance ) ); reg done; assign complete = (done == 1 || state == ST_DONE); reg write_cand; assign wren_next_cand = write_cand; reg [7:0] icand, inext; reg start_1, start_2; reg [5:0] state; parameter [5:0] ST_RST = 6'h00, ST_IDLE = 6'h01, ST_DONE = 6'h07; always @(posedge clock) begin {start_2, start_1} <= {start_1, start}; case(state) ST_RST: begin done <= 0; state <= ST_IDLE; end ST_IDLE: begin if( start_2 ) begin ham_in_a <= code; icand <= 0; inext <= 0; state <= 3; done <= 0; end end // Read next candidate 3: begin addr_candidates <= base_candidate_addr + icand; state <= 4; end // 4: begin ham_in_b <= read_candidates; state <= 5; end 5: begin if ( distance >= min_dist ) begin data_next_cand <= read_candidates; addr_next_cand <= base_next_cand_addr + inext; write_cand <= 1; end state <= 6; end 6: begin // Unsure if I need to wait until here to increment inext if ( distance >= min_dist ) begin inext <= inext + 1; end write_cand <= 0; icand <= icand + 1; if ( icand > candidate_len ) begin done <= 1; next_cand_len <= inext; state <= 7; end else begin state <= 3; end end ST_DONE: begin state <= ST_IDLE; end endcase end endmodule

module find_iso ( input clock, input wire start, output wire complete ); reg start_1, start_2; reg [5:0] state; parameter [5:0] ST_RST = 6'h00, ST_IDLE = 6'h01; always @(posedge clock) begin {start_2, start_1} <= {start_1, start}; case(state) ST_RST: begin state <= ST_IDLE; end ST_IDLE: begin if( start_2 ) begin state <= 3; end end 3: begin state <= 4; end 4: begin state <= 5; end 5: begin state <= 6; end 6: begin state <= ST_IDLE; end endcase end endmodule

module find_best_iso ( input wire clock, input wire [7:0] min_hd, input wire [7:0] min_iso, input wire start_process, output reg complete ); parameter n = 5; parameter MAX_N = 8; parameter MAX_CAND = 2**MAX_N; reg [5:0] state; parameter [5:0] ST_RST = 6'h00, ST_IDLE = 6'h01; reg [7:0] count, icand; reg [7:0] a_len, min_b_len; reg start_process_1, start_process_2; // Storage for sets of codes wire wren_codes; wire [7:0] read_codes; wire [10:0] addr_codes; wire [7:0] data_codes; icblbc_ram codes ( .address ( addr_codes ), .clock ( clock ), .data ( data_codes ), .wren ( wren_codes ), .q ( read_codes ) ); reg fi_en; find_iso fi ( .clock ( clock ), .start ( fi_en ), .complete ( fi_done ) ); always @(posedge clock) begin {start_process_2, start_process_1} <= {start_process_1, start_process}; case(state) ST_RST: begin state <= ST_IDLE; end ST_IDLE: begin if( start_process_2 ) begin state <= 3; a_len <= 1<<(n-1); min_b_len <= 2; end end 3: begin state <= 4; end 4: begin state <= 5; end 5: begin state <= 10; end // Wait for find_iso() to finish 10: begin fi_en <= 1; state <= 11; end 11: begin if( fi_done ) begin state <= 12; end end 12: begin state <= 13; end 20: begin state <= ST_IDLE; end endcase end endmodule

module sky130_fd_sc_lp__or2 ( X, A, B ); output X; input A; input B; // Voltage supply signals supply1 VPWR; supply0 VGND; supply1 VPB ; supply0 VNB ; endmodule

module TimeHoldOver_Qsys ( clk_clk, epcs_flash_controller_dclk, epcs_flash_controller_sce, epcs_flash_controller_sdo, epcs_flash_controller_data0, on_chip_rst_and_pps_switch_export, io_update_ctrl_export, ocxo_lock_export, pps_interrupt_export, reset_reset_n, sdram_controller_addr, sdram_controller_ba, sdram_controller_cas_n, sdram_controller_cke, sdram_controller_cs_n, sdram_controller_dq, sdram_controller_dqm, sdram_controller_ras_n, sdram_controller_we_n, timer_ecc_fault_itr_export, timer_interface_coe_sec_cnt_set_data_out, timer_interface_coe_sec_cnt_get_data_in, timer_interface_coe_ns_cnt_set_data_out, timer_interface_coe_ns_cnt_get_data_in, timer_interface_coe_ctrl_cnt_set_out, timer_interface_coe_ctrl_cnt_get_in, timer_interface_coe_err_cnt_in, timer_interface_coe_utc_time_in, timer_interface_coe_time_zone_set_out, timer_interface_coe_time_zone_get_in, timer_interface_coe_leap_cnt_set_out, timer_interface_coe_leap_cnt_get_in, timer_interface_coe_leap_occur_set_out, timer_interface_coe_leap_occur_get_in, timer_interface_coe_dst_ingress_set_out, timer_interface_coe_dst_ingress_get_in, timer_interface_coe_dst_engress_set_out, timer_interface_coe_dst_engress_get_in, timer_interface_coe_leap_direct_get_in, timer_interface_coe_leap_direct_set_out, timer_interface_coe_io_update_in, timer_interface_coe_time_quality_get_in, timer_interface_coe_time_quality_set_out, uart_0_external_connection_rxd, uart_0_external_connection_txd, uart_1_external_connection_rxd, uart_1_external_connection_txd, uart_2_external_connection_rxd, uart_2_external_connection_txd, uart_3_external_connection_rxd, uart_3_external_connection_txd); input clk_clk; output epcs_flash_controller_dclk; output epcs_flash_controller_sce; output epcs_flash_controller_sdo; input epcs_flash_controller_data0; output [8:0] on_chip_rst_and_pps_switch_export; output io_update_ctrl_export; input ocxo_lock_export; input pps_interrupt_export; input reset_reset_n; output [11:0] sdram_controller_addr; output [1:0] sdram_controller_ba; output sdram_controller_cas_n; output sdram_controller_cke; output sdram_controller_cs_n; inout [15:0] sdram_controller_dq; output [1:0] sdram_controller_dqm; output sdram_controller_ras_n; output sdram_controller_we_n; input timer_ecc_fault_itr_export; output [192:0] timer_interface_coe_sec_cnt_set_data_out; input [191:0] timer_interface_coe_sec_cnt_get_data_in; output [96:0] timer_interface_coe_ns_cnt_set_data_out; input [95:0] timer_interface_coe_ns_cnt_get_data_in; output [24:0] timer_interface_coe_ctrl_cnt_set_out; input [23:0] timer_interface_coe_ctrl_cnt_get_in; input [23:0] timer_interface_coe_err_cnt_in; input [55:0] timer_interface_coe_utc_time_in; output [8:0] timer_interface_coe_time_zone_set_out; input [7:0] timer_interface_coe_time_zone_get_in; output [16:0] timer_interface_coe_leap_cnt_set_out; input [15:0] timer_interface_coe_leap_cnt_get_in; output [64:0] timer_interface_coe_leap_occur_set_out; input [63:0] timer_interface_coe_leap_occur_get_in; output [64:0] timer_interface_coe_dst_ingress_set_out; input [63:0] timer_interface_coe_dst_ingress_get_in; output [64:0] timer_interface_coe_dst_engress_set_out; input [63:0] timer_interface_coe_dst_engress_get_in; input [7:0] timer_interface_coe_leap_direct_get_in; output [8:0] timer_interface_coe_leap_direct_set_out; input timer_interface_coe_io_update_in; input [7:0] timer_interface_coe_time_quality_get_in; output [8:0] timer_interface_coe_time_quality_set_out; input uart_0_external_connection_rxd; output uart_0_external_connection_txd; input uart_1_external_connection_rxd; output uart_1_external_connection_txd; input uart_2_external_connection_rxd; output uart_2_external_connection_txd; input uart_3_external_connection_rxd; output uart_3_external_connection_txd; endmodule

module sky130_fd_sc_hd__lpflow_inputiso1p ( X , A , SLEEP ); // Module ports output X ; input A ; input SLEEP; // Name Output Other arguments or or0 (X , A, SLEEP ); endmodule

module sky130_fd_sc_hdll__a22oi ( Y , A1, A2, B1, B2 ); // Module ports output Y ; input A1; input A2; input B1; input B2; // Module supplies supply1 VPWR; supply0 VGND; supply1 VPB ; supply0 VNB ; // Local signals wire nand0_out ; wire nand1_out ; wire and0_out_Y; // Name Output Other arguments nand nand0 (nand0_out , A2, A1 ); nand nand1 (nand1_out , B2, B1 ); and and0 (and0_out_Y, nand0_out, nand1_out); buf buf0 (Y , and0_out_Y ); endmodule

module sky130_fd_sc_ls__fah ( COUT, SUM , A , B , CI ); // Module ports output COUT; output SUM ; input A ; input B ; input CI ; // Local signals wire xor0_out_SUM; wire a_b ; wire a_ci ; wire b_ci ; wire or0_out_COUT; // Name Output Other arguments xor xor0 (xor0_out_SUM, A, B, CI ); buf buf0 (SUM , xor0_out_SUM ); and and0 (a_b , A, B ); and and1 (a_ci , A, CI ); and and2 (b_ci , B, CI ); or or0 (or0_out_COUT, a_b, a_ci, b_ci); buf buf1 (COUT , or0_out_COUT ); endmodule

module sky130_fd_sc_hvl__dlxtp ( //# {{data|Data Signals}} input D , output Q , //# {{clocks|Clocking}} input GATE ); // Voltage supply signals supply1 VPWR; supply0 VGND; supply1 VPB ; supply0 VNB ; endmodule

module sky130_fd_sc_lp__isolatch ( Q , D , SLEEP_B ); // Module ports output Q ; input D ; input SLEEP_B; // Module supplies supply1 KAPWR; supply1 VPWR ; supply0 VGND ; supply1 VPB ; supply0 VNB ; // Local signals wire buf_Q ; wire SLEEP_B_delayed; wire D_delayed ; reg notifier ; // Name Output Other arguments sky130_fd_sc_lp__udp_isolatch_pp$PKG$sN isolatch_pp0 (buf_Q , D_delayed, SLEEP_B_delayed, notifier, KAPWR, VGND, VPWR); buf buf0 (Q , buf_Q ); endmodule

module VGA_Control ( input clk, input rst, input [7:0]snake, input [7:0]apple_x, input [7:0]apple_y, output reg[9:0]x_pos, output reg[9:0]y_pos, output reg hsync, output reg vsync, output reg [11:0] color_out ); reg [19:0]clk_cnt; reg [9:0]line_cnt; reg clk_25M; localparam NONE = 7'b0000_000; localparam HEAD = 7'b0000_001; localparam BODY = 7'b0000_010; localparam WALL = 7'b0000_011; localparam HEAD_COLOR = 12'b0000_1111_0000; localparam BODY_COLOR = 12'b0000_1111_1111; reg [3:0]lox; reg [3:0]loy; always@(posedge clk or posedge rst) begin if(rst) begin clk_cnt <= 0; line_cnt <= 0; hsync <= 1; vsync <= 1; end else begin x_pos <= clk_cnt - 144; y_pos <= line_cnt - 33; if(clk_cnt == 0) begin hsync <= 0; clk_cnt <= clk_cnt + 1; end else if(clk_cnt == 96) begin hsync <= 1; clk_cnt <= clk_cnt + 1; end else if(clk_cnt == 799) begin clk_cnt <= 0; line_cnt <= line_cnt + 1; end else clk_cnt <= clk_cnt + 1; if(line_cnt == 0) begin vsync <= 0; end else if(line_cnt == 2) begin vsync <= 1; end else if(line_cnt == 521) begin line_cnt <= 0; vsync <= 0; end if(x_pos >= 0 && x_pos < 640 && y_pos >= 0 && y_pos < 480) begin lox = x_pos[3:0]; loy = y_pos[3:0]; if(x_pos[9:4] == apple_x && y_pos[9:4] == apple_y) case({loy,lox}) 8'b0000_0000:color_out = 12'b0000_0000_0000; default:color_out = 12'b0000_0000_1111; endcase else if(snake == NONE) color_out = 12'b0000_0000_0000; else if(snake == WALL) color_out = 3'b101; else if(snake == HEAD|snake == BODY) begin //¸ù¾Ýµ±Ç°É¨Ãèµ½µÄµãÊÇÄÄÒ»²¿·ÖÊä³öÏàÓ¦ÑÕÉ« case({lox,loy}) 8'b0000_0000:color_out = 12'b0000_0000_0000; default:color_out = (snake == HEAD) ? HEAD_COLOR : BODY_COLOR; endcase end end else color_out = 12'b0000_0000_0000; end end endmodule

module TX_PLL ( areset, inclk0, c0, locked); input areset; input inclk0; output c0; output locked; `ifndef ALTERA_RESERVED_QIS // synopsys translate_off `endif tri0 areset; `ifndef ALTERA_RESERVED_QIS // synopsys translate_on `endif endmodule

module 32 wire [31:0] sbox = `Sbox(addmod32); // S-box replacing wire [31:0] shift11 = {sbox[20:0],sbox[31:21]}; // <<11 always @(posedge clk) if(rst) {b,a} <= {64{1'b0}}; else if (pvalid && pready) // load plain text and start cipher cycles {b,a} <= pdata; else if (state == RUN) {b,a} <= {a, b^shift11}; always @(posedge clk) if (state == READY) cdata <= {a,b}; always @(posedge clk) if (state == READY) cvalid <= 1'b1; else cvalid <= 1'b0; always @(posedge clk) if ((state == RUN) || (state == READY)) pready <= 1'b0; else if (cready) pready <= 1'b1; /// else if (state == RUN) /// pready <= 1'b0; //////////////////////////////////////////////////////////////////////////////// endmodule

module sky130_fd_sc_hdll__o21ba ( X , A1 , A2 , B1_N, VPWR, VGND, VPB , VNB ); // Module ports output X ; input A1 ; input A2 ; input B1_N; input VPWR; input VGND; input VPB ; input VNB ; // Local signals wire nor0_out ; wire nor1_out_X ; wire pwrgood_pp0_out_X; // Name Output Other arguments nor nor0 (nor0_out , A1, A2 ); nor nor1 (nor1_out_X , B1_N, nor0_out ); sky130_fd_sc_hdll__udp_pwrgood_pp$PG pwrgood_pp0 (pwrgood_pp0_out_X, nor1_out_X, VPWR, VGND); buf buf0 (X , pwrgood_pp0_out_X ); endmodule

module sdram_clk_gen_exdes #( parameter TCQ = 100 ) (// Clock in ports input CLK_IN1, // Reset that only drives logic in example design input COUNTER_RESET, output [1:1] CLK_OUT, // High bits of counters driven by clocks output COUNT ); // Parameters for the counters //------------------------------- // Counter width localparam C_W = 16; // Create reset for the counters wire reset_int = COUNTER_RESET; reg rst_sync; reg rst_sync_int; reg rst_sync_int1; reg rst_sync_int2; // Declare the clocks and counter wire clk_int; wire clk_n; wire clk; reg [C_W-1:0] counter; // Instantiation of the clocking network //-------------------------------------- sdram_clk_gen clknetwork (// Clock in ports .clk_in (CLK_IN1), // Clock out ports .clk_out (clk_int)); assign clk_n = ~clk; ODDR2 clkout_oddr (.Q (CLK_OUT[1]), .C0 (clk), .C1 (clk_n), .CE (1'b1), .D0 (1'b1), .D1 (1'b0), .R (1'b0), .S (1'b0)); // Connect the output clocks to the design //----------------------------------------- assign clk = clk_int; // Reset synchronizer //----------------------------------- always @(posedge reset_int or posedge clk) begin if (reset_int) begin rst_sync <= 1'b1; rst_sync_int <= 1'b1; rst_sync_int1 <= 1'b1; rst_sync_int2 <= 1'b1; end else begin rst_sync <= 1'b0; rst_sync_int <= rst_sync; rst_sync_int1 <= rst_sync_int; rst_sync_int2 <= rst_sync_int1; end end // Output clock sampling //----------------------------------- always @(posedge clk or posedge rst_sync_int2) begin if (rst_sync_int2) begin counter <= #TCQ { C_W { 1'b 0 } }; end else begin counter <= #TCQ counter + 1'b 1; end end // alias the high bit to the output assign COUNT = counter[C_W-1]; endmodule

module rom_shared_ipv4 ( aclr, address_a, address_b, clock, rden_a, rden_b, q_a, q_b); input aclr; input [11:0] address_a; input [11:0] address_b; input clock; input rden_a; input rden_b; output [31:0] q_a; output [31:0] q_b; `ifndef ALTERA_RESERVED_QIS // synopsys translate_off `endif tri0 aclr; tri1 clock; tri1 rden_a; tri1 rden_b; `ifndef ALTERA_RESERVED_QIS // synopsys translate_on `endif wire [31:0] sub_wire0; wire [31:0] sub_wire1; wire sub_wire2 = 1'h0; wire [31:0] sub_wire3 = 32'h0; wire [31:0] q_a = sub_wire0[31:0]; wire [31:0] q_b = sub_wire1[31:0]; altsyncram altsyncram_component ( .clock0 (clock), .wren_a (sub_wire2), .address_b (address_b), .data_b (sub_wire3), .rden_a (rden_a), .wren_b (sub_wire2), .aclr0 (aclr), .address_a (address_a), .data_a (sub_wire3), .rden_b (rden_b), .q_a (sub_wire0), .q_b (sub_wire1) // synopsys translate_off , .aclr1 (), .addressstall_a (), .addressstall_b (), .byteena_a (), .byteena_b (), .clock1 (), .clocken0 (), .clocken1 (), .clocken2 (), .clocken3 (), .eccstatus () // synopsys translate_on ); defparam altsyncram_component.address_reg_b = "CLOCK0", altsyncram_component.clock_enable_input_a = "BYPASS", altsyncram_component.clock_enable_input_b = "BYPASS", altsyncram_component.clock_enable_output_a = "BYPASS", altsyncram_component.clock_enable_output_b = "BYPASS", altsyncram_component.indata_reg_b = "CLOCK0", altsyncram_component.init_file = "output_IPV4.mif", altsyncram_component.intended_device_family = "Stratix IV", altsyncram_component.lpm_type = "altsyncram", altsyncram_component.numwords_a = 4096, altsyncram_component.numwords_b = 4096, altsyncram_component.operation_mode = "BIDIR_DUAL_PORT", altsyncram_component.outdata_aclr_a = "CLEAR0", altsyncram_component.outdata_aclr_b = "CLEAR0", altsyncram_component.outdata_reg_a = "UNREGISTERED", altsyncram_component.outdata_reg_b = "UNREGISTERED", altsyncram_component.power_up_uninitialized = "FALSE", altsyncram_component.widthad_a = 12, altsyncram_component.widthad_b = 12, altsyncram_component.width_a = 32, altsyncram_component.width_b = 32, altsyncram_component.width_byteena_a = 1, altsyncram_component.width_byteena_b = 1, altsyncram_component.wrcontrol_wraddress_reg_b = "CLOCK0"; endmodule

module feedforward ( ap_clk, ap_rst_n, P_config_V_TDATA, P_config_V_TVALID, P_config_V_TREADY, P_WandB_TDATA, P_WandB_TVALID, P_WandB_TREADY, P_uOut_TDATA, P_uOut_TVALID, P_uOut_TREADY, P_netIn_TDATA, P_netIn_TVALID, P_netIn_TREADY, P_netOut_V_TDATA, P_netOut_V_TVALID, P_netOut_V_TREADY, s_axi_AXILiteS_AWVALID, s_axi_AXILiteS_AWREADY, s_axi_AXILiteS_AWADDR, s_axi_AXILiteS_WVALID, s_axi_AXILiteS_WREADY, s_axi_AXILiteS_WDATA, s_axi_AXILiteS_WSTRB, s_axi_AXILiteS_ARVALID, s_axi_AXILiteS_ARREADY, s_axi_AXILiteS_ARADDR, s_axi_AXILiteS_RVALID, s_axi_AXILiteS_RREADY, s_axi_AXILiteS_RDATA, s_axi_AXILiteS_RRESP, s_axi_AXILiteS_BVALID, s_axi_AXILiteS_BREADY, s_axi_AXILiteS_BRESP, interrupt ); parameter ap_const_logic_1 = 1'b1; parameter ap_const_logic_0 = 1'b0; parameter ap_ST_st1_fsm_0 = 149'b1; parameter ap_ST_st2_fsm_1 = 149'b10; parameter ap_ST_st3_fsm_2 = 149'b100; parameter ap_ST_st4_fsm_3 = 149'b1000; parameter ap_ST_st5_fsm_4 = 149'b10000; parameter ap_ST_st6_fsm_5 = 149'b100000; parameter ap_ST_st7_fsm_6 = 149'b1000000; parameter ap_ST_st8_fsm_7 = 149'b10000000; parameter ap_ST_st9_fsm_8 = 149'b100000000; parameter ap_ST_st10_fsm_9 = 149'b1000000000; parameter ap_ST_st11_fsm_10 = 149'b10000000000; parameter ap_ST_st12_fsm_11 = 149'b100000000000; parameter ap_ST_st13_fsm_12 = 149'b1000000000000; parameter ap_ST_st14_fsm_13 = 149'b10000000000000; parameter ap_ST_st15_fsm_14 = 149'b100000000000000; parameter ap_ST_st16_fsm_15 = 149'b1000000000000000; parameter ap_ST_st17_fsm_16 = 149'b10000000000000000; parameter ap_ST_st18_fsm_17 = 149'b100000000000000000; parameter ap_ST_st19_fsm_18 = 149'b1000000000000000000; parameter ap_ST_st20_fsm_19 = 149'b10000000000000000000; parameter ap_ST_st21_fsm_20 = 149'b100000000000000000000; parameter ap_ST_st22_fsm_21 = 149'b1000000000000000000000; parameter ap_ST_st23_fsm_22 = 149'b10000000000000000000000; parameter ap_ST_st24_fsm_23 = 149'b100000000000000000000000; parameter ap_ST_st25_fsm_24 = 149'b1000000000000000000000000; parameter ap_ST_st26_fsm_25 = 149'b10000000000000000000000000; parameter ap_ST_st27_fsm_26 = 149'b100000000000000000000000000; parameter ap_ST_st28_fsm_27 = 149'b1000000000000000000000000000; parameter ap_ST_st29_fsm_28 = 149'b10000000000000000000000000000; parameter ap_ST_st30_fsm_29 = 149'b100000000000000000000000000000; parameter ap_ST_st31_fsm_30 = 149'b1000000000000000000000000000000; parameter ap_ST_st32_fsm_31 = 149'b10000000000000000000000000000000; parameter ap_ST_st33_fsm_32 = 149'b100000000000000000000000000000000; parameter ap_ST_st34_fsm_33 = 149'b1000000000000000000000000000000000; parameter ap_ST_st35_fsm_34 = 149'b10000000000000000000000000000000000; parameter ap_ST_st36_fsm_35 = 149'b100000000000000000000000000000000000; parameter ap_ST_st37_fsm_36 = 149'b1000000000000000000000000000000000000; parameter ap_ST_st38_fsm_37 = 149'b10000000000000000000000000000000000000; parameter ap_ST_st39_fsm_38 = 149'b100000000000000000000000000000000000000; parameter ap_ST_st40_fsm_39 = 149'b1000000000000000000000000000000000000000; parameter ap_ST_st41_fsm_40 = 149'b10000000000000000000000000000000000000000; parameter ap_ST_st42_fsm_41 = 149'b100000000000000000000000000000000000000000; parameter ap_ST_st43_fsm_42 = 149'b1000000000000000000000000000000000000000000; parameter ap_ST_st44_fsm_43 = 149'b10000000000000000000000000000000000000000000; parameter ap_ST_st45_fsm_44 = 149'b100000000000000000000000000000000000000000000; parameter ap_ST_st46_fsm_45 = 149'b1000000000000000000000000000000000000000000000; parameter ap_ST_st47_fsm_46 = 149'b10000000000000000000000000000000000000000000000; parameter ap_ST_st48_fsm_47 = 149'b100000000000000000000000000000000000000000000000; parameter ap_ST_st49_fsm_48 = 149'b1000000000000000000000000000000000000000000000000; parameter ap_ST_st50_fsm_49 = 149'b10000000000000000000000000000000000000000000000000; parameter ap_ST_st51_fsm_50 = 149'b100000000000000000000000000000000000000000000000000; parameter ap_ST_st52_fsm_51 = 149'b1000000000000000000000000000000000000000000000000000; parameter ap_ST_st53_fsm_52 = 149'b10000000000000000000000000000000000000000000000000000; parameter ap_ST_st54_fsm_53 = 149'b100000000000000000000000000000000000000000000000000000; parameter ap_ST_st55_fsm_54 = 149'b1000000000000000000000000000000000000000000000000000000; parameter ap_ST_st56_fsm_55 = 149'b10000000000000000000000000000000000000000000000000000000; parameter ap_ST_st57_fsm_56 = 149'b100000000000000000000000000000000000000000000000000000000; parameter ap_ST_st58_fsm_57 = 149'b1000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st59_fsm_58 = 149'b10000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st60_fsm_59 = 149'b100000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st61_fsm_60 = 149'b1000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st62_fsm_61 = 149'b10000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st63_fsm_62 = 149'b100000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st64_fsm_63 = 149'b1000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st65_fsm_64 = 149'b10000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st66_fsm_65 = 149'b100000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st67_fsm_66 = 149'b1000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st68_fsm_67 = 149'b10000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st69_fsm_68 = 149'b100000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st70_fsm_69 = 149'b1000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st71_fsm_70 = 149'b10000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st72_fsm_71 = 149'b100000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st73_fsm_72 = 149'b1000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st74_fsm_73 = 149'b10000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st75_fsm_74 = 149'b100000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st76_fsm_75 = 149'b1000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st77_fsm_76 = 149'b10000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st78_fsm_77 = 149'b100000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st79_fsm_78 = 149'b1000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st80_fsm_79 = 149'b10000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st81_fsm_80 = 149'b100000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st82_fsm_81 = 149'b1000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st83_fsm_82 = 149'b10000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st84_fsm_83 = 149'b100000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st85_fsm_84 = 149'b1000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st86_fsm_85 = 149'b10000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st87_fsm_86 = 149'b100000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st88_fsm_87 = 149'b1000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st89_fsm_88 = 149'b10000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st90_fsm_89 = 149'b100000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st91_fsm_90 = 149'b1000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st92_fsm_91 = 149'b10000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st93_fsm_92 = 149'b100000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st94_fsm_93 = 149'b1000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st95_fsm_94 = 149'b10000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st96_fsm_95 = 149'b100000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st97_fsm_96 = 149'b1000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st98_fsm_97 = 149'b10000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st99_fsm_98 = 149'b100000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st100_fsm_99 = 149'b1000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st101_fsm_100 = 149'b10000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st102_fsm_101 = 149'b100000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st103_fsm_102 = 149'b1000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st104_fsm_103 = 149'b10000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st105_fsm_104 = 149'b100000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st106_fsm_105 = 149'b1000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st107_fsm_106 = 149'b10000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st108_fsm_107 = 149'b100000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st109_fsm_108 = 149'b1000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st110_fsm_109 = 149'b10000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st111_fsm_110 = 149'b100000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st112_fsm_111 = 149'b1000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st113_fsm_112 = 149'b10000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st114_fsm_113 = 149'b100000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st115_fsm_114 = 149'b1000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st116_fsm_115 = 149'b10000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st117_fsm_116 = 149'b100000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st118_fsm_117 = 149'b1000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st119_fsm_118 = 149'b10000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st120_fsm_119 = 149'b100000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st121_fsm_120 = 149'b1000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st122_fsm_121 = 149'b10000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st123_fsm_122 = 149'b100000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st124_fsm_123 = 149'b1000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st125_fsm_124 = 149'b10000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st126_fsm_125 = 149'b100000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st127_fsm_126 = 149'b1000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st128_fsm_127 = 149'b10000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st129_fsm_128 = 149'b100000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st130_fsm_129 = 149'b1000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st131_fsm_130 = 149'b10000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st132_fsm_131 = 149'b100000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st133_fsm_132 = 149'b1000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st134_fsm_133 = 149'b10000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st135_fsm_134 = 149'b100000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st136_fsm_135 = 149'b1000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st137_fsm_136 = 149'b10000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st138_fsm_137 = 149'b100000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st139_fsm_138 = 149'b1000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st140_fsm_139 = 149'b10000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st141_fsm_140 = 149'b100000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st142_fsm_141 = 149'b1000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st143_fsm_142 = 149'b10000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st144_fsm_143 = 149'b100000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st145_fsm_144 = 149'b1000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st146_fsm_145 = 149'b10000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st147_fsm_146 = 149'b100000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st148_fsm_147 = 149'b1000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_ST_st149_fsm_148 = 149'b10000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000; parameter ap_const_lv32_0 = 32'b00000000000000000000000000000000; parameter ap_const_lv1_1 = 1'b1; parameter ap_const_lv8_0 = 8'b00000000; parameter C_S_AXI_AXILITES_DATA_WIDTH = 32; parameter ap_const_int64_8 = 8; parameter C_S_AXI_AXILITES_ADDR_WIDTH = 5; parameter C_S_AXI_DATA_WIDTH = 32; parameter ap_const_lv32_5 = 32'b101; parameter ap_const_lv32_4F = 32'b1001111; parameter ap_const_lv32_78 = 32'b1111000; parameter ap_const_lv32_8B = 32'b10001011; parameter ap_const_lv32_E = 32'b1110; parameter ap_const_lv32_58 = 32'b1011000; parameter ap_const_lv32_8 = 32'b1000; parameter ap_const_lv32_52 = 32'b1010010; parameter ap_const_lv32_D = 32'b1101; parameter ap_const_lv32_57 = 32'b1010111; parameter ap_const_lv32_13 = 32'b10011; parameter ap_const_lv32_5D = 32'b1011101; parameter ap_const_lv32_14 = 32'b10100; parameter ap_const_lv32_5E = 32'b1011110; parameter ap_const_lv32_26 = 32'b100110; parameter ap_const_lv32_70 = 32'b1110000; parameter ap_const_lv32_4B = 32'b1001011; parameter ap_const_lv32_71 = 32'b1110001; parameter ap_const_lv1_0 = 1'b0; parameter ap_const_lv32_1 = 32'b1; parameter ap_const_lv32_2 = 32'b10; parameter ap_const_lv32_3 = 32'b11; parameter ap_const_lv32_4 = 32'b100; parameter ap_const_lv32_2B = 32'b101011; parameter ap_const_lv32_4A = 32'b1001010; parameter ap_const_lv32_4D = 32'b1001101; parameter ap_const_lv32_4E = 32'b1001110; parameter ap_const_lv32_76 = 32'b1110110; parameter ap_const_lv32_77 = 32'b1110111; parameter ap_const_lv32_88 = 32'b10001000; parameter ap_const_lv32_8A = 32'b10001010; parameter ap_const_lv32_8C = 32'b10001100; parameter ap_const_lv32_8D = 32'b10001101; parameter ap_const_lv32_8E = 32'b10001110; parameter ap_const_lv32_90 = 32'b10010000; parameter ap_const_lv32_91 = 32'b10010001; parameter ap_const_lv2_2 = 2'b10; parameter ap_const_lv2_1 = 2'b1; parameter ap_const_lv32_92 = 32'b10010010; parameter ap_const_lv32_93 = 32'b10010011; parameter ap_const_lv32_94 = 32'b10010100; parameter ap_const_lv8_1 = 8'b1; parameter ap_const_lv32_4C = 32'b1001100; parameter ap_const_lv32_89 = 32'b10001001; parameter ap_const_lv14_0 = 14'b00000000000000; parameter ap_const_lv32_8F = 32'b10001111; parameter ap_const_lv2_0 = 2'b00; parameter ap_const_lv32_72 = 32'b1110010; parameter ap_const_lv32_9 = 32'b1001; parameter ap_const_lv32_F = 32'b1111; parameter ap_const_lv32_53 = 32'b1010011; parameter ap_const_lv32_59 = 32'b1011001; parameter ap_const_lv64_3FF0000000000000 = 64'b11111111110000000000000000000000000000000000000000000000000000; parameter ap_const_lv8_2 = 8'b10; parameter ap_const_lv15_23 = 15'b100011; parameter ap_const_lv8_FF = 8'b11111111; parameter ap_const_lv9_23 = 9'b100011; parameter ap_const_lv9_1FF = 9'b111111111; parameter ap_const_lv16_23 = 16'b100011; parameter ap_const_lv9_1FE = 9'b111111110; parameter ap_const_lv5_0 = 5'b00000; parameter ap_const_lv32_80000000 = 32'b10000000000000000000000000000000; parameter ap_const_lv8_3 = 8'b11; parameter ap_const_lv14_23 = 14'b100011; parameter ap_const_lv32_17 = 32'b10111; parameter ap_const_lv32_1E = 32'b11110; parameter ap_const_lv23_0 = 23'b00000000000000000000000; parameter ap_const_lv2_3 = 2'b11; parameter ap_const_lv9_1 = 9'b1; parameter ap_const_lv5_2 = 5'b10; parameter ap_const_lv64_0 = 64'b0000000000000000000000000000000000000000000000000000000000000000; parameter ap_true = 1'b1; parameter C_S_AXI_AXILITES_WSTRB_WIDTH = (C_S_AXI_AXILITES_DATA_WIDTH / ap_const_int64_8); parameter C_S_AXI_WSTRB_WIDTH = (C_S_AXI_DATA_WIDTH / ap_const_int64_8); input ap_clk; input ap_rst_n; input [7:0] P_config_V_TDATA; input P_config_V_TVALID; output P_config_V_TREADY; input [31:0] P_WandB_TDATA; input P_WandB_TVALID; output P_WandB_TREADY; output [31:0] P_uOut_TDATA; output P_uOut_TVALID; input P_uOut_TREADY; input [31:0] P_netIn_TDATA; input P_netIn_TVALID; output P_netIn_TREADY; output [7:0] P_netOut_V_TDATA; output P_netOut_V_TVALID; input P_netOut_V_TREADY; input s_axi_AXILiteS_AWVALID; output s_axi_AXILiteS_AWREADY; input [C_S_AXI_AXILITES_ADDR_WIDTH - 1 : 0] s_axi_AXILiteS_AWADDR; input s_axi_AXILiteS_WVALID; output s_axi_AXILiteS_WREADY; input [C_S_AXI_AXILITES_DATA_WIDTH - 1 : 0] s_axi_AXILiteS_WDATA; input [C_S_AXI_AXILITES_WSTRB_WIDTH - 1 : 0] s_axi_AXILiteS_WSTRB; input s_axi_AXILiteS_ARVALID; output s_axi_AXILiteS_ARREADY; input [C_S_AXI_AXILITES_ADDR_WIDTH - 1 : 0] s_axi_AXILiteS_ARADDR; output s_axi_AXILiteS_RVALID; input s_axi_AXILiteS_RREADY; output [C_S_AXI_AXILITES_DATA_WIDTH - 1 : 0] s_axi_AXILiteS_RDATA; output [1:0] s_axi_AXILiteS_RRESP; output s_axi_AXILiteS_BVALID; input s_axi_AXILiteS_BREADY; output [1:0] s_axi_AXILiteS_BRESP; output interrupt; reg P_config_V_TREADY; reg P_WandB_TREADY; reg P_uOut_TVALID; reg P_netIn_TREADY; reg P_netOut_V_TVALID; reg ap_rst_n_inv; wire ap_start; reg ap_done; reg ap_idle; (* fsm_encoding = "none" *) reg [148:0] ap_CS_fsm = 149'b1; reg ap_sig_cseq_ST_st1_fsm_0; reg ap_sig_bdd_167; reg ap_ready; wire [7:0] P_mode_V; reg [7:0] ST_numLayer_V = 8'b00000000; reg [7:0] ST_layerSize_V_0 = 8'b00000000; reg [7:0] ST_layerSize_V_1 = 8'b00000000; reg [7:0] ST_layerSize_V_2 = 8'b00000000; reg [7:0] ST_layerSize_V_3 = 8'b00000000; reg [12:0] ST_WandB_address0; reg ST_WandB_ce0; reg ST_WandB_we0; wire [31:0] ST_WandB_d0; wire [31:0] ST_WandB_q0; wire feedforward_AXILiteS_s_axi_U_ap_dummy_ce; wire [31:0] p_uOut_q0; reg [31:0] reg_565; reg ap_sig_cseq_ST_st6_fsm_5; reg ap_sig_bdd_249; reg ap_sig_cseq_ST_st80_fsm_79; reg ap_sig_bdd_256; reg ap_sig_cseq_ST_st121_fsm_120; reg ap_sig_bdd_264; reg ap_sig_cseq_ST_st140_fsm_139; reg ap_sig_bdd_272; reg [31:0] reg_572; reg ap_sig_cseq_ST_st15_fsm_14; reg ap_sig_bdd_281; reg ap_sig_cseq_ST_st89_fsm_88; reg ap_sig_bdd_290; wire [31:0] grp_fu_513_p2; reg [31:0] reg_578; reg ap_sig_cseq_ST_st9_fsm_8; reg ap_sig_bdd_300; reg ap_sig_cseq_ST_st83_fsm_82; reg ap_sig_bdd_307; wire [31:0] grp_fu_506_p2; reg ap_sig_cseq_ST_st14_fsm_13; reg ap_sig_bdd_317; reg ap_sig_cseq_ST_st88_fsm_87; reg ap_sig_bdd_324; reg [31:0] reg_589; reg ap_sig_cseq_ST_st20_fsm_19; reg ap_sig_bdd_333; reg ap_sig_cseq_ST_st94_fsm_93; reg ap_sig_bdd_340; wire [63:0] grp_fu_527_p1; reg [63:0] reg_594; reg ap_sig_cseq_ST_st21_fsm_20; reg ap_sig_bdd_350; reg ap_sig_cseq_ST_st95_fsm_94; reg ap_sig_bdd_357; wire [63:0] grp_fu_544_p2; reg [63:0] reg_599; reg ap_sig_cseq_ST_st39_fsm_38; reg ap_sig_bdd_367; reg ap_sig_cseq_ST_st113_fsm_112; reg ap_sig_bdd_374; wire [31:0] grp_fu_524_p1; reg [31:0] reg_605; reg ap_sig_cseq_ST_st76_fsm_75; reg ap_sig_bdd_384; reg ap_sig_cseq_ST_st114_fsm_113; reg ap_sig_bdd_391; reg [7:0] P_mode_V_read_reg_1437; wire [0:0] tmp_fu_611_p2; reg ap_sig_bdd_404; reg [0:0] tmp_reg_1442; reg [7:0] ST_numLayer_V_load_reg_1446; wire [0:0] tmp_1_fu_621_p2; reg [0:0] tmp_1_reg_1454; reg [7:0] ST_layerSize_V_0_load_reg_1458; reg [7:0] P_config_V_read_reg_1463; wire [7:0] i_8_fu_638_p2; reg ap_sig_cseq_ST_st2_fsm_1; reg ap_sig_bdd_428; wire [0:0] exitcond1_fu_633_p2; reg ap_sig_bdd_434; wire [31:0] tmp_62_cast_fu_664_p1; reg [31:0] tmp_62_cast_reg_1479; reg ap_sig_cseq_ST_st3_fsm_2; reg ap_sig_bdd_444; wire [0:0] tmp_7_fu_649_p2; wire [1:0] tmp_6_fu_668_p1; reg [1:0] tmp_6_reg_1484; wire [8:0] tmp_16_fu_682_p2; reg [8:0] tmp_16_reg_1489; wire [1:0] tmp_20_fu_688_p1; reg [1:0] tmp_20_reg_1494; wire [8:0] tmp_24_fu_711_p1; reg [8:0] tmp_24_reg_1499; wire signed [32:0] tmp_64_cast_fu_715_p1; reg signed [32:0] tmp_64_cast_reg_1506; wire [1:0] tmp_26_fu_719_p1; reg [1:0] tmp_26_reg_1511; wire [8:0] tmp_33_fu_729_p2; reg [8:0] tmp_33_reg_1516; wire [1:0] tmp_35_fu_735_p1; reg [1:0] tmp_35_reg_1521; wire [31:0] j_5_fu_762_p2; reg [31:0] j_5_reg_1529; reg ap_sig_cseq_ST_st4_fsm_3; reg ap_sig_bdd_474; wire [7:0] tmp_19_fu_768_p6; reg [7:0] tmp_19_reg_1534; wire [0:0] tmp_14_fu_756_p2; wire [13:0] tmp_60_fu_815_p2; reg [13:0] tmp_60_reg_1540; reg [7:0] p_uOut_addr_1_reg_1546; wire [7:0] i_10_fu_821_p2; wire [7:0] k_3_fu_832_p2; reg [7:0] k_3_reg_1559; reg ap_sig_cseq_ST_st5_fsm_4; reg ap_sig_bdd_496; wire [0:0] exitcond2_fu_827_p2; wire [63:0] grp_fu_534_p2; reg [63:0] tmp_30_reg_1579; reg ap_sig_cseq_ST_st44_fsm_43; reg ap_sig_bdd_516; wire [63:0] grp_fu_539_p2; reg [63:0] tmp_31_reg_1584; reg ap_sig_cseq_ST_st75_fsm_74; reg ap_sig_bdd_525; wire [7:0] tmp_15_fu_894_p6; reg [7:0] tmp_15_reg_1589; reg ap_sig_cseq_ST_st78_fsm_77; reg ap_sig_bdd_534; wire [31:0] i_12_fu_917_p2; reg [31:0] i_12_reg_1598; wire [7:0] tmp_23_fu_923_p6; reg [7:0] tmp_23_reg_1603; wire [0:0] tmp_18_fu_911_p2; wire [13:0] tmp_64_fu_974_p2; reg [13:0] tmp_64_reg_1609; reg [7:0] p_uOut_addr_3_reg_1615; wire [7:0] j_6_fu_985_p2; reg [7:0] j_6_reg_1623; reg ap_sig_cseq_ST_st79_fsm_78; reg ap_sig_bdd_555; wire [0:0] exitcond3_fu_980_p2; reg ap_sig_cseq_ST_st119_fsm_118; reg ap_sig_bdd_574; wire [7:0] i_11_fu_1037_p2; reg [7:0] i_11_reg_1651; reg ap_sig_cseq_ST_st120_fsm_119; reg ap_sig_bdd_583; reg [7:0] p_uOut_addr_5_reg_1656; wire [0:0] exitcond4_fu_1032_p2; wire [0:0] tmp_41_fu_1057_p2; reg [0:0] tmp_41_reg_1661; wire [31:0] grp_fu_519_p2; reg [31:0] tmp_43_reg_1665; reg ap_sig_cseq_ST_st137_fsm_136; reg ap_sig_bdd_601; reg ap_sig_cseq_ST_st139_fsm_138; reg ap_sig_bdd_610; wire [0:0] tmp_44_fu_1062_p2; reg ap_sig_ioackin_P_netOut_V_TREADY; wire [8:0] tmp_74_fu_1095_p1; reg [8:0] tmp_74_reg_1683; wire [13:0] next_mul_fu_1099_p2; reg [13:0] next_mul_reg_1688; wire [7:0] i_14_fu_1110_p2; reg [7:0] i_14_reg_1696; wire [1:0] tmp_75_fu_1116_p1; reg [1:0] tmp_75_reg_1701; wire [0:0] exitcond_fu_1105_p2; wire [31:0] p_uOut_q1; reg [31:0] p_uOut_load_4_reg_1706; wire [0:0] tmp_56_fu_1197_p2; reg [0:0] tmp_56_reg_1712; reg ap_sig_cseq_ST_st141_fsm_140; reg ap_sig_bdd_654; wire [7:0] p_netOut_V_1_fu_1203_p3; reg ap_sig_cseq_ST_st142_fsm_141; reg ap_sig_bdd_663; wire [7:0] i_15_fu_1210_p2; wire [31:0] j_7_fu_1239_p2; reg [31:0] j_7_reg_1730; reg ap_sig_cseq_ST_st143_fsm_142; reg ap_sig_bdd_674; wire [0:0] tmp_59_fu_1233_p2; wire [0:0] tmp_9_fu_1259_p2; reg [0:0] tmp_9_reg_1740; reg ap_sig_cseq_ST_st145_fsm_144; reg ap_sig_bdd_689; wire [31:0] tmp_61_cast_fu_1274_p1; reg [31:0] tmp_61_cast_reg_1744; wire [1:0] tmp_4_fu_1278_p1; reg [1:0] tmp_4_reg_1749; wire [1:0] tmp_7_t_fu_1282_p2; reg [1:0] tmp_7_t_reg_1753; wire [31:0] j_4_fu_1288_p2; reg [31:0] j_4_reg_1758; reg ap_sig_cseq_ST_st146_fsm_145; reg ap_sig_bdd_707; wire [13:0] tmp_46_fu_1333_p2; reg [13:0] tmp_46_reg_1781; reg ap_sig_cseq_ST_st147_fsm_146; reg ap_sig_bdd_732; wire [0:0] tmp_11_fu_1298_p2; wire [7:0] i_9_fu_1339_p2; wire [31:0] k_2_fu_1392_p2; reg ap_sig_cseq_ST_st148_fsm_147; reg ap_sig_bdd_748; wire [0:0] tmp_22_fu_1386_p2; reg ap_sig_bdd_755; wire [0:0] exitcond5_fu_1398_p2; reg [0:0] exitcond5_reg_1799; reg ap_sig_cseq_ST_st149_fsm_148; reg ap_sig_bdd_765; reg ap_sig_bdd_769; wire [7:0] i_7_fu_1403_p2; reg [7:0] p_uOut_address0; reg p_uOut_ce0; reg p_uOut_we0; reg [31:0] p_uOut_d0; reg [7:0] p_uOut_address1; reg p_uOut_ce1; reg [7:0] i_2_reg_277; reg [7:0] i_3_reg_288; reg [31:0] j_1_reg_300; reg ap_sig_cseq_ST_st77_fsm_76; reg ap_sig_bdd_800; reg [31:0] sum_reg_311; reg [7:0] k_1_reg_323; reg [31:0] sumsoft_reg_334; reg [31:0] i_4_reg_346; reg [31:0] sum_1_reg_357; reg [7:0] j_2_reg_369; reg [7:0] i_5_reg_380; reg ap_sig_cseq_ST_st138_fsm_137; reg ap_sig_bdd_821; reg [7:0] p_s_reg_391; reg [7:0] p_netOut_V_reg_404; reg [7:0] i_6_reg_416; reg [13:0] phi_mul_reg_427; reg [31:0] j_3_reg_438; reg ap_sig_cseq_ST_st144_fsm_143; reg ap_sig_bdd_847; reg ap_sig_ioackin_P_uOut_TREADY; reg [7:0] i_1_reg_449; reg [31:0] j_reg_461; reg [7:0] ST_layerSize_V_load_1_phi_reg_473; reg [31:0] k_reg_484; reg [7:0] i_reg_495; wire [63:0] tmp_8_fu_644_p1; wire signed [63:0] tmp_70_cast_fu_786_p1; wire [63:0] tmp_80_cast_fu_851_p1; wire signed [63:0] tmp_81_cast_fu_861_p1; wire [63:0] tmp_79_cast_fu_874_p1; wire signed [63:0] tmp_74_cast_fu_945_p1; wire [63:0] tmp_83_cast_fu_1004_p1; wire signed [63:0] tmp_84_cast_fu_1014_p1; wire [63:0] tmp_82_cast_fu_1027_p1; wire signed [63:0] tmp_85_cast_fu_1052_p1; wire signed [63:0] tmp_87_cast_fu_1076_p1; wire signed [63:0] tmp_88_cast_fu_1090_p1; wire [63:0] tmp_89_cast_fu_1254_p1; wire [63:0] tmp_78_cast_fu_1354_p1; wire [1:0] tmp_2_fu_1409_p1; reg ap_reg_ioackin_P_netOut_V_TREADY = 1'b0; reg ap_reg_ioackin_P_uOut_TREADY = 1'b0; reg ap_sig_cseq_ST_st115_fsm_114; reg ap_sig_bdd_963; reg [31:0] grp_fu_506_p0; reg [31:0] grp_fu_506_p1; reg ap_sig_cseq_ST_st10_fsm_9; reg ap_sig_bdd_987; reg ap_sig_cseq_ST_st16_fsm_15; reg ap_sig_bdd_994; reg ap_sig_cseq_ST_st84_fsm_83; reg ap_sig_bdd_1002; reg ap_sig_cseq_ST_st90_fsm_89; reg ap_sig_bdd_1009; reg [63:0] grp_fu_524_p0; reg [31:0] grp_fu_527_p0; wire [31:0] tmp_27_fu_889_p1; wire [7:0] tmp_5_fu_658_p1; wire [14:0] tmp_5_fu_658_p2; wire [7:0] tmp_3_fu_672_p2; wire [7:0] tmp_16_fu_682_p1; wire [8:0] lhs_V_1_cast_fu_692_p1; wire [8:0] r_V_1_fu_695_p2; wire signed [8:0] tmp_21_fu_705_p1; wire [15:0] tmp_21_fu_705_p2; wire signed [8:0] r_V_2_fu_723_p2; wire [7:0] tmp_12_fu_739_p6; wire [31:0] tmp_13_fu_752_p1; wire [31:0] tmp_47_fu_781_p2; wire [8:0] tmp_49_fu_791_p1; wire [11:0] tmp_51_fu_803_p1; wire [13:0] p_shl2_cast_fu_795_p3; wire [13:0] p_shl3_cast_fu_807_p3; wire [13:0] tmp_33_cast_fu_842_p1; wire [13:0] tmp_69_fu_846_p2; wire [8:0] tmp_33_cast7_fu_838_p1; wire [8:0] tmp_70_fu_856_p2; wire [13:0] tmp_26_cast_fu_866_p1; wire [13:0] tmp_68_fu_869_p2; wire [31:0] tmp_35_to_int_fu_879_p1; wire [31:0] tmp_35_neg_fu_883_p2; wire [31:0] tmp_17_fu_907_p1; wire signed [32:0] tmp_24_cast_fu_936_p1; wire [32:0] tmp_61_fu_940_p2; wire [8:0] tmp_62_fu_950_p1; wire [11:0] tmp_63_fu_962_p1; wire [13:0] p_shl4_cast_fu_954_p3; wire [13:0] p_shl5_cast_fu_966_p3; wire [13:0] tmp_39_cast_fu_995_p1; wire [13:0] tmp_72_fu_999_p2; wire [8:0] tmp_39_cast6_fu_991_p1; wire [8:0] tmp_73_fu_1009_p2; wire [13:0] tmp_35_cast_fu_1019_p1; wire [13:0] tmp_71_fu_1022_p2; wire [8:0] tmp_42_cast_fu_1043_p1; wire [8:0] tmp_67_fu_1047_p2; wire [8:0] tmp_46_cast_fu_1067_p1; wire [8:0] tmp_76_fu_1071_p2; wire [8:0] tmp_47_cast_fu_1081_p1; wire [8:0] tmp_77_fu_1085_p2; wire [31:0] p_uOut_load_3_to_int_fu_1120_p1; wire [31:0] p_uOut_load_4_to_int_fu_1138_p1; wire [7:0] tmp_48_fu_1124_p4; wire [22:0] tmp_78_fu_1134_p1; wire [0:0] notrhs_fu_1161_p2; wire [0:0] notlhs_fu_1155_p2; wire [7:0] tmp_50_fu_1141_p4; wire [22:0] tmp_79_fu_1151_p1; wire [0:0] notrhs1_fu_1179_p2; wire [0:0] notlhs1_fu_1173_p2; wire [0:0] tmp_52_fu_1167_p2; wire [0:0] tmp_53_fu_1185_p2; wire [0:0] tmp_54_fu_1191_p2; wire [0:0] tmp_55_fu_530_p2; wire [7:0] tmp_57_fu_1216_p6; wire [31:0] tmp_58_fu_1229_p1; wire [8:0] tmp_80_fu_1245_p1; wire [8:0] tmp_81_fu_1249_p2; wire [7:0] tmp_s_fu_1268_p1; wire [14:0] tmp_s_fu_1268_p2; wire [31:0] tmp_10_fu_1294_p1; wire [31:0] tmp_39_fu_1304_p2; wire [8:0] tmp_42_fu_1309_p1; wire [11:0] tmp_45_fu_1321_p1; wire [13:0] p_shl_cast_fu_1313_p3; wire [13:0] p_shl1_cast_fu_1325_p3; wire [13:0] tmp_65_fu_1345_p1; wire [13:0] tmp_66_fu_1349_p2; wire [7:0] tmp_25_fu_1359_p6; wire [8:0] lhs_V_cast_fu_1372_p1; wire [8:0] r_V_fu_1376_p2; wire [31:0] tmp_21_cast_fu_1382_p1; wire grp_fu_506_ce; wire grp_fu_513_ce; wire grp_fu_519_ce; wire [4:0] tmp_55_fu_530_opcode; wire grp_fu_534_ce; wire grp_fu_539_ce; wire grp_fu_544_ce; reg [148:0] ap_NS_fsm; wire [8:0] tmp_16_fu_682_p10; wire [14:0] tmp_5_fu_658_p10; wire [14:0] tmp_s_fu_1268_p10; reg ap_sig_bdd_724; reg ap_sig_bdd_942; feedforward_ST_WandB #( .DataWidth( 32 ), .AddressRange( 5040 ), .AddressWidth( 13 )) ST_WandB_U( .clk( ap_clk ), .reset( ap_rst_n_inv ), .address0( ST_WandB_address0 ), .ce0( ST_WandB_ce0 ), .we0( ST_WandB_we0 ), .d0( ST_WandB_d0 ), .q0( ST_WandB_q0 ) ); feedforward_AXILiteS_s_axi #( .C_S_AXI_ADDR_WIDTH( C_S_AXI_AXILITES_ADDR_WIDTH ), .C_S_AXI_DATA_WIDTH( C_S_AXI_AXILITES_DATA_WIDTH )) feedforward_AXILiteS_s_axi_U( .AWVALID( s_axi_AXILiteS_AWVALID ), .AWREADY( s_axi_AXILiteS_AWREADY ), .AWADDR( s_axi_AXILiteS_AWADDR ), .WVALID( s_axi_AXILiteS_WVALID ), .WREADY( s_axi_AXILiteS_WREADY ), .WDATA( s_axi_AXILiteS_WDATA ), .WSTRB( s_axi_AXILiteS_WSTRB ), .ARVALID( s_axi_AXILiteS_ARVALID ), .ARREADY( s_axi_AXILiteS_ARREADY ), .ARADDR( s_axi_AXILiteS_ARADDR ), .RVALID( s_axi_AXILiteS_RVALID ), .RREADY( s_axi_AXILiteS_RREADY ), .RDATA( s_axi_AXILiteS_RDATA ), .RRESP( s_axi_AXILiteS_RRESP ), .BVALID( s_axi_AXILiteS_BVALID ), .BREADY( s_axi_AXILiteS_BREADY ), .BRESP( s_axi_AXILiteS_BRESP ), .ACLK( ap_clk ), .ARESET( ap_rst_n_inv ), .ACLK_EN( feedforward_AXILiteS_s_axi_U_ap_dummy_ce ), .ap_start( ap_start ), .interrupt( interrupt ), .ap_ready( ap_ready ), .ap_done( ap_done ), .ap_idle( ap_idle ), .P_mode_V( P_mode_V ) ); feedforward_p_uOut #( .DataWidth( 32 ), .AddressRange( 140 ), .AddressWidth( 8 )) p_uOut_U( .clk( ap_clk ), .reset( ap_rst_n_inv ), .address0( p_uOut_address0 ), .ce0( p_uOut_ce0 ), .we0( p_uOut_we0 ), .d0( p_uOut_d0 ), .q0( p_uOut_q0 ), .address1( p_uOut_address1 ), .ce1( p_uOut_ce1 ), .q1( p_uOut_q1 ) ); feedforward_fadd_32ns_32ns_32_5_full_dsp #( .ID( 1 ), .NUM_STAGE( 5 ), .din0_WIDTH( 32 ), .din1_WIDTH( 32 ), .dout_WIDTH( 32 )) feedforward_fadd_32ns_32ns_32_5_full_dsp_U0( .clk( ap_clk ), .reset( ap_rst_n_inv ), .din0( grp_fu_506_p0 ), .din1( grp_fu_506_p1 ), .ce( grp_fu_506_ce ), .dout( grp_fu_506_p2 ) ); feedforward_fmul_32ns_32ns_32_4_max_dsp #( .ID( 1 ), .NUM_STAGE( 4 ), .din0_WIDTH( 32 ), .din1_WIDTH( 32 ), .dout_WIDTH( 32 )) feedforward_fmul_32ns_32ns_32_4_max_dsp_U1( .clk( ap_clk ), .reset( ap_rst_n_inv ), .din0( p_uOut_q0 ), .din1( ST_WandB_q0 ), .ce( grp_fu_513_ce ), .dout( grp_fu_513_p2 ) ); feedforward_fdiv_32ns_32ns_32_16 #( .ID( 1 ), .NUM_STAGE( 16 ), .din0_WIDTH( 32 ), .din1_WIDTH( 32 ), .dout_WIDTH( 32 )) feedforward_fdiv_32ns_32ns_32_16_U2( .clk( ap_clk ), .reset( ap_rst_n_inv ), .din0( reg_565 ), .din1( sumsoft_reg_334 ), .ce( grp_fu_519_ce ), .dout( grp_fu_519_p2 ) ); feedforward_fptrunc_64ns_32_1 #( .ID( 1 ), .NUM_STAGE( 1 ), .din0_WIDTH( 64 ), .dout_WIDTH( 32 )) feedforward_fptrunc_64ns_32_1_U3( .din0( grp_fu_524_p0 ), .dout( grp_fu_524_p1 ) ); feedforward_fpext_32ns_64_1 #( .ID( 1 ), .NUM_STAGE( 1 ), .din0_WIDTH( 32 ), .dout_WIDTH( 64 )) feedforward_fpext_32ns_64_1_U4( .din0( grp_fu_527_p0 ), .dout( grp_fu_527_p1 ) ); feedforward_fcmp_32ns_32ns_1_1 #( .ID( 1 ), .NUM_STAGE( 1 ), .din0_WIDTH( 32 ), .din1_WIDTH( 32 ), .dout_WIDTH( 1 )) feedforward_fcmp_32ns_32ns_1_1_U5( .din0( reg_565 ), .din1( p_uOut_load_4_reg_1706 ), .opcode( tmp_55_fu_530_opcode ), .dout( tmp_55_fu_530_p2 ) ); feedforward_dadd_64ns_64ns_64_5_full_dsp #( .ID( 1 ), .NUM_STAGE( 5 ), .din0_WIDTH( 64 ), .din1_WIDTH( 64 ), .dout_WIDTH( 64 )) feedforward_dadd_64ns_64ns_64_5_full_dsp_U6( .clk( ap_clk ), .reset( ap_rst_n_inv ), .din0( reg_599 ), .din1( ap_const_lv64_3FF0000000000000 ), .ce( grp_fu_534_ce ), .dout( grp_fu_534_p2 ) ); feedforward_ddiv_64ns_64ns_64_31 #( .ID( 1 ), .NUM_STAGE( 31 ), .din0_WIDTH( 64 ), .din1_WIDTH( 64 ), .dout_WIDTH( 64 )) feedforward_ddiv_64ns_64ns_64_31_U7( .clk( ap_clk ), .reset( ap_rst_n_inv ), .din0( ap_const_lv64_3FF0000000000000 ), .din1( tmp_30_reg_1579 ), .ce( grp_fu_539_ce ), .dout( grp_fu_539_p2 ) ); feedforward_dexp_64ns_64ns_64_18_full_dsp #( .ID( 1 ), .NUM_STAGE( 18 ), .din0_WIDTH( 64 ), .din1_WIDTH( 64 ), .dout_WIDTH( 64 )) feedforward_dexp_64ns_64ns_64_18_full_dsp_U8( .clk( ap_clk ), .reset( ap_rst_n_inv ), .din0( ap_const_lv64_0 ), .din1( reg_594 ), .ce( grp_fu_544_ce ), .dout( grp_fu_544_p2 ) ); feedforward_mux_4to1_sel2_8_1 #( .ID( 1 ), .NUM_STAGE( 1 ), .din1_WIDTH( 8 ), .din2_WIDTH( 8 ), .din3_WIDTH( 8 ), .din4_WIDTH( 8 ), .din5_WIDTH( 2 ), .dout_WIDTH( 8 )) feedforward_mux_4to1_sel2_8_1_U9( .din1( ST_layerSize_V_0 ), .din2( ST_layerSize_V_1 ), .din3( ST_layerSize_V_2 ), .din4( ST_layerSize_V_3 ), .din5( tmp_6_reg_1484 ), .dout( tmp_12_fu_739_p6 ) ); feedforward_mux_4to1_sel2_8_1 #( .ID( 1 ), .NUM_STAGE( 1 ), .din1_WIDTH( 8 ), .din2_WIDTH( 8 ), .din3_WIDTH( 8 ), .din4_WIDTH( 8 ), .din5_WIDTH( 2 ), .dout_WIDTH( 8 )) feedforward_mux_4to1_sel2_8_1_U10( .din1( ST_layerSize_V_0 ), .din2( ST_layerSize_V_1 ), .din3( ST_layerSize_V_2 ), .din4( ST_layerSize_V_3 ), .din5( tmp_20_reg_1494 ), .dout( tmp_19_fu_768_p6 ) ); feedforward_mux_4to1_sel2_8_1 #( .ID( 1 ), .NUM_STAGE( 1 ), .din1_WIDTH( 8 ), .din2_WIDTH( 8 ), .din3_WIDTH( 8 ), .din4_WIDTH( 8 ), .din5_WIDTH( 2 ), .dout_WIDTH( 8 )) feedforward_mux_4to1_sel2_8_1_U11( .din1( ST_layerSize_V_0 ), .din2( ST_layerSize_V_1 ), .din3( ST_layerSize_V_2 ), .din4( ST_layerSize_V_3 ), .din5( tmp_26_reg_1511 ), .dout( tmp_15_fu_894_p6 ) ); feedforward_mux_4to1_sel2_8_1 #( .ID( 1 ), .NUM_STAGE( 1 ), .din1_WIDTH( 8 ), .din2_WIDTH( 8 ), .din3_WIDTH( 8 ), .din4_WIDTH( 8 ), .din5_WIDTH( 2 ), .dout_WIDTH( 8 )) feedforward_mux_4to1_sel2_8_1_U12( .din1( ST_layerSize_V_0 ), .din2( ST_layerSize_V_1 ), .din3( ST_layerSize_V_2 ), .din4( ST_layerSize_V_3 ), .din5( tmp_35_reg_1521 ), .dout( tmp_23_fu_923_p6 ) ); feedforward_mux_4to1_sel2_8_1 #( .ID( 1 ), .NUM_STAGE( 1 ), .din1_WIDTH( 8 ), .din2_WIDTH( 8 ), .din3_WIDTH( 8 ), .din4_WIDTH( 8 ), .din5_WIDTH( 2 ), .dout_WIDTH( 8 )) feedforward_mux_4to1_sel2_8_1_U13( .din1( ST_layerSize_V_0 ), .din2( ST_layerSize_V_1 ), .din3( ST_layerSize_V_2 ), .din4( ST_layerSize_V_3 ), .din5( tmp_75_reg_1701 ), .dout( tmp_57_fu_1216_p6 ) ); feedforward_mux_4to1_sel2_8_1 #( .ID( 1 ), .NUM_STAGE( 1 ), .din1_WIDTH( 8 ), .din2_WIDTH( 8 ), .din3_WIDTH( 8 ), .din4_WIDTH( 8 ), .din5_WIDTH( 2 ), .dout_WIDTH( 8 )) feedforward_mux_4to1_sel2_8_1_U14( .din1( ST_layerSize_V_0 ), .din2( ST_layerSize_V_1 ), .din3( ST_layerSize_V_2 ), .din4( ST_layerSize_V_3 ), .din5( tmp_7_t_reg_1753 ), .dout( tmp_25_fu_1359_p6 ) ); always @ (posedge ap_clk) begin : ap_ret_ap_CS_fsm if (ap_rst_n_inv == 1'b1) begin ap_CS_fsm <= ap_ST_st1_fsm_0; end else begin ap_CS_fsm <= ap_NS_fsm; end end always @ (posedge ap_clk) begin : ap_ret_ap_reg_ioackin_P_netOut_V_TREADY if (ap_rst_n_inv == 1'b1) begin ap_reg_ioackin_P_netOut_V_TREADY <= ap_const_logic_0; end else begin if (ap_sig_bdd_942) begin if (~((ap_const_lv1_0 == tmp_reg_1442) & (ap_const_lv1_0 == tmp_1_reg_1454) & (ap_const_lv1_0 == tmp_41_reg_1661) & (ap_const_lv1_0 == tmp_44_fu_1062_p2) & (ap_const_logic_0 == ap_sig_ioackin_P_netOut_V_TREADY))) begin ap_reg_ioackin_P_netOut_V_TREADY <= ap_const_logic_0; end else if ((ap_const_logic_1 == P_netOut_V_TREADY)) begin ap_reg_ioackin_P_netOut_V_TREADY <= ap_const_logic_1; end end end end always @ (posedge ap_clk) begin : ap_ret_ap_reg_ioackin_P_uOut_TREADY if (ap_rst_n_inv == 1'b1) begin ap_reg_ioackin_P_uOut_TREADY <= ap_const_logic_0; end else begin if ((ap_const_logic_1 == ap_sig_cseq_ST_st144_fsm_143)) begin if (~(ap_const_logic_0 == ap_sig_ioackin_P_uOut_TREADY)) begin ap_reg_ioackin_P_uOut_TREADY <= ap_const_logic_0; end else if ((ap_const_logic_1 == P_uOut_TREADY)) begin ap_reg_ioackin_P_uOut_TREADY <= ap_const_logic_1; end end end end always @ (posedge ap_clk) begin if ((ap_const_logic_1 == ap_sig_cseq_ST_st146_fsm_145)) begin if (ap_sig_bdd_724) begin ST_layerSize_V_load_1_phi_reg_473 <= ST_layerSize_V_3; end else if ((tmp_4_reg_1749 == ap_const_lv2_2)) begin ST_layerSize_V_load_1_phi_reg_473 <= ST_layerSize_V_2; end else if ((tmp_4_reg_1749 == ap_const_lv2_1)) begin ST_layerSize_V_load_1_phi_reg_473 <= ST_layerSize_V_1; end end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st1_fsm_0) & (tmp_fu_611_p2 == ap_const_lv1_0) & ~ap_sig_bdd_404 & ~(ap_const_lv1_0 == tmp_1_fu_621_p2))) begin i_1_reg_449 <= ap_const_lv8_1; end else if (((ap_const_logic_1 == ap_sig_cseq_ST_st147_fsm_146) & (ap_const_lv1_0 == tmp_11_fu_1298_p2))) begin i_1_reg_449 <= i_9_fu_1339_p2; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st1_fsm_0) & (tmp_fu_611_p2 == ap_const_lv1_0) & ~ap_sig_bdd_404 & (ap_const_lv1_0 == tmp_1_fu_621_p2))) begin i_2_reg_277 <= ap_const_lv8_0; end else if (((ap_const_logic_1 == ap_sig_cseq_ST_st2_fsm_1) & (ap_const_lv1_0 == exitcond1_fu_633_p2) & ~ap_sig_bdd_434)) begin i_2_reg_277 <= i_8_fu_638_p2; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st2_fsm_1) & ~ap_sig_bdd_434 & ~(ap_const_lv1_0 == exitcond1_fu_633_p2))) begin i_3_reg_288 <= ap_const_lv8_1; end else if (((ap_const_logic_1 == ap_sig_cseq_ST_st4_fsm_3) & (ap_const_lv1_0 == tmp_14_fu_756_p2))) begin i_3_reg_288 <= i_10_fu_821_p2; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st3_fsm_2) & (ap_const_lv1_0 == tmp_7_fu_649_p2))) begin i_4_reg_346 <= ap_const_lv32_0; end else if ((ap_const_logic_1 == ap_sig_cseq_ST_st119_fsm_118)) begin i_4_reg_346 <= i_12_reg_1598; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st78_fsm_77) & (ap_const_lv1_0 == tmp_18_fu_911_p2))) begin i_5_reg_380 <= ap_const_lv8_0; end else if ((ap_const_logic_1 == ap_sig_cseq_ST_st138_fsm_137)) begin i_5_reg_380 <= i_11_reg_1651; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st143_fsm_142) & (ap_const_lv1_0 == tmp_59_fu_1233_p2))) begin i_6_reg_416 <= i_14_reg_1696; end else if (((ap_const_logic_1 == ap_sig_cseq_ST_st120_fsm_119) & ~(ap_const_lv1_0 == exitcond4_fu_1032_p2) & ~(ap_const_lv1_0 == tmp_41_fu_1057_p2))) begin i_6_reg_416 <= ap_const_lv8_0; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st149_fsm_148) & (ap_const_lv1_0 == exitcond5_fu_1398_p2) & ~ap_sig_bdd_769)) begin i_reg_495 <= i_7_fu_1403_p2; end else if (((ap_const_logic_1 == ap_sig_cseq_ST_st1_fsm_0) & ~(tmp_fu_611_p2 == ap_const_lv1_0) & ~ap_sig_bdd_404)) begin i_reg_495 <= ap_const_lv8_0; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st3_fsm_2) & ~(ap_const_lv1_0 == tmp_7_fu_649_p2))) begin j_1_reg_300 <= ap_const_lv32_0; end else if ((ap_const_logic_1 == ap_sig_cseq_ST_st77_fsm_76)) begin j_1_reg_300 <= j_5_reg_1529; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st78_fsm_77) & ~(ap_const_lv1_0 == tmp_18_fu_911_p2))) begin j_2_reg_369 <= ap_const_lv8_0; end else if ((ap_const_logic_1 == ap_sig_cseq_ST_st88_fsm_87)) begin j_2_reg_369 <= j_6_reg_1623; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st139_fsm_138) & (ap_const_lv1_0 == tmp_reg_1442) & (ap_const_lv1_0 == tmp_1_reg_1454) & ~((ap_const_lv1_0 == tmp_reg_1442) & (ap_const_lv1_0 == tmp_1_reg_1454) & (ap_const_lv1_0 == tmp_41_reg_1661) & (ap_const_lv1_0 == tmp_44_fu_1062_p2) & (ap_const_logic_0 == ap_sig_ioackin_P_netOut_V_TREADY)) & ~(ap_const_lv1_0 == tmp_41_reg_1661) & (ap_const_lv1_0 == exitcond_fu_1105_p2))) begin j_3_reg_438 <= ap_const_lv32_0; end else if (((ap_const_logic_1 == ap_sig_cseq_ST_st144_fsm_143) & ~(ap_const_logic_0 == ap_sig_ioackin_P_uOut_TREADY))) begin j_3_reg_438 <= j_7_reg_1730; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st148_fsm_147) & (ap_const_lv1_0 == tmp_22_fu_1386_p2) & ~ap_sig_bdd_755)) begin j_reg_461 <= j_4_reg_1758; end else if (((ap_const_logic_1 == ap_sig_cseq_ST_st145_fsm_144) & ~(ap_const_lv1_0 == tmp_9_fu_1259_p2))) begin j_reg_461 <= ap_const_lv32_0; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st4_fsm_3) & ~(ap_const_lv1_0 == tmp_14_fu_756_p2))) begin k_1_reg_323 <= ap_const_lv8_0; end else if ((ap_const_logic_1 == ap_sig_cseq_ST_st14_fsm_13)) begin k_1_reg_323 <= k_3_reg_1559; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st147_fsm_146) & ~(ap_const_lv1_0 == tmp_11_fu_1298_p2))) begin k_reg_484 <= ap_const_lv32_0; end else if (((ap_const_logic_1 == ap_sig_cseq_ST_st148_fsm_147) & ~(ap_const_lv1_0 == tmp_22_fu_1386_p2) & ~ap_sig_bdd_755)) begin k_reg_484 <= k_2_fu_1392_p2; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st120_fsm_119) & ~(ap_const_lv1_0 == exitcond4_fu_1032_p2) & (ap_const_lv1_0 == tmp_41_fu_1057_p2))) begin p_netOut_V_reg_404 <= ap_const_lv8_1; end else if ((ap_const_logic_1 == ap_sig_cseq_ST_st142_fsm_141)) begin p_netOut_V_reg_404 <= i_15_fu_1210_p2; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st120_fsm_119) & ~(ap_const_lv1_0 == exitcond4_fu_1032_p2) & (ap_const_lv1_0 == tmp_41_fu_1057_p2))) begin p_s_reg_391 <= ap_const_lv8_0; end else if ((ap_const_logic_1 == ap_sig_cseq_ST_st142_fsm_141)) begin p_s_reg_391 <= p_netOut_V_1_fu_1203_p3; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st143_fsm_142) & (ap_const_lv1_0 == tmp_59_fu_1233_p2))) begin phi_mul_reg_427 <= next_mul_reg_1688; end else if (((ap_const_logic_1 == ap_sig_cseq_ST_st120_fsm_119) & ~(ap_const_lv1_0 == exitcond4_fu_1032_p2) & ~(ap_const_lv1_0 == tmp_41_fu_1057_p2))) begin phi_mul_reg_427 <= ap_const_lv14_0; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st78_fsm_77) & ~(ap_const_lv1_0 == tmp_18_fu_911_p2))) begin sum_1_reg_357 <= ap_const_lv32_0; end else if ((ap_const_logic_1 == ap_sig_cseq_ST_st88_fsm_87)) begin sum_1_reg_357 <= grp_fu_506_p2; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st4_fsm_3) & ~(ap_const_lv1_0 == tmp_14_fu_756_p2))) begin sum_reg_311 <= ap_const_lv32_0; end else if ((ap_const_logic_1 == ap_sig_cseq_ST_st14_fsm_13)) begin sum_reg_311 <= grp_fu_506_p2; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st3_fsm_2) & (ap_const_lv1_0 == tmp_7_fu_649_p2))) begin sumsoft_reg_334 <= ap_const_lv32_0; end else if ((ap_const_logic_1 == ap_sig_cseq_ST_st119_fsm_118)) begin sumsoft_reg_334 <= grp_fu_506_p2; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st1_fsm_0) & ~(tmp_fu_611_p2 == ap_const_lv1_0) & ~ap_sig_bdd_404)) begin P_config_V_read_reg_1463 <= P_config_V_TDATA; ST_numLayer_V <= P_config_V_TDATA; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st1_fsm_0) & ~ap_sig_bdd_404)) begin P_mode_V_read_reg_1437 <= P_mode_V; ST_numLayer_V_load_reg_1446 <= ST_numLayer_V; tmp_reg_1442 <= tmp_fu_611_p2; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st149_fsm_148) & (ap_const_lv1_0 == exitcond5_fu_1398_p2) & ~ap_sig_bdd_769 & (tmp_2_fu_1409_p1 == ap_const_lv2_0))) begin ST_layerSize_V_0 <= P_config_V_TDATA; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st1_fsm_0) & (tmp_fu_611_p2 == ap_const_lv1_0) & ~ap_sig_bdd_404 & (ap_const_lv1_0 == tmp_1_fu_621_p2))) begin ST_layerSize_V_0_load_reg_1458 <= ST_layerSize_V_0; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st149_fsm_148) & (ap_const_lv1_0 == exitcond5_fu_1398_p2) & ~ap_sig_bdd_769 & (ap_const_lv2_1 == tmp_2_fu_1409_p1))) begin ST_layerSize_V_1 <= P_config_V_TDATA; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st149_fsm_148) & (ap_const_lv1_0 == exitcond5_fu_1398_p2) & ~ap_sig_bdd_769 & (ap_const_lv2_2 == tmp_2_fu_1409_p1))) begin ST_layerSize_V_2 <= P_config_V_TDATA; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st149_fsm_148) & (ap_const_lv1_0 == exitcond5_fu_1398_p2) & ~ap_sig_bdd_769 & ~(ap_const_lv2_2 == tmp_2_fu_1409_p1) & ~(ap_const_lv2_1 == tmp_2_fu_1409_p1) & ~(tmp_2_fu_1409_p1 == ap_const_lv2_0))) begin ST_layerSize_V_3 <= P_config_V_TDATA; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st149_fsm_148) & ~ap_sig_bdd_769)) begin exitcond5_reg_1799 <= exitcond5_fu_1398_p2; end end always @ (posedge ap_clk) begin if ((ap_const_logic_1 == ap_sig_cseq_ST_st120_fsm_119)) begin i_11_reg_1651 <= i_11_fu_1037_p2; end end always @ (posedge ap_clk) begin if ((ap_const_logic_1 == ap_sig_cseq_ST_st78_fsm_77)) begin i_12_reg_1598 <= i_12_fu_917_p2; tmp_15_reg_1589 <= tmp_15_fu_894_p6; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st139_fsm_138) & (ap_const_lv1_0 == tmp_reg_1442) & (ap_const_lv1_0 == tmp_1_reg_1454) & ~((ap_const_lv1_0 == tmp_reg_1442) & (ap_const_lv1_0 == tmp_1_reg_1454) & (ap_const_lv1_0 == tmp_41_reg_1661) & (ap_const_lv1_0 == tmp_44_fu_1062_p2) & (ap_const_logic_0 == ap_sig_ioackin_P_netOut_V_TREADY)) & ~(ap_const_lv1_0 == tmp_41_reg_1661))) begin i_14_reg_1696 <= i_14_fu_1110_p2; next_mul_reg_1688 <= next_mul_fu_1099_p2; tmp_74_reg_1683 <= tmp_74_fu_1095_p1; end end always @ (posedge ap_clk) begin if ((ap_const_logic_1 == ap_sig_cseq_ST_st146_fsm_145)) begin j_4_reg_1758 <= j_4_fu_1288_p2; end end always @ (posedge ap_clk) begin if ((ap_const_logic_1 == ap_sig_cseq_ST_st4_fsm_3)) begin j_5_reg_1529 <= j_5_fu_762_p2; end end always @ (posedge ap_clk) begin if ((ap_const_logic_1 == ap_sig_cseq_ST_st79_fsm_78)) begin j_6_reg_1623 <= j_6_fu_985_p2; end end always @ (posedge ap_clk) begin if ((ap_const_logic_1 == ap_sig_cseq_ST_st143_fsm_142)) begin j_7_reg_1730 <= j_7_fu_1239_p2; end end always @ (posedge ap_clk) begin if ((ap_const_logic_1 == ap_sig_cseq_ST_st5_fsm_4)) begin k_3_reg_1559 <= k_3_fu_832_p2; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st4_fsm_3) & ~(ap_const_lv1_0 == tmp_14_fu_756_p2))) begin p_uOut_addr_1_reg_1546 <= tmp_70_cast_fu_786_p1; tmp_19_reg_1534 <= tmp_19_fu_768_p6; tmp_60_reg_1540[13 : 2] <= tmp_60_fu_815_p2[13 : 2]; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st78_fsm_77) & ~(ap_const_lv1_0 == tmp_18_fu_911_p2))) begin p_uOut_addr_3_reg_1615 <= tmp_74_cast_fu_945_p1; tmp_23_reg_1603 <= tmp_23_fu_923_p6; tmp_64_reg_1609[13 : 2] <= tmp_64_fu_974_p2[13 : 2]; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st120_fsm_119) & (ap_const_lv1_0 == exitcond4_fu_1032_p2))) begin p_uOut_addr_5_reg_1656 <= tmp_85_cast_fu_1052_p1; end end always @ (posedge ap_clk) begin if ((ap_const_logic_1 == ap_sig_cseq_ST_st140_fsm_139)) begin p_uOut_load_4_reg_1706 <= p_uOut_q1; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st6_fsm_5) | (ap_const_logic_1 == ap_sig_cseq_ST_st80_fsm_79) | (ap_const_logic_1 == ap_sig_cseq_ST_st121_fsm_120) | (ap_const_logic_1 == ap_sig_cseq_ST_st140_fsm_139))) begin reg_565 <= p_uOut_q0; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st6_fsm_5) | (ap_const_logic_1 == ap_sig_cseq_ST_st80_fsm_79) | (ap_const_logic_1 == ap_sig_cseq_ST_st15_fsm_14) | (ap_const_logic_1 == ap_sig_cseq_ST_st89_fsm_88))) begin reg_572 <= ST_WandB_q0; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st9_fsm_8) | (ap_const_logic_1 == ap_sig_cseq_ST_st83_fsm_82))) begin reg_578 <= grp_fu_513_p2; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st20_fsm_19) | (ap_const_logic_1 == ap_sig_cseq_ST_st94_fsm_93))) begin reg_589 <= grp_fu_506_p2; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st21_fsm_20) | (ap_const_logic_1 == ap_sig_cseq_ST_st95_fsm_94))) begin reg_594 <= grp_fu_527_p1; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st39_fsm_38) | (ap_const_logic_1 == ap_sig_cseq_ST_st113_fsm_112))) begin reg_599 <= grp_fu_544_p2; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st76_fsm_75) | (ap_const_logic_1 == ap_sig_cseq_ST_st114_fsm_113))) begin reg_605 <= grp_fu_524_p1; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st3_fsm_2) & ~(ap_const_lv1_0 == tmp_7_fu_649_p2))) begin tmp_16_reg_1489 <= tmp_16_fu_682_p2; tmp_20_reg_1494 <= tmp_20_fu_688_p1; tmp_62_cast_reg_1479[14 : 0] <= tmp_62_cast_fu_664_p1[14 : 0]; tmp_6_reg_1484 <= tmp_6_fu_668_p1; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st1_fsm_0) & (tmp_fu_611_p2 == ap_const_lv1_0) & ~ap_sig_bdd_404)) begin tmp_1_reg_1454 <= tmp_1_fu_621_p2; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st3_fsm_2) & (ap_const_lv1_0 == tmp_7_fu_649_p2))) begin tmp_24_reg_1499 <= tmp_24_fu_711_p1; tmp_26_reg_1511 <= tmp_26_fu_719_p1; tmp_33_reg_1516 <= tmp_33_fu_729_p2; tmp_35_reg_1521 <= tmp_35_fu_735_p1; tmp_64_cast_reg_1506 <= tmp_64_cast_fu_715_p1; end end always @ (posedge ap_clk) begin if ((ap_const_logic_1 == ap_sig_cseq_ST_st44_fsm_43)) begin tmp_30_reg_1579 <= grp_fu_534_p2; end end always @ (posedge ap_clk) begin if ((ap_const_logic_1 == ap_sig_cseq_ST_st75_fsm_74)) begin tmp_31_reg_1584 <= grp_fu_539_p2; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st120_fsm_119) & ~(ap_const_lv1_0 == exitcond4_fu_1032_p2))) begin tmp_41_reg_1661 <= tmp_41_fu_1057_p2; end end always @ (posedge ap_clk) begin if ((ap_const_logic_1 == ap_sig_cseq_ST_st137_fsm_136)) begin tmp_43_reg_1665 <= grp_fu_519_p2; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st147_fsm_146) & ~(ap_const_lv1_0 == tmp_11_fu_1298_p2))) begin tmp_46_reg_1781[13 : 2] <= tmp_46_fu_1333_p2[13 : 2]; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st145_fsm_144) & ~(ap_const_lv1_0 == tmp_9_fu_1259_p2))) begin tmp_4_reg_1749 <= tmp_4_fu_1278_p1; tmp_61_cast_reg_1744[14 : 0] <= tmp_61_cast_fu_1274_p1[14 : 0]; tmp_7_t_reg_1753 <= tmp_7_t_fu_1282_p2; end end always @ (posedge ap_clk) begin if ((ap_const_logic_1 == ap_sig_cseq_ST_st141_fsm_140)) begin tmp_56_reg_1712 <= tmp_56_fu_1197_p2; end end always @ (posedge ap_clk) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st139_fsm_138) & (ap_const_lv1_0 == tmp_reg_1442) & (ap_const_lv1_0 == tmp_1_reg_1454) & ~((ap_const_lv1_0 == tmp_reg_1442) & (ap_const_lv1_0 == tmp_1_reg_1454) & (ap_const_lv1_0 == tmp_41_reg_1661) & (ap_const_lv1_0 == tmp_44_fu_1062_p2) & (ap_const_logic_0 == ap_sig_ioackin_P_netOut_V_TREADY)) & ~(ap_const_lv1_0 == tmp_41_reg_1661) & (ap_const_lv1_0 == exitcond_fu_1105_p2))) begin tmp_75_reg_1701 <= tmp_75_fu_1116_p1; end end always @ (posedge ap_clk) begin if ((ap_const_logic_1 == ap_sig_cseq_ST_st145_fsm_144)) begin tmp_9_reg_1740 <= tmp_9_fu_1259_p2; end end always @ (ap_sig_cseq_ST_st148_fsm_147 or tmp_22_fu_1386_p2 or ap_sig_bdd_755) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st148_fsm_147) & ~(ap_const_lv1_0 == tmp_22_fu_1386_p2) & ~ap_sig_bdd_755)) begin P_WandB_TREADY = ap_const_logic_1; end else begin P_WandB_TREADY = ap_const_logic_0; end end always @ (ap_sig_cseq_ST_st1_fsm_0 or tmp_fu_611_p2 or ap_sig_bdd_404 or exitcond5_fu_1398_p2 or ap_sig_cseq_ST_st149_fsm_148 or ap_sig_bdd_769) begin if ((((ap_const_logic_1 == ap_sig_cseq_ST_st1_fsm_0) & ~(tmp_fu_611_p2 == ap_const_lv1_0) & ~ap_sig_bdd_404) | ((ap_const_logic_1 == ap_sig_cseq_ST_st149_fsm_148) & (ap_const_lv1_0 == exitcond5_fu_1398_p2) & ~ap_sig_bdd_769))) begin P_config_V_TREADY = ap_const_logic_1; end else begin P_config_V_TREADY = ap_const_logic_0; end end always @ (ap_sig_cseq_ST_st2_fsm_1 or exitcond1_fu_633_p2 or ap_sig_bdd_434) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st2_fsm_1) & (ap_const_lv1_0 == exitcond1_fu_633_p2) & ~ap_sig_bdd_434)) begin P_netIn_TREADY = ap_const_logic_1; end else begin P_netIn_TREADY = ap_const_logic_0; end end always @ (tmp_reg_1442 or tmp_1_reg_1454 or tmp_41_reg_1661 or ap_sig_cseq_ST_st139_fsm_138 or tmp_44_fu_1062_p2 or ap_reg_ioackin_P_netOut_V_TREADY) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st139_fsm_138) & (ap_const_lv1_0 == tmp_reg_1442) & (ap_const_lv1_0 == tmp_1_reg_1454) & (ap_const_lv1_0 == tmp_41_reg_1661) & (ap_const_lv1_0 == tmp_44_fu_1062_p2) & (ap_const_logic_0 == ap_reg_ioackin_P_netOut_V_TREADY))) begin P_netOut_V_TVALID = ap_const_logic_1; end else begin P_netOut_V_TVALID = ap_const_logic_0; end end always @ (ap_sig_cseq_ST_st144_fsm_143 or ap_reg_ioackin_P_uOut_TREADY) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st144_fsm_143) & (ap_const_logic_0 == ap_reg_ioackin_P_uOut_TREADY))) begin P_uOut_TVALID = ap_const_logic_1; end else begin P_uOut_TVALID = ap_const_logic_0; end end always @ (ap_sig_cseq_ST_st5_fsm_4 or exitcond2_fu_827_p2 or ap_sig_cseq_ST_st79_fsm_78 or exitcond3_fu_980_p2 or ap_sig_cseq_ST_st148_fsm_147 or tmp_80_cast_fu_851_p1 or tmp_79_cast_fu_874_p1 or tmp_83_cast_fu_1004_p1 or tmp_82_cast_fu_1027_p1 or tmp_78_cast_fu_1354_p1) begin if ((ap_const_logic_1 == ap_sig_cseq_ST_st148_fsm_147)) begin ST_WandB_address0 = tmp_78_cast_fu_1354_p1; end else if (((ap_const_logic_1 == ap_sig_cseq_ST_st79_fsm_78) & ~(ap_const_lv1_0 == exitcond3_fu_980_p2))) begin ST_WandB_address0 = tmp_82_cast_fu_1027_p1; end else if (((ap_const_logic_1 == ap_sig_cseq_ST_st79_fsm_78) & (ap_const_lv1_0 == exitcond3_fu_980_p2))) begin ST_WandB_address0 = tmp_83_cast_fu_1004_p1; end else if (((ap_const_logic_1 == ap_sig_cseq_ST_st5_fsm_4) & ~(ap_const_lv1_0 == exitcond2_fu_827_p2))) begin ST_WandB_address0 = tmp_79_cast_fu_874_p1; end else if (((ap_const_logic_1 == ap_sig_cseq_ST_st5_fsm_4) & (ap_const_lv1_0 == exitcond2_fu_827_p2))) begin ST_WandB_address0 = tmp_80_cast_fu_851_p1; end else begin ST_WandB_address0 = 'bx; end end always @ (ap_sig_cseq_ST_st5_fsm_4 or exitcond2_fu_827_p2 or ap_sig_cseq_ST_st79_fsm_78 or exitcond3_fu_980_p2 or ap_sig_cseq_ST_st148_fsm_147 or ap_sig_bdd_755) begin if ((((ap_const_logic_1 == ap_sig_cseq_ST_st5_fsm_4) & (ap_const_lv1_0 == exitcond2_fu_827_p2)) | ((ap_const_logic_1 == ap_sig_cseq_ST_st5_fsm_4) & ~(ap_const_lv1_0 == exitcond2_fu_827_p2)) | ((ap_const_logic_1 == ap_sig_cseq_ST_st79_fsm_78) & (ap_const_lv1_0 == exitcond3_fu_980_p2)) | ((ap_const_logic_1 == ap_sig_cseq_ST_st79_fsm_78) & ~(ap_const_lv1_0 == exitcond3_fu_980_p2)) | ((ap_const_logic_1 == ap_sig_cseq_ST_st148_fsm_147) & ~ap_sig_bdd_755))) begin ST_WandB_ce0 = ap_const_logic_1; end else begin ST_WandB_ce0 = ap_const_logic_0; end end always @ (ap_sig_cseq_ST_st148_fsm_147 or tmp_22_fu_1386_p2 or ap_sig_bdd_755) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st148_fsm_147) & ~(ap_const_lv1_0 == tmp_22_fu_1386_p2) & ~ap_sig_bdd_755)) begin ST_WandB_we0 = ap_const_logic_1; end else begin ST_WandB_we0 = ap_const_logic_0; end end always @ (tmp_reg_1442 or tmp_1_reg_1454 or tmp_41_reg_1661 or ap_sig_cseq_ST_st139_fsm_138 or tmp_44_fu_1062_p2 or ap_sig_ioackin_P_netOut_V_TREADY or exitcond_fu_1105_p2 or tmp_9_reg_1740 or exitcond5_reg_1799) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st139_fsm_138) & ~((ap_const_lv1_0 == tmp_reg_1442) & (ap_const_lv1_0 == tmp_1_reg_1454) & (ap_const_lv1_0 == tmp_41_reg_1661) & (ap_const_lv1_0 == tmp_44_fu_1062_p2) & (ap_const_logic_0 == ap_sig_ioackin_P_netOut_V_TREADY)) & (((ap_const_lv1_0 == tmp_reg_1442) & (ap_const_lv1_0 == tmp_1_reg_1454) & (ap_const_lv1_0 == tmp_41_reg_1661) & (ap_const_lv1_0 == tmp_44_fu_1062_p2)) | (~(ap_const_lv1_0 == tmp_reg_1442) & ~(ap_const_lv1_0 == exitcond5_reg_1799)) | ((ap_const_lv1_0 == tmp_reg_1442) & ~(ap_const_lv1_0 == tmp_1_reg_1454) & (ap_const_lv1_0 == tmp_9_reg_1740)) | ((ap_const_lv1_0 == tmp_reg_1442) & (ap_const_lv1_0 == tmp_1_reg_1454) & ~(ap_const_lv1_0 == tmp_41_reg_1661) & ~(ap_const_lv1_0 == exitcond_fu_1105_p2))))) begin ap_done = ap_const_logic_1; end else begin ap_done = ap_const_logic_0; end end always @ (ap_start or ap_sig_cseq_ST_st1_fsm_0) begin if ((~(ap_const_logic_1 == ap_start) & (ap_const_logic_1 == ap_sig_cseq_ST_st1_fsm_0))) begin ap_idle = ap_const_logic_1; end else begin ap_idle = ap_const_logic_0; end end always @ (tmp_reg_1442 or tmp_1_reg_1454 or tmp_41_reg_1661 or ap_sig_cseq_ST_st139_fsm_138 or tmp_44_fu_1062_p2 or ap_sig_ioackin_P_netOut_V_TREADY or exitcond_fu_1105_p2 or tmp_9_reg_1740 or exitcond5_reg_1799) begin if (((ap_const_logic_1 == ap_sig_cseq_ST_st139_fsm_138) & ~((ap_const_lv1_0 == tmp_reg_1442) & (ap_const_lv1_0 == tmp_1_reg_1454) & (ap_const_lv1_0 == tmp_41_reg_1661) & (ap_const_lv1_0 == tmp_44_fu_1062_p2) & (ap_const_logic_0 == ap_sig_ioackin_P_netOut_V_TREADY)) & (((ap_const_lv1_0 == tmp_reg_1442) & (ap_const_lv1_0 == tmp_1_reg_1454) & (ap_const_lv1_0 == tmp_41_reg_1661) & (ap_const_lv1_0 == tmp_44_fu_1062_p2)) | (~(ap_const_lv1_0 == tmp_reg_1442) & ~(ap_const_lv1_0 == exitcond5_reg_1799)) | ((ap_const_lv1_0 == tmp_reg_1442) & ~(ap_const_lv1_0 == tmp_1_reg_1454) & (ap_const_lv1_0 == tmp_9_reg_1740)) | ((ap_const_lv1_0 == tmp_reg_1442) & (ap_const_lv1_0 == tmp_1_reg_1454) & ~(ap_const_lv1_0 == tmp_41_reg_1661) & ~(ap_const_lv1_0 == exitcond_fu_1105_p2))))) begin ap_ready = ap_const_logic_1; end else begin ap_ready = ap_const_logic_0; end end always @ (ap_sig_bdd_987) begin if (ap_sig_bdd_987) begin ap_sig_cseq_ST_st10_fsm_9 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st10_fsm_9 = ap_const_logic_0; end end always @ (ap_sig_bdd_374) begin if (ap_sig_bdd_374) begin ap_sig_cseq_ST_st113_fsm_112 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st113_fsm_112 = ap_const_logic_0; end end always @ (ap_sig_bdd_391) begin if (ap_sig_bdd_391) begin ap_sig_cseq_ST_st114_fsm_113 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st114_fsm_113 = ap_const_logic_0; end end always @ (ap_sig_bdd_963) begin if (ap_sig_bdd_963) begin ap_sig_cseq_ST_st115_fsm_114 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st115_fsm_114 = ap_const_logic_0; end end always @ (ap_sig_bdd_574) begin if (ap_sig_bdd_574) begin ap_sig_cseq_ST_st119_fsm_118 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st119_fsm_118 = ap_const_logic_0; end end always @ (ap_sig_bdd_583) begin if (ap_sig_bdd_583) begin ap_sig_cseq_ST_st120_fsm_119 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st120_fsm_119 = ap_const_logic_0; end end always @ (ap_sig_bdd_264) begin if (ap_sig_bdd_264) begin ap_sig_cseq_ST_st121_fsm_120 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st121_fsm_120 = ap_const_logic_0; end end always @ (ap_sig_bdd_601) begin if (ap_sig_bdd_601) begin ap_sig_cseq_ST_st137_fsm_136 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st137_fsm_136 = ap_const_logic_0; end end always @ (ap_sig_bdd_821) begin if (ap_sig_bdd_821) begin ap_sig_cseq_ST_st138_fsm_137 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st138_fsm_137 = ap_const_logic_0; end end always @ (ap_sig_bdd_610) begin if (ap_sig_bdd_610) begin ap_sig_cseq_ST_st139_fsm_138 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st139_fsm_138 = ap_const_logic_0; end end always @ (ap_sig_bdd_272) begin if (ap_sig_bdd_272) begin ap_sig_cseq_ST_st140_fsm_139 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st140_fsm_139 = ap_const_logic_0; end end always @ (ap_sig_bdd_654) begin if (ap_sig_bdd_654) begin ap_sig_cseq_ST_st141_fsm_140 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st141_fsm_140 = ap_const_logic_0; end end always @ (ap_sig_bdd_663) begin if (ap_sig_bdd_663) begin ap_sig_cseq_ST_st142_fsm_141 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st142_fsm_141 = ap_const_logic_0; end end always @ (ap_sig_bdd_674) begin if (ap_sig_bdd_674) begin ap_sig_cseq_ST_st143_fsm_142 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st143_fsm_142 = ap_const_logic_0; end end always @ (ap_sig_bdd_847) begin if (ap_sig_bdd_847) begin ap_sig_cseq_ST_st144_fsm_143 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st144_fsm_143 = ap_const_logic_0; end end always @ (ap_sig_bdd_689) begin if (ap_sig_bdd_689) begin ap_sig_cseq_ST_st145_fsm_144 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st145_fsm_144 = ap_const_logic_0; end end always @ (ap_sig_bdd_707) begin if (ap_sig_bdd_707) begin ap_sig_cseq_ST_st146_fsm_145 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st146_fsm_145 = ap_const_logic_0; end end always @ (ap_sig_bdd_732) begin if (ap_sig_bdd_732) begin ap_sig_cseq_ST_st147_fsm_146 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st147_fsm_146 = ap_const_logic_0; end end always @ (ap_sig_bdd_748) begin if (ap_sig_bdd_748) begin ap_sig_cseq_ST_st148_fsm_147 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st148_fsm_147 = ap_const_logic_0; end end always @ (ap_sig_bdd_765) begin if (ap_sig_bdd_765) begin ap_sig_cseq_ST_st149_fsm_148 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st149_fsm_148 = ap_const_logic_0; end end always @ (ap_sig_bdd_317) begin if (ap_sig_bdd_317) begin ap_sig_cseq_ST_st14_fsm_13 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st14_fsm_13 = ap_const_logic_0; end end always @ (ap_sig_bdd_281) begin if (ap_sig_bdd_281) begin ap_sig_cseq_ST_st15_fsm_14 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st15_fsm_14 = ap_const_logic_0; end end always @ (ap_sig_bdd_994) begin if (ap_sig_bdd_994) begin ap_sig_cseq_ST_st16_fsm_15 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st16_fsm_15 = ap_const_logic_0; end end always @ (ap_sig_bdd_167) begin if (ap_sig_bdd_167) begin ap_sig_cseq_ST_st1_fsm_0 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st1_fsm_0 = ap_const_logic_0; end end always @ (ap_sig_bdd_333) begin if (ap_sig_bdd_333) begin ap_sig_cseq_ST_st20_fsm_19 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st20_fsm_19 = ap_const_logic_0; end end always @ (ap_sig_bdd_350) begin if (ap_sig_bdd_350) begin ap_sig_cseq_ST_st21_fsm_20 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st21_fsm_20 = ap_const_logic_0; end end always @ (ap_sig_bdd_428) begin if (ap_sig_bdd_428) begin ap_sig_cseq_ST_st2_fsm_1 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st2_fsm_1 = ap_const_logic_0; end end always @ (ap_sig_bdd_367) begin if (ap_sig_bdd_367) begin ap_sig_cseq_ST_st39_fsm_38 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st39_fsm_38 = ap_const_logic_0; end end always @ (ap_sig_bdd_444) begin if (ap_sig_bdd_444) begin ap_sig_cseq_ST_st3_fsm_2 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st3_fsm_2 = ap_const_logic_0; end end always @ (ap_sig_bdd_516) begin if (ap_sig_bdd_516) begin ap_sig_cseq_ST_st44_fsm_43 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st44_fsm_43 = ap_const_logic_0; end end always @ (ap_sig_bdd_474) begin if (ap_sig_bdd_474) begin ap_sig_cseq_ST_st4_fsm_3 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st4_fsm_3 = ap_const_logic_0; end end always @ (ap_sig_bdd_496) begin if (ap_sig_bdd_496) begin ap_sig_cseq_ST_st5_fsm_4 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st5_fsm_4 = ap_const_logic_0; end end always @ (ap_sig_bdd_249) begin if (ap_sig_bdd_249) begin ap_sig_cseq_ST_st6_fsm_5 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st6_fsm_5 = ap_const_logic_0; end end always @ (ap_sig_bdd_525) begin if (ap_sig_bdd_525) begin ap_sig_cseq_ST_st75_fsm_74 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st75_fsm_74 = ap_const_logic_0; end end always @ (ap_sig_bdd_384) begin if (ap_sig_bdd_384) begin ap_sig_cseq_ST_st76_fsm_75 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st76_fsm_75 = ap_const_logic_0; end end always @ (ap_sig_bdd_800) begin if (ap_sig_bdd_800) begin ap_sig_cseq_ST_st77_fsm_76 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st77_fsm_76 = ap_const_logic_0; end end always @ (ap_sig_bdd_534) begin if (ap_sig_bdd_534) begin ap_sig_cseq_ST_st78_fsm_77 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st78_fsm_77 = ap_const_logic_0; end end always @ (ap_sig_bdd_555) begin if (ap_sig_bdd_555) begin ap_sig_cseq_ST_st79_fsm_78 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st79_fsm_78 = ap_const_logic_0; end end always @ (ap_sig_bdd_256) begin if (ap_sig_bdd_256) begin ap_sig_cseq_ST_st80_fsm_79 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st80_fsm_79 = ap_const_logic_0; end end always @ (ap_sig_bdd_307) begin if (ap_sig_bdd_307) begin ap_sig_cseq_ST_st83_fsm_82 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st83_fsm_82 = ap_const_logic_0; end end always @ (ap_sig_bdd_1002) begin if (ap_sig_bdd_1002) begin ap_sig_cseq_ST_st84_fsm_83 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st84_fsm_83 = ap_const_logic_0; end end always @ (ap_sig_bdd_324) begin if (ap_sig_bdd_324) begin ap_sig_cseq_ST_st88_fsm_87 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st88_fsm_87 = ap_const_logic_0; end end always @ (ap_sig_bdd_290) begin if (ap_sig_bdd_290) begin ap_sig_cseq_ST_st89_fsm_88 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st89_fsm_88 = ap_const_logic_0; end end always @ (ap_sig_bdd_1009) begin if (ap_sig_bdd_1009) begin ap_sig_cseq_ST_st90_fsm_89 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st90_fsm_89 = ap_const_logic_0; end end always @ (ap_sig_bdd_340) begin if (ap_sig_bdd_340) begin ap_sig_cseq_ST_st94_fsm_93 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st94_fsm_93 = ap_const_logic_0; end end always @ (ap_sig_bdd_357) begin if (ap_sig_bdd_357) begin ap_sig_cseq_ST_st95_fsm_94 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st95_fsm_94 = ap_const_logic_0; end end always @ (ap_sig_bdd_300) begin if (ap_sig_bdd_300) begin ap_sig_cseq_ST_st9_fsm_8 = ap_const_logic_1; end else begin ap_sig_cseq_ST_st9_fsm_8 = ap_const_logic_0; end end always @ (P_netOut_V_TREADY or ap_reg_ioackin_P_netOut_V_TREADY) begin if ((ap_const_logic_0 == ap_reg_ioackin_P_netOut_V_TREADY)) begin ap_sig_ioackin_P_netOut_V_TREADY = P_netOut_V_TREADY; end else begin ap_sig_ioackin_P_netOut_V_TREADY = ap_const_logic_1; end end always @ (P_uOut_TREADY or ap_reg_ioackin_P_uOut_TREADY) begin if ((ap_const_logic_0 == ap_reg_ioackin_P_uOut_TREADY)) begin ap_sig_ioackin_P_uOut_TREADY = P_uOut_TREADY; end else begin ap_sig_ioackin_P_uOut_TREADY = ap_const_logic_1; end end always @ (sum_reg_311 or sumsoft_reg_334 or sum_1_reg_357 or ap_sig_cseq_ST_st115_fsm_114 or ap_sig_cseq_ST_st10_fsm_9 or ap_sig_cseq_ST_st16_fsm_15 or ap_sig_cseq_ST_st84_fsm_83 or ap_sig_cseq_ST_st90_fsm_89) begin if ((ap_const_logic_1 == ap_sig_cseq_ST_st115_fsm_114)) begin grp_fu_506_p0 = sumsoft_reg_334; end else if (((ap_const_logic_1 == ap_sig_cseq_ST_st84_fsm_83) | (ap_const_logic_1 == ap_sig_cseq_ST_st90_fsm_89))) begin grp_fu_506_p0 = sum_1_reg_357; end else if (((ap_const_logic_1 == ap_sig_cseq_ST_st10_fsm_9) | (ap_const_logic_1 == ap_sig_cseq_ST_st16_fsm_15))) begin grp_fu_506_p0 = sum_reg_311; end else begin grp_fu_506_p0 = 'bx; end end always @ (reg_572 or reg_578 or reg_605 or ap_sig_cseq_ST_st115_fsm_114 or ap_sig_cseq_ST_st10_fsm_9 or ap_sig_cseq_ST_st16_fsm_15 or ap_sig_cseq_ST_st84_fsm_83 or ap_sig_cseq_ST_st90_fsm_89) begin if ((ap_const_logic_1 == ap_sig_cseq_ST_st115_fsm_114)) begin grp_fu_506_p1 = reg_605; end else if (((ap_const_logic_1 == ap_sig_cseq_ST_st16_fsm_15) | (ap_const_logic_1 == ap_sig_cseq_ST_st90_fsm_89))) begin grp_fu_506_p1 = reg_572; end else if (((ap_const_logic_1 == ap_sig_cseq_ST_st10_fsm_9) | (ap_const_logic_1 == ap_sig_cseq_ST_st84_fsm_83))) begin grp_fu_506_p1 = reg_578; end else begin grp_fu_506_p1 = 'bx; end end always @ (reg_599 or ap_sig_cseq_ST_st76_fsm_75 or ap_sig_cseq_ST_st114_fsm_113 or tmp_31_reg_1584) begin if ((ap_const_logic_1 == ap_sig_cseq_ST_st114_fsm_113)) begin grp_fu_524_p0 = reg_599; end else if ((ap_const_logic_1 == ap_sig_cseq_ST_st76_fsm_75)) begin grp_fu_524_p0 = tmp_31_reg_1584; end else begin grp_fu_524_p0 = 'bx; end end always @ (reg_589 or ap_sig_cseq_ST_st21_fsm_20 or ap_sig_cseq_ST_st95_fsm_94 or tmp_27_fu_889_p1) begin if ((ap_const_logic_1 == ap_sig_cseq_ST_st95_fsm_94)) begin grp_fu_527_p0 = reg_589; end else if ((ap_const_logic_1 == ap_sig_cseq_ST_st21_fsm_20)) begin grp_fu_527_p0 = tmp_27_fu_889_p1; end else begin grp_fu_527_p0 = 'bx; end end always @ (ap_sig_cseq_ST_st2_fsm_1 or p_uOut_addr_1_reg_1546 or ap_sig_cseq_ST_st5_fsm_4 or p_uOut_addr_3_reg_1615 or ap_sig_cseq_ST_st79_fsm_78 or ap_sig_cseq_ST_st120_fsm_119 or p_uOut_addr_5_reg_1656 or ap_sig_cseq_ST_st139_fsm_138 or ap_sig_cseq_ST_st77_fsm_76 or ap_sig_cseq_ST_st138_fsm_137 or tmp_8_fu_644_p1 or tmp_81_cast_fu_861_p1 or tmp_84_cast_fu_1014_p1 or tmp_85_cast_fu_1052_p1 or tmp_87_cast_fu_1076_p1 or ap_sig_cseq_ST_st115_fsm_114) begin if ((ap_const_logic_1 == ap_sig_cseq_ST_st138_fsm_137)) begin p_uOut_address0 = p_uOut_addr_5_reg_1656; end else if ((ap_const_logic_1 == ap_sig_cseq_ST_st115_fsm_114)) begin p_uOut_address0 = p_uOut_addr_3_reg_1615; end else if ((ap_const_logic_1 == ap_sig_cseq_ST_st77_fsm_76)) begin p_uOut_address0 = p_uOut_addr_1_reg_1546; end else if ((ap_const_logic_1 == ap_sig_cseq_ST_st2_fsm_1)) begin p_uOut_address0 = tmp_8_fu_644_p1; end else if ((ap_const_logic_1 == ap_sig_cseq_ST_st139_fsm_138)) begin p_uOut_address0 = tmp_87_cast_fu_1076_p1; end else if ((ap_const_logic_1 == ap_sig_cseq_ST_st120_fsm_119)) begin p_uOut_address0 = tmp_85_cast_fu_1052_p1; end else if ((ap_const_logic_1 == ap_sig_cseq_ST_st79_fsm_78)) begin p_uOut_address0 = tmp_84_cast_fu_1014_p1; end else if ((ap_const_logic_1 == ap_sig_cseq_ST_st5_fsm_4)) begin p_uOut_address0 = tmp_81_cast_fu_861_p1; end else begin p_uOut_address0 = 'bx; end end always @ (ap_sig_cseq_ST_st139_fsm_138 or ap_sig_cseq_ST_st143_fsm_142 or tmp_88_cast_fu_1090_p1 or tmp_89_cast_fu_1254_p1) begin if ((ap_const_logic_1 == ap_sig_cseq_ST_st143_fsm_142)) begin p_uOut_address1 = tmp_89_cast_fu_1254_p1; end else if ((ap_const_logic_1 == ap_sig_cseq_ST_st139_fsm_138)) begin p_uOut_address1 = tmp_88_cast_fu_1090_p1; end else begin p_uOut_address1 = 'bx; end end always @ (tmp_reg_1442 or tmp_1_reg_1454 or ap_sig_cseq_ST_st2_fsm_1 or ap_sig_bdd_434 or ap_sig_cseq_ST_st5_fsm_4 or ap_sig_cseq_ST_st79_fsm_78 or ap_sig_cseq_ST_st120_fsm_119 or tmp_41_reg_1661 or ap_sig_cseq_ST_st139_fsm_138 or tmp_44_fu_1062_p2 or ap_sig_ioackin_P_netOut_V_TREADY or ap_sig_cseq_ST_st77_fsm_76 or ap_sig_cseq_ST_st138_fsm_137 or ap_sig_cseq_ST_st115_fsm_114) begin if ((((ap_const_logic_1 == ap_sig_cseq_ST_st2_fsm_1) & ~ap_sig_bdd_434) | (ap_const_logic_1 == ap_sig_cseq_ST_st5_fsm_4) | (ap_const_logic_1 == ap_sig_cseq_ST_st79_fsm_78) | (ap_const_logic_1 == ap_sig_cseq_ST_st120_fsm_119) | ((ap_const_logic_1 == ap_sig_cseq_ST_st139_fsm_138) & ~((ap_const_lv1_0 == tmp_reg_1442) & (ap_const_lv1_0 == tmp_1_reg_1454) & (ap_const_lv1_0 == tmp_41_reg_1661) & (ap_const_lv1_0 == tmp_44_fu_1062_p2) & (ap_const_logic_0 == ap_sig_ioackin_P_netOut_V_TREADY))) | (ap_const_logic_1 == ap_sig_cseq_ST_st77_fsm_76) | (ap_const_logic_1 == ap_sig_cseq_ST_st138_fsm_137) | (ap_const_logic_1 == ap_sig_cseq_ST_st115_fsm_114))) begin p_uOut_ce0 = ap_const_logic_1; end else begin p_uOut_ce0 = ap_const_logic_0; end end always @ (tmp_reg_1442 or tmp_1_reg_1454 or tmp_41_reg_1661 or ap_sig_cseq_ST_st139_fsm_138 or tmp_44_fu_1062_p2 or ap_sig_ioackin_P_netOut_V_TREADY or ap_sig_cseq_ST_st143_fsm_142) begin if ((((ap_const_logic_1 == ap_sig_cseq_ST_st139_fsm_138) & ~((ap_const_lv1_0 == tmp_reg_1442) & (ap_const_lv1_0 == tmp_1_reg_1454) & (ap_const_lv1_0 == tmp_41_reg_1661) & (ap_const_lv1_0 == tmp_44_fu_1062_p2) & (ap_const_logic_0 == ap_sig_ioackin_P_netOut_V_TREADY))) | (ap_const_logic_1 == ap_sig_cseq_ST_st143_fsm_142))) begin p_uOut_ce1 = ap_const_logic_1; end else begin p_uOut_ce1 = ap_const_logic_0; end end always @ (P_netIn_TDATA or reg_605 or ap_sig_cseq_ST_st2_fsm_1 or tmp_43_reg_1665 or ap_sig_cseq_ST_st77_fsm_76 or ap_sig_cseq_ST_st138_fsm_137 or ap_sig_cseq_ST_st115_fsm_114) begin if ((ap_const_logic_1 == ap_sig_cseq_ST_st138_fsm_137)) begin p_uOut_d0 = tmp_43_reg_1665; end else if (((ap_const_logic_1 == ap_sig_cseq_ST_st77_fsm_76) | (ap_const_logic_1 == ap_sig_cseq_ST_st115_fsm_114))) begin p_uOut_d0 = reg_605; end else if ((ap_const_logic_1 == ap_sig_cseq_ST_st2_fsm_1)) begin p_uOut_d0 = P_netIn_TDATA; end else begin p_uOut_d0 = 'bx; end end always @ (ap_sig_cseq_ST_st2_fsm_1 or exitcond1_fu_633_p2 or ap_sig_bdd_434 or ap_sig_cseq_ST_st77_fsm_76 or ap_sig_cseq_ST_st138_fsm_137 or ap_sig_cseq_ST_st115_fsm_114) begin if ((((ap_const_logic_1 == ap_sig_cseq_ST_st2_fsm_1) & (ap_const_lv1_0 == exitcond1_fu_633_p2) & ~ap_sig_bdd_434) | (ap_const_logic_1 == ap_sig_cseq_ST_st77_fsm_76) | (ap_const_logic_1 == ap_sig_cseq_ST_st138_fsm_137) | (ap_const_logic_1 == ap_sig_cseq_ST_st115_fsm_114))) begin p_uOut_we0 = ap_const_logic_1; end else begin p_uOut_we0 = ap_const_logic_0; end end always @ (ap_CS_fsm or tmp_fu_611_p2 or ap_sig_bdd_404 or tmp_reg_1442 or tmp_1_fu_621_p2 or tmp_1_reg_1454 or exitcond1_fu_633_p2 or ap_sig_bdd_434 or tmp_7_fu_649_p2 or tmp_14_fu_756_p2 or exitcond2_fu_827_p2 or tmp_18_fu_911_p2 or exitcond3_fu_980_p2 or exitcond4_fu_1032_p2 or tmp_41_reg_1661 or tmp_44_fu_1062_p2 or ap_sig_ioackin_P_netOut_V_TREADY or exitcond_fu_1105_p2 or tmp_59_fu_1233_p2 or tmp_9_fu_1259_p2 or tmp_9_reg_1740 or tmp_11_fu_1298_p2 or tmp_22_fu_1386_p2 or ap_sig_bdd_755 or exitcond5_fu_1398_p2 or exitcond5_reg_1799 or ap_sig_bdd_769 or ap_sig_ioackin_P_uOut_TREADY) begin case (ap_CS_fsm) ap_ST_st1_fsm_0 : begin if ((~(tmp_fu_611_p2 == ap_const_lv1_0) & ~ap_sig_bdd_404)) begin ap_NS_fsm = ap_ST_st149_fsm_148; end else if (((tmp_fu_611_p2 == ap_const_lv1_0) & ~ap_sig_bdd_404 & (ap_const_lv1_0 == tmp_1_fu_621_p2))) begin ap_NS_fsm = ap_ST_st2_fsm_1; end else if (((tmp_fu_611_p2 == ap_const_lv1_0) & ~ap_sig_bdd_404 & ~(ap_const_lv1_0 == tmp_1_fu_621_p2))) begin ap_NS_fsm = ap_ST_st145_fsm_144; end else begin ap_NS_fsm = ap_ST_st1_fsm_0; end end ap_ST_st2_fsm_1 : begin if (((ap_const_lv1_0 == exitcond1_fu_633_p2) & ~ap_sig_bdd_434)) begin ap_NS_fsm = ap_ST_st2_fsm_1; end else if ((~ap_sig_bdd_434 & ~(ap_const_lv1_0 == exitcond1_fu_633_p2))) begin ap_NS_fsm = ap_ST_st3_fsm_2; end else begin ap_NS_fsm = ap_ST_st2_fsm_1; end end ap_ST_st3_fsm_2 : begin if ((ap_const_lv1_0 == tmp_7_fu_649_p2)) begin ap_NS_fsm = ap_ST_st78_fsm_77; end else begin ap_NS_fsm = ap_ST_st4_fsm_3; end end ap_ST_st4_fsm_3 : begin if ((ap_const_lv1_0 == tmp_14_fu_756_p2)) begin ap_NS_fsm = ap_ST_st3_fsm_2; end else begin ap_NS_fsm = ap_ST_st5_fsm_4; end end ap_ST_st5_fsm_4 : begin if (~(ap_const_lv1_0 == exitcond2_fu_827_p2)) begin ap_NS_fsm = ap_ST_st15_fsm_14; end else begin ap_NS_fsm = ap_ST_st6_fsm_5; end end ap_ST_st6_fsm_5 : begin ap_NS_fsm = ap_ST_st7_fsm_6; end ap_ST_st7_fsm_6 : begin ap_NS_fsm = ap_ST_st8_fsm_7; end ap_ST_st8_fsm_7 : begin ap_NS_fsm = ap_ST_st9_fsm_8; end ap_ST_st9_fsm_8 : begin ap_NS_fsm = ap_ST_st10_fsm_9; end ap_ST_st10_fsm_9 : begin ap_NS_fsm = ap_ST_st11_fsm_10; end ap_ST_st11_fsm_10 : begin ap_NS_fsm = ap_ST_st12_fsm_11; end ap_ST_st12_fsm_11 : begin ap_NS_fsm = ap_ST_st13_fsm_12; end ap_ST_st13_fsm_12 : begin ap_NS_fsm = ap_ST_st14_fsm_13; end ap_ST_st14_fsm_13 : begin ap_NS_fsm = ap_ST_st5_fsm_4; end ap_ST_st15_fsm_14 : begin ap_NS_fsm = ap_ST_st16_fsm_15; end ap_ST_st16_fsm_15 : begin ap_NS_fsm = ap_ST_st17_fsm_16; end ap_ST_st17_fsm_16 : begin ap_NS_fsm = ap_ST_st18_fsm_17; end ap_ST_st18_fsm_17 : begin ap_NS_fsm = ap_ST_st19_fsm_18; end ap_ST_st19_fsm_18 : begin ap_NS_fsm = ap_ST_st20_fsm_19; end ap_ST_st20_fsm_19 : begin ap_NS_fsm = ap_ST_st21_fsm_20; end ap_ST_st21_fsm_20 : begin ap_NS_fsm = ap_ST_st22_fsm_21; end ap_ST_st22_fsm_21 : begin ap_NS_fsm = ap_ST_st23_fsm_22; end ap_ST_st23_fsm_22 : begin ap_NS_fsm = ap_ST_st24_fsm_23; end ap_ST_st24_fsm_23 : begin ap_NS_fsm = ap_ST_st25_fsm_24; end ap_ST_st25_fsm_24 : begin ap_NS_fsm = ap_ST_st26_fsm_25; end ap_ST_st26_fsm_25 : begin ap_NS_fsm = ap_ST_st27_fsm_26; end ap_ST_st27_fsm_26 : begin ap_NS_fsm = ap_ST_st28_fsm_27; end ap_ST_st28_fsm_27 : begin ap_NS_fsm = ap_ST_st29_fsm_28; end ap_ST_st29_fsm_28 : begin ap_NS_fsm = ap_ST_st30_fsm_29; end ap_ST_st30_fsm_29 : begin ap_NS_fsm = ap_ST_st31_fsm_30; end ap_ST_st31_fsm_30 : begin ap_NS_fsm = ap_ST_st32_fsm_31; end ap_ST_st32_fsm_31 : begin ap_NS_fsm = ap_ST_st33_fsm_32; end ap_ST_st33_fsm_32 : begin ap_NS_fsm = ap_ST_st34_fsm_33; end ap_ST_st34_fsm_33 : begin ap_NS_fsm = ap_ST_st35_fsm_34; end ap_ST_st35_fsm_34 : begin ap_NS_fsm = ap_ST_st36_fsm_35; end ap_ST_st36_fsm_35 : begin ap_NS_fsm = ap_ST_st37_fsm_36; end ap_ST_st37_fsm_36 : begin ap_NS_fsm = ap_ST_st38_fsm_37; end ap_ST_st38_fsm_37 : begin ap_NS_fsm = ap_ST_st39_fsm_38; end ap_ST_st39_fsm_38 : begin ap_NS_fsm = ap_ST_st40_fsm_39; end ap_ST_st40_fsm_39 : begin ap_NS_fsm = ap_ST_st41_fsm_40; end ap_ST_st41_fsm_40 : begin ap_NS_fsm = ap_ST_st42_fsm_41; end ap_ST_st42_fsm_41 : begin ap_NS_fsm = ap_ST_st43_fsm_42; end ap_ST_st43_fsm_42 : begin ap_NS_fsm = ap_ST_st44_fsm_43; end ap_ST_st44_fsm_43 : begin ap_NS_fsm = ap_ST_st45_fsm_44; end ap_ST_st45_fsm_44 : begin ap_NS_fsm = ap_ST_st46_fsm_45; end ap_ST_st46_fsm_45 : begin ap_NS_fsm = ap_ST_st47_fsm_46; end ap_ST_st47_fsm_46 : begin ap_NS_fsm = ap_ST_st48_fsm_47; end ap_ST_st48_fsm_47 : begin ap_NS_fsm = ap_ST_st49_fsm_48; end ap_ST_st49_fsm_48 : begin ap_NS_fsm = ap_ST_st50_fsm_49; end ap_ST_st50_fsm_49 : begin ap_NS_fsm = ap_ST_st51_fsm_50; end ap_ST_st51_fsm_50 : begin ap_NS_fsm = ap_ST_st52_fsm_51; end ap_ST_st52_fsm_51 : begin ap_NS_fsm = ap_ST_st53_fsm_52; end ap_ST_st53_fsm_52 : begin ap_NS_fsm = ap_ST_st54_fsm_53; end ap_ST_st54_fsm_53 : begin ap_NS_fsm = ap_ST_st55_fsm_54; end ap_ST_st55_fsm_54 : begin ap_NS_fsm = ap_ST_st56_fsm_55; end ap_ST_st56_fsm_55 : begin ap_NS_fsm = ap_ST_st57_fsm_56; end ap_ST_st57_fsm_56 : begin ap_NS_fsm = ap_ST_st58_fsm_57; end ap_ST_st58_fsm_57 : begin ap_NS_fsm = ap_ST_st59_fsm_58; end ap_ST_st59_fsm_58 : begin ap_NS_fsm = ap_ST_st60_fsm_59; end ap_ST_st60_fsm_59 : begin ap_NS_fsm = ap_ST_st61_fsm_60; end ap_ST_st61_fsm_60 : begin ap_NS_fsm = ap_ST_st62_fsm_61; end ap_ST_st62_fsm_61 : begin ap_NS_fsm = ap_ST_st63_fsm_62; end ap_ST_st63_fsm_62 : begin ap_NS_fsm = ap_ST_st64_fsm_63; end ap_ST_st64_fsm_63 : begin ap_NS_fsm = ap_ST_st65_fsm_64; end ap_ST_st65_fsm_64 : begin ap_NS_fsm = ap_ST_st66_fsm_65; end ap_ST_st66_fsm_65 : begin ap_NS_fsm = ap_ST_st67_fsm_66; end ap_ST_st67_fsm_66 : begin ap_NS_fsm = ap_ST_st68_fsm_67; end ap_ST_st68_fsm_67 : begin ap_NS_fsm = ap_ST_st69_fsm_68; end ap_ST_st69_fsm_68 : begin ap_NS_fsm = ap_ST_st70_fsm_69; end ap_ST_st70_fsm_69 : begin ap_NS_fsm = ap_ST_st71_fsm_70; end ap_ST_st71_fsm_70 : begin ap_NS_fsm = ap_ST_st72_fsm_71; end ap_ST_st72_fsm_71 : begin ap_NS_fsm = ap_ST_st73_fsm_72; end ap_ST_st73_fsm_72 : begin ap_NS_fsm = ap_ST_st74_fsm_73; end ap_ST_st74_fsm_73 : begin ap_NS_fsm = ap_ST_st75_fsm_74; end ap_ST_st75_fsm_74 : begin ap_NS_fsm = ap_ST_st76_fsm_75; end ap_ST_st76_fsm_75 : begin ap_NS_fsm = ap_ST_st77_fsm_76; end ap_ST_st77_fsm_76 : begin ap_NS_fsm = ap_ST_st4_fsm_3; end ap_ST_st78_fsm_77 : begin if (~(ap_const_lv1_0 == tmp_18_fu_911_p2)) begin ap_NS_fsm = ap_ST_st79_fsm_78; end else begin ap_NS_fsm = ap_ST_st120_fsm_119; end end ap_ST_st79_fsm_78 : begin if (~(ap_const_lv1_0 == exitcond3_fu_980_p2)) begin ap_NS_fsm = ap_ST_st89_fsm_88; end else begin ap_NS_fsm = ap_ST_st80_fsm_79; end end ap_ST_st80_fsm_79 : begin ap_NS_fsm = ap_ST_st81_fsm_80; end ap_ST_st81_fsm_80 : begin ap_NS_fsm = ap_ST_st82_fsm_81; end ap_ST_st82_fsm_81 : begin ap_NS_fsm = ap_ST_st83_fsm_82; end ap_ST_st83_fsm_82 : begin ap_NS_fsm = ap_ST_st84_fsm_83; end ap_ST_st84_fsm_83 : begin ap_NS_fsm = ap_ST_st85_fsm_84; end ap_ST_st85_fsm_84 : begin ap_NS_fsm = ap_ST_st86_fsm_85; end ap_ST_st86_fsm_85 : begin ap_NS_fsm = ap_ST_st87_fsm_86; end ap_ST_st87_fsm_86 : begin ap_NS_fsm = ap_ST_st88_fsm_87; end ap_ST_st88_fsm_87 : begin ap_NS_fsm = ap_ST_st79_fsm_78; end ap_ST_st89_fsm_88 : begin ap_NS_fsm = ap_ST_st90_fsm_89; end ap_ST_st90_fsm_89 : begin ap_NS_fsm = ap_ST_st91_fsm_90; end ap_ST_st91_fsm_90 : begin ap_NS_fsm = ap_ST_st92_fsm_91; end ap_ST_st92_fsm_91 : begin ap_NS_fsm = ap_ST_st93_fsm_92; end ap_ST_st93_fsm_92 : begin ap_NS_fsm = ap_ST_st94_fsm_93; end ap_ST_st94_fsm_93 : begin ap_NS_fsm = ap_ST_st95_fsm_94; end ap_ST_st95_fsm_94 : begin ap_NS_fsm = ap_ST_st96_fsm_95; end ap_ST_st96_fsm_95 : begin ap_NS_fsm = ap_ST_st97_fsm_96; end ap_ST_st97_fsm_96 : begin ap_NS_fsm = ap_ST_st98_fsm_97; end ap_ST_st98_fsm_97 : begin ap_NS_fsm = ap_ST_st99_fsm_98; end ap_ST_st99_fsm_98 : begin ap_NS_fsm = ap_ST_st100_fsm_99; end ap_ST_st100_fsm_99 : begin ap_NS_fsm = ap_ST_st101_fsm_100; end ap_ST_st101_fsm_100 : begin ap_NS_fsm = ap_ST_st102_fsm_101; end ap_ST_st102_fsm_101 : begin ap_NS_fsm = ap_ST_st103_fsm_102; end ap_ST_st103_fsm_102 : begin ap_NS_fsm = ap_ST_st104_fsm_103; end ap_ST_st104_fsm_103 : begin ap_NS_fsm = ap_ST_st105_fsm_104; end ap_ST_st105_fsm_104 : begin ap_NS_fsm = ap_ST_st106_fsm_105; end ap_ST_st106_fsm_105 : begin ap_NS_fsm = ap_ST_st107_fsm_106; end ap_ST_st107_fsm_106 : begin ap_NS_fsm = ap_ST_st108_fsm_107; end ap_ST_st108_fsm_107 : begin ap_NS_fsm = ap_ST_st109_fsm_108; end ap_ST_st109_fsm_108 : begin ap_NS_fsm = ap_ST_st110_fsm_109; end ap_ST_st110_fsm_109 : begin ap_NS_fsm = ap_ST_st111_fsm_110; end ap_ST_st111_fsm_110 : begin ap_NS_fsm = ap_ST_st112_fsm_111; end ap_ST_st112_fsm_111 : begin ap_NS_fsm = ap_ST_st113_fsm_112; end ap_ST_st113_fsm_112 : begin ap_NS_fsm = ap_ST_st114_fsm_113; end ap_ST_st114_fsm_113 : begin ap_NS_fsm = ap_ST_st115_fsm_114; end ap_ST_st115_fsm_114 : begin ap_NS_fsm = ap_ST_st116_fsm_115; end ap_ST_st116_fsm_115 : begin ap_NS_fsm = ap_ST_st117_fsm_116; end ap_ST_st117_fsm_116 : begin ap_NS_fsm = ap_ST_st118_fsm_117; end ap_ST_st118_fsm_117 : begin ap_NS_fsm = ap_ST_st119_fsm_118; end ap_ST_st119_fsm_118 : begin ap_NS_fsm = ap_ST_st78_fsm_77; end ap_ST_st120_fsm_119 : begin if (~(ap_const_lv1_0 == exitcond4_fu_1032_p2)) begin ap_NS_fsm = ap_ST_st139_fsm_138; end else begin ap_NS_fsm = ap_ST_st121_fsm_120; end end ap_ST_st121_fsm_120 : begin ap_NS_fsm = ap_ST_st122_fsm_121; end ap_ST_st122_fsm_121 : begin ap_NS_fsm = ap_ST_st123_fsm_122; end ap_ST_st123_fsm_122 : begin ap_NS_fsm = ap_ST_st124_fsm_123; end ap_ST_st124_fsm_123 : begin ap_NS_fsm = ap_ST_st125_fsm_124; end ap_ST_st125_fsm_124 : begin ap_NS_fsm = ap_ST_st126_fsm_125; end ap_ST_st126_fsm_125 : begin ap_NS_fsm = ap_ST_st127_fsm_126; end ap_ST_st127_fsm_126 : begin ap_NS_fsm = ap_ST_st128_fsm_127; end ap_ST_st128_fsm_127 : begin ap_NS_fsm = ap_ST_st129_fsm_128; end ap_ST_st129_fsm_128 : begin ap_NS_fsm = ap_ST_st130_fsm_129; end ap_ST_st130_fsm_129 : begin ap_NS_fsm = ap_ST_st131_fsm_130; end ap_ST_st131_fsm_130 : begin ap_NS_fsm = ap_ST_st132_fsm_131; end ap_ST_st132_fsm_131 : begin ap_NS_fsm = ap_ST_st133_fsm_132; end ap_ST_st133_fsm_132 : begin ap_NS_fsm = ap_ST_st134_fsm_133; end ap_ST_st134_fsm_133 : begin ap_NS_fsm = ap_ST_st135_fsm_134; end ap_ST_st135_fsm_134 : begin ap_NS_fsm = ap_ST_st136_fsm_135; end ap_ST_st136_fsm_135 : begin ap_NS_fsm = ap_ST_st137_fsm_136; end ap_ST_st137_fsm_136 : begin ap_NS_fsm = ap_ST_st138_fsm_137; end ap_ST_st138_fsm_137 : begin ap_NS_fsm = ap_ST_st120_fsm_119; end ap_ST_st139_fsm_138 : begin if ((~((ap_const_lv1_0 == tmp_reg_1442) & (ap_const_lv1_0 == tmp_1_reg_1454) & (ap_const_lv1_0 == tmp_41_reg_1661) & (ap_const_lv1_0 == tmp_44_fu_1062_p2) & (ap_const_logic_0 == ap_sig_ioackin_P_netOut_V_TREADY)) & (((ap_const_lv1_0 == tmp_reg_1442) & (ap_const_lv1_0 == tmp_1_reg_1454) & (ap_const_lv1_0 == tmp_41_reg_1661) & (ap_const_lv1_0 == tmp_44_fu_1062_p2)) | (~(ap_const_lv1_0 == tmp_reg_1442) & ~(ap_const_lv1_0 == exitcond5_reg_1799)) | ((ap_const_lv1_0 == tmp_reg_1442) & ~(ap_const_lv1_0 == tmp_1_reg_1454) & (ap_const_lv1_0 == tmp_9_reg_1740)) | ((ap_const_lv1_0 == tmp_reg_1442) & (ap_const_lv1_0 == tmp_1_reg_1454) & ~(ap_const_lv1_0 == tmp_41_reg_1661) & ~(ap_const_lv1_0 == exitcond_fu_1105_p2))))) begin ap_NS_fsm = ap_ST_st1_fsm_0; end else if (((ap_const_lv1_0 == tmp_reg_1442) & (ap_const_lv1_0 == tmp_1_reg_1454) & ~((ap_const_lv1_0 == tmp_reg_1442) & (ap_const_lv1_0 == tmp_1_reg_1454) & (ap_const_lv1_0 == tmp_41_reg_1661) & (ap_const_lv1_0 == tmp_44_fu_1062_p2) & (ap_const_logic_0 == ap_sig_ioackin_P_netOut_V_TREADY)) & ~(ap_const_lv1_0 == tmp_41_reg_1661) & (ap_const_lv1_0 == exitcond_fu_1105_p2))) begin ap_NS_fsm = ap_ST_st143_fsm_142; end else if (((ap_const_lv1_0 == tmp_reg_1442) & (ap_const_lv1_0 == tmp_1_reg_1454) & (ap_const_lv1_0 == tmp_41_reg_1661) & ~((ap_const_lv1_0 == tmp_reg_1442) & (ap_const_lv1_0 == tmp_1_reg_1454) & (ap_const_lv1_0 == tmp_41_reg_1661) & (ap_const_lv1_0 == tmp_44_fu_1062_p2) & (ap_const_logic_0 == ap_sig_ioackin_P_netOut_V_TREADY)) & ~(ap_const_lv1_0 == tmp_44_fu_1062_p2))) begin ap_NS_fsm = ap_ST_st140_fsm_139; end else begin ap_NS_fsm = ap_ST_st139_fsm_138; end end ap_ST_st140_fsm_139 : begin ap_NS_fsm = ap_ST_st141_fsm_140; end ap_ST_st141_fsm_140 : begin ap_NS_fsm = ap_ST_st142_fsm_141; end ap_ST_st142_fsm_141 : begin ap_NS_fsm = ap_ST_st139_fsm_138; end ap_ST_st143_fsm_142 : begin if (~(ap_const_lv1_0 == tmp_59_fu_1233_p2)) begin ap_NS_fsm = ap_ST_st144_fsm_143; end else begin ap_NS_fsm = ap_ST_st139_fsm_138; end end ap_ST_st144_fsm_143 : begin if (~(ap_const_logic_0 == ap_sig_ioackin_P_uOut_TREADY)) begin ap_NS_fsm = ap_ST_st143_fsm_142; end else begin ap_NS_fsm = ap_ST_st144_fsm_143; end end ap_ST_st145_fsm_144 : begin if (~(ap_const_lv1_0 == tmp_9_fu_1259_p2)) begin ap_NS_fsm = ap_ST_st146_fsm_145; end else begin ap_NS_fsm = ap_ST_st139_fsm_138; end end ap_ST_st146_fsm_145 : begin ap_NS_fsm = ap_ST_st147_fsm_146; end ap_ST_st147_fsm_146 : begin if ((ap_const_lv1_0 == tmp_11_fu_1298_p2)) begin ap_NS_fsm = ap_ST_st145_fsm_144; end else begin ap_NS_fsm = ap_ST_st148_fsm_147; end end ap_ST_st148_fsm_147 : begin if ((~(ap_const_lv1_0 == tmp_22_fu_1386_p2) & ~ap_sig_bdd_755)) begin ap_NS_fsm = ap_ST_st148_fsm_147; end else if (((ap_const_lv1_0 == tmp_22_fu_1386_p2) & ~ap_sig_bdd_755)) begin ap_NS_fsm = ap_ST_st146_fsm_145; end else begin ap_NS_fsm = ap_ST_st148_fsm_147; end end ap_ST_st149_fsm_148 : begin if (((ap_const_lv1_0 == exitcond5_fu_1398_p2) & ~ap_sig_bdd_769)) begin ap_NS_fsm = ap_ST_st149_fsm_148; end else if ((~ap_sig_bdd_769 & ~(ap_const_lv1_0 == exitcond5_fu_1398_p2))) begin ap_NS_fsm = ap_ST_st139_fsm_138; end else begin ap_NS_fsm = ap_ST_st149_fsm_148; end end default : begin ap_NS_fsm = 'bx; end endcase end assign P_netOut_V_TDATA = p_s_reg_391; assign P_uOut_TDATA = p_uOut_q1; assign ST_WandB_d0 = P_WandB_TDATA; always @ (ap_rst_n) begin ap_rst_n_inv = ~ap_rst_n; end always @ (ap_CS_fsm) begin ap_sig_bdd_1002 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_53]); end always @ (ap_CS_fsm) begin ap_sig_bdd_1009 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_59]); end always @ (ap_CS_fsm) begin ap_sig_bdd_167 = (ap_CS_fsm[ap_const_lv32_0] == ap_const_lv1_1); end always @ (ap_CS_fsm) begin ap_sig_bdd_249 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_5]); end always @ (ap_CS_fsm) begin ap_sig_bdd_256 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_4F]); end always @ (ap_CS_fsm) begin ap_sig_bdd_264 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_78]); end always @ (ap_CS_fsm) begin ap_sig_bdd_272 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_8B]); end always @ (ap_CS_fsm) begin ap_sig_bdd_281 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_E]); end always @ (ap_CS_fsm) begin ap_sig_bdd_290 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_58]); end always @ (ap_CS_fsm) begin ap_sig_bdd_300 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_8]); end always @ (ap_CS_fsm) begin ap_sig_bdd_307 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_52]); end always @ (ap_CS_fsm) begin ap_sig_bdd_317 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_D]); end always @ (ap_CS_fsm) begin ap_sig_bdd_324 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_57]); end always @ (ap_CS_fsm) begin ap_sig_bdd_333 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_13]); end always @ (ap_CS_fsm) begin ap_sig_bdd_340 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_5D]); end always @ (ap_CS_fsm) begin ap_sig_bdd_350 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_14]); end always @ (ap_CS_fsm) begin ap_sig_bdd_357 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_5E]); end always @ (ap_CS_fsm) begin ap_sig_bdd_367 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_26]); end always @ (ap_CS_fsm) begin ap_sig_bdd_374 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_70]); end always @ (ap_CS_fsm) begin ap_sig_bdd_384 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_4B]); end always @ (ap_CS_fsm) begin ap_sig_bdd_391 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_71]); end always @ (ap_start or P_config_V_TVALID or tmp_fu_611_p2) begin ap_sig_bdd_404 = (((P_config_V_TVALID == ap_const_logic_0) & ~(tmp_fu_611_p2 == ap_const_lv1_0)) | (ap_start == ap_const_logic_0)); end always @ (ap_CS_fsm) begin ap_sig_bdd_428 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_1]); end always @ (P_netIn_TVALID or exitcond1_fu_633_p2) begin ap_sig_bdd_434 = ((P_netIn_TVALID == ap_const_logic_0) & (ap_const_lv1_0 == exitcond1_fu_633_p2)); end always @ (ap_CS_fsm) begin ap_sig_bdd_444 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_2]); end always @ (ap_CS_fsm) begin ap_sig_bdd_474 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_3]); end always @ (ap_CS_fsm) begin ap_sig_bdd_496 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_4]); end always @ (ap_CS_fsm) begin ap_sig_bdd_516 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_2B]); end always @ (ap_CS_fsm) begin ap_sig_bdd_525 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_4A]); end always @ (ap_CS_fsm) begin ap_sig_bdd_534 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_4D]); end always @ (ap_CS_fsm) begin ap_sig_bdd_555 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_4E]); end always @ (ap_CS_fsm) begin ap_sig_bdd_574 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_76]); end always @ (ap_CS_fsm) begin ap_sig_bdd_583 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_77]); end always @ (ap_CS_fsm) begin ap_sig_bdd_601 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_88]); end always @ (ap_CS_fsm) begin ap_sig_bdd_610 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_8A]); end always @ (ap_CS_fsm) begin ap_sig_bdd_654 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_8C]); end always @ (ap_CS_fsm) begin ap_sig_bdd_663 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_8D]); end always @ (ap_CS_fsm) begin ap_sig_bdd_674 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_8E]); end always @ (ap_CS_fsm) begin ap_sig_bdd_689 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_90]); end always @ (ap_CS_fsm) begin ap_sig_bdd_707 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_91]); end always @ (tmp_4_reg_1749) begin ap_sig_bdd_724 = (~(tmp_4_reg_1749 == ap_const_lv2_2) & ~(tmp_4_reg_1749 == ap_const_lv2_1)); end always @ (ap_CS_fsm) begin ap_sig_bdd_732 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_92]); end always @ (ap_CS_fsm) begin ap_sig_bdd_748 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_93]); end always @ (P_WandB_TVALID or tmp_22_fu_1386_p2) begin ap_sig_bdd_755 = ((P_WandB_TVALID == ap_const_logic_0) & ~(ap_const_lv1_0 == tmp_22_fu_1386_p2)); end always @ (ap_CS_fsm) begin ap_sig_bdd_765 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_94]); end always @ (P_config_V_TVALID or exitcond5_fu_1398_p2) begin ap_sig_bdd_769 = ((P_config_V_TVALID == ap_const_logic_0) & (ap_const_lv1_0 == exitcond5_fu_1398_p2)); end always @ (ap_CS_fsm) begin ap_sig_bdd_800 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_4C]); end always @ (ap_CS_fsm) begin ap_sig_bdd_821 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_89]); end always @ (ap_CS_fsm) begin ap_sig_bdd_847 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_8F]); end always @ (tmp_reg_1442 or tmp_1_reg_1454 or tmp_41_reg_1661 or ap_sig_cseq_ST_st139_fsm_138 or tmp_44_fu_1062_p2) begin ap_sig_bdd_942 = ((ap_const_logic_1 == ap_sig_cseq_ST_st139_fsm_138) & (ap_const_lv1_0 == tmp_reg_1442) & (ap_const_lv1_0 == tmp_1_reg_1454) & (ap_const_lv1_0 == tmp_41_reg_1661) & (ap_const_lv1_0 == tmp_44_fu_1062_p2)); end always @ (ap_CS_fsm) begin ap_sig_bdd_963 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_72]); end always @ (ap_CS_fsm) begin ap_sig_bdd_987 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_9]); end always @ (ap_CS_fsm) begin ap_sig_bdd_994 = (ap_const_lv1_1 == ap_CS_fsm[ap_const_lv32_F]); end assign exitcond1_fu_633_p2 = (i_2_reg_277 == ST_layerSize_V_0_load_reg_1458? 1'b1: 1'b0); assign exitcond2_fu_827_p2 = (k_1_reg_323 == tmp_19_reg_1534? 1'b1: 1'b0); assign exitcond3_fu_980_p2 = (j_2_reg_369 == tmp_23_reg_1603? 1'b1: 1'b0); assign exitcond4_fu_1032_p2 = (i_5_reg_380 == tmp_15_reg_1589? 1'b1: 1'b0); assign exitcond5_fu_1398_p2 = (i_reg_495 == P_config_V_read_reg_1463? 1'b1: 1'b0); assign exitcond_fu_1105_p2 = (i_6_reg_416 == ST_numLayer_V_load_reg_1446? 1'b1: 1'b0); assign feedforward_AXILiteS_s_axi_U_ap_dummy_ce = ap_const_logic_1; assign grp_fu_506_ce = ap_const_logic_1; assign grp_fu_513_ce = ap_const_logic_1; assign grp_fu_519_ce = ap_const_logic_1; assign grp_fu_534_ce = ap_const_logic_1; assign grp_fu_539_ce = ap_const_logic_1; assign grp_fu_544_ce = ap_const_logic_1; assign i_10_fu_821_p2 = (i_3_reg_288 + ap_const_lv8_1); assign i_11_fu_1037_p2 = (i_5_reg_380 + ap_const_lv8_1); assign i_12_fu_917_p2 = (i_4_reg_346 + ap_const_lv32_1); assign i_14_fu_1110_p2 = (ap_const_lv8_1 + i_6_reg_416); assign i_15_fu_1210_p2 = (ap_const_lv8_1 + p_netOut_V_reg_404); assign i_7_fu_1403_p2 = (i_reg_495 + ap_const_lv8_1); assign i_8_fu_638_p2 = (i_2_reg_277 + ap_const_lv8_1); assign i_9_fu_1339_p2 = (i_1_reg_449 + ap_const_lv8_1); assign j_4_fu_1288_p2 = (j_reg_461 + ap_const_lv32_1); assign j_5_fu_762_p2 = (j_1_reg_300 + ap_const_lv32_1); assign j_6_fu_985_p2 = (j_2_reg_369 + ap_const_lv8_1); assign j_7_fu_1239_p2 = (j_3_reg_438 + ap_const_lv32_1); assign k_2_fu_1392_p2 = (ap_const_lv32_1 + k_reg_484); assign k_3_fu_832_p2 = (k_1_reg_323 + ap_const_lv8_1); assign lhs_V_1_cast_fu_692_p1 = ST_numLayer_V_load_reg_1446; assign lhs_V_cast_fu_1372_p1 = tmp_25_fu_1359_p6; assign next_mul_fu_1099_p2 = (ap_const_lv14_23 + phi_mul_reg_427); assign notlhs1_fu_1173_p2 = (tmp_50_fu_1141_p4 != ap_const_lv8_FF? 1'b1: 1'b0); assign notlhs_fu_1155_p2 = (tmp_48_fu_1124_p4 != ap_const_lv8_FF? 1'b1: 1'b0); assign notrhs1_fu_1179_p2 = (tmp_79_fu_1151_p1 == ap_const_lv23_0? 1'b1: 1'b0); assign notrhs_fu_1161_p2 = (tmp_78_fu_1134_p1 == ap_const_lv23_0? 1'b1: 1'b0); assign p_netOut_V_1_fu_1203_p3 = ((tmp_56_reg_1712[0:0] === 1'b1) ? p_netOut_V_reg_404 : p_s_reg_391); assign p_shl1_cast_fu_1325_p3 = {{tmp_45_fu_1321_p1}, {ap_const_lv2_0}}; assign p_shl2_cast_fu_795_p3 = {{tmp_49_fu_791_p1}, {ap_const_lv5_0}}; assign p_shl3_cast_fu_807_p3 = {{tmp_51_fu_803_p1}, {ap_const_lv2_0}}; assign p_shl4_cast_fu_954_p3 = {{tmp_62_fu_950_p1}, {ap_const_lv5_0}}; assign p_shl5_cast_fu_966_p3 = {{tmp_63_fu_962_p1}, {ap_const_lv2_0}}; assign p_shl_cast_fu_1313_p3 = {{tmp_42_fu_1309_p1}, {ap_const_lv5_0}}; assign p_uOut_load_3_to_int_fu_1120_p1 = reg_565; assign p_uOut_load_4_to_int_fu_1138_p1 = p_uOut_load_4_reg_1706; assign r_V_1_fu_695_p2 = ($signed(ap_const_lv9_1FF) + $signed(lhs_V_1_cast_fu_692_p1)); assign r_V_2_fu_723_p2 = ($signed(ap_const_lv9_1FE) + $signed(lhs_V_1_cast_fu_692_p1)); assign r_V_fu_1376_p2 = (ap_const_lv9_1 + lhs_V_cast_fu_1372_p1); assign tmp_10_fu_1294_p1 = ST_layerSize_V_load_1_phi_reg_473; assign tmp_11_fu_1298_p2 = ($signed(j_reg_461) < $signed(tmp_10_fu_1294_p1)? 1'b1: 1'b0); assign tmp_13_fu_752_p1 = tmp_12_fu_739_p6; assign tmp_14_fu_756_p2 = ($signed(j_1_reg_300) < $signed(tmp_13_fu_752_p1)? 1'b1: 1'b0); assign tmp_16_fu_682_p1 = tmp_16_fu_682_p10; assign tmp_16_fu_682_p10 = tmp_3_fu_672_p2; assign tmp_16_fu_682_p2 = (ap_const_lv9_23 * tmp_16_fu_682_p1); assign tmp_17_fu_907_p1 = tmp_15_fu_894_p6; assign tmp_18_fu_911_p2 = ($signed(i_4_reg_346) < $signed(tmp_17_fu_907_p1)? 1'b1: 1'b0); assign tmp_1_fu_621_p2 = (P_mode_V == ap_const_lv8_2? 1'b1: 1'b0); assign tmp_20_fu_688_p1 = tmp_3_fu_672_p2[1:0]; assign tmp_21_cast_fu_1382_p1 = r_V_fu_1376_p2; assign tmp_21_fu_705_p1 = r_V_1_fu_695_p2; assign tmp_21_fu_705_p2 = ($signed({{1'b0}, {ap_const_lv16_23}}) * $signed(tmp_21_fu_705_p1)); assign tmp_22_fu_1386_p2 = ($signed(k_reg_484) < $signed(tmp_21_cast_fu_1382_p1)? 1'b1: 1'b0); assign tmp_24_cast_fu_936_p1 = $signed(i_4_reg_346); assign tmp_24_fu_711_p1 = tmp_21_fu_705_p2[8:0]; assign tmp_26_cast_fu_866_p1 = tmp_19_reg_1534; assign tmp_26_fu_719_p1 = r_V_1_fu_695_p2[1:0]; assign tmp_27_fu_889_p1 = tmp_35_neg_fu_883_p2; assign tmp_2_fu_1409_p1 = i_reg_495[1:0]; assign tmp_33_cast7_fu_838_p1 = k_1_reg_323; assign tmp_33_cast_fu_842_p1 = k_1_reg_323; assign tmp_33_fu_729_p2 = ($signed({{1'b0}, {ap_const_lv9_23}}) * $signed(r_V_2_fu_723_p2)); assign tmp_35_cast_fu_1019_p1 = tmp_23_reg_1603; assign tmp_35_fu_735_p1 = r_V_2_fu_723_p2[1:0]; assign tmp_35_neg_fu_883_p2 = (tmp_35_to_int_fu_879_p1 ^ ap_const_lv32_80000000); assign tmp_35_to_int_fu_879_p1 = reg_589; assign tmp_39_cast6_fu_991_p1 = j_2_reg_369; assign tmp_39_cast_fu_995_p1 = j_2_reg_369; assign tmp_39_fu_1304_p2 = (j_reg_461 + tmp_61_cast_reg_1744); assign tmp_3_fu_672_p2 = ($signed(ap_const_lv8_FF) + $signed(i_3_reg_288)); assign tmp_41_fu_1057_p2 = (P_mode_V_read_reg_1437 == ap_const_lv8_3? 1'b1: 1'b0); assign tmp_42_cast_fu_1043_p1 = i_5_reg_380; assign tmp_42_fu_1309_p1 = tmp_39_fu_1304_p2[8:0]; assign tmp_44_fu_1062_p2 = (p_netOut_V_reg_404 < tmp_15_reg_1589? 1'b1: 1'b0); assign tmp_45_fu_1321_p1 = tmp_39_fu_1304_p2[11:0]; assign tmp_46_cast_fu_1067_p1 = p_netOut_V_reg_404; assign tmp_46_fu_1333_p2 = (p_shl_cast_fu_1313_p3 + p_shl1_cast_fu_1325_p3); assign tmp_47_cast_fu_1081_p1 = p_s_reg_391; assign tmp_47_fu_781_p2 = (j_1_reg_300 + tmp_62_cast_reg_1479); assign tmp_48_fu_1124_p4 = {{p_uOut_load_3_to_int_fu_1120_p1[ap_const_lv32_1E : ap_const_lv32_17]}}; assign tmp_49_fu_791_p1 = tmp_47_fu_781_p2[8:0]; assign tmp_4_fu_1278_p1 = i_1_reg_449[1:0]; assign tmp_50_fu_1141_p4 = {{p_uOut_load_4_to_int_fu_1138_p1[ap_const_lv32_1E : ap_const_lv32_17]}}; assign tmp_51_fu_803_p1 = tmp_47_fu_781_p2[11:0]; assign tmp_52_fu_1167_p2 = (notrhs_fu_1161_p2 | notlhs_fu_1155_p2); assign tmp_53_fu_1185_p2 = (notrhs1_fu_1179_p2 | notlhs1_fu_1173_p2); assign tmp_54_fu_1191_p2 = (tmp_52_fu_1167_p2 & tmp_53_fu_1185_p2); assign tmp_55_fu_530_opcode = ap_const_lv5_2; assign tmp_56_fu_1197_p2 = (tmp_54_fu_1191_p2 & tmp_55_fu_530_p2); assign tmp_58_fu_1229_p1 = tmp_57_fu_1216_p6; assign tmp_59_fu_1233_p2 = ($signed(j_3_reg_438) < $signed(tmp_58_fu_1229_p1)? 1'b1: 1'b0); assign tmp_5_fu_658_p1 = tmp_5_fu_658_p10; assign tmp_5_fu_658_p10 = i_3_reg_288; assign tmp_5_fu_658_p2 = (ap_const_lv15_23 * tmp_5_fu_658_p1); assign tmp_60_fu_815_p2 = (p_shl2_cast_fu_795_p3 + p_shl3_cast_fu_807_p3); assign tmp_61_cast_fu_1274_p1 = tmp_s_fu_1268_p2; assign tmp_61_fu_940_p2 = ($signed(tmp_24_cast_fu_936_p1) + $signed(tmp_64_cast_reg_1506)); assign tmp_62_cast_fu_664_p1 = tmp_5_fu_658_p2; assign tmp_62_fu_950_p1 = tmp_61_fu_940_p2[8:0]; assign tmp_63_fu_962_p1 = tmp_61_fu_940_p2[11:0]; assign tmp_64_cast_fu_715_p1 = $signed(tmp_21_fu_705_p2); assign tmp_64_fu_974_p2 = (p_shl4_cast_fu_954_p3 + p_shl5_cast_fu_966_p3); assign tmp_65_fu_1345_p1 = k_reg_484[13:0]; assign tmp_66_fu_1349_p2 = (tmp_46_reg_1781 + tmp_65_fu_1345_p1); assign tmp_67_fu_1047_p2 = (tmp_24_reg_1499 + tmp_42_cast_fu_1043_p1); assign tmp_68_fu_869_p2 = (tmp_60_reg_1540 + tmp_26_cast_fu_866_p1); assign tmp_69_fu_846_p2 = (tmp_60_reg_1540 + tmp_33_cast_fu_842_p1); assign tmp_6_fu_668_p1 = i_3_reg_288[1:0]; assign tmp_70_cast_fu_786_p1 = $signed(tmp_47_fu_781_p2); assign tmp_70_fu_856_p2 = (tmp_16_reg_1489 + tmp_33_cast7_fu_838_p1); assign tmp_71_fu_1022_p2 = (tmp_64_reg_1609 + tmp_35_cast_fu_1019_p1); assign tmp_72_fu_999_p2 = (tmp_64_reg_1609 + tmp_39_cast_fu_995_p1); assign tmp_73_fu_1009_p2 = (tmp_33_reg_1516 + tmp_39_cast6_fu_991_p1); assign tmp_74_cast_fu_945_p1 = $signed(tmp_61_fu_940_p2); assign tmp_74_fu_1095_p1 = phi_mul_reg_427[8:0]; assign tmp_75_fu_1116_p1 = i_6_reg_416[1:0]; assign tmp_76_fu_1071_p2 = (tmp_24_reg_1499 + tmp_46_cast_fu_1067_p1); assign tmp_77_fu_1085_p2 = (tmp_24_reg_1499 + tmp_47_cast_fu_1081_p1); assign tmp_78_cast_fu_1354_p1 = tmp_66_fu_1349_p2; assign tmp_78_fu_1134_p1 = p_uOut_load_3_to_int_fu_1120_p1[22:0]; assign tmp_79_cast_fu_874_p1 = tmp_68_fu_869_p2; assign tmp_79_fu_1151_p1 = p_uOut_load_4_to_int_fu_1138_p1[22:0]; assign tmp_7_fu_649_p2 = (i_3_reg_288 < ST_numLayer_V_load_reg_1446? 1'b1: 1'b0); assign tmp_7_t_fu_1282_p2 = ($signed(ap_const_lv2_3) + $signed(tmp_4_fu_1278_p1)); assign tmp_80_cast_fu_851_p1 = tmp_69_fu_846_p2; assign tmp_80_fu_1245_p1 = j_3_reg_438[8:0]; assign tmp_81_cast_fu_861_p1 = $signed(tmp_70_fu_856_p2); assign tmp_81_fu_1249_p2 = (tmp_74_reg_1683 + tmp_80_fu_1245_p1); assign tmp_82_cast_fu_1027_p1 = tmp_71_fu_1022_p2; assign tmp_83_cast_fu_1004_p1 = tmp_72_fu_999_p2; assign tmp_84_cast_fu_1014_p1 = $signed(tmp_73_fu_1009_p2); assign tmp_85_cast_fu_1052_p1 = $signed(tmp_67_fu_1047_p2); assign tmp_87_cast_fu_1076_p1 = $signed(tmp_76_fu_1071_p2); assign tmp_88_cast_fu_1090_p1 = $signed(tmp_77_fu_1085_p2); assign tmp_89_cast_fu_1254_p1 = tmp_81_fu_1249_p2; assign tmp_8_fu_644_p1 = i_2_reg_277; assign tmp_9_fu_1259_p2 = (i_1_reg_449 < ST_numLayer_V_load_reg_1446? 1'b1: 1'b0); assign tmp_fu_611_p2 = (P_mode_V == ap_const_lv8_1? 1'b1: 1'b0); assign tmp_s_fu_1268_p1 = tmp_s_fu_1268_p10; assign tmp_s_fu_1268_p10 = i_1_reg_449; assign tmp_s_fu_1268_p2 = (ap_const_lv15_23 * tmp_s_fu_1268_p1); always @ (posedge ap_clk) begin tmp_62_cast_reg_1479[31:15] <= 17'b00000000000000000; tmp_60_reg_1540[1:0] <= 2'b00; tmp_64_reg_1609[1:0] <= 2'b00; tmp_61_cast_reg_1744[31:15] <= 17'b00000000000000000; tmp_46_reg_1781[1:0] <= 2'b00; end endmodule

module sky130_fd_sc_lp__invkapwr_8 ( Y , A , VPWR , VGND , KAPWR, VPB , VNB ); output Y ; input A ; input VPWR ; input VGND ; input KAPWR; input VPB ; input VNB ; sky130_fd_sc_lp__invkapwr base ( .Y(Y), .A(A), .VPWR(VPWR), .VGND(VGND), .KAPWR(KAPWR), .VPB(VPB), .VNB(VNB) ); endmodule

module sky130_fd_sc_lp__invkapwr_8 ( Y, A ); output Y; input A; // Voltage supply signals supply1 VPWR ; supply0 VGND ; supply1 KAPWR; supply1 VPB ; supply0 VNB ; sky130_fd_sc_lp__invkapwr base ( .Y(Y), .A(A) ); endmodule

module rx (reset, clk, demodin, bitout, bitclk, rx_overflow_reset, trcal, rngbitout); input reset, clk, demodin; output bitout, bitclk, rx_overflow_reset, rngbitout; output [9:0] trcal; reg bitout, bitclk, rngbitout; reg [9:0] trcal, rtcal; // States parameter STATE_DELIMITER = 5'd0; parameter STATE_DATA0 = 5'd1; parameter STATE_RTCAL = 5'd2; parameter STATE_TRCAL = 5'd4; parameter STATE_BITS = 5'd8; reg [4:0] commstate; parameter STATE_WAIT_DEMOD_LOW = 4'd0; parameter STATE_WAIT_DEMOD_HIGH = 4'd1; parameter STATE_EVAL_BIT = 4'd2; parameter STATE_RESET_COUNTER = 4'd4; reg [3:0] evalstate; wire[9:0] count; wire clkb; assign clkb = ~clk; reg counterreset, counterenable; wire overflow; wire counter_reset_in; assign counter_reset_in = counterreset|reset; counter10 counter (clkb, counter_reset_in, counterenable, count, overflow); assign rx_overflow_reset = overflow | ((commstate == STATE_BITS) && (count > rtcal)); always @ (posedge clk or posedge reset) begin if( reset ) begin bitout <= 0; bitclk <= 0; rtcal <= 10'd0; trcal <= 10'd0; rngbitout <= 0; counterreset <= 0; counterenable <= 0; commstate <= STATE_DELIMITER; evalstate <= STATE_WAIT_DEMOD_LOW; // process normal operation end else begin if(evalstate == STATE_WAIT_DEMOD_LOW) begin if (demodin == 0) begin evalstate <= STATE_WAIT_DEMOD_HIGH; if(commstate != STATE_DELIMITER) counterenable <= 1; else counterenable <= 0; counterreset <= 0; end end else if(evalstate == STATE_WAIT_DEMOD_HIGH) begin if (demodin == 1) begin evalstate <= STATE_EVAL_BIT; counterenable <= 1; counterreset <= 0; end end else if(evalstate == STATE_EVAL_BIT) begin counterreset <= 1; evalstate <= STATE_RESET_COUNTER; bitclk <= 0; rngbitout <= count[0]; case(commstate) STATE_DELIMITER: begin commstate <= STATE_DATA0; end STATE_DATA0: begin commstate <= STATE_RTCAL; end STATE_RTCAL: begin rtcal <= count; commstate <= STATE_TRCAL; end STATE_TRCAL: begin if(count > rtcal) begin trcal <= count; end else if(count[8:0] > rtcal[9:1]) begin // divide rtcal by 2 bitout <= 1; commstate <= STATE_BITS; end else begin bitout <= 0; commstate <= STATE_BITS; end end STATE_BITS: begin if(count[8:0] > rtcal[9:1]) begin // data 1 (divide rtcal by 2) bitout <= 1; end else begin // data 0 bitout <= 0; end end default: begin counterreset <= 0; commstate <= 0; end endcase // case(mode) end else if(evalstate == STATE_RESET_COUNTER) begin if(commstate == STATE_BITS) begin bitclk <= 1; end counterreset <= 0; evalstate <= STATE_WAIT_DEMOD_LOW; end else begin // unknown state, reset. evalstate <= 0; end end // ~reset end // always @ clk endmodule

module sky130_fd_sc_ms__maj3 ( //# {{data|Data Signals}} input A, input B, input C, output X ); // Voltage supply signals supply1 VPWR; supply0 VGND; supply1 VPB ; supply0 VNB ; endmodule

module top(); // Inputs are registered reg A; reg SLEEP_B; reg VPWR; reg VGND; reg VPB; reg VNB; // Outputs are wires wire X; initial begin // Initial state is x for all inputs. A = 1'bX; SLEEP_B = 1'bX; VGND = 1'bX; VNB = 1'bX; VPB = 1'bX; VPWR = 1'bX; #20 A = 1'b0; #40 SLEEP_B = 1'b0; #60 VGND = 1'b0; #80 VNB = 1'b0; #100 VPB = 1'b0; #120 VPWR = 1'b0; #140 A = 1'b1; #160 SLEEP_B = 1'b1; #180 VGND = 1'b1; #200 VNB = 1'b1; #220 VPB = 1'b1; #240 VPWR = 1'b1; #260 A = 1'b0; #280 SLEEP_B = 1'b0; #300 VGND = 1'b0; #320 VNB = 1'b0; #340 VPB = 1'b0; #360 VPWR = 1'b0; #380 VPWR = 1'b1; #400 VPB = 1'b1; #420 VNB = 1'b1; #440 VGND = 1'b1; #460 SLEEP_B = 1'b1; #480 A = 1'b1; #500 VPWR = 1'bx; #520 VPB = 1'bx; #540 VNB = 1'bx; #560 VGND = 1'bx; #580 SLEEP_B = 1'bx; #600 A = 1'bx; end sky130_fd_sc_hdll__inputiso0n dut (.A(A), .SLEEP_B(SLEEP_B), .VPWR(VPWR), .VGND(VGND), .VPB(VPB), .VNB(VNB), .X(X)); endmodule

module jt51_csr_ch( input rst, input clk, input cen, input [ 7:0] din, input up_rl_ch, input up_fb_ch, input up_con_ch, input up_kc_ch, input up_kf_ch, input up_ams_ch, input up_pms_ch, output [1:0] rl, output [2:0] fb, output [2:0] con, output [6:0] kc, output [5:0] kf, output [1:0] ams, output [2:0] pms ); wire [1:0] rl_in = din[7:6]; wire [2:0] fb_in = din[5:3]; wire [2:0] con_in = din[2:0]; wire [6:0] kc_in = din[6:0]; wire [5:0] kf_in = din[7:2]; wire [1:0] ams_in = din[1:0]; wire [2:0] pms_in = din[6:4]; wire [25:0] reg_in = { up_rl_ch ? rl_in : rl, up_fb_ch ? fb_in : fb, up_con_ch ? con_in : con, up_kc_ch ? kc_in : kc, up_kf_ch ? kf_in : kf, up_ams_ch ? ams_in : ams, up_pms_ch ? pms_in : pms }; wire [25:0] reg_out; assign { rl, fb, con, kc, kf, ams, pms } = reg_out; jt51_sh #( .width(26), .stages(8)) u_regop( .rst ( rst ), .clk ( clk ), .cen ( cen ), .din ( reg_in ), .drop ( reg_out ) ); endmodule

module clk_wiz_0 (// Clock in ports input clk_in1, // Clock out ports output clk_out1, output clk_out2, output clk_out3, // Status and control signals output locked ); // Input buffering //------------------------------------ IBUF clkin1_ibufg (.O (clk_in1_clk_wiz_0), .I (clk_in1)); // Clocking PRIMITIVE //------------------------------------ // Instantiation of the MMCM PRIMITIVE // * Unused inputs are tied off // * Unused outputs are labeled unused wire [15:0] do_unused; wire drdy_unused; wire psdone_unused; wire locked_int; wire clkfbout_clk_wiz_0; wire clkfbout_buf_clk_wiz_0; wire clkfboutb_unused; wire clkout0b_unused; wire clkout1b_unused; wire clkout2b_unused; wire clkout3_unused; wire clkout3b_unused; wire clkout4_unused; wire clkout5_unused; wire clkout6_unused; wire clkfbstopped_unused; wire clkinstopped_unused; MMCME2_ADV #(.BANDWIDTH ("OPTIMIZED"), .CLKOUT4_CASCADE ("FALSE"), .COMPENSATION ("ZHOLD"), .STARTUP_WAIT ("FALSE"), .DIVCLK_DIVIDE (1), .CLKFBOUT_MULT_F (10.000), .CLKFBOUT_PHASE (0.000), .CLKFBOUT_USE_FINE_PS ("FALSE"), .CLKOUT0_DIVIDE_F (10.000), .CLKOUT0_PHASE (0.000), .CLKOUT0_DUTY_CYCLE (0.500), .CLKOUT0_USE_FINE_PS ("FALSE"), .CLKOUT1_DIVIDE (40), .CLKOUT1_PHASE (0.000), .CLKOUT1_DUTY_CYCLE (0.500), .CLKOUT1_USE_FINE_PS ("FALSE"), .CLKOUT2_DIVIDE (5), .CLKOUT2_PHASE (0.000), .CLKOUT2_DUTY_CYCLE (0.500), .CLKOUT2_USE_FINE_PS ("FALSE"), .CLKIN1_PERIOD (10.0)) mmcm_adv_inst // Output clocks ( .CLKFBOUT (clkfbout_clk_wiz_0), .CLKFBOUTB (clkfboutb_unused), .CLKOUT0 (clk_out1_clk_wiz_0), .CLKOUT0B (clkout0b_unused), .CLKOUT1 (clk_out2_clk_wiz_0), .CLKOUT1B (clkout1b_unused), .CLKOUT2 (clk_out3_clk_wiz_0), .CLKOUT2B (clkout2b_unused), .CLKOUT3 (clkout3_unused), .CLKOUT3B (clkout3b_unused), .CLKOUT4 (clkout4_unused), .CLKOUT5 (clkout5_unused), .CLKOUT6 (clkout6_unused), // Input clock control .CLKFBIN (clkfbout_buf_clk_wiz_0), .CLKIN1 (clk_in1_clk_wiz_0), .CLKIN2 (1'b0), // Tied to always select the primary input clock .CLKINSEL (1'b1), // Ports for dynamic reconfiguration .DADDR (7'h0), .DCLK (1'b0), .DEN (1'b0), .DI (16'h0), .DO (do_unused), .DRDY (drdy_unused), .DWE (1'b0), // Ports for dynamic phase shift .PSCLK (1'b0), .PSEN (1'b0), .PSINCDEC (1'b0), .PSDONE (psdone_unused), // Other control and status signals .LOCKED (locked_int), .CLKINSTOPPED (clkinstopped_unused), .CLKFBSTOPPED (clkfbstopped_unused), .PWRDWN (1'b0), .RST (1'b0)); assign locked = locked_int; // Output buffering //----------------------------------- BUFG clkf_buf (.O (clkfbout_buf_clk_wiz_0), .I (clkfbout_clk_wiz_0)); BUFG clkout1_buf (.O (clk_out1), .I (clk_out1_clk_wiz_0)); BUFG clkout2_buf (.O (clk_out2), .I (clk_out2_clk_wiz_0)); BUFG clkout3_buf (.O (clk_out3), .I (clk_out3_clk_wiz_0)); endmodule

module header // Internal signals // // Generated Signal List // wire sc_sig_1; // __W_PORT_SIGNAL_MAP_REQ wire [31:0] sc_sig_2; // __W_PORT_SIGNAL_MAP_REQ // // End of Generated Signal List // // %COMPILER_OPTS% // // Generated Signal Assignments // assign p_mix_sc_sig_1_go = sc_sig_1; // __I_O_BIT_PORT assign p_mix_sc_sig_2_go = sc_sig_2; // __I_O_BUS_PORT // // Generated Instances and Port Mappings // // Generated Instance Port Map for inst_aba ent_aba inst_aba ( // is i_mic32_top / hier inst_ab inst_aba inst_ab .sc_p_1(sc_sig_1), // bad conection bits detected .sc_p_2(sc_sig_2) // reverse orderreverse order // multiline comments ); // End of Generated Instance Port Map for inst_aba endmodule

module sky130_fd_sc_hdll__o22ai ( Y , A1 , A2 , B1 , B2 , VPWR, VGND, VPB , VNB ); // Module ports output Y ; input A1 ; input A2 ; input B1 ; input B2 ; input VPWR; input VGND; input VPB ; input VNB ; // Local signals wire nor0_out ; wire nor1_out ; wire or0_out_Y ; wire pwrgood_pp0_out_Y; // Name Output Other arguments nor nor0 (nor0_out , B1, B2 ); nor nor1 (nor1_out , A1, A2 ); or or0 (or0_out_Y , nor1_out, nor0_out ); sky130_fd_sc_hdll__udp_pwrgood_pp$PG pwrgood_pp0 (pwrgood_pp0_out_Y, or0_out_Y, VPWR, VGND); buf buf0 (Y , pwrgood_pp0_out_Y ); endmodule

module CORDIC_sin_cos_test; //defination for Variables reg clk; reg reset; reg[7:0] cntr; //loop for test vectors reg signed[(`WIDTH-1):0] test_vector_w[(`LENGTH-1):0]; reg signed[(`WIDTH-1):0] test_vector_sin[(`LENGTH-1):0]; reg signed[(`WIDTH-1):0] test_vector_cos[(`LENGTH-1):0]; //Test Vector Value wire signed[(`WIDTH-1):0] cos_value; wire signed[(`WIDTH-1):0] sin_value; //middle signals wire signed[(`WIDTH-1):0] comp_sin; wire signed[(`WIDTH-1):0] comp_cos; //Results right? Comparision results wire[(`WIDTH*2-1):0] op; wire[(`WIDTH*2-1):0] res; wire signed[(`WIDTH-1):0] res_sin; wire signed[(`WIDTH-1):0] res_cos; wire [7:0] index; assign res_sin = res[`WIDTH -1 : 0]; assign res_cos = res[`WIDTH*2 -1 : `WIDTH]; assign op = {{(`WIDTH){1'b0}}, test_vector_w[cntr]}; assign index = (cntr - 1 - `ORDER) % `LENGTH; assign sin_value = test_vector_sin[index]; assign cos_value = test_vector_cos[index]; assign comp_sin = (res_sin - sin_value); assign comp_cos = (res_cos - cos_value); //Connection to the modules CORDIC #(.MODE(`MODE)) //CORDIC Mode C ( .CLK(clk), .RESET_n(reset), .operand(op), .results(res) ); //Clock generation initial begin clk = 0; //Reset forever begin #10 clk = !clk; //Reverse the clock in each 10ns end end //Reset operation initial begin reset = 0; //Reset enable #14 reset = 1; //Counter starts end //Load the test vectors initial begin $readmemh("angle_test_vector.txt", test_vector_w); $readmemh("sin_test_vector.txt", test_vector_sin); $readmemh("cos_test_vector.txt", test_vector_cos); end //Load the input of 0 order element //Comparision always @(posedge clk or negedge reset) begin if ( !reset) //reset statement: counter keeps at 0 begin cntr <= 8'h00; end else begin cntr <= cntr + 8'h01; end end endmodule

module FrameBuffer (clka, ena, wea, addra, dina, douta, clkb, web, addrb, dinb, doutb); (* x_interface_info = "xilinx.com:interface:bram:1.0 BRAM_PORTA CLK" *) input clka; (* x_interface_info = "xilinx.com:interface:bram:1.0 BRAM_PORTA EN" *) input ena; (* x_interface_info = "xilinx.com:interface:bram:1.0 BRAM_PORTA WE" *) input [0:0]wea; (* x_interface_info = "xilinx.com:interface:bram:1.0 BRAM_PORTA ADDR" *) input [13:0]addra; (* x_interface_info = "xilinx.com:interface:bram:1.0 BRAM_PORTA DIN" *) input [7:0]dina; (* x_interface_info = "xilinx.com:interface:bram:1.0 BRAM_PORTA DOUT" *) output [7:0]douta; (* x_interface_info = "xilinx.com:interface:bram:1.0 BRAM_PORTB CLK" *) input clkb; (* x_interface_info = "xilinx.com:interface:bram:1.0 BRAM_PORTB WE" *) input [0:0]web; (* x_interface_info = "xilinx.com:interface:bram:1.0 BRAM_PORTB ADDR" *) input [13:0]addrb; (* x_interface_info = "xilinx.com:interface:bram:1.0 BRAM_PORTB DIN" *) input [7:0]dinb; (* x_interface_info = "xilinx.com:interface:bram:1.0 BRAM_PORTB DOUT" *) output [7:0]doutb; wire [13:0]addra; wire [13:0]addrb; wire clka; wire clkb; wire [7:0]dina; wire [7:0]dinb; wire [7:0]douta; wire [7:0]doutb; wire ena; wire [0:0]wea; wire [0:0]web; wire NLW_U0_dbiterr_UNCONNECTED; wire NLW_U0_rsta_busy_UNCONNECTED; wire NLW_U0_rstb_busy_UNCONNECTED; wire NLW_U0_s_axi_arready_UNCONNECTED; wire NLW_U0_s_axi_awready_UNCONNECTED; wire NLW_U0_s_axi_bvalid_UNCONNECTED; wire NLW_U0_s_axi_dbiterr_UNCONNECTED; wire NLW_U0_s_axi_rlast_UNCONNECTED; wire NLW_U0_s_axi_rvalid_UNCONNECTED; wire NLW_U0_s_axi_sbiterr_UNCONNECTED; wire NLW_U0_s_axi_wready_UNCONNECTED; wire NLW_U0_sbiterr_UNCONNECTED; wire [13:0]NLW_U0_rdaddrecc_UNCONNECTED; wire [3:0]NLW_U0_s_axi_bid_UNCONNECTED; wire [1:0]NLW_U0_s_axi_bresp_UNCONNECTED; wire [13:0]NLW_U0_s_axi_rdaddrecc_UNCONNECTED; wire [7:0]NLW_U0_s_axi_rdata_UNCONNECTED; wire [3:0]NLW_U0_s_axi_rid_UNCONNECTED; wire [1:0]NLW_U0_s_axi_rresp_UNCONNECTED; (* C_ADDRA_WIDTH = "14" *) (* C_ADDRB_WIDTH = "14" *) (* C_ALGORITHM = "1" *) (* C_AXI_ID_WIDTH = "4" *) (* C_AXI_SLAVE_TYPE = "0" *) (* C_AXI_TYPE = "1" *) (* C_BYTE_SIZE = "8" *) (* C_COMMON_CLK = "0" *) (* C_COUNT_18K_BRAM = "1" *) (* C_COUNT_36K_BRAM = "2" *) (* C_CTRL_ECC_ALGO = "NONE" *) (* C_DEFAULT_DATA = "0" *) (* C_DISABLE_WARN_BHV_COLL = "0" *) (* C_DISABLE_WARN_BHV_RANGE = "0" *) (* C_ELABORATION_DIR = "./" *) (* C_ENABLE_32BIT_ADDRESS = "0" *) (* C_EN_DEEPSLEEP_PIN = "0" *) (* C_EN_ECC_PIPE = "0" *) (* C_EN_RDADDRA_CHG = "0" *) (* C_EN_RDADDRB_CHG = "0" *) (* C_EN_SAFETY_CKT = "0" *) (* C_EN_SHUTDOWN_PIN = "0" *) (* C_EN_SLEEP_PIN = "0" *) (* C_EST_POWER_SUMMARY = "Estimated Power for IP : 4.61856 mW" *) (* C_FAMILY = "artix7" *) (* C_HAS_AXI_ID = "0" *) (* C_HAS_ENA = "1" *) (* C_HAS_ENB = "0" *) (* C_HAS_INJECTERR = "0" *) (* C_HAS_MEM_OUTPUT_REGS_A = "0" *) (* C_HAS_MEM_OUTPUT_REGS_B = "1" *) (* C_HAS_MUX_OUTPUT_REGS_A = "0" *) (* C_HAS_MUX_OUTPUT_REGS_B = "0" *) (* C_HAS_REGCEA = "0" *) (* C_HAS_REGCEB = "0" *) (* C_HAS_RSTA = "0" *) (* C_HAS_RSTB = "0" *) (* C_HAS_SOFTECC_INPUT_REGS_A = "0" *) (* C_HAS_SOFTECC_OUTPUT_REGS_B = "0" *) (* C_INITA_VAL = "0" *) (* C_INITB_VAL = "0" *) (* C_INIT_FILE = "FrameBuffer.mem" *) (* C_INIT_FILE_NAME = "FrameBuffer.mif" *) (* C_INTERFACE_TYPE = "0" *) (* C_LOAD_INIT_FILE = "1" *) (* C_MEM_TYPE = "2" *) (* C_MUX_PIPELINE_STAGES = "0" *) (* C_PRIM_TYPE = "1" *) (* C_READ_DEPTH_A = "10240" *) (* C_READ_DEPTH_B = "10240" *) (* C_READ_WIDTH_A = "8" *) (* C_READ_WIDTH_B = "8" *) (* C_RSTRAM_A = "0" *) (* C_RSTRAM_B = "0" *) (* C_RST_PRIORITY_A = "CE" *) (* C_RST_PRIORITY_B = "CE" *) (* C_SIM_COLLISION_CHECK = "ALL" *) (* C_USE_BRAM_BLOCK = "0" *) (* C_USE_BYTE_WEA = "1" *) (* C_USE_BYTE_WEB = "1" *) (* C_USE_DEFAULT_DATA = "0" *) (* C_USE_ECC = "0" *) (* C_USE_SOFTECC = "0" *) (* C_USE_URAM = "0" *) (* C_WEA_WIDTH = "1" *) (* C_WEB_WIDTH = "1" *) (* C_WRITE_DEPTH_A = "10240" *) (* C_WRITE_DEPTH_B = "10240" *) (* C_WRITE_MODE_A = "WRITE_FIRST" *) (* C_WRITE_MODE_B = "WRITE_FIRST" *) (* C_WRITE_WIDTH_A = "8" *) (* C_WRITE_WIDTH_B = "8" *) (* C_XDEVICEFAMILY = "artix7" *) (* DONT_TOUCH *) (* downgradeipidentifiedwarnings = "yes" *) FrameBuffer_blk_mem_gen_v8_3_1 U0 (.addra(addra), .addrb(addrb), .clka(clka), .clkb(clkb), .dbiterr(NLW_U0_dbiterr_UNCONNECTED), .deepsleep(1'b0), .dina(dina), .dinb(dinb), .douta(douta), .doutb(doutb), .eccpipece(1'b0), .ena(ena), .enb(1'b0), .injectdbiterr(1'b0), .injectsbiterr(1'b0), .rdaddrecc(NLW_U0_rdaddrecc_UNCONNECTED[13:0]), .regcea(1'b0), .regceb(1'b0), .rsta(1'b0), .rsta_busy(NLW_U0_rsta_busy_UNCONNECTED), .rstb(1'b0), .rstb_busy(NLW_U0_rstb_busy_UNCONNECTED), .s_aclk(1'b0), .s_aresetn(1'b0), .s_axi_araddr({1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0}), .s_axi_arburst({1'b0,1'b0}), .s_axi_arid({1'b0,1'b0,1'b0,1'b0}), .s_axi_arlen({1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0}), .s_axi_arready(NLW_U0_s_axi_arready_UNCONNECTED), .s_axi_arsize({1'b0,1'b0,1'b0}), .s_axi_arvalid(1'b0), .s_axi_awaddr({1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0}), .s_axi_awburst({1'b0,1'b0}), .s_axi_awid({1'b0,1'b0,1'b0,1'b0}), .s_axi_awlen({1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0}), .s_axi_awready(NLW_U0_s_axi_awready_UNCONNECTED), .s_axi_awsize({1'b0,1'b0,1'b0}), .s_axi_awvalid(1'b0), .s_axi_bid(NLW_U0_s_axi_bid_UNCONNECTED[3:0]), .s_axi_bready(1'b0), .s_axi_bresp(NLW_U0_s_axi_bresp_UNCONNECTED[1:0]), .s_axi_bvalid(NLW_U0_s_axi_bvalid_UNCONNECTED), .s_axi_dbiterr(NLW_U0_s_axi_dbiterr_UNCONNECTED), .s_axi_injectdbiterr(1'b0), .s_axi_injectsbiterr(1'b0), .s_axi_rdaddrecc(NLW_U0_s_axi_rdaddrecc_UNCONNECTED[13:0]), .s_axi_rdata(NLW_U0_s_axi_rdata_UNCONNECTED[7:0]), .s_axi_rid(NLW_U0_s_axi_rid_UNCONNECTED[3:0]), .s_axi_rlast(NLW_U0_s_axi_rlast_UNCONNECTED), .s_axi_rready(1'b0), .s_axi_rresp(NLW_U0_s_axi_rresp_UNCONNECTED[1:0]), .s_axi_rvalid(NLW_U0_s_axi_rvalid_UNCONNECTED), .s_axi_sbiterr(NLW_U0_s_axi_sbiterr_UNCONNECTED), .s_axi_wdata({1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0}), .s_axi_wlast(1'b0), .s_axi_wready(NLW_U0_s_axi_wready_UNCONNECTED), .s_axi_wstrb(1'b0), .s_axi_wvalid(1'b0), .sbiterr(NLW_U0_sbiterr_UNCONNECTED), .shutdown(1'b0), .sleep(1'b0), .wea(wea), .web(web)); endmodule

module FrameBuffer_blk_mem_gen_generic_cstr (doutb, douta, clka, clkb, addra, addrb, dina, dinb, wea, web, ena); output [7:0]doutb; output [7:0]douta; input clka; input clkb; input [13:0]addra; input [13:0]addrb; input [7:0]dina; input [7:0]dinb; input [0:0]wea; input [0:0]web; input ena; wire [13:0]addra; wire [13:0]addrb; wire clka; wire clkb; wire [7:0]dina; wire [7:0]dinb; wire [7:0]douta; wire [7:0]doutb; wire ena; wire [7:0]ram_douta; wire [7:0]ram_doutb; wire \ramloop[1].ram.r_n_0 ; wire \ramloop[1].ram.r_n_1 ; wire \ramloop[1].ram.r_n_10 ; wire \ramloop[1].ram.r_n_11 ; wire \ramloop[1].ram.r_n_12 ; wire \ramloop[1].ram.r_n_13 ; wire \ramloop[1].ram.r_n_14 ; wire \ramloop[1].ram.r_n_15 ; wire \ramloop[1].ram.r_n_2 ; wire \ramloop[1].ram.r_n_3 ; wire \ramloop[1].ram.r_n_4 ; wire \ramloop[1].ram.r_n_5 ; wire \ramloop[1].ram.r_n_6 ; wire \ramloop[1].ram.r_n_7 ; wire \ramloop[1].ram.r_n_8 ; wire \ramloop[1].ram.r_n_9 ; wire \ramloop[2].ram.r_n_0 ; wire \ramloop[2].ram.r_n_1 ; wire \ramloop[2].ram.r_n_10 ; wire \ramloop[2].ram.r_n_11 ; wire \ramloop[2].ram.r_n_12 ; wire \ramloop[2].ram.r_n_13 ; wire \ramloop[2].ram.r_n_14 ; wire \ramloop[2].ram.r_n_15 ; wire \ramloop[2].ram.r_n_2 ; wire \ramloop[2].ram.r_n_3 ; wire \ramloop[2].ram.r_n_4 ; wire \ramloop[2].ram.r_n_5 ; wire \ramloop[2].ram.r_n_6 ; wire \ramloop[2].ram.r_n_7 ; wire \ramloop[2].ram.r_n_8 ; wire \ramloop[2].ram.r_n_9 ; wire [0:0]wea; wire [0:0]web; FrameBuffer_blk_mem_gen_mux \has_mux_a.A (.\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram ({\ramloop[1].ram.r_n_0 ,\ramloop[1].ram.r_n_1 ,\ramloop[1].ram.r_n_2 ,\ramloop[1].ram.r_n_3 ,\ramloop[1].ram.r_n_4 ,\ramloop[1].ram.r_n_5 ,\ramloop[1].ram.r_n_6 ,\ramloop[1].ram.r_n_7 }), .\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_0 (ram_douta), .DOADO({\ramloop[2].ram.r_n_0 ,\ramloop[2].ram.r_n_1 ,\ramloop[2].ram.r_n_2 ,\ramloop[2].ram.r_n_3 ,\ramloop[2].ram.r_n_4 ,\ramloop[2].ram.r_n_5 ,\ramloop[2].ram.r_n_6 ,\ramloop[2].ram.r_n_7 }), .addra(addra[13:11]), .clka(clka), .douta(douta), .ena(ena)); FrameBuffer_blk_mem_gen_mux__parameterized0 \has_mux_b.B (.\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram ({\ramloop[1].ram.r_n_8 ,\ramloop[1].ram.r_n_9 ,\ramloop[1].ram.r_n_10 ,\ramloop[1].ram.r_n_11 ,\ramloop[1].ram.r_n_12 ,\ramloop[1].ram.r_n_13 ,\ramloop[1].ram.r_n_14 ,\ramloop[1].ram.r_n_15 }), .\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_0 (ram_doutb), .DOBDO({\ramloop[2].ram.r_n_8 ,\ramloop[2].ram.r_n_9 ,\ramloop[2].ram.r_n_10 ,\ramloop[2].ram.r_n_11 ,\ramloop[2].ram.r_n_12 ,\ramloop[2].ram.r_n_13 ,\ramloop[2].ram.r_n_14 ,\ramloop[2].ram.r_n_15 }), .addrb(addrb[13:11]), .clkb(clkb), .doutb(doutb)); FrameBuffer_blk_mem_gen_prim_width \ramloop[0].ram.r (.addra(addra), .addrb(addrb), .clka(clka), .clkb(clkb), .dina(dina), .dinb(dinb), .\douta[7] (ram_douta), .\doutb[7] (ram_doutb), .ena(ena), .wea(wea), .web(web)); FrameBuffer_blk_mem_gen_prim_width__parameterized0 \ramloop[1].ram.r (.addra(addra), .addrb(addrb), .clka(clka), .clkb(clkb), .dina(dina), .dinb(dinb), .\douta[7] ({\ramloop[1].ram.r_n_0 ,\ramloop[1].ram.r_n_1 ,\ramloop[1].ram.r_n_2 ,\ramloop[1].ram.r_n_3 ,\ramloop[1].ram.r_n_4 ,\ramloop[1].ram.r_n_5 ,\ramloop[1].ram.r_n_6 ,\ramloop[1].ram.r_n_7 }), .\doutb[7] ({\ramloop[1].ram.r_n_8 ,\ramloop[1].ram.r_n_9 ,\ramloop[1].ram.r_n_10 ,\ramloop[1].ram.r_n_11 ,\ramloop[1].ram.r_n_12 ,\ramloop[1].ram.r_n_13 ,\ramloop[1].ram.r_n_14 ,\ramloop[1].ram.r_n_15 }), .ena(ena), .wea(wea), .web(web)); FrameBuffer_blk_mem_gen_prim_width__parameterized1 \ramloop[2].ram.r (.DOADO({\ramloop[2].ram.r_n_0 ,\ramloop[2].ram.r_n_1 ,\ramloop[2].ram.r_n_2 ,\ramloop[2].ram.r_n_3 ,\ramloop[2].ram.r_n_4 ,\ramloop[2].ram.r_n_5 ,\ramloop[2].ram.r_n_6 ,\ramloop[2].ram.r_n_7 }), .DOBDO({\ramloop[2].ram.r_n_8 ,\ramloop[2].ram.r_n_9 ,\ramloop[2].ram.r_n_10 ,\ramloop[2].ram.r_n_11 ,\ramloop[2].ram.r_n_12 ,\ramloop[2].ram.r_n_13 ,\ramloop[2].ram.r_n_14 ,\ramloop[2].ram.r_n_15 }), .addra(addra), .addrb(addrb), .clka(clka), .clkb(clkb), .dina(dina), .dinb(dinb), .ena(ena), .wea(wea), .web(web)); endmodule

module FrameBuffer_blk_mem_gen_mux (douta, DOADO, \DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram , \DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_0 , addra, ena, clka); output [7:0]douta; input [7:0]DOADO; input [7:0]\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram ; input [7:0]\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_0 ; input [2:0]addra; input ena; input clka; wire [7:0]\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram ; wire [7:0]\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_0 ; wire [7:0]DOADO; wire [2:0]addra; wire clka; wire [7:0]douta; wire ena; wire \no_softecc_sel_reg.ce_pri.sel_pipe[0]_i_1_n_0 ; wire \no_softecc_sel_reg.ce_pri.sel_pipe[1]_i_1_n_0 ; wire \no_softecc_sel_reg.ce_pri.sel_pipe[2]_i_1_n_0 ; wire [2:0]sel_pipe; LUT6 #( .INIT(64'h02FF020F02F00200)) \douta[0]_INST_0 (.I0(DOADO[0]), .I1(sel_pipe[0]), .I2(sel_pipe[1]), .I3(sel_pipe[2]), .I4(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram [0]), .I5(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_0 [0]), .O(douta[0])); LUT6 #( .INIT(64'h02FF020F02F00200)) \douta[1]_INST_0 (.I0(DOADO[1]), .I1(sel_pipe[0]), .I2(sel_pipe[1]), .I3(sel_pipe[2]), .I4(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram [1]), .I5(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_0 [1]), .O(douta[1])); LUT6 #( .INIT(64'h02FF020F02F00200)) \douta[2]_INST_0 (.I0(DOADO[2]), .I1(sel_pipe[0]), .I2(sel_pipe[1]), .I3(sel_pipe[2]), .I4(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram [2]), .I5(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_0 [2]), .O(douta[2])); LUT6 #( .INIT(64'h02FF020F02F00200)) \douta[3]_INST_0 (.I0(DOADO[3]), .I1(sel_pipe[0]), .I2(sel_pipe[1]), .I3(sel_pipe[2]), .I4(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram [3]), .I5(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_0 [3]), .O(douta[3])); LUT6 #( .INIT(64'h02FF020F02F00200)) \douta[4]_INST_0 (.I0(DOADO[4]), .I1(sel_pipe[0]), .I2(sel_pipe[1]), .I3(sel_pipe[2]), .I4(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram [4]), .I5(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_0 [4]), .O(douta[4])); LUT6 #( .INIT(64'h02FF020F02F00200)) \douta[5]_INST_0 (.I0(DOADO[5]), .I1(sel_pipe[0]), .I2(sel_pipe[1]), .I3(sel_pipe[2]), .I4(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram [5]), .I5(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_0 [5]), .O(douta[5])); LUT6 #( .INIT(64'h02FF020F02F00200)) \douta[6]_INST_0 (.I0(DOADO[6]), .I1(sel_pipe[0]), .I2(sel_pipe[1]), .I3(sel_pipe[2]), .I4(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram [6]), .I5(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_0 [6]), .O(douta[6])); LUT6 #( .INIT(64'h02FF020F02F00200)) \douta[7]_INST_0 (.I0(DOADO[7]), .I1(sel_pipe[0]), .I2(sel_pipe[1]), .I3(sel_pipe[2]), .I4(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram [7]), .I5(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_0 [7]), .O(douta[7])); LUT3 #( .INIT(8'hB8)) \no_softecc_sel_reg.ce_pri.sel_pipe[0]_i_1 (.I0(addra[0]), .I1(ena), .I2(sel_pipe[0]), .O(\no_softecc_sel_reg.ce_pri.sel_pipe[0]_i_1_n_0 )); (* SOFT_HLUTNM = "soft_lutpair0" *) LUT3 #( .INIT(8'hB8)) \no_softecc_sel_reg.ce_pri.sel_pipe[1]_i_1 (.I0(addra[1]), .I1(ena), .I2(sel_pipe[1]), .O(\no_softecc_sel_reg.ce_pri.sel_pipe[1]_i_1_n_0 )); (* SOFT_HLUTNM = "soft_lutpair0" *) LUT3 #( .INIT(8'hB8)) \no_softecc_sel_reg.ce_pri.sel_pipe[2]_i_1 (.I0(addra[2]), .I1(ena), .I2(sel_pipe[2]), .O(\no_softecc_sel_reg.ce_pri.sel_pipe[2]_i_1_n_0 )); FDRE #( .INIT(1'b0)) \no_softecc_sel_reg.ce_pri.sel_pipe_reg[0] (.C(clka), .CE(1'b1), .D(\no_softecc_sel_reg.ce_pri.sel_pipe[0]_i_1_n_0 ), .Q(sel_pipe[0]), .R(1'b0)); FDRE #( .INIT(1'b0)) \no_softecc_sel_reg.ce_pri.sel_pipe_reg[1] (.C(clka), .CE(1'b1), .D(\no_softecc_sel_reg.ce_pri.sel_pipe[1]_i_1_n_0 ), .Q(sel_pipe[1]), .R(1'b0)); FDRE #( .INIT(1'b0)) \no_softecc_sel_reg.ce_pri.sel_pipe_reg[2] (.C(clka), .CE(1'b1), .D(\no_softecc_sel_reg.ce_pri.sel_pipe[2]_i_1_n_0 ), .Q(sel_pipe[2]), .R(1'b0)); endmodule

module FrameBuffer_blk_mem_gen_mux__parameterized0 (doutb, DOBDO, \DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram , \DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_0 , addrb, clkb); output [7:0]doutb; input [7:0]DOBDO; input [7:0]\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram ; input [7:0]\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_0 ; input [2:0]addrb; input clkb; wire [7:0]\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram ; wire [7:0]\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_0 ; wire [7:0]DOBDO; wire [2:0]addrb; wire clkb; wire [7:0]doutb; wire \no_softecc_sel_reg.ce_pri.sel_pipe_reg_n_0_[0] ; wire \no_softecc_sel_reg.ce_pri.sel_pipe_reg_n_0_[1] ; wire \no_softecc_sel_reg.ce_pri.sel_pipe_reg_n_0_[2] ; wire [2:0]sel_pipe_d1; LUT6 #( .INIT(64'h02FF020F02F00200)) \doutb[0]_INST_0 (.I0(DOBDO[0]), .I1(sel_pipe_d1[0]), .I2(sel_pipe_d1[1]), .I3(sel_pipe_d1[2]), .I4(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram [0]), .I5(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_0 [0]), .O(doutb[0])); LUT6 #( .INIT(64'h02FF020F02F00200)) \doutb[1]_INST_0 (.I0(DOBDO[1]), .I1(sel_pipe_d1[0]), .I2(sel_pipe_d1[1]), .I3(sel_pipe_d1[2]), .I4(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram [1]), .I5(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_0 [1]), .O(doutb[1])); LUT6 #( .INIT(64'h02FF020F02F00200)) \doutb[2]_INST_0 (.I0(DOBDO[2]), .I1(sel_pipe_d1[0]), .I2(sel_pipe_d1[1]), .I3(sel_pipe_d1[2]), .I4(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram [2]), .I5(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_0 [2]), .O(doutb[2])); LUT6 #( .INIT(64'h02FF020F02F00200)) \doutb[3]_INST_0 (.I0(DOBDO[3]), .I1(sel_pipe_d1[0]), .I2(sel_pipe_d1[1]), .I3(sel_pipe_d1[2]), .I4(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram [3]), .I5(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_0 [3]), .O(doutb[3])); LUT6 #( .INIT(64'h02FF020F02F00200)) \doutb[4]_INST_0 (.I0(DOBDO[4]), .I1(sel_pipe_d1[0]), .I2(sel_pipe_d1[1]), .I3(sel_pipe_d1[2]), .I4(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram [4]), .I5(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_0 [4]), .O(doutb[4])); LUT6 #( .INIT(64'h02FF020F02F00200)) \doutb[5]_INST_0 (.I0(DOBDO[5]), .I1(sel_pipe_d1[0]), .I2(sel_pipe_d1[1]), .I3(sel_pipe_d1[2]), .I4(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram [5]), .I5(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_0 [5]), .O(doutb[5])); LUT6 #( .INIT(64'h02FF020F02F00200)) \doutb[6]_INST_0 (.I0(DOBDO[6]), .I1(sel_pipe_d1[0]), .I2(sel_pipe_d1[1]), .I3(sel_pipe_d1[2]), .I4(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram [6]), .I5(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_0 [6]), .O(doutb[6])); LUT6 #( .INIT(64'h02FF020F02F00200)) \doutb[7]_INST_0 (.I0(DOBDO[7]), .I1(sel_pipe_d1[0]), .I2(sel_pipe_d1[1]), .I3(sel_pipe_d1[2]), .I4(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram [7]), .I5(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_0 [7]), .O(doutb[7])); FDRE #( .INIT(1'b0)) \no_softecc_norm_sel2.has_mem_regs.WITHOUT_ECC_PIPE.ce_pri.sel_pipe_d1_reg[0] (.C(clkb), .CE(1'b1), .D(\no_softecc_sel_reg.ce_pri.sel_pipe_reg_n_0_[0] ), .Q(sel_pipe_d1[0]), .R(1'b0)); FDRE #( .INIT(1'b0)) \no_softecc_norm_sel2.has_mem_regs.WITHOUT_ECC_PIPE.ce_pri.sel_pipe_d1_reg[1] (.C(clkb), .CE(1'b1), .D(\no_softecc_sel_reg.ce_pri.sel_pipe_reg_n_0_[1] ), .Q(sel_pipe_d1[1]), .R(1'b0)); FDRE #( .INIT(1'b0)) \no_softecc_norm_sel2.has_mem_regs.WITHOUT_ECC_PIPE.ce_pri.sel_pipe_d1_reg[2] (.C(clkb), .CE(1'b1), .D(\no_softecc_sel_reg.ce_pri.sel_pipe_reg_n_0_[2] ), .Q(sel_pipe_d1[2]), .R(1'b0)); FDRE #( .INIT(1'b0)) \no_softecc_sel_reg.ce_pri.sel_pipe_reg[0] (.C(clkb), .CE(1'b1), .D(addrb[0]), .Q(\no_softecc_sel_reg.ce_pri.sel_pipe_reg_n_0_[0] ), .R(1'b0)); FDRE #( .INIT(1'b0)) \no_softecc_sel_reg.ce_pri.sel_pipe_reg[1] (.C(clkb), .CE(1'b1), .D(addrb[1]), .Q(\no_softecc_sel_reg.ce_pri.sel_pipe_reg_n_0_[1] ), .R(1'b0)); FDRE #( .INIT(1'b0)) \no_softecc_sel_reg.ce_pri.sel_pipe_reg[2] (.C(clkb), .CE(1'b1), .D(addrb[2]), .Q(\no_softecc_sel_reg.ce_pri.sel_pipe_reg_n_0_[2] ), .R(1'b0)); endmodule

module FrameBuffer_blk_mem_gen_prim_width (\douta[7] , \doutb[7] , clka, clkb, addra, addrb, dina, dinb, wea, web, ena); output [7:0]\douta[7] ; output [7:0]\doutb[7] ; input clka; input clkb; input [13:0]addra; input [13:0]addrb; input [7:0]dina; input [7:0]dinb; input [0:0]wea; input [0:0]web; input ena; wire [13:0]addra; wire [13:0]addrb; wire clka; wire clkb; wire [7:0]dina; wire [7:0]dinb; wire [7:0]\douta[7] ; wire [7:0]\doutb[7] ; wire ena; wire [0:0]wea; wire [0:0]web; FrameBuffer_blk_mem_gen_prim_wrapper_init \prim_init.ram (.addra(addra), .addrb(addrb), .clka(clka), .clkb(clkb), .dina(dina), .dinb(dinb), .\douta[7] (\douta[7] ), .\doutb[7] (\doutb[7] ), .ena(ena), .wea(wea), .web(web)); endmodule

module FrameBuffer_blk_mem_gen_prim_width__parameterized0 (\douta[7] , \doutb[7] , clka, clkb, addra, addrb, dina, dinb, wea, web, ena); output [7:0]\douta[7] ; output [7:0]\doutb[7] ; input clka; input clkb; input [13:0]addra; input [13:0]addrb; input [7:0]dina; input [7:0]dinb; input [0:0]wea; input [0:0]web; input ena; wire [13:0]addra; wire [13:0]addrb; wire clka; wire clkb; wire [7:0]dina; wire [7:0]dinb; wire [7:0]\douta[7] ; wire [7:0]\doutb[7] ; wire ena; wire [0:0]wea; wire [0:0]web; FrameBuffer_blk_mem_gen_prim_wrapper_init__parameterized0 \prim_init.ram (.addra(addra), .addrb(addrb), .clka(clka), .clkb(clkb), .dina(dina), .dinb(dinb), .\douta[7] (\douta[7] ), .\doutb[7] (\doutb[7] ), .ena(ena), .wea(wea), .web(web)); endmodule

module FrameBuffer_blk_mem_gen_prim_width__parameterized1 (DOADO, DOBDO, clka, clkb, addra, addrb, dina, dinb, wea, web, ena); output [7:0]DOADO; output [7:0]DOBDO; input clka; input clkb; input [13:0]addra; input [13:0]addrb; input [7:0]dina; input [7:0]dinb; input [0:0]wea; input [0:0]web; input ena; wire [7:0]DOADO; wire [7:0]DOBDO; wire [13:0]addra; wire [13:0]addrb; wire clka; wire clkb; wire [7:0]dina; wire [7:0]dinb; wire ena; wire [0:0]wea; wire [0:0]web; FrameBuffer_blk_mem_gen_prim_wrapper_init__parameterized1 \prim_init.ram (.DOADO(DOADO), .DOBDO(DOBDO), .addra(addra), .addrb(addrb), .clka(clka), .clkb(clkb), .dina(dina), .dinb(dinb), .ena(ena), .wea(wea), .web(web)); endmodule

module FrameBuffer_blk_mem_gen_prim_wrapper_init (\douta[7] , \doutb[7] , clka, clkb, addra, addrb, dina, dinb, wea, web, ena); output [7:0]\douta[7] ; output [7:0]\doutb[7] ; input clka; input clkb; input [13:0]addra; input [13:0]addrb; input [7:0]dina; input [7:0]dinb; input [0:0]wea; input [0:0]web; input ena; wire \DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_i_1_n_0 ; wire \DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_i_2_n_0 ; wire \DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_n_88 ; wire \DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_n_92 ; wire [13:0]addra; wire [13:0]addrb; wire clka; wire clkb; wire [7:0]dina; wire [7:0]dinb; wire [7:0]\douta[7] ; wire [7:0]\doutb[7] ; wire ena; wire [0:0]wea; wire [0:0]web; wire \NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_CASCADEOUTA_UNCONNECTED ; wire \NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_CASCADEOUTB_UNCONNECTED ; wire \NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_DBITERR_UNCONNECTED ; wire \NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_SBITERR_UNCONNECTED ; wire [31:8]\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_DOADO_UNCONNECTED ; wire [31:8]\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_DOBDO_UNCONNECTED ; wire [3:1]\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_DOPADOP_UNCONNECTED ; wire [3:1]\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_DOPBDOP_UNCONNECTED ; wire [7:0]\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_ECCPARITY_UNCONNECTED ; wire [8:0]\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_RDADDRECC_UNCONNECTED ; (* CLOCK_DOMAINS = "INDEPENDENT" *) (* box_type = "PRIMITIVE" *) RAMB36E1 #( .DOA_REG(0), .DOB_REG(1), .EN_ECC_READ("FALSE"), .EN_ECC_WRITE("FALSE"), .INITP_00(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_01(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_02(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_03(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_04(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_05(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_06(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_07(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_08(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_09(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_0A(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_0B(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_0C(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_0D(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_0E(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_0F(256'h0000000000000000000000000000000000000000000000000000000000000000), .INIT_00(256'h2020202020202020202020202020202020202020202020202020202020202B80), .INIT_01(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_02(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_03(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_04(256'h802B202020202020202020202020202020202020202020202020202020202020), .INIT_05(256'h4646464646464646464646464646464646464620202020202020202020202B2B), .INIT_06(256'h4720202020202020202020205050505050505050505050505050505050464646), .INIT_07(256'h2020414141202020202020202020202020202020474747474747474747474747), .INIT_08(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_09(256'h2B2B202020202020202020202047474747474747474747474747202020202020), .INIT_0A(256'h3A3A3A3A3A3A3A3A3A3A3A3A3A3A3A3A3A3A4620202020202020202020202020), .INIT_0B(256'h3A47474720202020202020503A3A3A3A3A3A3A3A3A3A3A3A3A3A3A3A50463A3A), .INIT_0C(256'h20413A3A3A412020202020202020202020202020473A3A3A3A3A3A3A3A3A3A3A), .INIT_0D(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_0E(256'h20202020202020202020202020473A3A3A3A3A3A3A3A3A3A3A3A474747202020), .INIT_0F(256'h3A3A3A3A3A3A3A3A3A3A3A3A3A3A3A3A3A3A4620202020202020202020202020), .INIT_10(256'h3A3A3A3A474720202020503A3A3A3A3A5050505050503A3A3A3A3A3A50463A3A), .INIT_11(256'h413A3A3A3A3A4120202020202020202020202020473A3A3A3A3A3A3A3A3A3A3A), .INIT_12(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_13(256'h20202020202020202020202020473A3A3A3A3A3A3A3A3A3A3A3A3A3A3A474720), .INIT_14(256'h3A3A4646464646464646463A3A3A3A3A3A464620202020202020202020202020), .INIT_15(256'h473A3A3A3A3A472020503A3A3A3A3A502020202020503A3A3A3A3A5050463A3A), .INIT_16(256'h3A3A3A3A3A3A3A41202020202020202020202020473A3A3A3A47474747474747), .INIT_17(256'h2020202020202020202020202020202020202020202020202020202020202041), .INIT_18(256'h20202020202020202020202020473A3A3A3A47474747474747473A3A3A3A3A47), .INIT_19(256'h46464620202020202020463A3A3A3A3A46202020202020202020202020202020), .INIT_1A(256'h20473A3A3A3A3A4720503A3A3A3A3A502020202020503A3A3A3A502020464646), .INIT_1B(256'h3A3A3A3A3A3A3A3A412020202020202020202020474747474747202020202020), .INIT_1C(256'h472020202020202020202020202020202020202020202020202020202020413A), .INIT_1D(256'h2020202020202020202020202047474747474720202020202020473A3A3A3A3A), .INIT_1E(256'h20202020202020202020463A3A3A3A3A46202020202020202020202020202020), .INIT_1F(256'h2020473A3A3A3A3A47503A3A3A3A3A502020202020503A3A3A3A502020202020), .INIT_20(256'h3A3A3A413A3A3A3A3A4120202020202020202020202020202020202020202020), .INIT_21(256'h3A47202020202020202020202020202020202020202020202020202020413A3A), .INIT_22(256'h202020202020202020202020202020202020202020202020202020473A3A3A3A), .INIT_23(256'h464646464646464646463A3A3A3A3A3A46202020202020202020202020202020), .INIT_24(256'h2020473A3A3A3A3A4720503A3A3A3A3A5050505050503A3A3A3A502020202020), .INIT_25(256'h3A3A4120413A3A3A3A3A41202020202020202020202020202020202020202020), .INIT_26(256'h3A472020202020202020202020202020202020202020202020202020413A3A3A), .INIT_27(256'h202020202020202020202020202020202020202020202020202020473A3A3A3A), .INIT_28(256'h463A3A3A3A3A3A3A3A3A3A3A3A3A3A3A46202020202020202020202020202020), .INIT_29(256'h2020473A3A3A3A3A47202050503A3A3A3A3A3A3A3A3A3A3A3A3A502020202020), .INIT_2A(256'h3A41202020413A3A3A3A3A412020202020202020474747474747474747472020), .INIT_2B(256'h3A47202D2D2D2D2D2D2D2D2D2D2D2D2D2D2D202020202020202020413A3A3A3A), .INIT_2C(256'h202020202020202020202020204747474747474747474720202020473A3A3A3A), .INIT_2D(256'h463A3A3A3A3A3A3A3A3A3A3A3A3A3A3A46202020202020202020202020202020), .INIT_2E(256'h2020473A3A3A3A3A47202020205050505050505050503A3A3A3A502020202020), .INIT_2F(256'h412020202020413A3A3A3A3A4120202020202020473A3A3A3A3A3A3A3A472020), .INIT_30(256'h3A47202D3A3A3A3A3A3A3A3A3A3A3A3A3A2D2020202020202020413A3A3A3A3A), .INIT_31(256'h20202020202020202020202020473A3A3A3A3A3A3A3A4720202020473A3A3A3A), .INIT_32(256'h464646464646464646463A3A3A3A3A3A46202020202020202020202020202020), .INIT_33(256'h2020473A3A3A3A3A47202020202020202020202020503A3A3A3A502020202020), .INIT_34(256'h41414141414141413A3A3A3A3A41202020202020473A3A3A3A47474747472020), .INIT_35(256'h3A47202D2D2D2D2D2D2D2D2D2D2D2D2D2D2D20202020202020413A3A3A3A3A41), .INIT_36(256'h20202020202020202020202020473A3A3A3A474747474720202020473A3A3A3A), .INIT_37(256'h20202020202020202020463A3A3A3A3A46202020202020202020202020202020), .INIT_38(256'h2020473A3A3A3A3A47202020202020202020202020503A3A3A3A502020202020), .INIT_39(256'h3A3A3A3A3A3A3A3A3A3A3A3A3A3A412020202020473A3A3A3A47202020202020), .INIT_3A(256'h3A4720202020202020202020202020202020202020202020413A3A3A3A3A3A3A), .INIT_3B(256'h20202020202020202020202020473A3A3A3A472020202020202020473A3A3A3A), .INIT_3C(256'h20202020202020202020463A3A3A3A3A46202020202020202020202020202020), .INIT_3D(256'h20473A3A3A3A3A4720202020202020202020202020503A3A3A3A502020202020), .INIT_3E(256'h414141414141414141413A3A3A3A3A4120202020473A3A3A3A47202020202020), .INIT_3F(256'h4720202020202020202020202020202020202020202020413A3A3A3A3A414141), .INIT_40(256'h20202020202020202020202020473A3A3A3A4720202020202020473A3A3A3A3A), .INIT_41(256'h202020202020202046463A3A3A3A3A3A3A464620202020202020202020202020), .INIT_42(256'h473A3A3A3A3A4720202020202020202020202050503A3A3A3A3A3A5050202020), .INIT_43(256'h20202020202020202020413A3A3A3A3A41202020473A3A3A3A47474747474747), .INIT_44(256'h20202020202020202020202020202020202020202020413A3A3A3A3A41202020), .INIT_45(256'h20202020202020202020202020473A3A3A3A47474747474747473A3A3A3A3A47), .INIT_46(256'h202020202020202046463A3A3A3A3A3A3A3A4620202020202020202020202020), .INIT_47(256'h3A3A3A3A474720202020202020202020202020503A3A3A3A3A3A3A3A50202020), .INIT_48(256'h2020202020202020202020413A3A3A3A3A412020473A3A3A3A3A3A3A3A3A3A3A), .INIT_49(256'h202020202020202020202020202020202020202020413A3A3A3A3A4120202020), .INIT_4A(256'h20202020202020202020202020473A3A3A3A3A3A3A3A3A3A3A3A3A3A3A474720), .INIT_4B(256'h202020202020202046463A3A3A3A3A3A3A3A4620202020202020202020202020), .INIT_4C(256'h3A474747202020202020202020202020202020503A3A3A3A3A3A3A3A50202020), .INIT_4D(256'h202020202020202020202020413A3A3A3A3A4120473A3A3A4747473A3A3A3A3A), .INIT_4E(256'h2020202020202020202020202020202020202020413A3A3A3A3A412020202020), .INIT_4F(256'h20202020202020202020202020473A3A3A4747473A3A3A3A3A3A474747202020), .INIT_50(256'h2020202020202020464646464646464646464620202020202020202020202020), .INIT_51(256'h4720202020202020202020202020202020202050505050505050505050202020), .INIT_52(256'h2020202020202020202020202041414141414141474747472020204747474747), .INIT_53(256'h2020202020202020202020202020202020202041414141414141202020202020), .INIT_54(256'h2020202020202020202020202047474747202020474747474747202020202020), .INIT_55(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_56(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_57(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_58(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_59(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_5A(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_5B(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_5C(256'h6F6E6973616320696E696D206465736162204C444856202F2041475046206E41), .INIT_5D(256'h202020202020202020202020202020202020202020202020202020202020202E), .INIT_5E(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_5F(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_60(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_61(256'h20217475706E69207478657420726F662064616F6279656B2061206573552020), .INIT_62(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_63(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_64(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_65(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_66(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_67(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_68(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_69(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_6A(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_6B(256'h202020203A656B696C206427756F7920656D61672061206B6369502020202020), .INIT_6C(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_6D(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_6E(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_6F(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_70(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_71(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_72(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_73(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_74(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_75(256'h2020202020202020202020657474656C756F5220202020202020202020202020), .INIT_76(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_77(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_78(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_79(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_7A(256'h2020202020202020207265776F6C207265686769482020202020202020202020), .INIT_7B(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_7C(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_7D(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_7E(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_7F(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_A(36'h000000000), .INIT_B(36'h000000000), .INIT_FILE("NONE"), .IS_CLKARDCLK_INVERTED(1'b0), .IS_CLKBWRCLK_INVERTED(1'b0), .IS_ENARDEN_INVERTED(1'b0), .IS_ENBWREN_INVERTED(1'b0), .IS_RSTRAMARSTRAM_INVERTED(1'b0), .IS_RSTRAMB_INVERTED(1'b0), .IS_RSTREGARSTREG_INVERTED(1'b0), .IS_RSTREGB_INVERTED(1'b0), .RAM_EXTENSION_A("NONE"), .RAM_EXTENSION_B("NONE"), .RAM_MODE("TDP"), .RDADDR_COLLISION_HWCONFIG("DELAYED_WRITE"), .READ_WIDTH_A(9), .READ_WIDTH_B(9), .RSTREG_PRIORITY_A("REGCE"), .RSTREG_PRIORITY_B("REGCE"), .SIM_COLLISION_CHECK("ALL"), .SIM_DEVICE("7SERIES"), .SRVAL_A(36'h000000000), .SRVAL_B(36'h000000000), .WRITE_MODE_A("WRITE_FIRST"), .WRITE_MODE_B("WRITE_FIRST"), .WRITE_WIDTH_A(9), .WRITE_WIDTH_B(9)) \DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram (.ADDRARDADDR({1'b1,addra[11:0],1'b1,1'b1,1'b1}), .ADDRBWRADDR({1'b1,addrb[11:0],1'b1,1'b1,1'b1}), .CASCADEINA(1'b0), .CASCADEINB(1'b0), .CASCADEOUTA(\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_CASCADEOUTA_UNCONNECTED ), .CASCADEOUTB(\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_CASCADEOUTB_UNCONNECTED ), .CLKARDCLK(clka), .CLKBWRCLK(clkb), .DBITERR(\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_DBITERR_UNCONNECTED ), .DIADI({1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,dina}), .DIBDI({1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,dinb}), .DIPADIP({1'b0,1'b0,1'b0,1'b0}), .DIPBDIP({1'b0,1'b0,1'b0,1'b0}), .DOADO({\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_DOADO_UNCONNECTED [31:8],\douta[7] }), .DOBDO({\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_DOBDO_UNCONNECTED [31:8],\doutb[7] }), .DOPADOP({\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_DOPADOP_UNCONNECTED [3:1],\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_n_88 }), .DOPBDOP({\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_DOPBDOP_UNCONNECTED [3:1],\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_n_92 }), .ECCPARITY(\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_ECCPARITY_UNCONNECTED [7:0]), .ENARDEN(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_i_1_n_0 ), .ENBWREN(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_i_2_n_0 ), .INJECTDBITERR(1'b0), .INJECTSBITERR(1'b0), .RDADDRECC(\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_RDADDRECC_UNCONNECTED [8:0]), .REGCEAREGCE(1'b0), .REGCEB(1'b1), .RSTRAMARSTRAM(1'b0), .RSTRAMB(1'b0), .RSTREGARSTREG(1'b0), .RSTREGB(1'b0), .SBITERR(\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_SBITERR_UNCONNECTED ), .WEA({wea,wea,wea,wea}), .WEBWE({1'b0,1'b0,1'b0,1'b0,web,web,web,web})); LUT3 #( .INIT(8'h02)) \DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_i_1 (.I0(ena), .I1(addra[12]), .I2(addra[13]), .O(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_i_1_n_0 )); LUT2 #( .INIT(4'h1)) \DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_i_2 (.I0(addrb[12]), .I1(addrb[13]), .O(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_i_2_n_0 )); endmodule

module FrameBuffer_blk_mem_gen_prim_wrapper_init__parameterized0 (\douta[7] , \doutb[7] , clka, clkb, addra, addrb, dina, dinb, wea, web, ena); output [7:0]\douta[7] ; output [7:0]\doutb[7] ; input clka; input clkb; input [13:0]addra; input [13:0]addrb; input [7:0]dina; input [7:0]dinb; input [0:0]wea; input [0:0]web; input ena; wire \DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_i_1__0_n_0 ; wire \DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_i_2__0_n_0 ; wire \DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_n_88 ; wire \DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_n_92 ; wire [13:0]addra; wire [13:0]addrb; wire clka; wire clkb; wire [7:0]dina; wire [7:0]dinb; wire [7:0]\douta[7] ; wire [7:0]\doutb[7] ; wire ena; wire [0:0]wea; wire [0:0]web; wire \NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_CASCADEOUTA_UNCONNECTED ; wire \NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_CASCADEOUTB_UNCONNECTED ; wire \NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_DBITERR_UNCONNECTED ; wire \NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_SBITERR_UNCONNECTED ; wire [31:8]\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_DOADO_UNCONNECTED ; wire [31:8]\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_DOBDO_UNCONNECTED ; wire [3:1]\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_DOPADOP_UNCONNECTED ; wire [3:1]\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_DOPBDOP_UNCONNECTED ; wire [7:0]\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_ECCPARITY_UNCONNECTED ; wire [8:0]\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_RDADDRECC_UNCONNECTED ; (* CLOCK_DOMAINS = "INDEPENDENT" *) (* box_type = "PRIMITIVE" *) RAMB36E1 #( .DOA_REG(0), .DOB_REG(1), .EN_ECC_READ("FALSE"), .EN_ECC_WRITE("FALSE"), .INITP_00(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_01(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_02(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_03(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_04(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_05(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_06(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_07(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_08(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_09(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_0A(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_0B(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_0C(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_0D(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_0E(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_0F(256'h0000000000000000000000000000000000000000000000000000000000000000), .INIT_00(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_01(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_02(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_03(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_04(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_05(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_06(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_07(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_08(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_09(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_0A(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_0B(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_0C(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_0D(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_0E(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_0F(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_10(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_11(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_12(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_13(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_14(256'h2020202020202020202020202020202020202020202020202020202020202020), 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.INIT_69(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_6A(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_6B(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_6C(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_6D(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_6E(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_6F(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_70(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_71(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_72(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_73(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_74(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_75(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_76(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_77(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_78(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_79(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_7A(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_7B(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_7C(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_7D(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_7E(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_7F(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_A(36'h000000000), .INIT_B(36'h000000000), .INIT_FILE("NONE"), .IS_CLKARDCLK_INVERTED(1'b0), .IS_CLKBWRCLK_INVERTED(1'b0), .IS_ENARDEN_INVERTED(1'b0), .IS_ENBWREN_INVERTED(1'b0), .IS_RSTRAMARSTRAM_INVERTED(1'b0), .IS_RSTRAMB_INVERTED(1'b0), .IS_RSTREGARSTREG_INVERTED(1'b0), .IS_RSTREGB_INVERTED(1'b0), .RAM_EXTENSION_A("NONE"), .RAM_EXTENSION_B("NONE"), .RAM_MODE("TDP"), .RDADDR_COLLISION_HWCONFIG("DELAYED_WRITE"), .READ_WIDTH_A(9), .READ_WIDTH_B(9), .RSTREG_PRIORITY_A("REGCE"), .RSTREG_PRIORITY_B("REGCE"), .SIM_COLLISION_CHECK("ALL"), .SIM_DEVICE("7SERIES"), .SRVAL_A(36'h000000000), .SRVAL_B(36'h000000000), .WRITE_MODE_A("WRITE_FIRST"), .WRITE_MODE_B("WRITE_FIRST"), .WRITE_WIDTH_A(9), .WRITE_WIDTH_B(9)) \DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram (.ADDRARDADDR({1'b1,addra[11:0],1'b1,1'b1,1'b1}), .ADDRBWRADDR({1'b1,addrb[11:0],1'b1,1'b1,1'b1}), .CASCADEINA(1'b0), .CASCADEINB(1'b0), .CASCADEOUTA(\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_CASCADEOUTA_UNCONNECTED ), .CASCADEOUTB(\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_CASCADEOUTB_UNCONNECTED ), .CLKARDCLK(clka), .CLKBWRCLK(clkb), .DBITERR(\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_DBITERR_UNCONNECTED ), .DIADI({1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,dina}), .DIBDI({1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,dinb}), .DIPADIP({1'b0,1'b0,1'b0,1'b0}), .DIPBDIP({1'b0,1'b0,1'b0,1'b0}), .DOADO({\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_DOADO_UNCONNECTED [31:8],\douta[7] }), .DOBDO({\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_DOBDO_UNCONNECTED [31:8],\doutb[7] }), .DOPADOP({\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_DOPADOP_UNCONNECTED [3:1],\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_n_88 }), .DOPBDOP({\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_DOPBDOP_UNCONNECTED [3:1],\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_n_92 }), .ECCPARITY(\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_ECCPARITY_UNCONNECTED [7:0]), .ENARDEN(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_i_1__0_n_0 ), .ENBWREN(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_i_2__0_n_0 ), .INJECTDBITERR(1'b0), .INJECTSBITERR(1'b0), .RDADDRECC(\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_RDADDRECC_UNCONNECTED [8:0]), .REGCEAREGCE(1'b0), .REGCEB(1'b1), .RSTRAMARSTRAM(1'b0), .RSTRAMB(1'b0), .RSTREGARSTREG(1'b0), .RSTREGB(1'b0), .SBITERR(\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_SBITERR_UNCONNECTED ), .WEA({wea,wea,wea,wea}), .WEBWE({1'b0,1'b0,1'b0,1'b0,web,web,web,web})); LUT3 #( .INIT(8'h08)) \DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_i_1__0 (.I0(addra[12]), .I1(ena), .I2(addra[13]), .O(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_i_1__0_n_0 )); LUT2 #( .INIT(4'h4)) \DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_i_2__0 (.I0(addrb[13]), .I1(addrb[12]), .O(\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM36.ram_i_2__0_n_0 )); endmodule

module FrameBuffer_blk_mem_gen_prim_wrapper_init__parameterized1 (DOADO, DOBDO, clka, clkb, addra, addrb, dina, dinb, wea, web, ena); output [7:0]DOADO; output [7:0]DOBDO; input clka; input clkb; input [13:0]addra; input [13:0]addrb; input [7:0]dina; input [7:0]dinb; input [0:0]wea; input [0:0]web; input ena; wire \DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM18.ram_n_33 ; wire \DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM18.ram_n_35 ; wire [7:0]DOADO; wire [7:0]DOBDO; wire [13:0]addra; wire [13:0]addrb; wire clka; wire clkb; wire [7:0]dina; wire [7:0]dinb; wire ena; wire ram_ena; wire ram_enb; wire [0:0]wea; wire [0:0]web; wire [15:8]\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM18.ram_DOADO_UNCONNECTED ; wire [15:8]\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM18.ram_DOBDO_UNCONNECTED ; wire [1:1]\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM18.ram_DOPADOP_UNCONNECTED ; wire [1:1]\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM18.ram_DOPBDOP_UNCONNECTED ; (* CLOCK_DOMAINS = "INDEPENDENT" *) (* box_type = "PRIMITIVE" *) RAMB18E1 #( .DOA_REG(0), .DOB_REG(1), .INITP_00(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_01(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_02(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_03(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_04(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_05(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_06(256'h0000000000000000000000000000000000000000000000000000000000000000), .INITP_07(256'h0000000000000000000000000000000000000000000000000000000000000000), .INIT_00(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_01(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_02(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_03(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_04(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_05(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_06(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_07(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_08(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_09(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_0A(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_0B(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_0C(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_0D(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_0E(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_0F(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_10(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_11(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_12(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_13(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_14(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_15(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_16(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_17(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_18(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_19(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_1A(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_1B(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_1C(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_1D(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_1E(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_1F(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_20(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_21(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_22(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_23(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_24(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_25(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_26(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_27(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_28(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_29(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_2A(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_2B(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_2C(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_2D(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_2E(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_2F(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_30(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_31(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_32(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_33(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_34(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_35(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_36(256'h2020202020202020202020202020202020202020202020202020202020202B2B), .INIT_37(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_38(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_39(256'h2020202020202020202020202020202020202020202020202020202020202020), .INIT_3A(256'h2B2B202020202020202020202020202020202020202020202020202020202020), .INIT_3B(256'h2020202020202020202020202020202020202020202020202020202020202B80), .INIT_3C(256'h6867697279706F43202020202020202020202020202020202020202020202020), .INIT_3D(256'h656972642F2F3A707474683C2037303073656972442036313032202943282074), .INIT_3E(256'h20202020202020202020202020202020202020202020203E74656E2E37303073), .INIT_3F(256'h802B202020202020202020202020202020202020202020202020202020202020), .INIT_A(18'h00000), .INIT_B(18'h00000), .INIT_FILE("NONE"), .IS_CLKARDCLK_INVERTED(1'b0), .IS_CLKBWRCLK_INVERTED(1'b0), .IS_ENARDEN_INVERTED(1'b0), .IS_ENBWREN_INVERTED(1'b0), .IS_RSTRAMARSTRAM_INVERTED(1'b0), .IS_RSTRAMB_INVERTED(1'b0), .IS_RSTREGARSTREG_INVERTED(1'b0), .IS_RSTREGB_INVERTED(1'b0), .RAM_MODE("TDP"), .RDADDR_COLLISION_HWCONFIG("DELAYED_WRITE"), .READ_WIDTH_A(9), .READ_WIDTH_B(9), .RSTREG_PRIORITY_A("REGCE"), .RSTREG_PRIORITY_B("REGCE"), .SIM_COLLISION_CHECK("ALL"), .SIM_DEVICE("7SERIES"), .SRVAL_A(18'h00000), .SRVAL_B(18'h00000), .WRITE_MODE_A("WRITE_FIRST"), .WRITE_MODE_B("WRITE_FIRST"), .WRITE_WIDTH_A(9), .WRITE_WIDTH_B(9)) \DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM18.ram (.ADDRARDADDR({addra[10:0],1'b0,1'b0,1'b0}), .ADDRBWRADDR({addrb[10:0],1'b0,1'b0,1'b0}), .CLKARDCLK(clka), .CLKBWRCLK(clkb), .DIADI({1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,dina}), .DIBDI({1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,1'b0,dinb}), .DIPADIP({1'b0,1'b0}), .DIPBDIP({1'b0,1'b0}), .DOADO({\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM18.ram_DOADO_UNCONNECTED [15:8],DOADO}), .DOBDO({\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM18.ram_DOBDO_UNCONNECTED [15:8],DOBDO}), .DOPADOP({\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM18.ram_DOPADOP_UNCONNECTED [1],\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM18.ram_n_33 }), .DOPBDOP({\NLW_DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM18.ram_DOPBDOP_UNCONNECTED [1],\DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM18.ram_n_35 }), .ENARDEN(ram_ena), .ENBWREN(ram_enb), .REGCEAREGCE(1'b0), .REGCEB(1'b1), .RSTRAMARSTRAM(1'b0), .RSTRAMB(1'b0), .RSTREGARSTREG(1'b0), .RSTREGB(1'b0), .WEA({wea,wea}), .WEBWE({1'b0,1'b0,web,web})); LUT4 #( .INIT(16'h1000)) \DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM18.ram_i_1 (.I0(addra[12]), .I1(addra[11]), .I2(addra[13]), .I3(ena), .O(ram_ena)); LUT3 #( .INIT(8'h04)) \DEVICE_7SERIES.NO_BMM_INFO.TRUE_DP.SIMPLE_PRIM18.ram_i_2 (.I0(addrb[11]), .I1(addrb[13]), .I2(addrb[12]), .O(ram_enb)); endmodule

module FrameBuffer_blk_mem_gen_top (doutb, douta, clka, clkb, addra, addrb, dina, dinb, wea, web, ena); output [7:0]doutb; output [7:0]douta; input clka; input clkb; input [13:0]addra; input [13:0]addrb; input [7:0]dina; input [7:0]dinb; input [0:0]wea; input [0:0]web; input ena; wire [13:0]addra; wire [13:0]addrb; wire clka; wire clkb; wire [7:0]dina; wire [7:0]dinb; wire [7:0]douta; wire [7:0]doutb; wire ena; wire [0:0]wea; wire [0:0]web; FrameBuffer_blk_mem_gen_generic_cstr \valid.cstr (.addra(addra), .addrb(addrb), .clka(clka), .clkb(clkb), .dina(dina), .dinb(dinb), .douta(douta), .doutb(doutb), .ena(ena), .wea(wea), .web(web)); endmodule

module FrameBuffer_blk_mem_gen_v8_3_1 (clka, rsta, ena, regcea, wea, addra, dina, douta, clkb, rstb, enb, regceb, web, addrb, dinb, doutb, injectsbiterr, injectdbiterr, eccpipece, sbiterr, dbiterr, rdaddrecc, sleep, deepsleep, shutdown, rsta_busy, rstb_busy, s_aclk, s_aresetn, s_axi_awid, s_axi_awaddr, s_axi_awlen, s_axi_awsize, s_axi_awburst, s_axi_awvalid, s_axi_awready, s_axi_wdata, s_axi_wstrb, s_axi_wlast, s_axi_wvalid, s_axi_wready, s_axi_bid, s_axi_bresp, s_axi_bvalid, s_axi_bready, s_axi_arid, s_axi_araddr, s_axi_arlen, s_axi_arsize, s_axi_arburst, s_axi_arvalid, s_axi_arready, s_axi_rid, s_axi_rdata, s_axi_rresp, s_axi_rlast, s_axi_rvalid, s_axi_rready, s_axi_injectsbiterr, s_axi_injectdbiterr, s_axi_sbiterr, s_axi_dbiterr, s_axi_rdaddrecc); input clka; input rsta; input ena; input regcea; input [0:0]wea; input [13:0]addra; input [7:0]dina; output [7:0]douta; input clkb; input rstb; input enb; input regceb; input [0:0]web; input [13:0]addrb; input [7:0]dinb; output [7:0]doutb; input injectsbiterr; input injectdbiterr; input eccpipece; output sbiterr; output dbiterr; output [13:0]rdaddrecc; input sleep; input deepsleep; input shutdown; output rsta_busy; output rstb_busy; input s_aclk; input s_aresetn; input [3:0]s_axi_awid; input [31:0]s_axi_awaddr; input [7:0]s_axi_awlen; input [2:0]s_axi_awsize; input [1:0]s_axi_awburst; input s_axi_awvalid; output s_axi_awready; input [7:0]s_axi_wdata; input [0:0]s_axi_wstrb; input s_axi_wlast; input s_axi_wvalid; output s_axi_wready; output [3:0]s_axi_bid; output [1:0]s_axi_bresp; output s_axi_bvalid; input s_axi_bready; input [3:0]s_axi_arid; input [31:0]s_axi_araddr; input [7:0]s_axi_arlen; input [2:0]s_axi_arsize; input [1:0]s_axi_arburst; input s_axi_arvalid; output s_axi_arready; output [3:0]s_axi_rid; output [7:0]s_axi_rdata; output [1:0]s_axi_rresp; output s_axi_rlast; output s_axi_rvalid; input s_axi_rready; input s_axi_injectsbiterr; input s_axi_injectdbiterr; output s_axi_sbiterr; output s_axi_dbiterr; output [13:0]s_axi_rdaddrecc; wire \<const0> ; wire [13:0]addra; wire [13:0]addrb; wire clka; wire clkb; wire [7:0]dina; wire [7:0]dinb; wire [7:0]douta; wire [7:0]doutb; wire eccpipece; wire ena; wire enb; wire injectdbiterr; wire injectsbiterr; wire regcea; wire regceb; wire rsta; wire rstb; wire s_aclk; wire s_aresetn; wire [31:0]s_axi_araddr; wire [1:0]s_axi_arburst; wire [3:0]s_axi_arid; wire [7:0]s_axi_arlen; wire [2:0]s_axi_arsize; wire s_axi_arvalid; wire [31:0]s_axi_awaddr; wire [1:0]s_axi_awburst; wire [3:0]s_axi_awid; wire [7:0]s_axi_awlen; wire [2:0]s_axi_awsize; wire s_axi_awvalid; wire s_axi_bready; wire s_axi_injectdbiterr; wire s_axi_injectsbiterr; wire s_axi_rready; wire [7:0]s_axi_wdata; wire s_axi_wlast; wire [0:0]s_axi_wstrb; wire s_axi_wvalid; wire sleep; wire [0:0]wea; wire [0:0]web; assign dbiterr = \<const0> ; assign rdaddrecc[13] = \<const0> ; assign rdaddrecc[12] = \<const0> ; assign rdaddrecc[11] = \<const0> ; assign rdaddrecc[10] = \<const0> ; assign rdaddrecc[9] = \<const0> ; assign rdaddrecc[8] = \<const0> ; assign rdaddrecc[7] = \<const0> ; assign rdaddrecc[6] = \<const0> ; assign rdaddrecc[5] = \<const0> ; assign rdaddrecc[4] = \<const0> ; assign rdaddrecc[3] = \<const0> ; assign rdaddrecc[2] = \<const0> ; assign rdaddrecc[1] = \<const0> ; assign rdaddrecc[0] = \<const0> ; assign rsta_busy = \<const0> ; assign rstb_busy = \<const0> ; assign s_axi_arready = \<const0> ; assign s_axi_awready = \<const0> ; assign s_axi_bid[3] = \<const0> ; assign s_axi_bid[2] = \<const0> ; assign s_axi_bid[1] = \<const0> ; assign s_axi_bid[0] = \<const0> ; assign s_axi_bresp[1] = \<const0> ; assign s_axi_bresp[0] = \<const0> ; assign s_axi_bvalid = \<const0> ; assign s_axi_dbiterr = \<const0> ; assign s_axi_rdaddrecc[13] = \<const0> ; assign s_axi_rdaddrecc[12] = \<const0> ; assign s_axi_rdaddrecc[11] = \<const0> ; assign s_axi_rdaddrecc[10] = \<const0> ; assign s_axi_rdaddrecc[9] = \<const0> ; assign s_axi_rdaddrecc[8] = \<const0> ; assign s_axi_rdaddrecc[7] = \<const0> ; assign s_axi_rdaddrecc[6] = \<const0> ; assign s_axi_rdaddrecc[5] = \<const0> ; assign s_axi_rdaddrecc[4] = \<const0> ; assign s_axi_rdaddrecc[3] = \<const0> ; assign s_axi_rdaddrecc[2] = \<const0> ; assign s_axi_rdaddrecc[1] = \<const0> ; assign s_axi_rdaddrecc[0] = \<const0> ; assign s_axi_rdata[7] = \<const0> ; assign s_axi_rdata[6] = \<const0> ; assign s_axi_rdata[5] = \<const0> ; assign s_axi_rdata[4] = \<const0> ; assign s_axi_rdata[3] = \<const0> ; assign s_axi_rdata[2] = \<const0> ; assign s_axi_rdata[1] = \<const0> ; assign s_axi_rdata[0] = \<const0> ; assign s_axi_rid[3] = \<const0> ; assign s_axi_rid[2] = \<const0> ; assign s_axi_rid[1] = \<const0> ; assign s_axi_rid[0] = \<const0> ; assign s_axi_rlast = \<const0> ; assign s_axi_rresp[1] = \<const0> ; assign s_axi_rresp[0] = \<const0> ; assign s_axi_rvalid = \<const0> ; assign s_axi_sbiterr = \<const0> ; assign s_axi_wready = \<const0> ; assign sbiterr = \<const0> ; GND GND (.G(\<const0> )); FrameBuffer_blk_mem_gen_v8_3_1_synth inst_blk_mem_gen (.addra(addra), .addrb(addrb), .clka(clka), .clkb(clkb), .dina(dina), .dinb(dinb), .douta(douta), .doutb(doutb), .ena(ena), .wea(wea), .web(web)); endmodule

module FrameBuffer_blk_mem_gen_v8_3_1_synth (doutb, douta, clka, clkb, addra, addrb, dina, dinb, wea, web, ena); output [7:0]doutb; output [7:0]douta; input clka; input clkb; input [13:0]addra; input [13:0]addrb; input [7:0]dina; input [7:0]dinb; input [0:0]wea; input [0:0]web; input ena; wire [13:0]addra; wire [13:0]addrb; wire clka; wire clkb; wire [7:0]dina; wire [7:0]dinb; wire [7:0]douta; wire [7:0]doutb; wire ena; wire [0:0]wea; wire [0:0]web; FrameBuffer_blk_mem_gen_top \gnativebmg.native_blk_mem_gen (.addra(addra), .addrb(addrb), .clka(clka), .clkb(clkb), .dina(dina), .dinb(dinb), .douta(douta), .doutb(doutb), .ena(ena), .wea(wea), .web(web)); endmodule

module glbl (); parameter ROC_WIDTH = 100000; parameter TOC_WIDTH = 0; //-------- STARTUP Globals -------------- wire GSR; wire GTS; wire GWE; wire PRLD; tri1 p_up_tmp; tri (weak1, strong0) PLL_LOCKG = p_up_tmp; wire PROGB_GLBL; wire CCLKO_GLBL; wire FCSBO_GLBL; wire [3:0] DO_GLBL; wire [3:0] DI_GLBL; reg GSR_int; reg GTS_int; reg PRLD_int; //-------- JTAG Globals -------------- wire JTAG_TDO_GLBL; wire JTAG_TCK_GLBL; wire JTAG_TDI_GLBL; wire JTAG_TMS_GLBL; wire JTAG_TRST_GLBL; reg JTAG_CAPTURE_GLBL; reg JTAG_RESET_GLBL; reg JTAG_SHIFT_GLBL; reg JTAG_UPDATE_GLBL; reg JTAG_RUNTEST_GLBL; reg JTAG_SEL1_GLBL = 0; reg JTAG_SEL2_GLBL = 0 ; reg JTAG_SEL3_GLBL = 0; reg JTAG_SEL4_GLBL = 0; reg JTAG_USER_TDO1_GLBL = 1'bz; reg JTAG_USER_TDO2_GLBL = 1'bz; reg JTAG_USER_TDO3_GLBL = 1'bz; reg JTAG_USER_TDO4_GLBL = 1'bz; assign (weak1, weak0) GSR = GSR_int; assign (weak1, weak0) GTS = GTS_int; assign (weak1, weak0) PRLD = PRLD_int; initial begin GSR_int = 1'b1; PRLD_int = 1'b1; #(ROC_WIDTH) GSR_int = 1'b0; PRLD_int = 1'b0; end initial begin GTS_int = 1'b1; #(TOC_WIDTH) GTS_int = 1'b0; end endmodule

module outputs) wire [3:0] ANODE; // From dut of display_top.v wire [7:0] CATHODE; // From dut of display_top.v wire TX; // From dut of display_top.v // End of automatics /*AUTOREG*/ // // Free Running 100 MHz clock // reg CLK_IN = 0; initial begin forever begin #5 CLK_IN <= ~CLK_IN; end end // // Free Running 50 MHz Clock // reg clk_tb; parameter _clk_50mhz_high = 10, _clk_50mhz_low = 10, _clk_50mhz_period = _clk_50mhz_high + _clk_50mhz_low; initial begin clk_tb <= 'b0; forever begin #(_clk_50mhz_low) clk_tb = 1; #(_clk_50mhz_high) clk_tb = 0; end end // // Reset // reg RESET_IN = 0; initial begin #100 RESET_IN <= 1; #1000 RESET_IN <= 0; end // // Asynch. Reset to device // reg reset_tb; initial begin reset_tb = 0; #1 reset_tb = 1; #200 reset_tb = 0; end reg [31:0] read_word; display_top dut(/*AUTOINST*/ // Outputs .TX (TX), .ANODE (ANODE[3:0]), .CATHODE (CATHODE[7:0]), // Inputs .CLK_IN (CLK_IN), .RESET_IN (RESET_IN), .RX (RX)); /**************************************************************************** UART 0 The WB UART16550 from opencores is used here to simulate a UART on the other end of the cable. It will allow us to send/receive characters to the NGMCU firmware ***************************************************************************/ wire [31:0] uart0_adr; wire [31:0] uart0_dat_o; wire [31:0] uart0_dat_i; wire [3:0] uart0_sel; wire uart0_cyc; wire uart0_stb; wire uart0_we; wire uart0_ack; wire uart0_int; assign uart0_dat_o[31:8] = 'b0; uart_top uart0( .wb_clk_i(CLK_IN), .wb_rst_i(reset_tb), .wb_adr_i(uart0_adr[4:0]), .wb_dat_o(uart0_dat_o), .wb_dat_i(uart0_dat_i), .wb_sel_i(uart0_sel), .wb_cyc_i(uart0_cyc), .wb_stb_i(uart0_stb), .wb_we_i(uart0_we), .wb_ack_o(uart0_ack), .int_o(uart0_int), .stx_pad_o(RX), .srx_pad_i(TX), .rts_pad_o(), .cts_pad_i(1'b0), .dtr_pad_o(), .dsr_pad_i(1'b0), .ri_pad_i(1'b0), .dcd_pad_i(1'b0), .baud_o() ); wb_mast uart_master0( .clk (CLK_IN), .rst (reset_tb), .adr (uart0_adr), .din (uart0_dat_o), .dout(uart0_dat_i), .cyc (uart0_cyc), .stb (uart0_stb), .sel (uart0_sel), .we (uart0_we ), .ack (uart0_ack), .err (1'b0), .rty (1'b0) ); uart_tasks uart_tasks(); test_tools test_tools(); // // Test Case // initial begin @(posedge RESET_IN); $display("RESET: Asserted @ %d", $time); @(negedge RESET_IN); $display("RESET: De-Asserted @ %d", $time); repeat(100) @(posedge CLK_IN); `UART_CONFIG; `UART_WRITE_CHAR("3"); `UART_WRITE_CHAR("4"); `UART_WRITE_CHAR("5"); `UART_WRITE_CHAR("6"); `UART_WRITE_CHAR("7"); repeat(100)@(posedge clk_tb); `UART_READ_CHAR("3"); `UART_READ_CHAR("4"); `UART_READ_CHAR("5"); `UART_READ_CHAR("6"); `UART_READ_CHAR("7"); repeat(100) @(posedge CLK_IN); `TEST_PASSED = 1; end endmodule

module ADDER ( a, b, cin, sum, cout ); input wire a; input wire b; (* carry = "ADDER" *) input wire cin; (* DELAY_CONST_a = "300e-12" *) (* DELAY_CONST_b = "300e-12" *) (* DELAY_CONST_cin = "300e-12" *) output wire sum; (* carry = "ADDER" *) (* DELAY_CONST_a = "300e-12" *) (* DELAY_CONST_b = "300e-12" *) (* DELAY_CONST_cin = "10e-12" *) output wire cout; // Full adder combinational logic assign sum = a ^ b ^ cin; assign cout = ((a ^ b) & cin) | (a & b); // Timing parameters, not supported by Yosys at the moment. `ifndef YOSYS `timescale 1ps/1ps specify specparam T1 300; specparam T2 10; // (input->output) min:typ:max (a => sum) = T1; (b => sum) = T1; (cin => sum) = T1; (a => cout) = T1; (b => cout) = T1; (cin => cout) = T2; endspecify `endif endmodule

module ovl_transition (clock, reset, enable, test_expr, start_state, next_state, fire); parameter severity_level = `OVL_SEVERITY_DEFAULT; parameter width = 1; parameter property_type = `OVL_PROPERTY_DEFAULT; parameter msg = `OVL_MSG_DEFAULT; parameter coverage_level = `OVL_COVER_DEFAULT; parameter clock_edge = `OVL_CLOCK_EDGE_DEFAULT; parameter reset_polarity = `OVL_RESET_POLARITY_DEFAULT; parameter gating_type = `OVL_GATING_TYPE_DEFAULT; input clock, reset, enable; input [width-1:0] test_expr, start_state, next_state; output [`OVL_FIRE_WIDTH-1:0] fire; // Parameters that should not be edited parameter assert_name = "OVL_TRANSITION"; `include "std_ovl_reset.h" `include "std_ovl_clock.h" `include "std_ovl_cover.h" `include "std_ovl_task.h" `include "std_ovl_init.h" `ifdef OVL_VERILOG `include "./vlog95/assert_transition_logic.v" assign fire = {fire_cover, fire_xcheck, fire_2state}; `endif `ifdef OVL_SVA `include "./sva05/assert_transition_logic.sv" assign fire = {`OVL_FIRE_WIDTH{1'b0}}; // Tied low in V2.3 `endif `ifdef OVL_PSL assign fire = {`OVL_FIRE_WIDTH{1'b0}}; // Tied low in V2.3 `include "./psl05/assert_transition_psl_logic.v" `else `endmodule

module step_id(inst, ena_, cond_dout, rdy_nop_, rdy_cpf_, rdy_cpt_, rdy_ld_, rdy_st_, rdy_clr_, rdy_im_, rdy_tce_, rdy_ts_, rdy_add_, rdy_sub_); input[7:0] inst; input ena_; input cond_dout; output rdy_nop_, rdy_cpf_, rdy_cpt_, rdy_ld_, rdy_st_, rdy_clr_, rdy_im_, rdy_tce_, rdy_ts_, rdy_add_, rdy_sub_; wire cond_ = inst[7] ^ cond_dout; wire[6:0] inst_cond = inst[6:0] & {7{~(cond_ | ena_)}}; assign rdy_nop_ = inst_cond[6:0] != 7'b0000000 || ena_; assign rdy_cpf_ = inst_cond[6:4] != 3'b010 || inst_cond[3:0] == 4'b0000; assign rdy_cpt_ = inst_cond[6:4] != 3'b011 || inst_cond[3:0] == 4'b0000; assign rdy_ld_ = {inst_cond[6:2], inst_cond[0]} != {5'b10001, 1'b0}; assign rdy_st_ = {inst_cond[6:2], inst_cond[0]} != {5'b10001, 1'b1}; assign rdy_clr_ = inst_cond != 7'b1010000; assign rdy_im_ = inst_cond[6:5] != 2'b11; assign rdy_tce_ = inst_cond != 7'b0001100; assign rdy_ts_ = {inst_cond[6], inst_cond[3:0]} != {1'b0, 4'b0000} || inst_cond[5:4] == 2'b00; assign rdy_add_ = inst_cond != 7'b1010110; assign rdy_sub_ = inst_cond != 7'b1010111; endmodule

module bclk_dll_tb (); // Clock to Q delay of 100ps localparam TCQ = 100; // timescale is 1ps/1ps localparam ONE_NS = 1000; localparam PHASE_ERR_MARGIN = 100; // 100ps // how many cycles to run localparam COUNT_PHASE = 1024; // we'll be using the period in many locations localparam time PER1 = 7.518*ONE_NS; localparam time PER1_1 = PER1/2; localparam time PER1_2 = PER1 - PER1/2; // Declare the input clock signals reg CLK_IN1 = 1; // The high bit of the sampling counter wire COUNT; // Status and control signals reg RESET = 0; wire LOCKED; reg COUNTER_RESET = 0; wire [1:1] CLK_OUT; //Freq Check using the M & D values setting and actual Frequency generated // Input clock generation //------------------------------------ always begin CLK_IN1 = #PER1_1 ~CLK_IN1; CLK_IN1 = #PER1_2 ~CLK_IN1; end // Test sequence reg [15*8-1:0] test_phase = ""; initial begin // Set up any display statements using time to be readable $timeformat(-12, 2, "ps", 10); COUNTER_RESET = 0; test_phase = "reset"; RESET = 1; #(PER1*6); RESET = 0; test_phase = "wait lock"; `wait_lock; #(PER1*6); COUNTER_RESET = 1; #(PER1*20) COUNTER_RESET = 0; test_phase = "counting"; #(PER1*COUNT_PHASE); $display("SIMULATION PASSED"); $display("SYSTEM_CLOCK_COUNTER : %0d\n",$time/PER1); $finish; end // Instantiation of the example design containing the clock // network and sampling counters //--------------------------------------------------------- bclk_dll_exdes #( .TCQ (TCQ) ) dut (// Clock in ports .CLK_IN1 (CLK_IN1), // Reset for logic in example design .COUNTER_RESET (COUNTER_RESET), .CLK_OUT (CLK_OUT), // High bits of the counters .COUNT (COUNT), // Status and control signals .RESET (RESET), .LOCKED (LOCKED)); // Freq Check endmodule

module sky130_fd_sc_ms__dlygate4sd3 ( //# {{data|Data Signals}} input A, output X ); // Voltage supply signals supply1 VPWR; supply0 VGND; supply1 VPB ; supply0 VNB ; endmodule

module bd_auto_cc_0 ( s_axi_aclk, s_axi_aresetn, s_axi_awid, s_axi_awaddr, s_axi_awlen, s_axi_awsize, s_axi_awburst, s_axi_awlock, s_axi_awcache, s_axi_awprot, s_axi_awregion, s_axi_awqos, s_axi_awvalid, s_axi_awready, s_axi_wdata, s_axi_wstrb, s_axi_wlast, s_axi_wvalid, s_axi_wready, s_axi_bid, s_axi_bresp, s_axi_bvalid, s_axi_bready, s_axi_arid, s_axi_araddr, s_axi_arlen, s_axi_arsize, s_axi_arburst, s_axi_arlock, s_axi_arcache, s_axi_arprot, s_axi_arregion, s_axi_arqos, s_axi_arvalid, s_axi_arready, s_axi_rid, s_axi_rdata, s_axi_rresp, s_axi_rlast, s_axi_rvalid, s_axi_rready, m_axi_aclk, m_axi_aresetn, m_axi_awid, m_axi_awaddr, m_axi_awlen, m_axi_awsize, m_axi_awburst, m_axi_awlock, m_axi_awcache, m_axi_awprot, m_axi_awregion, m_axi_awqos, m_axi_awvalid, m_axi_awready, m_axi_wdata, m_axi_wstrb, m_axi_wlast, m_axi_wvalid, m_axi_wready, m_axi_bid, m_axi_bresp, m_axi_bvalid, m_axi_bready, m_axi_arid, m_axi_araddr, m_axi_arlen, m_axi_arsize, m_axi_arburst, m_axi_arlock, m_axi_arcache, m_axi_arprot, m_axi_arregion, m_axi_arqos, m_axi_arvalid, m_axi_arready, m_axi_rid, m_axi_rdata, m_axi_rresp, m_axi_rlast, m_axi_rvalid, m_axi_rready ); (* X_INTERFACE_INFO = "xilinx.com:signal:clock:1.0 SI_CLK CLK" *) input wire s_axi_aclk; (* X_INTERFACE_INFO = "xilinx.com:signal:reset:1.0 SI_RST RST" *) input wire s_axi_aresetn; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI AWID" *) input wire [3 : 0] s_axi_awid; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI AWADDR" *) input wire [31 : 0] s_axi_awaddr; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI AWLEN" *) input wire [7 : 0] s_axi_awlen; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI AWSIZE" *) input wire [2 : 0] s_axi_awsize; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI AWBURST" *) input wire [1 : 0] s_axi_awburst; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI AWLOCK" *) input wire [0 : 0] s_axi_awlock; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI AWCACHE" *) input wire [3 : 0] s_axi_awcache; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI AWPROT" *) input wire [2 : 0] s_axi_awprot; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI AWREGION" *) input wire [3 : 0] s_axi_awregion; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI AWQOS" *) input wire [3 : 0] s_axi_awqos; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI AWVALID" *) input wire s_axi_awvalid; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI AWREADY" *) output wire s_axi_awready; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI WDATA" *) input wire [31 : 0] s_axi_wdata; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI WSTRB" *) input wire [3 : 0] s_axi_wstrb; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI WLAST" *) input wire s_axi_wlast; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI WVALID" *) input wire s_axi_wvalid; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI WREADY" *) output wire s_axi_wready; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI BID" *) output wire [3 : 0] s_axi_bid; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI BRESP" *) output wire [1 : 0] s_axi_bresp; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI BVALID" *) output wire s_axi_bvalid; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI BREADY" *) input wire s_axi_bready; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI ARID" *) input wire [3 : 0] s_axi_arid; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI ARADDR" *) input wire [31 : 0] s_axi_araddr; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI ARLEN" *) input wire [7 : 0] s_axi_arlen; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI ARSIZE" *) input wire [2 : 0] s_axi_arsize; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI ARBURST" *) input wire [1 : 0] s_axi_arburst; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI ARLOCK" *) input wire [0 : 0] s_axi_arlock; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI ARCACHE" *) input wire [3 : 0] s_axi_arcache; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI ARPROT" *) input wire [2 : 0] s_axi_arprot; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI ARREGION" *) input wire [3 : 0] s_axi_arregion; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI ARQOS" *) input wire [3 : 0] s_axi_arqos; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI ARVALID" *) input wire s_axi_arvalid; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI ARREADY" *) output wire s_axi_arready; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI RID" *) output wire [3 : 0] s_axi_rid; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI RDATA" *) output wire [31 : 0] s_axi_rdata; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI RRESP" *) output wire [1 : 0] s_axi_rresp; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI RLAST" *) output wire s_axi_rlast; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI RVALID" *) output wire s_axi_rvalid; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 S_AXI RREADY" *) input wire s_axi_rready; (* X_INTERFACE_INFO = "xilinx.com:signal:clock:1.0 MI_CLK CLK" *) input wire m_axi_aclk; (* X_INTERFACE_INFO = "xilinx.com:signal:reset:1.0 MI_RST RST" *) input wire m_axi_aresetn; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI AWID" *) output wire [3 : 0] m_axi_awid; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI AWADDR" *) output wire [31 : 0] m_axi_awaddr; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI AWLEN" *) output wire [7 : 0] m_axi_awlen; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI AWSIZE" *) output wire [2 : 0] m_axi_awsize; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI AWBURST" *) output wire [1 : 0] m_axi_awburst; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI AWLOCK" *) output wire [0 : 0] m_axi_awlock; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI AWCACHE" *) output wire [3 : 0] m_axi_awcache; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI AWPROT" *) output wire [2 : 0] m_axi_awprot; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI AWREGION" *) output wire [3 : 0] m_axi_awregion; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI AWQOS" *) output wire [3 : 0] m_axi_awqos; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI AWVALID" *) output wire m_axi_awvalid; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI AWREADY" *) input wire m_axi_awready; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI WDATA" *) output wire [31 : 0] m_axi_wdata; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI WSTRB" *) output wire [3 : 0] m_axi_wstrb; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI WLAST" *) output wire m_axi_wlast; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI WVALID" *) output wire m_axi_wvalid; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI WREADY" *) input wire m_axi_wready; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI BID" *) input wire [3 : 0] m_axi_bid; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI BRESP" *) input wire [1 : 0] m_axi_bresp; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI BVALID" *) input wire m_axi_bvalid; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI BREADY" *) output wire m_axi_bready; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI ARID" *) output wire [3 : 0] m_axi_arid; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI ARADDR" *) output wire [31 : 0] m_axi_araddr; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI ARLEN" *) output wire [7 : 0] m_axi_arlen; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI ARSIZE" *) output wire [2 : 0] m_axi_arsize; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI ARBURST" *) output wire [1 : 0] m_axi_arburst; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI ARLOCK" *) output wire [0 : 0] m_axi_arlock; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI ARCACHE" *) output wire [3 : 0] m_axi_arcache; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI ARPROT" *) output wire [2 : 0] m_axi_arprot; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI ARREGION" *) output wire [3 : 0] m_axi_arregion; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI ARQOS" *) output wire [3 : 0] m_axi_arqos; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI ARVALID" *) output wire m_axi_arvalid; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI ARREADY" *) input wire m_axi_arready; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI RID" *) input wire [3 : 0] m_axi_rid; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI RDATA" *) input wire [31 : 0] m_axi_rdata; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI RRESP" *) input wire [1 : 0] m_axi_rresp; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI RLAST" *) input wire m_axi_rlast; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI RVALID" *) input wire m_axi_rvalid; (* X_INTERFACE_INFO = "xilinx.com:interface:aximm:1.0 M_AXI RREADY" *) output wire m_axi_rready; axi_clock_converter_v2_1_10_axi_clock_converter #( .C_FAMILY("artix7"), .C_AXI_ID_WIDTH(4), .C_AXI_ADDR_WIDTH(32), .C_AXI_DATA_WIDTH(32), .C_S_AXI_ACLK_RATIO(1), .C_M_AXI_ACLK_RATIO(2), .C_AXI_IS_ACLK_ASYNC(1), .C_AXI_PROTOCOL(0), .C_AXI_SUPPORTS_USER_SIGNALS(0), .C_AXI_AWUSER_WIDTH(1), .C_AXI_ARUSER_WIDTH(1), .C_AXI_WUSER_WIDTH(1), .C_AXI_RUSER_WIDTH(1), .C_AXI_BUSER_WIDTH(1), .C_AXI_SUPPORTS_WRITE(1), .C_AXI_SUPPORTS_READ(1), .C_SYNCHRONIZER_STAGE(3) ) inst ( .s_axi_aclk(s_axi_aclk), .s_axi_aresetn(s_axi_aresetn), .s_axi_awid(s_axi_awid), .s_axi_awaddr(s_axi_awaddr), .s_axi_awlen(s_axi_awlen), .s_axi_awsize(s_axi_awsize), .s_axi_awburst(s_axi_awburst), .s_axi_awlock(s_axi_awlock), .s_axi_awcache(s_axi_awcache), .s_axi_awprot(s_axi_awprot), .s_axi_awregion(s_axi_awregion), .s_axi_awqos(s_axi_awqos), .s_axi_awuser(1'H0), .s_axi_awvalid(s_axi_awvalid), .s_axi_awready(s_axi_awready), .s_axi_wid(4'H0), .s_axi_wdata(s_axi_wdata), .s_axi_wstrb(s_axi_wstrb), .s_axi_wlast(s_axi_wlast), .s_axi_wuser(1'H0), .s_axi_wvalid(s_axi_wvalid), .s_axi_wready(s_axi_wready), .s_axi_bid(s_axi_bid), .s_axi_bresp(s_axi_bresp), .s_axi_buser(), .s_axi_bvalid(s_axi_bvalid), .s_axi_bready(s_axi_bready), .s_axi_arid(s_axi_arid), .s_axi_araddr(s_axi_araddr), .s_axi_arlen(s_axi_arlen), .s_axi_arsize(s_axi_arsize), .s_axi_arburst(s_axi_arburst), .s_axi_arlock(s_axi_arlock), .s_axi_arcache(s_axi_arcache), .s_axi_arprot(s_axi_arprot), .s_axi_arregion(s_axi_arregion), .s_axi_arqos(s_axi_arqos), .s_axi_aruser(1'H0), .s_axi_arvalid(s_axi_arvalid), .s_axi_arready(s_axi_arready), .s_axi_rid(s_axi_rid), .s_axi_rdata(s_axi_rdata), .s_axi_rresp(s_axi_rresp), .s_axi_rlast(s_axi_rlast), .s_axi_ruser(), .s_axi_rvalid(s_axi_rvalid), .s_axi_rready(s_axi_rready), .m_axi_aclk(m_axi_aclk), .m_axi_aresetn(m_axi_aresetn), .m_axi_awid(m_axi_awid), .m_axi_awaddr(m_axi_awaddr), .m_axi_awlen(m_axi_awlen), .m_axi_awsize(m_axi_awsize), .m_axi_awburst(m_axi_awburst), .m_axi_awlock(m_axi_awlock), .m_axi_awcache(m_axi_awcache), .m_axi_awprot(m_axi_awprot), .m_axi_awregion(m_axi_awregion), .m_axi_awqos(m_axi_awqos), .m_axi_awuser(), .m_axi_awvalid(m_axi_awvalid), .m_axi_awready(m_axi_awready), .m_axi_wid(), .m_axi_wdata(m_axi_wdata), .m_axi_wstrb(m_axi_wstrb), .m_axi_wlast(m_axi_wlast), .m_axi_wuser(), .m_axi_wvalid(m_axi_wvalid), .m_axi_wready(m_axi_wready), .m_axi_bid(m_axi_bid), .m_axi_bresp(m_axi_bresp), .m_axi_buser(1'H0), .m_axi_bvalid(m_axi_bvalid), .m_axi_bready(m_axi_bready), .m_axi_arid(m_axi_arid), .m_axi_araddr(m_axi_araddr), .m_axi_arlen(m_axi_arlen), .m_axi_arsize(m_axi_arsize), .m_axi_arburst(m_axi_arburst), .m_axi_arlock(m_axi_arlock), .m_axi_arcache(m_axi_arcache), .m_axi_arprot(m_axi_arprot), .m_axi_arregion(m_axi_arregion), .m_axi_arqos(m_axi_arqos), .m_axi_aruser(), .m_axi_arvalid(m_axi_arvalid), .m_axi_arready(m_axi_arready), .m_axi_rid(m_axi_rid), .m_axi_rdata(m_axi_rdata), .m_axi_rresp(m_axi_rresp), .m_axi_rlast(m_axi_rlast), .m_axi_ruser(1'H0), .m_axi_rvalid(m_axi_rvalid), .m_axi_rready(m_axi_rready) ); endmodule

module sky130_fd_sc_hd__a31o_1 ( X , A1 , A2 , A3 , B1 , VPWR, VGND, VPB , VNB ); output X ; input A1 ; input A2 ; input A3 ; input B1 ; input VPWR; input VGND; input VPB ; input VNB ; sky130_fd_sc_hd__a31o base ( .X(X), .A1(A1), .A2(A2), .A3(A3), .B1(B1), .VPWR(VPWR), .VGND(VGND), .VPB(VPB), .VNB(VNB) ); endmodule

module sky130_fd_sc_hd__a31o_1 ( X , A1, A2, A3, B1 ); output X ; input A1; input A2; input A3; input B1; // Voltage supply signals supply1 VPWR; supply0 VGND; supply1 VPB ; supply0 VNB ; sky130_fd_sc_hd__a31o base ( .X(X), .A1(A1), .A2(A2), .A3(A3), .B1(B1) ); endmodule

module sky130_fd_sc_lp__dlymetal6s2s ( X , A , VPWR, VGND, VPB , VNB ); // Module ports output X ; input A ; input VPWR; input VGND; input VPB ; input VNB ; // Local signals wire buf0_out_X ; wire pwrgood_pp0_out_X; // Name Output Other arguments buf buf0 (buf0_out_X , A ); sky130_fd_sc_lp__udp_pwrgood_pp$PG pwrgood_pp0 (pwrgood_pp0_out_X, buf0_out_X, VPWR, VGND); buf buf1 (X , pwrgood_pp0_out_X ); endmodule

module alu_datapath(clk, alu_data, opcode_value, store_a, store_b, start, alu_done, result, overflow_def); parameter DATA_WIDTH = 8; input clk; input alu_data; input opcode_value; input store_a; input store_b; input start; output alu_done; output result; output overflow_def; reg overflow_def; wire clk; wire [DATA_WIDTH-1:0] alu_data; wire [1:0] opcode_value; wire store_a; wire store_b; wire start; reg alu_done; reg start_def; reg [DATA_WIDTH-1:0] result; parameter ON = 1'b1; parameter OFF = 1'b0; parameter ADD = 2'b00; parameter SUB = 2'b01; parameter PAR = 2'b10; parameter COMP = 2'b11; reg [DATA_WIDTH-1:0] buf_a; reg [DATA_WIDTH-1:0] buf_b; wire done; reg [DATA_WIDTH-1:0] add_a; reg [DATA_WIDTH-1:0] add_b; wire [DATA_WIDTH-1:0] add_sum; reg add_carry_in; wire add_overflow; reg [DATA_WIDTH-1:0] sub_a; reg [DATA_WIDTH-1:0] sub_b; wire [DATA_WIDTH-1:0] sub_diff; reg sub_borrow_in; wire sub_borrow_out; reg [DATA_WIDTH-1:0] par_a; reg [DATA_WIDTH-1:0] par_b; wire [DATA_WIDTH-1:0] par_parity; reg [DATA_WIDTH-1:0] comp_a; reg [DATA_WIDTH-1:0] comp_b; wire [DATA_WIDTH-1:0] comp_comp; always @(posedge clk or store_a or store_b or start) begin if(store_a) begin buf_a = alu_data; end else if(store_b) begin buf_b = alu_data; end else if(start) begin case(opcode_value) ADD: begin add_a = buf_a; add_b = buf_b; add_carry_in = 1'b0; start_def = 1'b1; end SUB: begin sub_a = buf_a; sub_b = buf_b; sub_borrow_in = 1'b0; start_def = 1'b1; end PAR: begin par_a = buf_a; par_b = buf_b; start_def = 1'b1; end COMP: begin comp_a = buf_a; comp_b = buf_b; start_def = 1'b1; end endcase end end always @(posedge clk or done) begin if(done) begin case(opcode_value) ADD: begin result = add_sum; overflow_def = add_overflow; alu_done = ON; end SUB: begin result = sub_diff; overflow_def = sub_borrow_out; alu_done = ON; end PAR: begin result = par_parity; alu_done = ON; overflow_def = OFF; end COMP: begin result = comp_a ^~ comp_b; alu_done = ON; overflow_def = OFF; end endcase end else begin result = 0; overflow_def = 0; alu_done = OFF; end end byte_adder #(DATA_WIDTH) adder_ex( .byte_a(add_a), .byte_b(add_b), .byte_carry_in(add_carry_in), .byte_sum(add_sum), .byte_overflow(add_overflow), .start(start_def), .done(done) ); byte_subtractor #(DATA_WIDTH) subtractor_ex( .byte_a(sub_a), .byte_b(sub_b), .byte_borrow_in(sub_borrow_in), .byte_diff(sub_diff), .byte_borrow_out(sub_borrow_out), .start(start_def), .done(done) ); byte_parity #(DATA_WIDTH) parity_ex( .byte_a(par_a), .byte_b(par_b), .byte_parity(par_parity), .start(start_def), .done(done) ); byte_comp #(DATA_WIDTH) comp_ex( .byte_a(comp_a), .byte_b(comp_b), .byte_comp(comp_comp), .start(start_def), .done(done) ); endmodule

module fifo_181x128a ( aclr, data, rdclk, rdreq, wrclk, wrreq, q, rdempty, wrempty, wrusedw); input aclr; input [180:0] data; input rdclk; input rdreq; input wrclk; input wrreq; output [180:0] q; output rdempty; output wrempty; output [6:0] wrusedw; `ifndef ALTERA_RESERVED_QIS // synopsys translate_off `endif tri0 aclr; `ifndef ALTERA_RESERVED_QIS // synopsys translate_on `endif endmodule

module timer_controller ( input wire clock, input wire reset, input wire int_ack, output reg int_req, input wire [15:0] A, input wire [7:0] Di, output wire [7:0] Do, input wire wr_n, input wire rd_n, input wire cs ); //////////////////////////////////////////////// // Timer Registers // // DIV - Divider Register (FF04) // Increments 16384 times a second // // TIMA - Timer Counter (FF05) // Increments at frequency specified by TAC // // TMA - Timer Modulo (FF06) // Value to load into TIMA on overflow // // TAC - Timer Control (FF07) // Bit 2: 0 <= stop, 1 <= start // Bit 1-0: 00 <= 4.096 KHz // 01 <= 262.144 KHz // 10 <= 65.536 KHz // 11 <= 16.384 KHz //////////////////////////////////////////////// reg[7:0] DIV; reg[7:0] TIMA; reg[7:0] TMA; reg[7:0] TAC; reg[7:0] reg_out; parameter MAX_TIMER = 8'hFF; wire enable; wire e0, e1, e2, e3; divider #(1024) d0(reset, clock, e0); divider #(16) d1(reset, clock, e1); divider #(64) d2(reset, clock, e2); divider #(256) d3(reset, clock, e3); always @(posedge clock) begin if (reset) begin DIV <= 8'h0; TIMA <= 8'h0; TMA <= 8'h0; TAC <= 8'h0; int_req <= 1'b0; reg_out <= 8'h0; end else begin // Read / Write for registers if (cs) begin if (!wr_n) begin case (A) 16'hFF04: DIV <= 8'h0; 16'hFF05: TIMA <= Di; 16'hFF06: TMA <= Di; 16'hFF07: TAC <= Di; endcase end else if (!rd_n) begin case (A) 16'hFF04: reg_out <= DIV; 16'hFF05: reg_out <= TIMA; 16'hFF06: reg_out <= TMA; 16'hFF07: reg_out <= TAC; endcase end end // Clear overflow interrupt if (int_ack) int_req <= 1'b0; // Increment timers if (enable) begin if (TIMA == MAX_TIMER) int_req <= 1'b1; TIMA <= (TIMA == MAX_TIMER) ? TMA : TIMA + 1'b1; end if (e3) begin DIV <= DIV + 1'b1; end end end assign Do = (cs) ? reg_out : 8'hZZ; assign enable = (TAC[2] == 0) ? 1'b0 : (TAC[1:0] == 0) ? e0 : (TAC[1:0] == 1) ? e1 : (TAC[1:0] == 2) ? e2 : (TAC[1:0] == 3) ? e3 : 1'b0; endmodule

module lspc2_a2( input CLK_24M, input RESET, output [15:0] PBUS_OUT, inout [23:16] PBUS_IO, input [3:1] M68K_ADDR, inout [15:0] M68K_DATA, input LSPOE, LSPWE, input DOTA, DOTB, output CA4, output S2H1, output S1H1, output LOAD, output H, EVEN1, EVEN2, // For ZMC2 output IPL0, IPL1, output CHG, // Also called TMS0 output LD1, LD2, // Buffer address load output PCK1, PCK2, output [3:0] WE, output [3:0] CK, output SS1, SS2, // Buffer pair selection for B1 output RESETP, output SYNC, output CHBL, output BNKB, output VCS, // LO ROM output enable output LSPC_8M, output LSPC_4M ); parameter VMODE = 1'b0; // NTSC wire [8:0] PIXELC; wire [3:0] PIXEL_HPLUS; wire [8:0] RASTERC; wire [7:0] AA_SPEED; wire [2:0] AA_COUNT; // Auto-animation tile # wire [15:0] CPU_DATA_OUT; wire [15:0] VRAM_LOW_READ; wire [15:0] VRAM_HIGH_READ; wire [15:0] REG_VRAMADDR; wire [15:0] VRAM_ADDR; wire [15:0] VRAM_ADDR_MUX; wire [15:0] VRAM_ADDR_AUTOINC; wire [15:0] REG_VRAMRW; wire [15:0] VRAM_WRITE; wire [15:0] REG_VRAMMOD; wire [15:0] REG_LSPCMODE; wire [2:0] TIMER_MODE; wire [3:0] T31_P; wire [3:0] U24_P; wire [3:0] O227_Q; wire [7:0] P_MUX_HIGH; wire [7:0] P_MUX_LOW; wire [23:0] P_OUT_MUX; wire [3:0] VSHRINK_INDEX; wire [3:0] VSHRINK_LINE; wire [8:0] XPOS; wire [7:0] XPOS_ROUND_UP; wire [2:0] SPR_TILE_AA; wire [3:0] G233_Q; wire [7:0] SPR_Y_LOOKAHEAD; wire [8:0] SPR_Y_ADD; wire [7:0] SPR_TILE_A; // This should be called SPR_Y_RENDER or something similar wire [7:0] SPR_TILE_AB; // This should be called SPR_Y_RENDER_LOOP or something similar wire [8:0] SPR_Y_SHRINK; wire [3:0] SPR_LINE; wire [7:0] SPR_LINE_MUX; wire [19:0] SPR_TILE; wire [7:0] YSHRINK; wire [8:0] SPR_Y; wire [7:0] SPR_PAL; wire [3:0] FIX_PAL; wire [11:0] FIX_TILE; wire [3:0] HSHRINK; wire [15:0] PIPE_C; wire [3:0] SPR_TILEMAP; wire [7:0] ACTIVE_RD; wire [3:0] P201_Q; assign S1H1 = LSPC_3M; assign S2H1 = LSPC_1_5M; // PCK1, PCK2, H FD2 T168A(CLK_24M, T160A_OUT, PCK1, nPCK1); FD2 T162A(CLK_24M, T160B_OUT, PCK2, ); FD2 U167(~PCK2, T172_Q, H, ); FDM T172(nPCK1, SPR_TILE_HFLIP, T172_Q, ); assign CA4 = T172_Q ^ LSPC_1_5M; // EVEN1, EVEN2 assign U105A_OUT = ~&{nHSHRINK_OUT_A, nHSHRINK_OUT_B, nEVEN_ODD}; assign U107_OUT = ~&{nHSHRINK_OUT_A, EVEN_nODD, HSHRINK_OUT_B}; assign U109_OUT = ~&{HSHRINK_OUT_A, nEVEN_ODD}; assign U112_OUT = ~&{U105A_OUT, U107_OUT, U109_OUT}; //assign #13 EVEN1 = U112_OUT; // BD5 U162 assign EVEN1 = U112_OUT; FD2 U144A(CLK_24M, U112_OUT, EVEN2, ); // Pixel parity select assign nPARITY_INIT = ~&{nCHAINED, S53A_OUT}; // R42A assign nXPOS_ZERO = ~PIPE_C[0]; assign S58A_OUT = ~|{nXPOS_ZERO, nPARITY_INIT}; assign ONE_PIXEL = HSHRINK_OUT_A ^ HSHRINK_OUT_B; // U83 assign U72_OUT = ONE_PIXEL ^ nEVEN_ODD; assign U57B_OUT = nPARITY_INIT & U72_OUT; assign U56A_OUT = ~|{S58A_OUT, U57B_OUT}; FD2 U68A(CLK_24MB, ~LSPC_12M, CK_HSHRINK_REG, U68A_nQ); FD2 U74A(~U68A_nQ, U56A_OUT, EVEN_nODD, nEVEN_ODD); // CPU VRAM address update select // $3C0000 REG_VRAMADDR 0 (update with written value) // $3C0002 REG_VRAMRW 1 (update with REG_VRAMMOD) assign C22A_OUT = ~&{WR_VRAM_RW, WR_VRAM_ADDR}; FDM B18(C22A_OUT, M68K_ADDR[1], VRAM_ADDR_UPD_TYPE, ); // VRAM_ADDR with REG_VRAMMOD applied // G18 G81 F91 F127 assign VRAM_ADDR_AUTOINC = REG_VRAMMOD + VRAM_ADDR; // CPU VRAM address update mux // C144A C142A C140B C138B // A112B A111A A109A A110B // D110B D106B D108B D85A // F10A F12A F26A F12B assign VRAM_ADDR_MUX = VRAM_ADDR_UPD_TYPE ? VRAM_ADDR_AUTOINC : REG_VRAMADDR; // VRAM address update FFs // F14 D48 C105 C164 FDS16bit F14(D112B_OUT, VRAM_ADDR_MUX, VRAM_ADDR); // ...Second stage // F165 D178 D141 E196 FDS16bit E196(O108B_OUT, REG_VRAMRW, VRAM_WRITE); // Pulse for updating internal VRAM address // nCPU_WR_HIGH and nCPU_WR_LOW are "write done" pulses for both VRAM zones // Happens when write is done or write to REG_VRAMADDR assign O108B_OUT = ~&{nCPU_WR_HIGH, nCPU_WR_LOW}; assign D112B_OUT = ~|{~WR_VRAM_ADDR, O108B_OUT}; // CPU read data output. Outputs are not enabled all at once, this is strange. // After LSPOE goes low, at least 1.5mclk is required for all outputs to be enabled. FDM C71(CLK_24M, LSPOE, C71_Q, LSPOE_SEQA); FDM C68(CLK_24MB, C71_Q, C68_Q, LSPOE_SEQB); FDM C75(CLK_24M, C68_Q, , LSPOE_SEQC); assign M68K_DATA[1:0] = LSPOE ? 2'bzz : CPU_DATA_OUT[1:0]; // No delay assign B71_OUT = ~&{~LSPOE, LSPOE_SEQA}; assign M68K_DATA[7:2] = B71_OUT ? 6'bzzzzzz : CPU_DATA_OUT[7:2]; // t+1 assign B75A_OUT = ~&{~LSPOE, LSPOE_SEQB}; assign M68K_DATA[9:8] = B75A_OUT ? 2'bzz : CPU_DATA_OUT[9:8]; // t+2 assign B74_OUT = ~&{~LSPOE, LSPOE_SEQC}; assign M68K_DATA[15:10] = B74_OUT ? 6'bzzzzzz : CPU_DATA_OUT[15:10]; // t+3 // Auto-animation bit enables // C184A assign AUTOANIM3_EN = SPR_AA_3 & ~AA_DISABLE; assign C186A_OUT = SPR_AA_2 & ~AA_DISABLE; // B180B assign AUTOANIM2_EN = AUTOANIM3_EN | C186A_OUT; // Timing/sequencing stuff // This doesn't mean anything special, it just outputs periodic signals to get everything moving assign T56A_OUT = ~&{LSPC_6M, LSPC_3M}; assign T58A_OUT = ~&{LSPC_6M, LSPC_3M}; FDM T53(LSPC_12M, T56A_OUT, T53_Q, ); FDM U53(CLK_24M, T53_Q, U53_Q, ); assign nPBUS_OUT_EN = U53_Q & T53_Q; FDPCell T69(LSPC_12M, LSPC_3M, RESETP, 1'b1, , T69_nQ); assign T73A_OUT = LSPC_3M | T69_nQ; FJD T140(CLK_24M, T134_nQ, 1'b1, T73A_OUT, T140_Q, ); FJD T134(CLK_24M, T140_Q, 1'b1, T73A_OUT, , T134_nQ); FD2 U129A(CLK_24M, T134_nQ, U129A_Q, U129A_nQ); assign T125A_OUT = U129A_nQ | T140_Q; BD3 P198A(Q174B_OUT, P198A_OUT); FS1 P201(LSPC_12M, P198A_OUT, P201_Q); assign P219A_OUT = ~|{O159_QB, ~P201_Q[0]}; assign P222A_OUT = ~&{P219A_OUT, ~P201_Q[1]}; assign CLK_SPR_TILE = P201_Q[1]; assign R94A_OUT = ~&{P201_Q[2], R91_Q}; assign D208B_OUT = ~P201_Q[3]; // NEO-B1 control signals // Latch for CK1/2 and WE1/2 LT4 T31(LSPC_12M, {T38A_OUT, T28_OUT, T29A_OUT, T20B_OUT}, T31_P, ); // Latch for CK3/4 and WE3/4 LT4 U24(LSPC_12M, {U37B_OUT, U21B_OUT, U35A_OUT, U31A_OUT}, U24_P, ); // CKs and WEs can only be low when LSPC_12M is high assign WE1 = ~&{T31_P[0], LSPC_12M}; assign WE2 = ~&{T31_P[1], LSPC_12M}; assign CK1 = ~&{T31_P[2], LSPC_12M}; assign CK2 = ~&{T31_P[3], LSPC_12M}; assign WE3 = ~&{U24_P[2], LSPC_12M}; assign WE4 = ~&{U24_P[3], LSPC_12M}; assign CK3 = ~&{U24_P[0], LSPC_12M}; assign CK4 = ~&{U24_P[1], LSPC_12M}; assign WE = {WE4, WE3, WE2, WE1}; assign CK = {CK4, CK3, CK2, CK1}; // Most of the following NAND gates are making 2:1 muxes like on the Alpha68k // For buffer A: // Clearing write pulses gates assign T22A_OUT = ~&{T50B_OUT, SS1}; assign T40B_OUT = ~&{T48A_OUT, SS1}; // WRITEPX* gates assign T50A_OUT = ~&{WRITEPX_A, CHG_D}; assign T40A_OUT = ~&{WRITEPX_B, CHG_D}; // Enable writes for opaque pixels only assign T17A_OUT = ~&{DOTA, ~T50A_OUT}; assign T22B_OUT = ~&{DOTB, ~T40A_OUT}; // Merge writes with clearing write pulses assign T20B_OUT = ~&{T22A_OUT, T17A_OUT}; assign T29A_OUT = ~&{T40B_OUT, T22B_OUT}; // Merge clocks with LD1_D pulses assign T28_OUT = ~&{T22A_OUT, LD1_D, T50A_OUT}; assign T38A_OUT = ~&{T40B_OUT, T40A_OUT, LD1_D}; // For buffer B: // Clearing write pulses gates assign U33B_OUT = ~&{T48A_OUT, SS2}; assign T20A_OUT = ~&{T50B_OUT, SS2}; // WRITEPX* gates assign U51B_OUT = ~&{WRITEPX_A, nCHG_D}; assign U39B_OUT = ~&{WRITEPX_B, nCHG_D}; // Enable writes for opaque pixels only assign U18A_OUT = ~&{DOTA, ~U51B_OUT}; assign U38A_OUT = ~&{DOTB, ~U39B_OUT}; // Merge writes with clearing write pulses assign U21B_OUT = ~&{T20A_OUT, U18A_OUT}; assign U37B_OUT = ~&{U33B_OUT, U38A_OUT}; // Merge clocks with LD1_D pulses assign U35A_OUT = ~&{LD2_D, U33B_OUT, U39B_OUT}; assign U31A_OUT = ~&{LD2_D, T20A_OUT, U51B_OUT}; // Buffer shift-out clocks, alternates between odd/even assign T50B_OUT = LSPC_3M & LSPC_6M; assign T48A_OUT = ~LSPC_3M & LSPC_6M; // Pixel write pulse selection (odd/even) assign U89A_OUT = ~&{nHSHRINK_OUT_B, nEVEN_ODD, HSHRINK_OUT_A}; assign U92A_OUT = ~&{nHSHRINK_OUT_A, nEVEN_ODD, HSHRINK_OUT_B}; assign U91_OUT = ~&{nHSHRINK_OUT_B, EVEN_nODD, HSHRINK_OUT_A}; assign U94_OUT = ~&{nHSHRINK_OUT_A, EVEN_nODD, HSHRINK_OUT_B}; // Enabled write pulses only if pixel is not skipped for h-shrink assign U88B_OUT = HSHRINK_OUT_A | HSHRINK_OUT_B; assign U85_OUT = &{U89A_OUT, U92A_OUT, U88B_OUT}; assign U86A_OUT = &{U88B_OUT, U94_OUT, U91_OUT}; // Final FFs FD2 T82A(CLK_24M, U85_OUT, WRITEPX_A, ); FD2 T86(CLK_24M, U86A_OUT, WRITEPX_B, ); // LD1/2 signal generation. Those are used to tell NEO-B1 to reload the write address (X position) // Get which buffer should have the rendering pulses, and which should have the reset pulse FDM R50(LSPC_3M, FLIP_nQ, R50_Q, R50_nQ); // Periodic signals FDM R69(LSPC_3M, LSPC_1_5M, R69_Q, R69_nQ); FDM S55(LSPC_12M, LSPC_3M, S55_Q, ); assign S53A_OUT = S55_Q & LSPC_6M; // LOAD output FD2 R35A(CLK_24MB, S53A_OUT, LOAD, ); // For LD1: // Gate with chain bit (prevents address reload) assign nCHAINED = ~|{PIPE_C[13], R69_nQ}; // Gate reset LD pulse (once at start of line being shifted out) assign R44B_OUT = ~&{R50_nQ, R53_Q}; // Gate rendering LD pulses assign R48B_OUT = ~&{nCHAINED, R50_Q}; // Merge assign R42B_OUT = ~&{R44B_OUT, R48B_OUT}; // Sync assign LD1_D = ~&{R42B_OUT, S53A_OUT}; FD2 R32(CLK_24MB, LD1_D, LD1, ); // For LD2: // Gate reset LD pulse (once at start of line being shifted out) assign R44A_OUT = ~&{R53_Q, R50_Q}; // Gate rendering LD pulses assign R46A_OUT = ~&{R50_nQ, nCHAINED}; // Merge assign R46B_OUT = ~&{R44A_OUT, R46A_OUT}; // Sync assign LD2_D = ~&{R46B_OUT, S53A_OUT}; FD2 R28A(CLK_24MB, LD2_D, LD2, ); // Reset LD pulse generation. This tells NEO-B1 to reload the address before shifting out a buffer // At this very moment, the address should be 000 on the P bus // Triggers at pixel #264 FDPCell O62(PIXELC[3], PIXELC[8], 1'b1, RESETP, O62_Q, ); // Triggers at pixel #268 FDPCell P74(PIXELC[2], O62_Q, 1'b1, RESETP, P74_Q, ); // Make unique pulse FDM R53(LSPC_3M, R67A_OUT, R53_Q, ); assign R67A_OUT = R74_nQ & P74_Q; FDPCell R74(LSPC_1_5M, P74_Q, 1'b1, RESETP, , R74_nQ); // Reload pulse for the h-shrink shift registers // Perdiodic as all sprites take the same time to render regardless of h-shrink value assign R48A_OUT = ~&{S53A_OUT, R69_Q}; FD2 R56A(CLK_24MB, R48A_OUT, LD_HSHRINK_REG, ); // CHG output FDPCell S137(LSPC_1_5M, CHG_D, 1'b1, RESETP, CHG, ); // SS1/2 outputs, periodic FDPCell O69(CLK_24MB, nFLIP, RESETP, 1'b1, , FLIP_nQ); FDPCell R63(PIXELC[2], FLIP_nQ, 1'b1, RESETP, CHG_D, nCHG_D); FDM S48(LSPC_3M, R15_QD, , S48_nQ); // S40A assign SS1 = ~|{S48_nQ, CHG_D}; // S39 assign SS2 = ~|{nCHG_D, S48_nQ}; // 16-pixel lookahead for fix tiles assign J20A_OUT = ~&{PIXELC[8:7]}; // I51 assign PIXEL_HPLUS = 5'd15 + {~J20A_OUT, PIXELC[6:4]} + PIXELC[3]; // V-shrink mirroring and pipeline FDM R179(VCS, SPR_CONTINUOUS, R179_Q, ); // Mirror V-shrink values for second half of sprite if needed assign S186_OUT = ~(~P235_OUT ^ R179_Q); assign SPRITEMAP_ADDR_MSB = ~S186_OUT; assign S166_OUT = VSHRINK_LINE[3] ^ ~S186_OUT; assign S164_OUT = VSHRINK_LINE[2] ^ ~S186_OUT; assign S162_OUT = VSHRINK_LINE[1] ^ ~S186_OUT; assign S168_OUT = VSHRINK_LINE[0] ^ ~S186_OUT; FDSCell O227(P222A_OUT, {S166_OUT, S164_OUT, S162_OUT, S168_OUT}, O227_Q); FDSCell G233(~P201_Q[1], O227_Q, G233_Q); assign SPR_LINE[0] = SPR_TILE_VFLIP ^ G233_Q[0]; assign SPR_LINE[1] = SPR_TILE_VFLIP ^ G233_Q[1]; assign SPR_LINE[2] = SPR_TILE_VFLIP ^ G233_Q[2]; assign SPR_LINE[3] = SPR_TILE_VFLIP ^ G233_Q[3]; assign Q184_OUT = VSHRINK_INDEX[3] ^ ~S186_OUT; assign Q182_OUT = VSHRINK_INDEX[2] ^ ~S186_OUT; assign Q186_OUT = VSHRINK_INDEX[1] ^ ~S186_OUT; assign Q172_OUT = VSHRINK_INDEX[0] ^ ~S186_OUT; FDSCell O175(P222A_OUT, {Q184_OUT, Q182_OUT, Q186_OUT, Q172_OUT}, SPR_TILEMAP); // P bus stuff // Lookup ROM data latch FDSCell Q87(VCS, PBUS_IO[23:20], VSHRINK_INDEX); FDSCell S141(VCS, PBUS_IO[19:16], VSHRINK_LINE); FDM R88(CLK_24M, R94A_OUT, R88_Q, R88_nQ); assign VCS = ~R88_nQ; assign T185B_OUT = PCK1 | PCK2; // Data select lines FDM S183(T185B_OUT, S171_Q, S183_Q, ); BD3 P196(S183_Q, S183_Q_DELAYED); FDM S171(U53_Q, LSPC_1_5M, S171_Q, S171_nQ); assign XPOS = PIPE_C[8:0]; assign SPR_TILE_AA[2] = AUTOANIM3_EN ? AA_COUNT[2] : SPR_TILE[2]; assign SPR_TILE_AA[1:0] = AUTOANIM2_EN ? AA_COUNT[1:0] : SPR_TILE[1:0]; // Q125 R120 assign XPOS_ROUND_UP = XPOS[8:1] + XPOS[0]; // K143A K145A K147A K149A // Q111A Q113B Q113A Q111B assign P_MUX_HIGH = R88_Q ? XPOS[8:1] : YSHRINK; // R185A R185B R183A R183B // R277A R277B R275A R275B assign SPR_LINE_MUX = SPR_CONTINUOUS ? ~SPR_TILE_AB : SPR_TILE_A; // Might be swapped // R149A R149B R147A R147B // Q149A Q120A Q121B Q149B assign P_MUX_LOW = R88_Q ? XPOS_ROUND_UP : SPR_LINE_MUX; // Output mux // C250 A238A A232 A234A // E271 E273A E268A D255 assign P_OUT_MUX[23:16] = ~S183_Q_DELAYED ? ~S171_nQ ? {SPR_PAL} : {SPR_TILE[19:16], SPR_LINE} : ~S171_nQ ? {8'b00000000} : {4'b0000, FIX_PAL}; // J39A M230A L228A L247A // C256 B269A B273A B276A // B220 C248 B217A B215 // B197A B130A B128 B148A assign P_OUT_MUX[15:0] = ~S183_Q_DELAYED ? ~S171_nQ ? {P_MUX_HIGH, P_MUX_LOW} : {SPR_TILE[15:8], SPR_TILE[7:3], SPR_TILE_AA} : ~S171_nQ ? {PIXELC[2], RASTERC[2:1], FLIP, FIX_TILE[11:8], FIX_TILE[7:0]} : {8'b00000000, 8'b00000000}; assign PBUS_IO = nPBUS_OUT_EN ? 8'bzzzzzzzz : P_OUT_MUX[23:16]; assign PBUS_OUT = P_OUT_MUX[15:0]; // Y position stuff // O268 O237 assign SPR_Y_LOOKAHEAD = {RASTERC[7:1], FLIP} + 1'b1; // P261 P237 assign SPR_Y_ADD = SPR_Y_LOOKAHEAD + SPR_Y[7:0]; // R216 R218 R238 R241 // R281 R283 Q289 Q291 assign SPR_TILE_A = SPR_Y_ADD[7:0] ^ {8{~P235_OUT}}; assign P235_OUT = ~(SPR_Y[8] ^ SPR_Y_ADD[8]); // Q237 R189 assign SPR_Y_SHRINK = SPR_TILE_A + ~YSHRINK; // Q265 R151 assign SPR_TILE_AB = SPR_TILE_A + {~YSHRINK[6:0], 1'b0}; // Special #33 height detection // R222A assign SPR_CONTINUOUS = &{SPR_SIZE0, SPR_SIZE5, SPR_Y_SHRINK[8]}; lspc_regs REGS(RESET, RESETP, M68K_ADDR, M68K_DATA, LSPOE, LSPWE, VMODE, RASTERC, AA_COUNT, VRAM_LOW_READ, VRAM_HIGH_READ, WR_VRAM_ADDR, WR_VRAM_RW, WR_TIMER_HIGH, WR_TIMER_LOW, WR_IRQ_ACK, REG_VRAMADDR, REG_VRAMMOD, REG_VRAMRW, REG_LSPCMODE, CPU_DATA_OUT, AA_SPEED, TIMER_MODE, TIMER_IRQ_EN, AA_DISABLE, TIMER_STOP, nVRAM_WRITE_REQ, D112B_OUT); lspc_timer TIMER(LSPC_6M, RESETP, M68K_DATA, WR_TIMER_HIGH, WR_TIMER_LOW, VMODE, TIMER_MODE, TIMER_STOP, RASTERC, TIMER_IRQ_EN, R74_nQ, BNKB, D46A_OUT); resetp RSTP(CLK_24MB, RESET, RESETP); irq IRQ(WR_IRQ_ACK, M68K_DATA[2:0], RESET, D46A_OUT, BNK, LSPC_6M, IPL0, IPL1); videosync VS(CLK_24MB, LSPC_3M, LSPC_1_5M, Q53_CO, RESETP, VMODE, PIXELC, RASTERC, SYNC, BNK, BNKB, CHBL, R15_QD, FLIP, nFLIP, P50_CO); lspc2_clk LSPCCLK(CLK_24M, RESETP, CLK_24MB, LSPC_12M, LSPC_8M, LSPC_6M, LSPC_4M, LSPC_3M, LSPC_1_5M, Q53_CO); slow_cycle SCY(CLK_24M, CLK_24MB, LSPC_12M, LSPC_6M, LSPC_3M, LSPC_1_5M, RESETP, VRAM_ADDR[14:0], VRAM_WRITE, REG_VRAMADDR[15], PIXELC[3], PIXELC[8], RASTERC[7:3], PIXEL_HPLUS, ACTIVE_RD, nVRAM_WRITE_REQ, SPR_TILEMAP, SPR_TILE_VFLIP, SPR_TILE_HFLIP, SPR_AA_3, SPR_AA_2, FIX_TILE, FIX_PAL, SPR_TILE, SPR_PAL, VRAM_LOW_READ, nCPU_WR_LOW, R91_nQ, CLK_CPU_READ_LOW, T160A_OUT, T160B_OUT, CLK_ACTIVE_RD, ACTIVE_RD_PRE8, Q174B_OUT, D208B_OUT, SPRITEMAP_ADDR_MSB, CLK_SPR_TILE, P222A_OUT, ~P201_Q[1]); fast_cycle FCY(CLK_24M, LSPC_12M, LSPC_6M, LSPC_3M, LSPC_1_5M, RESETP, nVRAM_WRITE_REQ, VRAM_ADDR, VRAM_WRITE, REG_VRAMADDR[15], FLIP, nFLIP, PIXELC, RASTERC, P50_CO, nCPU_WR_HIGH, HSHRINK, PIPE_C, VRAM_HIGH_READ, ACTIVE_RD, R91_Q, R91_nQ, T140_Q, T58A_OUT, T73A_OUT, U129A_Q, T125A_OUT, CLK_ACTIVE_RD, ACTIVE_RD_PRE8, SPR_Y, YSHRINK, SPR_SIZE0, SPR_SIZE5, O159_QB); autoanim AA(RASTERC[8], RESETP, AA_SPEED, AA_COUNT); hshrink HSH(HSHRINK, CK_HSHRINK_REG, LD_HSHRINK_REG, HSHRINK_OUT_A, HSHRINK_OUT_B); assign nHSHRINK_OUT_A = ~HSHRINK_OUT_A; assign nHSHRINK_OUT_B = ~HSHRINK_OUT_B; endmodule

module prcfg_adc ( clk, // control ports control, status, // FIFO interface src_adc_enable, src_adc_valid, src_adc_data, dst_adc_enable, dst_adc_valid, dst_adc_data ); localparam RP_ID = 8'hA1; parameter CHANNEL_ID = 0; input clk; input [31:0] control; output [31:0] status; input src_adc_enable; input src_adc_valid; input [15:0] src_adc_data; output dst_adc_enable; output dst_adc_valid; output [15:0] dst_adc_data; reg dst_adc_enable; reg dst_adc_valid; reg [15:0] dst_adc_data; reg [31:0] status = 0; reg [15:0] adc_pn_data = 0; reg [ 3:0] mode; reg [ 3:0] channel_sel; wire adc_dvalid; wire [15:0] adc_pn_data_s; wire adc_pn_oos_s; wire adc_pn_err_s; // prbs function function [15:0] pn; input [15:0] din; reg [15:0] dout; begin dout[15] = din[14] ^ din[15]; dout[14] = din[13] ^ din[14]; dout[13] = din[12] ^ din[13]; dout[12] = din[11] ^ din[12]; dout[11] = din[10] ^ din[11]; dout[10] = din[ 9] ^ din[10]; dout[ 9] = din[ 8] ^ din[ 9]; dout[ 8] = din[ 7] ^ din[ 8]; dout[ 7] = din[ 6] ^ din[ 7]; dout[ 6] = din[ 5] ^ din[ 6]; dout[ 5] = din[ 4] ^ din[ 5]; dout[ 4] = din[ 3] ^ din[ 4]; dout[ 3] = din[ 2] ^ din[ 3]; dout[ 2] = din[ 1] ^ din[ 2]; dout[ 1] = din[ 0] ^ din[ 1]; dout[ 0] = din[14] ^ din[15] ^ din[ 0]; pn = dout; end endfunction assign adc_dvalid = src_adc_enable & src_adc_valid; always @(posedge clk) begin channel_sel <= control[3:0]; mode <= control[7:4]; end // prbs generation always @(posedge clk) begin if(adc_dvalid == 1'b1) begin adc_pn_data <= pn(adc_pn_data_s); end end assign adc_pn_data_s = (adc_pn_oos_s == 1'b1) ? src_adc_ddata : adc_pn_data; ad_pnmon #( .DATA_WIDTH(32) ) i_pn_mon ( .adc_clk(clk), .adc_valid_in(adc_dvalid), .adc_data_in(src_adc_ddata), .adc_data_pn(adc_pn_data), .adc_pn_oos(adc_pn_oos_s), .adc_pn_err(adc_pn_err_s)); // rx path are passed through on test mode always @(posedge clk) begin dst_adc_enable <= src_adc_enable; dst_adc_data <= src_adc_data; dst_adc_valid <= src_adc_valid; end // setup status bits for gpio_out always @(posedge clk) begin if((mode == 3'd2) && (channel_sel == CHANNEL_ID)) begin status <= {22'h0, adc_pn_err_s, adc_pn_oos_s, RP_ID}; end else begin status <= {24'h0, RP_ID}; end end endmodule

module opicorv32_alu ( reg_op2, reg_op1, instr, is, alu_out, alu_out_0 ); input [31:0] reg_op2; input [31:0] reg_op1; input [47:0] instr; input [14:0] is; output [31:0] alu_out; output alu_out_0; /* signal declarations */ wire [31:0] _1209; wire [31:0] _1207; wire [31:0] _1215; wire _1172; wire _1169; wire _1170; wire _1178; wire [30:0] _1158; wire _1159; wire _1160; wire [31:0] _1161; wire [30:0] _1162; wire _1163; wire _1164; wire [31:0] _1165; wire _1166; wire _1167; wire _1155; wire _1156; wire _1176; wire _1180; wire [30:0] _1145; wire _1146; wire _1147; wire [31:0] _1148; wire [30:0] _1149; wire _1150; wire _1151; wire [31:0] _1152; wire _1153; wire _1143; wire _1154; wire _1174; wire _1157; wire _1168; wire _1177; wire _1171; wire _1173; wire _1179; wire _1181; wire _1182; wire [30:0] _1203 = 31'b0000000000000000000000000000000; wire [31:0] _1205; wire [31:0] _1192; wire [31:0] _1213; wire [31:0] _1217; wire [31:0] _1188; wire [31:0] _1184; wire _1189; wire _1190; wire _1191; wire [31:0] _1211; wire _1193; wire _1194; wire _1195; wire _1206; wire _1214; wire _1208; wire _1210; wire _1216; wire _1218; wire [31:0] _1219; /* logic */ assign _1209 = reg_op1 + reg_op2; assign _1207 = reg_op1 - reg_op2; assign _1215 = _1210 ? _1209 : _1207; assign _1172 = reg_op1 == reg_op2; assign _1169 = reg_op1 == reg_op2; assign _1170 = ~ _1169; assign _1178 = _1173 ? _1172 : _1170; assign _1158 = reg_op2[30:0]; assign _1159 = reg_op2[31:31]; assign _1160 = ~ _1159; assign _1161 = { _1160, _1158 }; assign _1162 = reg_op1[30:0]; assign _1163 = reg_op1[31:31]; assign _1164 = ~ _1163; assign _1165 = { _1164, _1162 }; assign _1166 = _1165 < _1161; assign _1167 = ~ _1166; assign _1155 = reg_op1 < reg_op2; assign _1156 = ~ _1155; assign _1176 = _1168 ? _1167 : _1156; assign _1180 = _1179 ? _1178 : _1176; assign _1145 = reg_op2[30:0]; assign _1146 = reg_op2[31:31]; assign _1147 = ~ _1146; assign _1148 = { _1147, _1145 }; assign _1149 = reg_op1[30:0]; assign _1150 = reg_op1[31:31]; assign _1151 = ~ _1150; assign _1152 = { _1151, _1149 }; assign _1153 = _1152 < _1148; assign _1143 = reg_op1 < reg_op2; assign _1154 = is[7:7]; assign _1174 = _1154 ? _1153 : _1143; assign _1157 = instr[9:9]; assign _1168 = instr[7:7]; assign _1177 = _1168 | _1157; assign _1171 = instr[5:5]; assign _1173 = instr[4:4]; assign _1179 = _1173 | _1171; assign _1181 = _1179 | _1177; assign _1182 = _1181 ? _1180 : _1174; assign _1205 = { _1203, _1182 }; assign _1192 = reg_op1 ^ reg_op2; assign _1213 = _1206 ? _1205 : _1192; assign _1217 = _1216 ? _1215 : _1213; assign _1188 = reg_op1 | reg_op2; assign _1184 = reg_op1 & reg_op2; assign _1189 = instr[35:35]; assign _1190 = instr[22:22]; assign _1191 = _1190 | _1189; assign _1211 = _1191 ? _1188 : _1184; assign _1193 = instr[32:32]; assign _1194 = instr[21:21]; assign _1195 = _1194 | _1193; assign _1206 = is[13:13]; assign _1214 = _1206 | _1195; assign _1208 = instr[28:28]; assign _1210 = is[6:6]; assign _1216 = _1210 | _1208; assign _1218 = _1216 | _1214; assign _1219 = _1218 ? _1217 : _1211; /* aliases */ /* output assignments */ assign alu_out = _1219; assign alu_out_0 = _1182; endmodule

module Moore_Chart ( clk, rst_n, enb, a, b ); input clk; input rst_n; input enb; output [63:0] a; // double output [63:0] b; // double parameter IN_FINAL = 3'd0, IN_IDLE = 3'd1, IN_INITIAL = 3'd2, IN_SEQ1 = 3'd3, IN_SEQ2 = 3'd4; reg [2:0] is_Moore_Chart; // uint8 real a_1; // double real b_1; // double real a_reg; // double real b_reg; // double reg [2:0] is_Moore_Chart_next; // enum type state_type_is_Moore_Chart (5 enums) real a_reg_next; // double real b_reg_next; // double always @(posedge clk or negedge rst_n) begin : Moore_Chart_1_process if (rst_n == 1'b0) begin is_Moore_Chart <= IN_INITIAL; end else begin if (enb) begin is_Moore_Chart <= is_Moore_Chart_next; a_reg <= a_reg_next; b_reg <= b_reg_next; end end end always @* begin is_Moore_Chart_next = is_Moore_Chart; a_reg_next = a_reg; b_reg_next = b_reg; case ( is_Moore_Chart) IN_FINAL : begin end IN_IDLE : begin a_reg_next = 0.0; end IN_INITIAL : begin a_reg_next = 0.0; b_reg_next = 0.0; end IN_SEQ1 : begin a_reg_next = 1.0; b_reg_next = b_reg + 1.0; end endcase case ( is_Moore_Chart) IN_FINAL : begin is_Moore_Chart_next = IN_IDLE; end IN_IDLE : begin is_Moore_Chart_next = IN_SEQ1; end IN_INITIAL : begin is_Moore_Chart_next = IN_IDLE; end IN_SEQ1 : begin is_Moore_Chart_next = IN_SEQ2; end default : begin is_Moore_Chart_next = IN_FINAL; end endcase end always @* a_1 = a_reg_next; always @* b_1 = b_reg_next; assign a = $realtobits(a_1); assign b = $realtobits(b_1); endmodule

module rx #( parameter STATE_IDLE = 3'h0, parameter STATE_PREAMBLE = 3'h1, parameter STATE_DATA = 3'h2, parameter STATE_OK = 3'h3, parameter STATE_DROP = 3'h4, parameter STATE_ERROR = 3'h5 )( input reset, input clock, input rx_data_valid, input [7:0] rx_data, input rx_error, output reg [7:0] data_out, output reg data_out_enable, output reg data_out_start, output reg data_out_end, input wire fifo_full, output reg error ); localparam CRC_RESIDUE = 32'hC704DD7B; localparam CRC_POLYNOMIAL = 32'h04C11DB7; localparam CRC_SEED = 32'hFFFFFFFF; localparam MAX_SIZE = 1518; localparam MIN_SIZE = 64; reg [2:0] state; reg [2:0] next_state; reg [15:0] frame_length_counter; reg [15:0] data_counter; reg too_long; reg too_short; reg crc_init; reg data_enable; wire [31:0] crc_out; reg [39:0] data; // RX State Machine always @ (posedge clock) if (reset) state <= STATE_IDLE; else state <= next_state; always @ (*) case (state) STATE_IDLE: if (rx_data_valid && rx_data == 8'h55) next_state = STATE_PREAMBLE; else next_state = STATE_IDLE; STATE_PREAMBLE: if (!rx_data_valid) next_state = STATE_ERROR; else if (rx_error) next_state = STATE_DROP; else if (rx_data == 8'hd5) next_state = STATE_DATA; else if (rx_data == 8'h55) next_state = STATE_PREAMBLE; else next_state = STATE_DROP; STATE_DATA: if (!rx_data_valid && !too_short && !too_long && crc_out == CRC_RESIDUE) next_state = STATE_OK; else if ((!rx_data_valid && (too_short || too_long)) || (!rx_data_valid && crc_out != CRC_RESIDUE)) next_state = STATE_ERROR; else if (fifo_full) next_state = STATE_DROP; else if (rx_error || too_long) next_state = STATE_DROP; else next_state = STATE_DATA; STATE_DROP: if (!rx_data_valid) next_state = STATE_ERROR; else next_state = STATE_DROP; STATE_OK: next_state = STATE_IDLE; STATE_ERROR: next_state = STATE_IDLE; default: next_state = STATE_IDLE; endcase always @(posedge clock) data_out <= data[39-:8]; always @(posedge clock) begin if (reset) begin data <= 32'h00000000; end else if (state == STATE_IDLE) begin data <= 32'h00000000; end else begin data[39-:8] <= data[31-:8]; data[31-:8] <= data[23-:8]; data[23-:8] <= data[15-:8]; data[15-:8] <= data[7-:8]; data[7-:8] <= rx_data; end end always @ (posedge clock) if (reset) data_counter <= 0; else if (state == STATE_DATA) data_counter = data_counter + 1; else data_counter = 0; always @ (*) if (data_counter > 5 && (state == STATE_DATA || state == STATE_OK || state == STATE_ERROR)) data_out_enable = 1; else data_out_enable = 0; always @(*) if (data_counter == 6) data_out_start = 1; else data_out_start = 0; always @(*) if (state == STATE_OK || state == STATE_ERROR) data_out_end = 1; else data_out_end = 0; always @(*) if (state == STATE_ERROR) error = 1; else error = 0; // CRC Interface always @(*) if (state == STATE_DATA) data_enable = 1; else data_enable = 0; always @(*) if (state == STATE_PREAMBLE && next_state == STATE_DATA) crc_init = 1; else crc_init = 0; always @ (posedge clock) if (reset) frame_length_counter <= 0; else if (state == STATE_DATA) frame_length_counter = frame_length_counter + 1; else frame_length_counter = 0; always @ (*) if (frame_length_counter < MIN_SIZE) too_short = 1; else too_short = 0; always @ (*) if (frame_length_counter > MAX_SIZE) too_long = 1; else too_long = 0; // CRC crc #( .POLYNOMIAL(CRC_POLYNOMIAL), .DATA_WIDTH(8), .CRC_WIDTH(32), .SEED(CRC_SEED)) U_crc( .reset(reset), .clock(clock), .init(crc_init), .data(rx_data), .data_enable(data_enable), .crc_out(crc_out) ); endmodule

module sky130_fd_sc_lp__tap ( //# {{power|Power}} input VPB , input VPWR, input VGND, input VNB ); endmodule

module t (/*AUTOARG*/ // Inputs clk ); input clk; reg [3:0] array_1 [2:0]; reg [3:0] array_2 [2:0]; reg [3:0] array_3 [3:1]; reg [3:0] elem; reg array_1_ne_array_2; reg array_1_eq_array_2; reg array_1_ne_array_3; reg array_1_eq_array_3; initial begin array_1[0] = 4'b1000; array_1[1] = 4'b1000; array_1[2] = 4'b1000; array_2[0] = 4'b1000; array_2[1] = 4'b1000; array_2[2] = 4'b1000; array_3[1] = 4'b1000; array_3[2] = 4'b0100; array_3[3] = 4'b0100; array_1_ne_array_2 = array_1 != array_2; // 0 array_1_eq_array_2 = array_1 == array_2; // 0 array_1_ne_array_3 = array_1 != array_3; // 1 array_1_eq_array_3 = array_1 == array_3; // 1 //Not legal: array_rxor = ^ array_1; //Not legal: array_rxnor = ^~ array_1; //Not legal: array_ror = | array_1; //Not legal: array_rand = & array_1; `ifdef TEST_VERBOSE $write("array_1_ne_array2==%0d\n", array_1_ne_array_2); $write("array_1_ne_array3==%0d\n", array_1_ne_array_3); `endif if (array_1_ne_array_2 !== 0) $stop; if (array_1_eq_array_2 !== 1) $stop; if (array_1_ne_array_3 !== 1) $stop; if (array_1_eq_array_3 !== 0) $stop; $write("*-* All Finished *-*\n"); $finish; end endmodule

module axi_dwidth_converter_v2_1_9_axi4lite_upsizer # ( parameter C_FAMILY = "none", // FPGA Family. parameter integer C_AXI_ADDR_WIDTH = 32, // Width of all ADDR signals on SI and MI. // Range 3 - 64. parameter integer C_AXI_SUPPORTS_WRITE = 1, parameter integer C_AXI_SUPPORTS_READ = 1 ) ( // Global Signals input wire aresetn, input wire aclk, // Slave Interface Write Address Ports input wire [C_AXI_ADDR_WIDTH-1:0] s_axi_awaddr, input wire [3-1:0] s_axi_awprot, input wire s_axi_awvalid, output wire s_axi_awready, // Slave Interface Write Data Ports input wire [32-1:0] s_axi_wdata, input wire [32/8-1:0] s_axi_wstrb, input wire s_axi_wvalid, output wire s_axi_wready, // Slave Interface Write Response Ports output wire [2-1:0] s_axi_bresp, output wire s_axi_bvalid, input wire s_axi_bready, // Slave Interface Read Address Ports input wire [C_AXI_ADDR_WIDTH-1:0] s_axi_araddr, input wire [3-1:0] s_axi_arprot, input wire s_axi_arvalid, output wire s_axi_arready, // Slave Interface Read Data Ports output wire [32-1:0] s_axi_rdata, output wire [2-1:0] s_axi_rresp, output wire s_axi_rvalid, input wire s_axi_rready, // Master Interface Write Address Port output wire [C_AXI_ADDR_WIDTH-1:0] m_axi_awaddr, output wire [3-1:0] m_axi_awprot, output wire m_axi_awvalid, input wire m_axi_awready, // Master Interface Write Data Ports output wire [64-1:0] m_axi_wdata, output wire [64/8-1:0] m_axi_wstrb, output wire m_axi_wvalid, input wire m_axi_wready, // Master Interface Write Response Ports input wire [2-1:0] m_axi_bresp, input wire m_axi_bvalid, output wire m_axi_bready, // Master Interface Read Address Port output wire [C_AXI_ADDR_WIDTH-1:0] m_axi_araddr, output wire [3-1:0] m_axi_arprot, output wire m_axi_arvalid, input wire m_axi_arready, // Master Interface Read Data Ports input wire [64-1:0] m_axi_rdata, input wire [2-1:0] m_axi_rresp, input wire m_axi_rvalid, output wire m_axi_rready ); reg s_axi_arready_i ; reg m_axi_arvalid_i ; reg m_axi_rready_i ; reg s_axi_rvalid_i ; reg ar_done ; reg araddr2 ; reg s_axi_awready_i ; reg s_axi_bvalid_i ; reg m_axi_awvalid_i ; reg m_axi_wvalid_i ; reg m_axi_bready_i ; reg aw_done ; reg w_done ; generate if (C_AXI_SUPPORTS_READ != 0) begin : gen_read always @(posedge aclk) begin if (~aresetn) begin s_axi_arready_i <= 1'b0 ; m_axi_arvalid_i <= 1'b0 ; s_axi_rvalid_i <= 1'b0; m_axi_rready_i <= 1'b1; ar_done <= 1'b0 ; araddr2 <= 1'b0 ; end else begin s_axi_arready_i <= 1'b0 ; // end single-cycle pulse m_axi_rready_i <= 1'b0; // end single-cycle pulse if (s_axi_rvalid_i) begin if (s_axi_rready) begin s_axi_rvalid_i <= 1'b0; m_axi_rready_i <= 1'b1; // begin single-cycle pulse ar_done <= 1'b0; end end else if (m_axi_rvalid & ar_done) begin s_axi_rvalid_i <= 1'b1; end else if (m_axi_arvalid_i) begin if (m_axi_arready) begin m_axi_arvalid_i <= 1'b0; s_axi_arready_i <= 1'b1 ; // begin single-cycle pulse araddr2 <= s_axi_araddr[2]; ar_done <= 1'b1; end end else if (s_axi_arvalid & ~ar_done) begin m_axi_arvalid_i <= 1'b1; end end end assign m_axi_arvalid = m_axi_arvalid_i ; assign s_axi_arready = s_axi_arready_i ; assign m_axi_araddr = s_axi_araddr; assign m_axi_arprot = s_axi_arprot; assign s_axi_rvalid = s_axi_rvalid_i ; assign m_axi_rready = m_axi_rready_i ; assign s_axi_rdata = araddr2 ? m_axi_rdata[63:32] : m_axi_rdata[31:0]; assign s_axi_rresp = m_axi_rresp; end else begin : gen_noread assign m_axi_arvalid = 1'b0 ; assign s_axi_arready = 1'b0 ; assign m_axi_araddr = {C_AXI_ADDR_WIDTH{1'b0}} ; assign m_axi_arprot = 3'b0 ; assign s_axi_rvalid = 1'b0 ; assign m_axi_rready = 1'b0 ; assign s_axi_rresp = 2'b0 ; assign s_axi_rdata = 32'b0 ; end if (C_AXI_SUPPORTS_WRITE != 0) begin : gen_write always @(posedge aclk) begin if (~aresetn) begin m_axi_awvalid_i <= 1'b0 ; s_axi_awready_i <= 1'b0 ; m_axi_wvalid_i <= 1'b0 ; s_axi_bvalid_i <= 1'b0 ; m_axi_bready_i <= 1'b0 ; aw_done <= 1'b0 ; w_done <= 1'b0 ; end else begin m_axi_bready_i <= 1'b0; // end single-cycle pulse if (s_axi_bvalid_i) begin if (s_axi_bready) begin s_axi_bvalid_i <= 1'b0; m_axi_bready_i <= 1'b1; // begin single-cycle pulse aw_done <= 1'b0; w_done <= 1'b0; end end else if (s_axi_awready_i) begin s_axi_awready_i <= 1'b0; // end single-cycle pulse s_axi_bvalid_i <= 1'b1; end else if (aw_done & w_done) begin if (m_axi_bvalid) begin s_axi_awready_i <= 1'b1; // begin single-cycle pulse end end else begin if (m_axi_awvalid_i) begin if (m_axi_awready) begin m_axi_awvalid_i <= 1'b0; aw_done <= 1'b1; end end else if (s_axi_awvalid & ~aw_done) begin m_axi_awvalid_i <= 1'b1; end if (m_axi_wvalid_i) begin if (m_axi_wready) begin m_axi_wvalid_i <= 1'b0; w_done <= 1'b1; end end else if (s_axi_wvalid & (m_axi_awvalid_i | aw_done) & ~w_done) begin m_axi_wvalid_i <= 1'b1; end end end end assign m_axi_awvalid = m_axi_awvalid_i ; assign s_axi_awready = s_axi_awready_i ; assign m_axi_awaddr = s_axi_awaddr; assign m_axi_awprot = s_axi_awprot; assign m_axi_wvalid = m_axi_wvalid_i ; assign s_axi_wready = s_axi_awready_i ; assign m_axi_wdata = {s_axi_wdata,s_axi_wdata}; assign m_axi_wstrb = s_axi_awaddr[2] ? {s_axi_wstrb, 4'b0} : {4'b0, s_axi_wstrb}; assign s_axi_bvalid = s_axi_bvalid_i ; assign m_axi_bready = m_axi_bready_i ; assign s_axi_bresp = m_axi_bresp; end else begin : gen_nowrite assign m_axi_awvalid = 1'b0 ; assign s_axi_awready = 1'b0 ; assign m_axi_awaddr = {C_AXI_ADDR_WIDTH{1'b0}} ; assign m_axi_awprot = 3'b0 ; assign m_axi_wvalid = 1'b0 ; assign s_axi_wready = 1'b0 ; assign m_axi_wdata = 64'b0 ; assign m_axi_wstrb = 8'b0 ; assign s_axi_bvalid = 1'b0 ; assign m_axi_bready = 1'b0 ; assign s_axi_bresp = 2'b0 ; end endgenerate endmodule

module top(); // Inputs are registered reg VPWR; reg VGND; reg VPB; reg VNB; // Outputs are wires initial begin // Initial state is x for all inputs. VGND = 1'bX; VNB = 1'bX; VPB = 1'bX; VPWR = 1'bX; #20 VGND = 1'b0; #40 VNB = 1'b0; #60 VPB = 1'b0; #80 VPWR = 1'b0; #100 VGND = 1'b1; #120 VNB = 1'b1; #140 VPB = 1'b1; #160 VPWR = 1'b1; #180 VGND = 1'b0; #200 VNB = 1'b0; #220 VPB = 1'b0; #240 VPWR = 1'b0; #260 VPWR = 1'b1; #280 VPB = 1'b1; #300 VNB = 1'b1; #320 VGND = 1'b1; #340 VPWR = 1'bx; #360 VPB = 1'bx; #380 VNB = 1'bx; #400 VGND = 1'bx; end sky130_fd_sc_hd__tapvpwrvgnd dut (.VPWR(VPWR), .VGND(VGND), .VPB(VPB), .VNB(VNB)); endmodule

module //pwm_ctl pwm_ctl //( //.clk(bus_clk), // .rst(rst), // .para_in(para_in), // .dir_out(dir_out), // .en_out(en_out) //); parameter MAX = 19999; reg dir; reg dir_; reg en; reg [14:0] in_; reg [31:0] counter; wire [31:0] divflag; reg [31:0] PWMctl_clk; initial PWMctl_clk = MAX; initial in_ = MAX; assign divflag = PWMctl_clk - in_; assign dir_out = dir; assign en_out = en; always @(posedge clk)begin if(rst)begin in_ <= 19999; dir_ <= 0; end else if(0 < para_in && para_in < PWMctl_clk)begin in_ <= para_in; dir_ <= dir_in; end else in_ <= MAX; end always @(posedge clk)begin if(rst)begin dir <= 0; en <= 0; end else if(divflag > counter)begin dir <= dir_; en <= 1; end else begin en <= 0; end end always @(posedge clk)begin if(rst)begin counter <= 0; end else if(PWMctl_clk == counter) counter <= 0; else counter <= counter + 1; end endmodule

module Approx_adder_W32 ( add_sub, in1, in2, res ); input [31:0] in1; input [31:0] in2; output [32:0] res; input add_sub; wire n10, n11, n12, n13, n14, n15, n16, n17, n18, n19, n20, n21, n22, n23, n24, n25, n26, n27, n28, n29, n30, n31, n32, n33, n34, n35, n36, n37, n38, n39, n40, n41, n42, n43, n44, n45, n46, n47, n48, n49, n50, n51, n52, n53, n54, n55, n56, n57, n58, n59, n60, n61, n62, n63, n64, n65, n66, n67, n68, n69, n70, n71, n72, n73, n74, n75, n76, n77, n78, n79, n80, n81, n82, n83, n84, n85, n86, n87, n88, n89, n90, n91, n92, n93, n94, n95, n96, n97, n98, n99, n100, n101, n102, n103, n104, n105, n106, n107, n108, n109, n110, n111, n112, n113, n114, n115, n116, n117, n118, n119, n120, n121, n122, n123, n124, n125, n126, n127, n128, n129, n130, n131, n132, n133, n134, n135, n136, n137, n138, n139, n140, n141, n142, n143, n144, n145, n146, n147, n148, n149, n150, n151, n152, n153, n154, n155, n156, n157, n158, n159, n160, n161, n162, n163, n164, n165, n166, n167, n168, n169, n170, n171, n172, n173, n174, n175, n176, n177, n178, n179, n180, n181, n182, n183, n184, n185, n186, n187, n188, n189, n190, n191, n192, n193, n194, n195, n196, n197, n198, n199, n200, n201, n202, n203, n204, n205, n206, n207, n208, n209, n210, n211, n212, n213, n214, n215, n216, n217, n218, n219, n220, n221, n222, n223, n224, n225, n226, n227, n228, n229, n230, n231, n232, n233, n234, n235, n236, n237, n238, n239, n240, n241, n242, n243, n244, n245, n246, n247, n248, n249, n250, n251, n252, n253, n254, n255, n256, n257, n258, n259, n260, n261, n262, n263, n264, n265, n266, n267, n268, n269, n270, n271, n272, n273, n274, n275, n276, n277, n278, n279, n280, n281, n282, n283, n284, n285, n286, n287, n288, n289, n290, n291, n292, n293, n294, n295, n296, n297, n298, n299, n300, n301, n302, n303, n304, n305, n306, n307, n308, n309, n310, n311, n312, n313, n314, n315, n316, n317, n318, n319, n320, n321, n322, n323, n324, n325, n326, n327, n328, n329, n330, n331, n332, n333, n334, n335, n336, n337, n338; XNOR2X1TS U44 ( .A(n226), .B(n225), .Y(res[26]) ); XOR2X1TS U45 ( .A(n255), .B(n254), .Y(res[22]) ); NAND2X1TS U46 ( .A(n76), .B(n220), .Y(n221) ); NAND2XLTS U47 ( .A(n80), .B(n274), .Y(n275) ); AND3X1TS U48 ( .A(n33), .B(n274), .C(n32), .Y(n18) ); NAND2X4TS U49 ( .A(n73), .B(n193), .Y(n200) ); NAND2XLTS U50 ( .A(n79), .B(n202), .Y(n203) ); NAND2X1TS U51 ( .A(n213), .B(n212), .Y(n214) ); NAND2XLTS U52 ( .A(n257), .B(n256), .Y(n258) ); NAND2X1TS U53 ( .A(n229), .B(n228), .Y(n230) ); NAND2X1TS U54 ( .A(n246), .B(n245), .Y(n247) ); NAND2X1TS U55 ( .A(n205), .B(n204), .Y(n206) ); NAND2XLTS U56 ( .A(n263), .B(n262), .Y(n264) ); NAND2XLTS U57 ( .A(n239), .B(n238), .Y(n240) ); CLKAND2X2TS U58 ( .A(n74), .B(n199), .Y(n75) ); OAI21X2TS U59 ( .A0(n231), .A1(n210), .B0(n209), .Y(n215) ); OAI21X2TS U60 ( .A0(n231), .A1(n219), .B0(n218), .Y(n222) ); OAI21X1TS U61 ( .A0(n270), .A1(n266), .B0(n267), .Y(n265) ); NAND2X1TS U62 ( .A(n253), .B(n252), .Y(n254) ); CLKINVX2TS U63 ( .A(n251), .Y(n253) ); INVX4TS U64 ( .A(n208), .Y(n231) ); OAI21X1TS U65 ( .A0(n234), .A1(n244), .B0(n245), .Y(n235) ); CLKMX2X4TS U66 ( .A(in2[31]), .B(n197), .S0(n196), .Y(n198) ); NAND2X2TS U67 ( .A(n189), .B(in1[29]), .Y(n204) ); CLKMX2X2TS U68 ( .A(in2[30]), .B(n186), .S0(n196), .Y(n190) ); CLKMX2X2TS U69 ( .A(in2[29]), .B(n188), .S0(n196), .Y(n189) ); OR2X2TS U70 ( .A(n195), .B(in2[30]), .Y(n19) ); OAI21X2TS U71 ( .A0(n245), .A1(n237), .B0(n238), .Y(n162) ); NAND2X1TS U72 ( .A(n141), .B(in1[20]), .Y(n262) ); NAND2X2TS U73 ( .A(n177), .B(in1[25]), .Y(n228) ); NAND2X2TS U74 ( .A(n160), .B(in1[23]), .Y(n245) ); NAND2X1TS U75 ( .A(n161), .B(in1[24]), .Y(n238) ); NAND2X2TS U76 ( .A(n180), .B(in1[27]), .Y(n220) ); NOR2X4TS U77 ( .A(n160), .B(in1[23]), .Y(n244) ); XNOR2X1TS U78 ( .A(n154), .B(in2[20]), .Y(n138) ); MXI2X2TS U79 ( .A(n131), .B(n130), .S0(n317), .Y(n132) ); CLKMX2X3TS U80 ( .A(in2[21]), .B(n152), .S0(n196), .Y(n158) ); NOR2X4TS U81 ( .A(n178), .B(in1[26]), .Y(n179) ); NAND2X4TS U82 ( .A(n274), .B(n32), .Y(n16) ); NOR2X2TS U83 ( .A(n133), .B(in2[18]), .Y(n134) ); XNOR2X1TS U84 ( .A(n133), .B(in2[18]), .Y(n130) ); NAND2X2TS U85 ( .A(n148), .B(n137), .Y(n133) ); INVX2TS U86 ( .A(n280), .Y(n12) ); OR2X1TS U87 ( .A(n175), .B(in2[27]), .Y(n184) ); NOR2X2TS U88 ( .A(n154), .B(in2[20]), .Y(n151) ); NAND2XLTS U89 ( .A(n173), .B(n172), .Y(n175) ); NAND2X2TS U90 ( .A(n126), .B(in1[16]), .Y(n276) ); NAND2X1TS U91 ( .A(n107), .B(in1[12]), .Y(n294) ); NAND2X1TS U92 ( .A(n51), .B(in2[17]), .Y(n58) ); INVX2TS U93 ( .A(in2[26]), .Y(n172) ); NAND2X6TS U94 ( .A(n148), .B(n147), .Y(n185) ); INVX4TS U95 ( .A(n300), .Y(n13) ); NAND2X2TS U96 ( .A(n118), .B(n108), .Y(n109) ); NAND2X2TS U97 ( .A(n94), .B(in1[9]), .Y(n305) ); NAND2X6TS U98 ( .A(n99), .B(in1[10]), .Y(n301) ); NAND2X2TS U99 ( .A(n137), .B(n136), .Y(n146) ); OR2X2TS U100 ( .A(in2[21]), .B(in2[20]), .Y(n153) ); NOR2X1TS U101 ( .A(in2[19]), .B(in2[18]), .Y(n136) ); NAND2X6TS U102 ( .A(n86), .B(n85), .Y(n21) ); BUFX6TS U103 ( .A(add_sub), .Y(n196) ); OR2X4TS U104 ( .A(n335), .B(n83), .Y(n86) ); INVX8TS U105 ( .A(in2[10]), .Y(n104) ); CLKINVX6TS U106 ( .A(in2[6]), .Y(n64) ); INVX12TS U107 ( .A(in2[5]), .Y(n313) ); INVX2TS U108 ( .A(in2[11]), .Y(n35) ); OAI21X2TS U109 ( .A0(in2[7]), .A1(n336), .B0(in1[7]), .Y(n82) ); CLKINVX6TS U110 ( .A(in2[7]), .Y(n63) ); NAND2X4TS U111 ( .A(n64), .B(n63), .Y(n62) ); NOR3X2TS U112 ( .A(n154), .B(in2[22]), .C(n153), .Y(n144) ); INVX12TS U113 ( .A(in2[4]), .Y(n312) ); CLKMX2X4TS U114 ( .A(in2[13]), .B(n110), .S0(add_sub), .Y(n112) ); CLKMX2X2TS U115 ( .A(in2[28]), .B(n176), .S0(n196), .Y(n182) ); NAND2X1TS U116 ( .A(n182), .B(in1[28]), .Y(n212) ); OAI21XLTS U117 ( .A0(n302), .A1(n300), .B0(n301), .Y(n298) ); NAND2X1TS U118 ( .A(n268), .B(n267), .Y(n269) ); NAND2X1TS U119 ( .A(n224), .B(n223), .Y(n225) ); NAND2X2TS U120 ( .A(n113), .B(in1[14]), .Y(n10) ); AND2X4TS U121 ( .A(n40), .B(n294), .Y(n11) ); NAND2X2TS U122 ( .A(n129), .B(in1[17]), .Y(n274) ); NAND2X4TS U123 ( .A(n216), .B(n76), .Y(n210) ); NAND2X1TS U124 ( .A(n23), .B(n276), .Y(n278) ); NAND2X1TS U125 ( .A(n14), .B(n294), .Y(n296) ); INVX8TS U126 ( .A(in2[8]), .Y(n97) ); OR2X6TS U127 ( .A(n164), .B(n67), .Y(n72) ); NOR2X6TS U128 ( .A(n210), .B(n211), .Y(n183) ); CLKINVX6TS U129 ( .A(n165), .Y(n65) ); NOR2X6TS U130 ( .A(n244), .B(n237), .Y(n163) ); INVX2TS U131 ( .A(n220), .Y(n181) ); OR2X6TS U132 ( .A(n180), .B(in1[27]), .Y(n76) ); MXI2X4TS U133 ( .A(n150), .B(n149), .S0(n317), .Y(n161) ); XOR2X2TS U134 ( .A(n15), .B(in2[28]), .Y(n176) ); XOR2X2TS U135 ( .A(n166), .B(in2[25]), .Y(n168) ); OR2X4TS U136 ( .A(n185), .B(n184), .Y(n15) ); OR2X2TS U137 ( .A(n185), .B(n175), .Y(n20) ); NOR2X4TS U138 ( .A(n185), .B(in2[24]), .Y(n166) ); NAND2X6TS U139 ( .A(n80), .B(n54), .Y(n32) ); NAND2X2TS U140 ( .A(n79), .B(n205), .Y(n194) ); NAND2X4TS U141 ( .A(n44), .B(n43), .Y(n42) ); NAND2X4TS U142 ( .A(n140), .B(in1[19]), .Y(n267) ); NOR2X4TS U143 ( .A(n182), .B(in1[28]), .Y(n211) ); INVX2TS U144 ( .A(n237), .Y(n239) ); OR2X4TS U145 ( .A(n132), .B(in1[18]), .Y(n27) ); NAND2X4TS U146 ( .A(n56), .B(n23), .Y(n55) ); NAND2BX2TS U147 ( .AN(in2[29]), .B(n187), .Y(n195) ); XNOR2X2TS U148 ( .A(n151), .B(in2[21]), .Y(n152) ); NOR3X4TS U149 ( .A(n185), .B(in2[28]), .C(n184), .Y(n187) ); NAND2X4TS U150 ( .A(n13), .B(n77), .Y(n45) ); NAND2X6TS U151 ( .A(n48), .B(n47), .Y(n77) ); NOR2X4TS U152 ( .A(n107), .B(in1[12]), .Y(n293) ); AND2X4TS U153 ( .A(n91), .B(n97), .Y(n61) ); BUFX16TS U154 ( .A(add_sub), .Y(n317) ); NOR2X4TS U155 ( .A(in2[13]), .B(in2[12]), .Y(n117) ); INVX2TS U156 ( .A(in2[25]), .Y(n167) ); NOR2X2TS U157 ( .A(n266), .B(n261), .Y(n143) ); OR2X4TS U158 ( .A(n190), .B(in1[30]), .Y(n79) ); INVX2TS U159 ( .A(n244), .Y(n246) ); NAND2X4TS U160 ( .A(n158), .B(in1[21]), .Y(n256) ); NOR2X4TS U161 ( .A(n158), .B(in1[21]), .Y(n249) ); NAND2X4TS U162 ( .A(n59), .B(n58), .Y(n129) ); NAND2X6TS U163 ( .A(n276), .B(n55), .Y(n54) ); INVX6TS U164 ( .A(n302), .Y(n43) ); NAND2X4TS U165 ( .A(n12), .B(n23), .Y(n57) ); CLKINVX6TS U166 ( .A(n301), .Y(n50) ); NOR2X6TS U167 ( .A(n88), .B(in1[8]), .Y(n307) ); NAND2X4TS U168 ( .A(n88), .B(in1[8]), .Y(n308) ); MXI2X4TS U169 ( .A(n108), .B(n106), .S0(n317), .Y(n107) ); INVX8TS U170 ( .A(n21), .Y(n88) ); NAND2X6TS U171 ( .A(n96), .B(n97), .Y(n103) ); XNOR2X1TS U172 ( .A(n265), .B(n264), .Y(res[20]) ); XOR2X1TS U173 ( .A(n279), .B(n282), .Y(res[15]) ); XOR2X1TS U174 ( .A(n272), .B(n18), .Y(res[18]) ); OAI21X1TS U175 ( .A0(n279), .A1(n57), .B0(n53), .Y(n273) ); OAI21X1TS U176 ( .A0(n279), .A1(n280), .B0(n281), .Y(n277) ); XOR2X1TS U177 ( .A(n292), .B(n291), .Y(res[13]) ); OAI21X1TS U178 ( .A0(n292), .A1(n288), .B0(n289), .Y(n287) ); NAND2X2TS U179 ( .A(n198), .B(in1[31]), .Y(n199) ); NAND2X2TS U180 ( .A(n190), .B(in1[30]), .Y(n202) ); XOR2X1TS U181 ( .A(n296), .B(n295), .Y(res[12]) ); NOR2X4TS U182 ( .A(n177), .B(in1[25]), .Y(n227) ); NOR2X1TS U183 ( .A(n302), .B(n45), .Y(n39) ); MXI2X4TS U184 ( .A(n168), .B(n167), .S0(n51), .Y(n177) ); XOR2X1TS U185 ( .A(n303), .B(n302), .Y(res[10]) ); NAND2X4TS U186 ( .A(n60), .B(add_sub), .Y(n59) ); NAND2X2TS U187 ( .A(n132), .B(in1[18]), .Y(n271) ); NAND2X6TS U188 ( .A(n49), .B(n297), .Y(n41) ); XNOR2X2TS U189 ( .A(n144), .B(in2[23]), .Y(n145) ); INVX4TS U190 ( .A(n293), .Y(n14) ); NAND2BXLTS U191 ( .AN(in1[6]), .B(n334), .Y(res[6]) ); NAND2BXLTS U192 ( .AN(in1[7]), .B(n326), .Y(res[7]) ); NAND2BXLTS U193 ( .AN(in1[5]), .B(n316), .Y(res[5]) ); NAND2BXLTS U194 ( .AN(in1[4]), .B(n338), .Y(res[4]) ); NAND2BXLTS U195 ( .AN(in1[3]), .B(n322), .Y(res[3]) ); NAND2BXLTS U196 ( .AN(in1[2]), .B(n329), .Y(res[2]) ); NAND2BXLTS U197 ( .AN(in1[1]), .B(n319), .Y(res[1]) ); NOR4X2TS U198 ( .A(n146), .B(n153), .C(in2[23]), .D(in2[22]), .Y(n147) ); NOR2X6TS U199 ( .A(n320), .B(in2[3]), .Y(n335) ); INVX4TS U200 ( .A(n196), .Y(n51) ); OR2X1TS U201 ( .A(in2[0]), .B(in1[0]), .Y(res[0]) ); BUFX16TS U202 ( .A(add_sub), .Y(n336) ); NOR2X2TS U203 ( .A(in2[25]), .B(in2[24]), .Y(n173) ); MXI2X4TS U204 ( .A(n97), .B(n87), .S0(n317), .Y(n310) ); XNOR2X2TS U205 ( .A(n105), .B(in2[8]), .Y(n87) ); NOR2X4TS U206 ( .A(n127), .B(in2[16]), .Y(n128) ); NOR2X6TS U207 ( .A(n227), .B(n179), .Y(n216) ); NAND2X2TS U208 ( .A(n169), .B(n173), .Y(n170) ); OR2X4TS U209 ( .A(n94), .B(in1[9]), .Y(n78) ); XNOR2X2TS U210 ( .A(n92), .B(in2[9]), .Y(n93) ); NOR2X6TS U211 ( .A(n113), .B(in1[14]), .Y(n284) ); NOR2X2TS U212 ( .A(n288), .B(n284), .Y(n115) ); XOR2X2TS U213 ( .A(n119), .B(in2[15]), .Y(n120) ); NAND2X4TS U214 ( .A(n121), .B(in1[15]), .Y(n281) ); NOR2X6TS U215 ( .A(n249), .B(n251), .Y(n243) ); XOR2X2TS U216 ( .A(n20), .B(in2[27]), .Y(n174) ); NAND2X8TS U217 ( .A(n11), .B(n42), .Y(n283) ); NAND2X2TS U218 ( .A(n327), .B(n81), .Y(n320) ); NAND2X8TS U219 ( .A(n17), .B(n33), .Y(n31) ); INVX6TS U220 ( .A(n16), .Y(n17) ); NOR2X4TS U221 ( .A(n99), .B(in1[10]), .Y(n300) ); XNOR2X4TS U222 ( .A(n128), .B(in2[17]), .Y(n60) ); NAND2X4TS U223 ( .A(n41), .B(n14), .Y(n40) ); XOR2X1TS U224 ( .A(n19), .B(in2[31]), .Y(n197) ); NAND2X8TS U225 ( .A(n31), .B(n27), .Y(n30) ); MX2X4TS U226 ( .A(in2[15]), .B(n120), .S0(n196), .Y(n121) ); INVX2TS U227 ( .A(n281), .Y(n56) ); XNOR2X2TS U228 ( .A(n222), .B(n221), .Y(res[27]) ); NAND2BX4TS U229 ( .AN(n146), .B(n148), .Y(n154) ); NOR2X8TS U230 ( .A(in2[3]), .B(in2[2]), .Y(n91) ); MX2X4TS U231 ( .A(in2[23]), .B(n145), .S0(n196), .Y(n160) ); XOR2X4TS U232 ( .A(n109), .B(in2[13]), .Y(n110) ); NAND2X4TS U233 ( .A(n36), .B(n26), .Y(n34) ); OAI21X4TS U234 ( .A0(n267), .A1(n261), .B0(n262), .Y(n142) ); MX2X4TS U235 ( .A(in2[27]), .B(n174), .S0(n196), .Y(n180) ); OAI21X4TS U236 ( .A0(n231), .A1(n227), .B0(n228), .Y(n226) ); NAND2X8TS U237 ( .A(n30), .B(n271), .Y(n260) ); MXI2X4TS U238 ( .A(n116), .B(n111), .S0(n336), .Y(n113) ); OA21X4TS U239 ( .A0(n193), .A1(n69), .B0(n199), .Y(n68) ); XNOR2X4TS U240 ( .A(n170), .B(in2[26]), .Y(n171) ); MXI2X4TS U241 ( .A(n96), .B(n93), .S0(n317), .Y(n94) ); NAND2X4TS U242 ( .A(n183), .B(n65), .Y(n24) ); XNOR2X2TS U243 ( .A(n215), .B(n214), .Y(res[28]) ); AND2X6TS U244 ( .A(n105), .B(n84), .Y(n85) ); INVX2TS U245 ( .A(n114), .Y(n29) ); OAI21X2TS U246 ( .A0(n284), .A1(n289), .B0(n10), .Y(n114) ); XNOR2X1TS U247 ( .A(n187), .B(in2[29]), .Y(n188) ); OR2X6TS U248 ( .A(n129), .B(in1[17]), .Y(n80) ); NAND2X2TS U249 ( .A(n178), .B(in1[26]), .Y(n223) ); INVX2TS U250 ( .A(n201), .Y(n205) ); NOR2X2TS U251 ( .A(n189), .B(in1[29]), .Y(n201) ); CLKINVX6TS U252 ( .A(in2[9]), .Y(n96) ); NAND3X1TS U253 ( .A(n90), .B(n61), .C(n327), .Y(n92) ); XNOR2X1TS U254 ( .A(in2[14]), .B(n122), .Y(n111) ); MXI2X4TS U255 ( .A(n125), .B(n124), .S0(n336), .Y(n126) ); INVX2TS U256 ( .A(in2[16]), .Y(n125) ); NAND3X1TS U257 ( .A(n118), .B(n117), .C(n116), .Y(n119) ); INVX2TS U258 ( .A(in2[18]), .Y(n131) ); INVX2TS U259 ( .A(in2[20]), .Y(n139) ); MXI2X4TS U260 ( .A(n172), .B(n171), .S0(n317), .Y(n178) ); INVX2TS U261 ( .A(n185), .Y(n169) ); INVX2TS U262 ( .A(in2[2]), .Y(n81) ); NOR2X2TS U263 ( .A(in2[6]), .B(n330), .Y(n323) ); INVX2TS U264 ( .A(n310), .Y(n89) ); AOI21X1TS U265 ( .A0(n51), .A1(in2[11]), .B0(in1[11]), .Y(n47) ); NAND2X4TS U266 ( .A(n22), .B(in1[11]), .Y(n297) ); NAND2X2TS U267 ( .A(n112), .B(in1[13]), .Y(n289) ); NOR2X2TS U268 ( .A(n112), .B(in1[13]), .Y(n288) ); INVX2TS U269 ( .A(n283), .Y(n292) ); NOR2X4TS U270 ( .A(n121), .B(in1[15]), .Y(n280) ); NOR2X4TS U271 ( .A(n159), .B(in1[22]), .Y(n251) ); NAND2X2TS U272 ( .A(n159), .B(in1[22]), .Y(n252) ); INVX2TS U273 ( .A(n217), .Y(n218) ); OR2X4TS U274 ( .A(n198), .B(in1[31]), .Y(n74) ); INVX2TS U275 ( .A(n202), .Y(n191) ); INVX2TS U276 ( .A(n204), .Y(n192) ); NOR2X4TS U277 ( .A(in2[17]), .B(in2[16]), .Y(n137) ); NAND2X2TS U278 ( .A(in2[7]), .B(n336), .Y(n83) ); OR2X4TS U279 ( .A(n103), .B(n105), .Y(n100) ); NOR2X4TS U280 ( .A(n45), .B(n293), .Y(n44) ); INVX2TS U281 ( .A(n103), .Y(n36) ); INVX2TS U282 ( .A(n57), .Y(n52) ); MXI2X4TS U283 ( .A(n157), .B(n156), .S0(n317), .Y(n159) ); XOR2X2TS U284 ( .A(n155), .B(in2[22]), .Y(n156) ); INVX2TS U285 ( .A(in2[24]), .Y(n150) ); NAND2X4TS U286 ( .A(n163), .B(n243), .Y(n165) ); INVX2TS U287 ( .A(n183), .Y(n67) ); NOR2X4TS U288 ( .A(n141), .B(in1[20]), .Y(n261) ); NOR2X4TS U289 ( .A(n140), .B(in1[19]), .Y(n266) ); INVX2TS U290 ( .A(n260), .Y(n270) ); INVX2TS U291 ( .A(n249), .Y(n257) ); INVX2TS U292 ( .A(n256), .Y(n250) ); NOR2X4TS U293 ( .A(n161), .B(in1[24]), .Y(n237) ); NOR2X1TS U294 ( .A(n233), .B(n244), .Y(n236) ); INVX2TS U295 ( .A(n243), .Y(n233) ); INVX2TS U296 ( .A(n232), .Y(n259) ); XNOR2X1TS U297 ( .A(n335), .B(in2[4]), .Y(n337) ); NOR2XLTS U298 ( .A(n331), .B(n330), .Y(n332) ); NAND2X1TS U299 ( .A(n335), .B(n323), .Y(n324) ); NAND2X1TS U300 ( .A(n309), .B(n308), .Y(n311) ); INVX2TS U301 ( .A(n307), .Y(n309) ); NAND2X1TS U302 ( .A(n78), .B(n305), .Y(n306) ); NAND2X1TS U303 ( .A(n77), .B(n297), .Y(n299) ); NAND2X1TS U304 ( .A(n290), .B(n289), .Y(n291) ); INVX2TS U305 ( .A(n288), .Y(n290) ); NAND2X1TS U306 ( .A(n285), .B(n10), .Y(n286) ); INVX2TS U307 ( .A(n284), .Y(n285) ); NAND2X1TS U308 ( .A(n12), .B(n281), .Y(n282) ); INVX2TS U309 ( .A(n54), .Y(n53) ); XOR2X1TS U310 ( .A(n270), .B(n269), .Y(res[19]) ); INVX2TS U311 ( .A(n266), .Y(n268) ); XNOR2X1TS U312 ( .A(n259), .B(n258), .Y(res[21]) ); XOR2X1TS U313 ( .A(n231), .B(n230), .Y(res[25]) ); INVX2TS U314 ( .A(n227), .Y(n229) ); INVX2TS U315 ( .A(n179), .Y(n224) ); INVX2TS U316 ( .A(n216), .Y(n219) ); INVX2TS U317 ( .A(n211), .Y(n213) ); XNOR2X1TS U318 ( .A(n207), .B(n206), .Y(res[29]) ); INVX2TS U319 ( .A(n74), .Y(n69) ); XOR2X2TS U320 ( .A(n118), .B(in2[12]), .Y(n106) ); NAND2X1TS U321 ( .A(n27), .B(n271), .Y(n272) ); NAND2X6TS U322 ( .A(n77), .B(n50), .Y(n49) ); OAI21X1TS U323 ( .A0(n73), .A1(n69), .B0(n68), .Y(res[32]) ); NAND2X4TS U324 ( .A(n102), .B(add_sub), .Y(n48) ); NAND3X8TS U325 ( .A(n52), .B(n80), .C(n28), .Y(n33) ); NOR2X2TS U326 ( .A(n24), .B(n232), .Y(n70) ); OAI21X2TS U327 ( .A0(n232), .A1(n165), .B0(n164), .Y(n208) ); OAI2BB1X4TS U328 ( .A0N(n283), .A1N(n115), .B0(n29), .Y(n28) ); OA22X4TS U329 ( .A0(n102), .A1(n51), .B0(in2[11]), .B1(add_sub), .Y(n22) ); OR2X4TS U330 ( .A(n126), .B(in1[16]), .Y(n23) ); OA21X4TS U331 ( .A0(n209), .A1(n211), .B0(n212), .Y(n25) ); AND2X2TS U332 ( .A(n35), .B(n104), .Y(n26) ); INVX2TS U333 ( .A(n28), .Y(n279) ); NOR2XLTS U334 ( .A(n39), .B(n41), .Y(n295) ); NOR2X8TS U335 ( .A(n105), .B(n34), .Y(n118) ); NAND2X8TS U336 ( .A(n37), .B(n90), .Y(n105) ); NOR2X8TS U337 ( .A(n330), .B(n62), .Y(n90) ); AND2X8TS U338 ( .A(n327), .B(n91), .Y(n37) ); NOR2X8TS U339 ( .A(in2[0]), .B(in2[1]), .Y(n327) ); XNOR2X1TS U340 ( .A(n38), .B(n203), .Y(res[30]) ); OAI21X4TS U341 ( .A0(n66), .A1(n201), .B0(n204), .Y(n38) ); NOR2X8TS U342 ( .A(n71), .B(n70), .Y(n66) ); NAND2X8TS U343 ( .A(n118), .B(n117), .Y(n122) ); MXI2X4TS U344 ( .A(n139), .B(n138), .S0(n317), .Y(n141) ); NOR3X8TS U345 ( .A(n122), .B(in2[15]), .C(in2[14]), .Y(n123) ); BUFX20TS U346 ( .A(n123), .Y(n148) ); NOR2X8TS U347 ( .A(n46), .B(n95), .Y(n302) ); AND2X8TS U348 ( .A(n304), .B(n78), .Y(n46) ); NAND2X8TS U349 ( .A(n313), .B(n312), .Y(n330) ); OR2X8TS U350 ( .A(n66), .B(n194), .Y(n73) ); NAND2X8TS U351 ( .A(n72), .B(n25), .Y(n71) ); XOR2X1TS U352 ( .A(n248), .B(n247), .Y(res[23]) ); XOR2X1TS U353 ( .A(n241), .B(n240), .Y(res[24]) ); XNOR2X1TS U354 ( .A(n311), .B(n310), .Y(res[8]) ); XNOR2X4TS U355 ( .A(n101), .B(in2[11]), .Y(n102) ); NOR2X8TS U356 ( .A(n100), .B(in2[10]), .Y(n101) ); XOR2X4TS U357 ( .A(n148), .B(in2[16]), .Y(n124) ); NOR2X2TS U358 ( .A(n154), .B(n153), .Y(n155) ); INVX2TS U359 ( .A(n242), .Y(n234) ); INVX2TS U360 ( .A(n305), .Y(n95) ); NAND2X1TS U361 ( .A(n13), .B(n301), .Y(n303) ); AOI2BB1X4TS U362 ( .A0N(n323), .A1N(n83), .B0(n82), .Y(n84) ); OAI21X4TS U363 ( .A0(n307), .A1(n89), .B0(n308), .Y(n304) ); XNOR2X4TS U364 ( .A(n100), .B(in2[10]), .Y(n98) ); MXI2X8TS U365 ( .A(n104), .B(n98), .S0(n317), .Y(n99) ); INVX2TS U366 ( .A(in2[12]), .Y(n108) ); INVX2TS U367 ( .A(in2[14]), .Y(n116) ); INVX2TS U368 ( .A(n148), .Y(n127) ); XNOR2X1TS U369 ( .A(n134), .B(in2[19]), .Y(n135) ); MX2X4TS U370 ( .A(in2[19]), .B(n135), .S0(add_sub), .Y(n140) ); AOI21X4TS U371 ( .A0(n260), .A1(n143), .B0(n142), .Y(n232) ); XNOR2X1TS U372 ( .A(n185), .B(in2[24]), .Y(n149) ); INVX2TS U373 ( .A(in2[22]), .Y(n157) ); OAI21X4TS U374 ( .A0(n251), .A1(n256), .B0(n252), .Y(n242) ); AOI21X4TS U375 ( .A0(n163), .A1(n242), .B0(n162), .Y(n164) ); OAI21X4TS U376 ( .A0(n228), .A1(n179), .B0(n223), .Y(n217) ); AOI21X4TS U377 ( .A0(n76), .A1(n217), .B0(n181), .Y(n209) ); XOR2X1TS U378 ( .A(n195), .B(in2[30]), .Y(n186) ); AOI21X4TS U379 ( .A0(n79), .A1(n192), .B0(n191), .Y(n193) ); XOR2X4TS U380 ( .A(n200), .B(n75), .Y(res[31]) ); INVX2TS U381 ( .A(n66), .Y(n207) ); AOI21X4TS U382 ( .A0(n259), .A1(n236), .B0(n235), .Y(n241) ); AOI21X4TS U383 ( .A0(n259), .A1(n243), .B0(n242), .Y(n248) ); AOI21X4TS U384 ( .A0(n259), .A1(n257), .B0(n250), .Y(n255) ); INVX2TS U385 ( .A(n261), .Y(n263) ); XNOR2X1TS U386 ( .A(n273), .B(n275), .Y(res[17]) ); XNOR2X1TS U387 ( .A(n278), .B(n277), .Y(res[16]) ); XNOR2X1TS U388 ( .A(n287), .B(n286), .Y(res[14]) ); XNOR2X1TS U389 ( .A(n299), .B(n298), .Y(res[11]) ); XNOR2X1TS U390 ( .A(n304), .B(n306), .Y(res[9]) ); NAND2X1TS U391 ( .A(n335), .B(n312), .Y(n314) ); XNOR2X1TS U392 ( .A(n314), .B(n313), .Y(n315) ); MXI2X1TS U393 ( .A(in2[5]), .B(n315), .S0(n336), .Y(n316) ); XOR2X1TS U394 ( .A(in2[0]), .B(in2[1]), .Y(n318) ); MXI2X1TS U395 ( .A(in2[1]), .B(n318), .S0(n317), .Y(n319) ); XOR2X1TS U396 ( .A(in2[3]), .B(n320), .Y(n321) ); MXI2X1TS U397 ( .A(in2[3]), .B(n321), .S0(n336), .Y(n322) ); XOR2X1TS U398 ( .A(n324), .B(in2[7]), .Y(n325) ); MXI2X1TS U399 ( .A(in2[7]), .B(n325), .S0(n336), .Y(n326) ); XNOR2X1TS U400 ( .A(n327), .B(in2[2]), .Y(n328) ); MXI2X1TS U401 ( .A(in2[2]), .B(n328), .S0(n336), .Y(n329) ); INVX2TS U402 ( .A(n335), .Y(n331) ); XNOR2X1TS U403 ( .A(n332), .B(in2[6]), .Y(n333) ); MXI2X1TS U404 ( .A(in2[6]), .B(n333), .S0(n336), .Y(n334) ); MXI2X1TS U405 ( .A(in2[4]), .B(n337), .S0(n336), .Y(n338) ); initial $sdf_annotate("Approx_adder_LOALPL8_syn.sdf"); endmodule

module uparc_long_imul( clk, nrst, multiplicand, multiplier, start, signd, ready, product ); input wire clk; input wire nrst; input wire [`UPARC_REG_WIDTH-1:0] multiplicand; input wire [`UPARC_REG_WIDTH-1:0] multiplier; input wire start; input wire signd; output wire ready; output wire [2*`UPARC_REG_WIDTH-1:0] product; /* Local registers */ reg [5:0] nbit; reg [2*`UPARC_REG_WIDTH-1:0] prod; reg [`UPARC_REG_WIDTH-1:0] abs_multiplicand; assign ready = !nbit && !start; assign product = (signd && (multiplicand[`UPARC_REG_WIDTH-1] ^ multiplier[`UPARC_REG_WIDTH-1])) ? -prod : prod; always @(posedge clk or negedge nrst) begin if(!nrst) begin nbit <= 6'b0; prod <= {(2*`UPARC_REG_WIDTH){1'b0}}; abs_multiplicand <= {(`UPARC_REG_WIDTH){1'b0}}; end else if(start) begin if(!multiplicand || !multiplier) begin nbit <= 6'b0; prod <= {(2*`UPARC_REG_WIDTH){1'b0}}; end else begin nbit <= 6'd`UPARC_REG_WIDTH; prod <= { {(`UPARC_REG_WIDTH){1'b0}}, signd && multiplier[`UPARC_REG_WIDTH-1] ? -multiplier : multiplier }; abs_multiplicand <= signd && multiplicand[`UPARC_REG_WIDTH-1] ? -multiplicand : multiplicand; end end else if(nbit) begin nbit <= nbit - 1'b1; if(prod[0]) begin prod[2*`UPARC_REG_WIDTH-1:`UPARC_REG_WIDTH-1] <= prod[2*`UPARC_REG_WIDTH-1:`UPARC_REG_WIDTH] + abs_multiplicand; prod[`UPARC_REG_WIDTH-2:0] <= prod[`UPARC_REG_WIDTH-1:1]; end else prod <= { 1'b0, prod[2*`UPARC_REG_WIDTH-1:1] }; end end endmodule

module test_wb_drp; // Parameters parameter ADDR_WIDTH = 16; // Inputs reg clk = 0; reg rst = 0; reg [7:0] current_test = 0; reg [ADDR_WIDTH-1:0] wb_adr_i = 0; reg [15:0] wb_dat_i = 0; reg wb_we_i = 0; reg wb_stb_i = 0; reg wb_cyc_i = 0; reg [15:0] drp_di = 0; reg drp_rdy = 0; // Outputs wire [15:0] wb_dat_o; wire wb_ack_o; wire [ADDR_WIDTH-1:0] drp_addr; wire [15:0] drp_do; wire drp_en; wire drp_we; initial begin // myhdl integration $from_myhdl( clk, rst, current_test, wb_adr_i, wb_dat_i, wb_we_i, wb_stb_i, wb_cyc_i, drp_di, drp_rdy ); $to_myhdl( wb_dat_o, wb_ack_o, drp_addr, drp_do, drp_en, drp_we ); // dump file $dumpfile("test_wb_drp.lxt"); $dumpvars(0, test_wb_drp); end wb_drp #( .ADDR_WIDTH(ADDR_WIDTH) ) UUT ( .clk(clk), .rst(rst), .wb_adr_i(wb_adr_i), .wb_dat_i(wb_dat_i), .wb_dat_o(wb_dat_o), .wb_we_i(wb_we_i), .wb_stb_i(wb_stb_i), .wb_ack_o(wb_ack_o), .wb_cyc_i(wb_cyc_i), .drp_addr(drp_addr), .drp_do(drp_do), .drp_di(drp_di), .drp_en(drp_en), .drp_we(drp_we), .drp_rdy(drp_rdy) ); endmodule

module sky130_fd_sc_hdll__and3 ( X, A, B, C ); output X; input A; input B; input C; // Voltage supply signals supply1 VPWR; supply0 VGND; supply1 VPB ; supply0 VNB ; endmodule

module sky130_fd_sc_lp__inputiso1n ( //# {{data|Data Signals}} input A , output X , //# {{power|Power}} input SLEEP_B ); // Voltage supply signals supply1 VPWR; supply0 VGND; supply1 VPB ; supply0 VNB ; endmodule

module SNPS_CLOCK_GATE_HIGH_FSM_Add_Subtract_83 ( CLK, EN, ENCLK, TE ); input CLK, EN, TE; output ENCLK; TLATNTSCAX2TS latch ( .E(EN), .SE(TE), .CK(CLK), .ECK(ENCLK) ); initial $sdf_annotate("FPU_Add_Subtract_Function_ASIC_fpu_syn_constraints_clk10.tcl_GATED_syn.sdf"); endmodule

module SNPS_CLOCK_GATE_HIGH_RegisterAdd_W11_82 ( CLK, EN, ENCLK, TE ); input CLK, EN, TE; output ENCLK; TLATNTSCAX2TS latch ( .E(EN), .SE(TE), .CK(CLK), .ECK(ENCLK) ); initial $sdf_annotate("FPU_Add_Subtract_Function_ASIC_fpu_syn_constraints_clk10.tcl_GATED_syn.sdf"); endmodule

module SNPS_CLOCK_GATE_HIGH_RegisterAdd_W6 ( CLK, EN, ENCLK, TE ); input CLK, EN, TE; output ENCLK; TLATNTSCAX2TS latch ( .E(EN), .SE(TE), .CK(CLK), .ECK(ENCLK) ); initial $sdf_annotate("FPU_Add_Subtract_Function_ASIC_fpu_syn_constraints_clk10.tcl_GATED_syn.sdf"); endmodule

module SNPS_CLOCK_GATE_HIGH_RegisterAdd_W55_1_2 ( CLK, EN, ENCLK, TE ); input CLK, EN, TE; output ENCLK; TLATNTSCAX2TS latch ( .E(EN), .SE(TE), .CK(CLK), .ECK(ENCLK) ); initial $sdf_annotate("FPU_Add_Subtract_Function_ASIC_fpu_syn_constraints_clk10.tcl_GATED_syn.sdf"); endmodule

module SNPS_CLOCK_GATE_HIGH_RegisterAdd_W55_1_3 ( CLK, EN, ENCLK, TE ); input CLK, EN, TE; output ENCLK; TLATNTSCAX2TS latch ( .E(EN), .SE(TE), .CK(CLK), .ECK(ENCLK) ); initial $sdf_annotate("FPU_Add_Subtract_Function_ASIC_fpu_syn_constraints_clk10.tcl_GATED_syn.sdf"); endmodule

module SNPS_CLOCK_GATE_HIGH_RegisterAdd_W63_0_6 ( CLK, EN, ENCLK, TE ); input CLK, EN, TE; output ENCLK; TLATNTSCAX2TS latch ( .E(EN), .SE(TE), .CK(CLK), .ECK(ENCLK) ); initial $sdf_annotate("FPU_Add_Subtract_Function_ASIC_fpu_syn_constraints_clk10.tcl_GATED_syn.sdf"); endmodule

module SNPS_CLOCK_GATE_HIGH_RegisterAdd_W64_0_4 ( CLK, EN, ENCLK, TE ); input CLK, EN, TE; output ENCLK; TLATNTSCAX2TS latch ( .E(EN), .SE(TE), .CK(CLK), .ECK(ENCLK) ); initial $sdf_annotate("FPU_Add_Subtract_Function_ASIC_fpu_syn_constraints_clk10.tcl_GATED_syn.sdf"); endmodule

module SNPS_CLOCK_GATE_HIGH_RegisterAdd_W64_0_5 ( CLK, EN, ENCLK, TE ); input CLK, EN, TE; output ENCLK; TLATNTSCAX2TS latch ( .E(EN), .SE(TE), .CK(CLK), .ECK(ENCLK) ); initial $sdf_annotate("FPU_Add_Subtract_Function_ASIC_fpu_syn_constraints_clk10.tcl_GATED_syn.sdf"); endmodule

module FPU_Add_Subtract_Function_W64_EW11_SW52_SWR55_EWR6 ( clk, rst, beg_FSM, ack_FSM, Data_X, Data_Y, add_subt, r_mode, overflow_flag, underflow_flag, ready, final_result_ieee ); input [63:0] Data_X; input [63:0] Data_Y; input [1:0] r_mode; output [63:0] final_result_ieee; input clk, rst, beg_FSM, ack_FSM, add_subt; output overflow_flag, underflow_flag, ready; wire FSM_selector_C, add_overflow_flag, FSM_exp_operation_load_diff, FSM_barrel_shifter_load, FSM_Add_Subt_Sgf_load, FSM_LZA_load, FSM_Final_Result_load, FSM_selector_D, sign_final_result, FS_Module_net3849879, final_result_ieee_Module_Sign_S_mux, YRegister_net3849802, Exp_Operation_Module_exp_result_net3849843, Leading_Zero_Detector_Module_Output_Reg_net3849807, final_result_ieee_Module_Final_Result_IEEE_net3849802, Add_Subt_Sgf_module_Add_Subt_Result_net3849825, Oper_Start_in_module_MRegister_net3849861, Barrel_Shifter_module_Output_Reg_net3849825, n86, n860, n861, n864, n865, n866, n867, n871, n872, n873, n881, n882, n883, n884, n885, n886, n887, n888, n889, n890, n891, n892, n893, n894, n895, n896, n897, n898, n899, n900, n901, n902, n903, n904, n905, n906, n907, n908, n909, n910, n911, n912, n913, n914, n915, n916, n917, n918, n919, n920, n921, n922, n923, n924, n925, n926, n927, n928, n929, n930, n931, n932, n933, n934, n935, n936, n937, n938, n939, n940, n941, n942, n943, n944, n945, n946, n947, n948, n949, n950, n951, n952, n953, n954, n955, n956, n957, n958, n959, n960, n961, n962, n963, n964, n965, n966, n967, n968, n969, n970, n971, n972, n973, n974, n975, n976, n977, n978, n979, n980, n981, n982, n983, n984, n985, n986, n987, n988, n989, n990, n991, n992, n993, n994, n995, n996, n997, n998, n999, n1000, n1001, n1002, n1003, n1004, n1005, n1006, n1007, n1008, n1009, n1010, n1011, n1012, n1013, n1014, n1015, n1017, n1018, n1019, n1020, n1021, n1022, n1023, n1024, n1025, n1026, n1027, n1028, n1029, n1030, n1031, n1032, n1033, n1034, n1035, n1036, n1037, n1038, n1039, n1040, n1041, n1042, n1043, n1044, n1045, n1046, n1047, n1048, n1049, n1050, n1051, n1052, n1053, n1054, n1055, n1056, n1057, n1058, n1059, n1060, n1061, n1062, n1063, n1064, n1065, n1066, n1067, n1068, n1069, n1070, n1071, n1072, n1073, n1074, n1075, n1076, n1077, n1078, n1079, n1080, n1081, n1082, n1083, n1084, n1085, n1086, n1087, n1088, n1089, n1090, n1091, n1092, n1093, n1094, n1095, n1096, n1097, n1098, n1099, n1100, n1101, n1102, n1103, n1104, n1105, n1106, n1107, n1108, n1109, n1110, n1111, n1112, n1113, n1114, n1115, n1116, n1117, n1118, n1119, n1120, n1121, n1122, n1123, n1124, n1125, n1126, n1127, n1128, n1129, n1130, n1131, n1132, n1133, n1134, n1135, n1136, n1137, n1138, n1139, n1140, n1141, n1142, n1143, n1144, n1145, n1146, n1147, n1148, n1149, n1150, n1151, n1152, n1153, n1154, n1155, n1156, n1157, n1158, n1159, n1160, n1161, n1162, n1163, n1164, n1165, n1166, n1167, n1168, n1169, n1170, n1171, n1172, n1173, n1174, n1175, n1176, n1177, n1178, n1179, n1180, n1181, n1182, n1183, n1184, n1185, n1186, n1187, n1188, n1189, n1190, n1191, n1192, n1193, n1194, n1195, n1196, n1197, n1198, n1199, n1200, n1201, n1202, n1203, n1204, n1205, n1206, n1207, n1208, n1209, n1210, n1211, n1212, n1213, n1214, n1215, n1216, n1217, n1218, n1219, n1220, n1221, n1222, n1223, n1224, n1225, n1226, n1227, n1228, n1229, n1230, n1231, n1232, n1233, n1234, n1235, n1236, n1237, n1238, n1239, n1240, n1241, n1242, n1243, n1244, n1245, n1246, n1247, n1248, n1249, n1250, n1251, n1252, n1253, n1254, n1255, n1256, n1257, n1258, n1259, n1260, n1261, n1262, n1263, n1264, n1265, n1266, n1267, n1268, n1269, n1270, n1271, n1272, n1273, n1274, n1275, n1276, n1277, n1278, n1279, n1280, n1281, n1282, n1283, n1284, n1285, n1286, n1287, n1288, n1289, n1290, n1291, n1292, n1293, n1294, n1295, n1296, n1297, n1298, n1299, n1300, n1301, n1302, n1303, n1304, n1305, n1306, n1307, n1308, n1309, n1310, n1311, n1312, n1313, n1314, n1315, n1316, n1317, n1318, n1319, n1320, n1321, n1322, n1323, n1324, n1325, n1326, n1327, n1328, n1329, n1330, n1331, n1332, n1333, n1334, n1335, n1336, n1337, n1338, n1339, n1340, n1341, n1342, n1343, n1344, n1345, n1346, n1347, n1348, n1349, n1350, n1351, n1352, n1353, n1354, n1355, n1356, n1357, n1358, n1359, n1360, n1361, n1362, n1363, n1364, n1365, n1366, n1367, n1368, n1369, n1370, n1371, n1372, n1373, n1374, n1375, n1376, n1377, n1378, n1379, n1380, n1381, n1382, n1383, n1384, n1385, n1386, n1387, n1388, n1389, n1390, n1391, n1392, n1393, n1394, n1395, n1396, n1397, n1398, n1399, n1400, n1401, n1402, n1403, n1404, n1405, n1406, n1407, n1408, n1409, n1410, n1411, n1412, n1413, n1414, n1415, n1416, n1417, n1418, n1419, n1420, n1421, n1422, n1423, n1424, n1425, n1426, n1427, n1428, n1429, n1430, n1431, n1432, n1433, n1434, n1435, n1436, n1437, n1438, n1439, n1440, n1441, n1442, n1443, n1444, n1445, n1446, n1447, n1448, n1449, n1450, n1451, n1452, n1453, n1454, n1455, n1456, n1457, n1458, n1459, n1460, n1461, n1462, n1463, n1464, n1465, n1466, n1467, n1468, n1469, n1470, n1471, n1472, n1473, n1474, n1475, n1476, n1477, n1478, n1479, n1480, n1481, n1482, n1483, n1484, n1485, n1486, n1487, n1488, n1489, n1490, n1491, n1492, n1493, n1494, n1495, n1496, n1497, n1498, n1499, n1500, n1501, n1502, n1503, n1504, n1505, n1506, n1507, n1508, n1509, n1510, n1511, n1512, n1513, n1514, n1515, n1516, n1517, n1518, n1519, n1520, n1521, n1522, n1523, n1524, n1525, n1526, n1527, n1528, n1529, n1530, n1531, n1532, n1533, n1534, n1535, n1536, n1537, n1538, n1539, n1540, n1541, n1542, n1543, n1544, n1545, n1546, n1547, n1548, n1549, n1550, n1551, n1552, n1553, n1554, n1555, n1556, n1557, n1558, n1559, n1560, n1561, n1562, n1563, n1564, n1565, n1566, n1567, n1568, n1569, n1570, n1571, n1572, n1573, n1574, n1575, n1576, n1577, n1578, n1579, n1580, n1581, n1582, n1583, n1584, n1585, n1586, n1587, n1588, n1589, n1590, n1591, n1592, n1593, n1594, n1595, n1596, n1597, n1598, n1599, n1600, n1601, n1602, n1603, n1604, n1605, n1606, n1607, n1608, n1609, n1610, n1611, n1612, n1613, n1614, n1615, n1616, n1617, n1618, n1619, n1620, n1621, n1622, n1623, n1624, n1625, n1626, n1627, n1628, n1629, n1630, n1631, n1632, n1633, n1634, n1635, n1636, n1637, n1638, n1639, n1640, n1641, n1642, n1643, n1644, n1645, n1646, n1647, n1648, n1649, n1650, n1651, n1652, n1653, n1654, n1655, n1656, n1657, n1658, n1659, n1660, n1661, n1662, n1663, n1664, n1665, n1666, n1667, n1668, n1669, n1670, n1671, n1672, n1673, n1674, n1675, n1676, n1677, n1678, n1679, n1680, n1681, n1682, n1683, n1684, n1685, n1686, n1687, n1688, n1689, n1690, n1691, n1692, n1693, n1694, n1695, n1696, n1697, n1698, n1699, n1700, n1701, n1702, n1703, n1704, n1705, n1706, n1707, n1708, n1709, n1710, n1711, n1712, n1713, n1714, n1715, n1716, n1717, n1718, n1719, n1720, n1721, n1722, n1723, n1725, n1726, n1727, n1728, n1729, n1730, n1731, n1732, n1733, n1734, n1735, n1736, n1737, n1738, n1739, n1740, n1741, n1742, n1743, n1744, n1745, n1746, n1747, n1748, n1749, n1750, n1751, n1752, n1753, n1754, n1755, n1756, n1757, n1758, n1759, n1760, n1761, n1762, n1763, n1764, n1765, n1766, n1767, n1768, n1769, n1770, n1771, n1772, n1773, n1774, n1775, n1776, n1777, n1778, n1779, n1780, n1781, n1782, n1783, n1784, n1785, n1786, n1787, n1788, n1789, n1790, n1791, n1792, n1793, n1794, n1795, n1796, n1797, n1798, n1799, n1800, n1801, n1802, n1803, n1804, n1805, n1806, n1807, n1808, n1809, n1810, n1811, n1812, n1813, n1814, n1815, n1816, n1817, n1818, n1819, n1820, n1821, n1822, n1823, n1824, n1825, n1826, n1827, n1828, n1829, n1830, n1831, n1832, n1833, n1834, n1835, n1836, n1837, n1838, n1839, n1840, n1841, n1842, n1843, n1844, n1845, n1846, n1847, n1848, n1849, n1850, n1851, n1852, n1853, n1854, n1855, n1856, n1857, n1858, n1859, n1860, n1861, n1862, n1863, n1864, n1865, n1866, n1867, n1868, n1869, n1870, n1871, n1872, n1873, n1874, n1875, n1876, n1877, n1878, n1879, n1880, n1881, n1882, n1883, n1884, n1885, n1886, n1887, n1888, n1889, n1890, n1891, n1892, n1893, n1894, n1895, n1896, n1897, n1898, n1899, n1900, n1901, n1902, n1903, n1904, n1905, n1906, n1907, n1908, n1909, n1910, n1911, n1912, n1913, n1914, n1915, n1916, n1917, n1918, n1919, n1920, n1921, n1922, n1923, n1924, n1925, n1926, n1927, n1928, n1929, n1930, n1931, n1932, n1933, n1934, n1935, n1936, n1937, n1938, n1939, n1940, n1941, n1942, n1943, n1944, n1945, n1946, n1947, n1948, n1949, n1950, n1951, n1952, n1953, n1954, n1955, n1956, n1957, n1958, n1959, n1960, n1961, n1962, n1963, n1964, n1965, n1966, n1967, n1968, n1969, n1970, n1971, n1972, n1973, n1974, n1975, n1976, n1977, n1978, n1979, n1980, n1981, n1982, n1983, n1984, n1985, n1986, n1987, n1988, n1989, n1990, n1991, n1992, n1993, n1994, n1995, n1996, n1997, n1998, n1999, n2000, n2001, n2002, n2003, n2004, n2005, n2006, n2007, n2008, n2009, n2010, n2011, n2012, n2013, n2014, n2015, n2016, n2017, n2018, n2019, n2020, n2021, n2022, n2023, n2024, n2025, n2026, n2027, n2028, n2029, n2030, n2031, n2032, n2033, n2034, n2035, n2036, n2037, n2038, n2039, n2040, n2041, n2042, n2043, n2044, n2045, n2046, n2047, n2048, n2049, n2050, n2051, n2052, n2053, n2054, n2055, n2056, n2057, n2058, n2059, n2060, n2061, n2062, n2063, n2064, n2065, n2066, n2067, n2068, n2069, n2070, n2071, n2072, n2073, n2074, n2075, n2076, n2077, n2078, n2079, n2080, n2081, n2082, n2083, n2084, n2085, n2086, n2087, n2088, n2089, n2090, n2091, n2092, n2093, n2094, n2095, n2096, n2097, n2098, n2099, n2100, n2101, n2102, n2103, n2104, n2105, n2106, n2107, n2108, n2109, n2110, n2111, n2112, n2113, n2114, n2115, n2116, n2117, n2118, n2119, n2120, n2121, n2122, n2123, n2124, n2126, n2127, n2128, n2129, n2130, n2131, n2132, n2133, n2134, n2135, n2136, n2137, n2138, n2139, n2140, n2141, n2142, n2143, n2144, n2145, n2146, n2147, n2148, n2149, n2150, n2151, n2152, n2153, n2154, n2155, n2156, n2157, n2158, n2159, n2160, n2161, n2162, n2163, n2164, n2165, n2166, n2167, n2168, n2169, n2170, n2171, n2172, n2173, n2174, n2175, n2176, n2177, n2178, n2179, n2180, n2181, n2182, n2183, n2184, n2185, n2186, n2187, n2188, n2189, n2190, n2191, n2192, n2193, n2194, n2195, n2196, n2197, n2198, n2199, n2200, n2201, n2202, n2203, n2204, n2205, n2206, n2207, n2208, n2209, n2210, n2211, n2212, n2213, n2214, n2215, n2216, n2217, n2218, n2219, n2220, n2221, n2222, n2223, n2224, n2225, n2226, n2227, n2228, n2229, n2230, n2231, n2232, n2233, n2234, n2235, n2236, n2237, n2238, n2239, n2240, n2241, n2242, n2243, n2244, n2245, n2246, n2247, n2248, n2249, n2250, n2251, n2252, n2253, n2254, n2255, n2256, n2257, n2258, n2259, n2260, n2261, n2262, n2263, n2264, n2265, n2266, n2267, n2268, n2269, n2270, n2271, n2272, n2273, n2274, n2275, n2276, n2277, n2278, n2279, n2280, n2281, n2282, n2283, n2284, n2285, n2286, n2287, n2288, n2289, n2290, n2291, n2292, n2293, n2294, n2295, n2296, n2297, n2298, n2299, n2300, n2301, n2302, n2303, n2304, n2305, n2306, n2307, n2308, n2309, n2310, n2311, n2312, n2313, n2314, n2315, n2316, n2317, n2318, n2319, n2320, n2321, n2322, n2323, n2324, n2325, n2326, n2327, n2328, n2329, n2330, n2331, n2332, n2333, n2334, n2335, n2336, n2337, n2338, n2339, n2340, n2341, n2342, n2343, n2344, n2345, n2346, n2347, n2348, n2349, n2350, n2351, n2352, n2353, n2354, n2355, n2356, n2357, n2358, n2359, n2360, n2361, n2362, n2363, n2364, n2365, n2366, n2367, n2368, n2369, n2370, n2371, n2372, n2373, n2374, n2375, n2376, n2377, n2378, n2379, n2380, n2381, n2382, n2383, n2384, n2385, n2386, n2387, n2388, n2389, n2390, n2391, n2392, n2393, n2394, n2395, n2396, n2397, n2398, n2399, n2400, n2401, n2402, n2403, n2404, n2405, n2406, n2407, n2408, n2409, n2410, n2411, n2412, n2413, n2414, n2415, n2416, n2417, n2418, n2419, n2420, n2421, n2422, n2423, n2424, n2425, n2426, n2427, n2428, n2429, n2430, n2431, n2432, n2433, n2434, n2435, n2436, n2437, n2438, n2439, n2440, n2441, n2442, n2443, n2444, n2445, n2446, n2447, n2448, n2449, n2450, n2451, n2452, n2453, n2454, n2455, n2456, n2457, n2458, n2459, n2460, n2461, n2462, n2463, n2464, n2465, n2466, n2467, n2468, n2469, n2470, n2471, n2472, n2473, n2474, n2475, n2476, n2477, n2478, n2479, n2480, n2481, n2482, n2483, n2484, n2485, n2486, n2487, n2488, n2489, n2490, n2491, n2492, n2493, n2494, n2495, n2496, n2497, n2498, n2499, n2500, n2501, n2502, n2503, n2504, n2505, n2506, n2507, n2508, n2509, n2510, n2511, n2512, n2513, n2514, n2515, n2516, n2517, n2518, n2519, n2520, n2521, n2522, n2523, n2524, n2525, n2526, n2527, n2528, n2529, n2530, n2531, n2532, n2533, n2534, n2535, n2536, n2537, n2538, n2539, n2540, n2541, n2542, n2543, n2544, n2545, n2546, n2547, n2548, n2549, n2550, n2551, n2552, n2553, n2554, n2555, n2556, n2557, n2558, n2559, n2560, n2561, n2562, n2563, n2564, n2565, n2566, n2567, n2568, n2569, n2570, n2571, n2572, n2573, n2574, n2575, n2576, n2577, n2578, n2579, n2580, n2581, n2582, n2583, n2584, n2585, n2586, n2587, n2588, n2589, n2590, n2591, n2592, n2593, n2594, n2595, n2596, n2597, n2598, n2599, n2600, n2601, n2602, n2603, n2604, n2605, n2606, n2607, n2608, n2609, n2610, n2611, n2612, n2613, n2614, n2615, n2616, n2617, n2618, n2619, n2620, n2621, n2622, n2623, n2624, n2625, n2626, n2627, n2628, n2629, n2630, n2631, n2632, n2633, n2634, n2635, n2636, n2637, n2638, n2639, n2640, n2641, n2642, n2643, n2644, n2645, n2646, n2647, n2648, n2649, n2650, n2651, n2652, n2653, n2654, n2655, n2656, n2657, n2658, n2659, n2660, n2661, n2662, n2663, n2664, n2665, n2666, n2667, n2668, n2669, n2670, n2671, n2672, n2673, n2674, n2675, n2676, n2677, n2678, n2679, n2680, n2681, n2682, n2683, n2684, n2685, n2686, n2687, n2688, n2689, n2690, n2691, n2692, n2693, n2694, n2695, n2696, n2697, n2698, n2699, n2700, n2701, n2702, n2703, n2704, n2705, n2706, n2707, n2708, n2709, n2710, n2711, n2712, n2713, n2714, n2715, n2716, n2717, n2718, n2719, n2720, n2721, n2722, n2723, n2724, n2725, n2726, n2727, n2728, n2729, n2730, n2731, n2732, n2733, n2734, n2735, n2736, n2737, n2738, n2739, n2740, n2741, n2742, n2743, n2744, n2745, n2746, n2747, n2748, n2749, n2750, n2751, n2752, n2753, n2754, n2755, n2756, n2757, n2758, n2759, n2760, n2761, n2762, n2763, n2764, n2765, n2766, n2767, n2768, n2769, n2770, n2771, n2772, n2773, n2774, n2775, n2776, n2777, n2778, n2779, n2780, n2781, n2782, n2783, n2784, n2785, n2786, n2787, n2788, n2789, n2790, n2791, n2792, n2793, n2794, n2795, n2796, n2797, n2798, n2799, n2800, n2801, n2802, n2803, n2804, n2805, n2806, n2807, n2808, n2809, n2810, n2811, n2812, n2813, n2814, n2815, n2816, n2817, n2818, n2819, n2820, n2821, n2822, n2823, n2824, n2825, n2826, n2827, n2828, n2829, n2830, n2831, n2832, n2833, n2834, n2835, n2836, n2837, n2838, n2839, n2840, n2841, n2842, n2843, n2844, n2845, n2846, n2847, n2848, n2849, n2850, n2851, n2852, n2853, n2854, n2855, n2856, n2857, n2858, n2859, n2860, n2861, n2862, n2863, n2864, n2865, n2866, n2867, n2868, n2869, n2870, n2871, n2872, n2873, n2874, n2875, n2876, n2877, n2878, n2879, n2880, n2881, n2882, n2883, n2884, n2885, n2886, n2887, n2888, n2889, n2890, n2891, n2892, n2893, n2894, n2895, n2896, n2897, n2898, n2899, n2900, n2901, n2902, n2903, n2904, n2905, n2906, n2907, n2908, n2909, n2910, n2911, n2912, n2913, n2914, n2915, n2916, n2917, n2918, n2919, n2920, n2921, n2922, n2923, n2924, n2925, n2926, n2927, n2928, n2929, n2930, n2931, n2932, n2933, n2934, n2935, n2936, n2937, n2938, n2939, n2940, n2941, n2942, n2943, n2944, n2945, n2946, n2947, n2948, n2949, n2950, n2951, n2952, n2953, n2954, n2955, n2956, n2957, n2958, n2959, n2960, n2961, n2962, n2963, n2964, n2965, n2966, n2967, n2968, n2969, n2970, n2971, n2972, n2973, n2974, n2975, n2976, n2977, n2978, n2979, n2980, n2981, n2982, n2983, n2984, n2985, n2986, n2987, n2988, n2989, n2990, n2991, n2992, n2993, n2994, n2995, n2996, n2997, n2998, n2999, n3000, n3001, n3002, n3003, n3004, n3005, n3006, n3007, n3008, n3009, n3010, n3011, n3012, n3013, n3014, n3015, n3016, n3017, n3018, n3019, n3020, n3021, n3022, n3023, n3024, n3025, n3026, n3027, n3028, n3029, n3030, n3031, n3032, n3033, n3034, n3035, n3036, n3037, n3038, n3039, n3040, n3041, n3042, n3043, n3044, n3045, n3046, n3047, n3048, n3049, n3050, n3051, n3052, n3053, n3054, n3055, n3056, n3057, n3058, n3059, n3060, n3061, n3062, n3063, n3064, n3065, n3066, n3067, n3068, n3069, n3070, n3071, n3072, n3073, n3074, n3075, n3076, n3077, n3078, n3079, n3080, n3081, n3082, n3083, n3084, n3085, n3086, n3087, n3088, n3089, n3090, n3091, n3092, n3093, n3094, n3095, n3096, n3097, n3098, n3099, n3100, n3101, n3102, n3103, n3104, n3105, n3106, n3107, n3108, n3109, n3110, n3111, n3112, n3113, n3114, n3115, n3116, n3117, n3118, n3119, n3120, n3121, n3122, n3123, n3124, n3125, n3126, n3127, n3128, n3129, n3130, n3131, n3132, n3133, n3134, n3135, n3136, n3137, n3138, n3139, n3140; wire [1:0] FSM_selector_B; wire [63:0] intDX; wire [62:0] intDY; wire [62:0] DMP; wire [62:0] DmP; wire [10:0] exp_oper_result; wire [5:0] LZA_output; wire [54:0] Add_Subt_result; wire [54:0] Sgf_normalized_result; wire [3:0] FS_Module_state_next; wire [3:0] FS_Module_state_reg; wire [62:0] Oper_Start_in_module_intm; wire [62:0] Oper_Start_in_module_intM; wire [10:0] Exp_Operation_Module_Data_S; wire [54:0] Barrel_Shifter_module_Data_Reg; wire [55:0] Add_Subt_Sgf_module_S_to_D; wire [5:0] Leading_Zero_Detector_Module_Codec_to_Reg; wire [51:0] final_result_ieee_Module_Sgf_S_mux; wire [10:0] final_result_ieee_Module_Exp_S_mux; wire [109:0] Barrel_Shifter_module_Mux_Array_Data_array; SNPS_CLOCK_GATE_HIGH_FSM_Add_Subtract_83 FS_Module_clk_gate_state_reg_reg ( .CLK(clk), .EN(n872), .ENCLK(FS_Module_net3849879), .TE(1'b0) ); SNPS_CLOCK_GATE_HIGH_RegisterAdd_W64_0_5 YRegister_clk_gate_Q_reg ( .CLK(clk), .EN(n871), .ENCLK(YRegister_net3849802), .TE(1'b0) ); SNPS_CLOCK_GATE_HIGH_RegisterAdd_W11_82 Exp_Operation_Module_exp_result_clk_gate_Q_reg ( .CLK(clk), .EN(FSM_exp_operation_load_diff), .ENCLK( Exp_Operation_Module_exp_result_net3849843), .TE(1'b0) ); SNPS_CLOCK_GATE_HIGH_RegisterAdd_W6 Leading_Zero_Detector_Module_Output_Reg_clk_gate_Q_reg ( .CLK(clk), .EN(FSM_LZA_load), .ENCLK( Leading_Zero_Detector_Module_Output_Reg_net3849807), .TE(1'b0) ); SNPS_CLOCK_GATE_HIGH_RegisterAdd_W64_0_4 final_result_ieee_Module_Final_Result_IEEE_clk_gate_Q_reg ( .CLK(clk), .EN(FSM_Final_Result_load), .ENCLK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .TE(1'b0) ); SNPS_CLOCK_GATE_HIGH_RegisterAdd_W55_1_2 Add_Subt_Sgf_module_Add_Subt_Result_clk_gate_Q_reg ( .CLK(clk), .EN(FSM_Add_Subt_Sgf_load), .ENCLK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .TE(1'b0) ); SNPS_CLOCK_GATE_HIGH_RegisterAdd_W63_0_6 Oper_Start_in_module_MRegister_clk_gate_Q_reg ( .CLK(clk), .EN(n873), .ENCLK(Oper_Start_in_module_MRegister_net3849861), .TE(1'b0) ); SNPS_CLOCK_GATE_HIGH_RegisterAdd_W55_1_3 Barrel_Shifter_module_Output_Reg_clk_gate_Q_reg ( .CLK(clk), .EN(FSM_barrel_shifter_load), .ENCLK( Barrel_Shifter_module_Output_Reg_net3849825), .TE(1'b0) ); DFFRX4TS FS_Module_state_reg_reg_1_ ( .D(FS_Module_state_next[1]), .CK( FS_Module_net3849879), .RN(n3081), .Q(FS_Module_state_reg[1]), .QN( n925) ); DFFRXLTS Exp_Operation_Module_exp_result_Q_reg_10_ ( .D( Exp_Operation_Module_Data_S[10]), .CK( Exp_Operation_Module_exp_result_net3849843), .RN(n3096), .Q( exp_oper_result[10]) ); DFFRXLTS Exp_Operation_Module_exp_result_Q_reg_9_ ( .D( Exp_Operation_Module_Data_S[9]), .CK( Exp_Operation_Module_exp_result_net3849843), .RN(n3095), .Q( exp_oper_result[9]) ); DFFRXLTS Exp_Operation_Module_exp_result_Q_reg_8_ ( .D( Exp_Operation_Module_Data_S[8]), .CK( Exp_Operation_Module_exp_result_net3849843), .RN(n3095), .Q( exp_oper_result[8]) ); DFFRXLTS Exp_Operation_Module_exp_result_Q_reg_7_ ( .D( Exp_Operation_Module_Data_S[7]), .CK( Exp_Operation_Module_exp_result_net3849843), .RN(n3095), .Q( exp_oper_result[7]) ); DFFRXLTS Exp_Operation_Module_exp_result_Q_reg_6_ ( .D( Exp_Operation_Module_Data_S[6]), .CK( Exp_Operation_Module_exp_result_net3849843), .RN(n3095), .Q( exp_oper_result[6]) ); DFFRX4TS FS_Module_state_reg_reg_3_ ( .D(FS_Module_state_next[3]), .CK( FS_Module_net3849879), .RN(n3081), .Q(FS_Module_state_reg[3]), .QN( n922) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_62_ ( .D( Oper_Start_in_module_intM[62]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3096), .Q(DMP[62]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_61_ ( .D( Oper_Start_in_module_intM[61]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3096), .Q(DMP[61]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_60_ ( .D( Oper_Start_in_module_intM[60]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3095), .Q(DMP[60]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_59_ ( .D( Oper_Start_in_module_intM[59]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3095), .Q(DMP[59]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_58_ ( .D( Oper_Start_in_module_intM[58]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3095), .Q(DMP[58]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_57_ ( .D( Oper_Start_in_module_intM[57]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3095), .Q(DMP[57]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_56_ ( .D( Oper_Start_in_module_intM[56]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3095), .Q(DMP[56]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_55_ ( .D( Oper_Start_in_module_intM[55]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3094), .Q(DMP[55]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_54_ ( .D( Oper_Start_in_module_intM[54]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3094), .Q(DMP[54]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_53_ ( .D( Oper_Start_in_module_intM[53]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3094), .Q(DMP[53]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_52_ ( .D( Oper_Start_in_module_intM[52]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3094), .Q(DMP[52]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_51_ ( .D( Oper_Start_in_module_intM[51]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3101), .Q(DMP[51]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_50_ ( .D( Oper_Start_in_module_intM[50]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3101), .Q(DMP[50]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_49_ ( .D( Oper_Start_in_module_intM[49]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3101), .Q(DMP[49]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_48_ ( .D( Oper_Start_in_module_intM[48]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3100), .Q(DMP[48]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_47_ ( .D( Oper_Start_in_module_intM[47]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3100), .Q(DMP[47]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_46_ ( .D( Oper_Start_in_module_intM[46]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3100), .Q(DMP[46]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_45_ ( .D( Oper_Start_in_module_intM[45]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3100), .Q(DMP[45]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_44_ ( .D( Oper_Start_in_module_intM[44]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3100), .Q(DMP[44]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_43_ ( .D( Oper_Start_in_module_intM[43]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3090), .Q(DMP[43]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_42_ ( .D( Oper_Start_in_module_intM[42]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3090), .Q(DMP[42]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_41_ ( .D( Oper_Start_in_module_intM[41]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3090), .Q(DMP[41]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_40_ ( .D( Oper_Start_in_module_intM[40]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3089), .Q(DMP[40]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_39_ ( .D( Oper_Start_in_module_intM[39]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3089), .Q(DMP[39]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_38_ ( .D( Oper_Start_in_module_intM[38]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3089), .Q(DMP[38]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_37_ ( .D( Oper_Start_in_module_intM[37]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3089), .Q(DMP[37]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_36_ ( .D( Oper_Start_in_module_intM[36]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3089), .Q(DMP[36]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_35_ ( .D( Oper_Start_in_module_intM[35]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3088), .Q(DMP[35]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_34_ ( .D( Oper_Start_in_module_intM[34]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3088), .Q(DMP[34]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_33_ ( .D( Oper_Start_in_module_intM[33]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3088), .Q(DMP[33]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_32_ ( .D( Oper_Start_in_module_intM[32]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3088), .Q(DMP[32]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_31_ ( .D( Oper_Start_in_module_intM[31]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3088), .Q(DMP[31]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_30_ ( .D( Oper_Start_in_module_intM[30]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3087), .Q(DMP[30]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_29_ ( .D( Oper_Start_in_module_intM[29]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3087), .Q(DMP[29]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_28_ ( .D( Oper_Start_in_module_intM[28]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3087), .Q(DMP[28]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_27_ ( .D( Oper_Start_in_module_intM[27]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3087), .Q(DMP[27]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_26_ ( .D( Oper_Start_in_module_intM[26]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3087), .Q(DMP[26]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_25_ ( .D( Oper_Start_in_module_intM[25]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3086), .Q(DMP[25]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_24_ ( .D( Oper_Start_in_module_intM[24]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3086), .Q(DMP[24]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_23_ ( .D( Oper_Start_in_module_intM[23]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3086), .Q(DMP[23]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_22_ ( .D( Oper_Start_in_module_intM[22]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3086), .Q(DMP[22]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_21_ ( .D( Oper_Start_in_module_intM[21]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3086), .Q(DMP[21]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_20_ ( .D( Oper_Start_in_module_intM[20]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3085), .Q(DMP[20]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_19_ ( .D( Oper_Start_in_module_intM[19]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3085), .Q(DMP[19]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_18_ ( .D( Oper_Start_in_module_intM[18]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3085), .Q(DMP[18]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_17_ ( .D( Oper_Start_in_module_intM[17]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3085), .Q(DMP[17]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_16_ ( .D( Oper_Start_in_module_intM[16]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3085), .Q(DMP[16]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_15_ ( .D( Oper_Start_in_module_intM[15]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3084), .Q(DMP[15]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_14_ ( .D( Oper_Start_in_module_intM[14]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3084), .Q(DMP[14]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_13_ ( .D( Oper_Start_in_module_intM[13]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3084), .Q(DMP[13]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_12_ ( .D( Oper_Start_in_module_intM[12]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3084), .Q(DMP[12]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_11_ ( .D( Oper_Start_in_module_intM[11]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3084), .Q(DMP[11]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_10_ ( .D( Oper_Start_in_module_intM[10]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3083), .Q(DMP[10]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_9_ ( .D( Oper_Start_in_module_intM[9]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3083), .Q(DMP[9]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_8_ ( .D( Oper_Start_in_module_intM[8]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3083), .Q(DMP[8]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_7_ ( .D( Oper_Start_in_module_intM[7]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3083), .Q(DMP[7]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_6_ ( .D( Oper_Start_in_module_intM[6]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3083), .Q(DMP[6]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_5_ ( .D( Oper_Start_in_module_intM[5]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3082), .Q(DMP[5]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_4_ ( .D( Oper_Start_in_module_intM[4]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3082), .Q(DMP[4]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_3_ ( .D( Oper_Start_in_module_intM[3]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3082), .Q(DMP[3]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_2_ ( .D( Oper_Start_in_module_intM[2]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3082), .Q(DMP[2]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_1_ ( .D( Oper_Start_in_module_intM[1]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3082), .Q(DMP[1]) ); DFFRXLTS Oper_Start_in_module_MRegister_Q_reg_0_ ( .D( Oper_Start_in_module_intM[0]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3081), .Q(DMP[0]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_62_ ( .D( Oper_Start_in_module_intm[62]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3094), .Q(DmP[62]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_61_ ( .D( Oper_Start_in_module_intm[61]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3094), .Q(DmP[61]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_60_ ( .D( Oper_Start_in_module_intm[60]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3093), .Q(DmP[60]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_59_ ( .D( Oper_Start_in_module_intm[59]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3093), .Q(DmP[59]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_58_ ( .D( Oper_Start_in_module_intm[58]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3093), .Q(DmP[58]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_57_ ( .D( Oper_Start_in_module_intm[57]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3093), .Q(DmP[57]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_56_ ( .D( Oper_Start_in_module_intm[56]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3093), .Q(DmP[56]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_55_ ( .D( Oper_Start_in_module_intm[55]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3092), .Q(DmP[55]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_54_ ( .D( Oper_Start_in_module_intm[54]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3091), .Q(DmP[54]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_53_ ( .D( Oper_Start_in_module_intm[53]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3091), .Q(DmP[53]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_52_ ( .D( Oper_Start_in_module_intm[52]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3090), .Q(DmP[52]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_51_ ( .D( Oper_Start_in_module_intm[51]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3064), .Q(DmP[51]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_50_ ( .D( Oper_Start_in_module_intm[50]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3064), .Q(DmP[50]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_49_ ( .D( Oper_Start_in_module_intm[49]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3064), .Q(DmP[49]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_48_ ( .D( Oper_Start_in_module_intm[48]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3064), .Q(DmP[48]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_47_ ( .D( Oper_Start_in_module_intm[47]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3064), .Q(DmP[47]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_46_ ( .D( Oper_Start_in_module_intm[46]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3064), .Q(DmP[46]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_45_ ( .D( Oper_Start_in_module_intm[45]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3064), .Q(DmP[45]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_44_ ( .D( Oper_Start_in_module_intm[44]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3064), .Q(DmP[44]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_43_ ( .D( Oper_Start_in_module_intm[43]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3064), .Q(DmP[43]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_42_ ( .D( Oper_Start_in_module_intm[42]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3064), .Q(DmP[42]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_41_ ( .D( Oper_Start_in_module_intm[41]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3065), .Q(DmP[41]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_40_ ( .D( Oper_Start_in_module_intm[40]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3065), .Q(DmP[40]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_39_ ( .D( Oper_Start_in_module_intm[39]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3065), .Q(DmP[39]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_38_ ( .D( Oper_Start_in_module_intm[38]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3065), .Q(DmP[38]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_37_ ( .D( Oper_Start_in_module_intm[37]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3065), .Q(DmP[37]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_36_ ( .D( Oper_Start_in_module_intm[36]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3065), .Q(DmP[36]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_35_ ( .D( Oper_Start_in_module_intm[35]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3065), .Q(DmP[35]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_34_ ( .D( Oper_Start_in_module_intm[34]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3065), .Q(DmP[34]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_33_ ( .D( Oper_Start_in_module_intm[33]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3065), .Q(DmP[33]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_32_ ( .D( Oper_Start_in_module_intm[32]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3065), .Q(DmP[32]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_31_ ( .D( Oper_Start_in_module_intm[31]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3066), .Q(DmP[31]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_30_ ( .D( Oper_Start_in_module_intm[30]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3066), .Q(DmP[30]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_29_ ( .D( Oper_Start_in_module_intm[29]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3066), .Q(DmP[29]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_28_ ( .D( Oper_Start_in_module_intm[28]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3066), .Q(DmP[28]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_27_ ( .D( Oper_Start_in_module_intm[27]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3066), .Q(DmP[27]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_26_ ( .D( Oper_Start_in_module_intm[26]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3066), .Q(DmP[26]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_25_ ( .D( Oper_Start_in_module_intm[25]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3066), .Q(DmP[25]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_24_ ( .D( Oper_Start_in_module_intm[24]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3066), .Q(DmP[24]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_23_ ( .D( Oper_Start_in_module_intm[23]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3066), .Q(DmP[23]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_22_ ( .D( Oper_Start_in_module_intm[22]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3066), .Q(DmP[22]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_21_ ( .D( Oper_Start_in_module_intm[21]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3067), .Q(DmP[21]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_20_ ( .D( Oper_Start_in_module_intm[20]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3067), .Q(DmP[20]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_19_ ( .D( Oper_Start_in_module_intm[19]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3067), .Q(DmP[19]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_18_ ( .D( Oper_Start_in_module_intm[18]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3067), .Q(DmP[18]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_17_ ( .D( Oper_Start_in_module_intm[17]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3067), .Q(DmP[17]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_16_ ( .D( Oper_Start_in_module_intm[16]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3067), .Q(DmP[16]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_15_ ( .D( Oper_Start_in_module_intm[15]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3067), .Q(DmP[15]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_14_ ( .D( Oper_Start_in_module_intm[14]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3067), .Q(DmP[14]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_13_ ( .D( Oper_Start_in_module_intm[13]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3067), .Q(DmP[13]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_12_ ( .D( Oper_Start_in_module_intm[12]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3067), .Q(DmP[12]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_11_ ( .D( Oper_Start_in_module_intm[11]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3068), .Q(DmP[11]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_10_ ( .D( Oper_Start_in_module_intm[10]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3068), .Q(DmP[10]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_9_ ( .D( Oper_Start_in_module_intm[9]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3068), .Q(DmP[9]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_8_ ( .D( Oper_Start_in_module_intm[8]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3068), .Q(DmP[8]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_7_ ( .D( Oper_Start_in_module_intm[7]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3068), .Q(DmP[7]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_6_ ( .D( Oper_Start_in_module_intm[6]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3068), .Q(DmP[6]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_5_ ( .D( Oper_Start_in_module_intm[5]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3068), .Q(DmP[5]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_4_ ( .D( Oper_Start_in_module_intm[4]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3068), .Q(DmP[4]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_3_ ( .D( Oper_Start_in_module_intm[3]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3068), .Q(DmP[3]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_2_ ( .D( Oper_Start_in_module_intm[2]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3068), .Q(DmP[2]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_1_ ( .D( Oper_Start_in_module_intm[1]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3069), .Q(DmP[1]) ); DFFRXLTS Oper_Start_in_module_mRegister_Q_reg_0_ ( .D( Oper_Start_in_module_intm[0]), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3069), .Q(DmP[0]) ); DFFRX4TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_49_ ( .D( Add_Subt_Sgf_module_S_to_D[49]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3098), .Q( Add_Subt_result[49]) ); DFFRX2TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_47_ ( .D( Add_Subt_Sgf_module_S_to_D[47]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3081), .Q( Add_Subt_result[47]), .QN(n3022) ); DFFRX2TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_45_ ( .D( Add_Subt_Sgf_module_S_to_D[45]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3098), .Q( Add_Subt_result[45]), .QN(n3054) ); DFFRX2TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_43_ ( .D( Add_Subt_Sgf_module_S_to_D[43]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3097), .Q( Add_Subt_result[43]) ); DFFRX1TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_41_ ( .D( Add_Subt_Sgf_module_S_to_D[41]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3099), .Q( Add_Subt_result[41]), .QN(n2918) ); DFFRX1TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_40_ ( .D( Add_Subt_Sgf_module_S_to_D[40]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3099), .Q( Add_Subt_result[40]), .QN(n2912) ); DFFRX1TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_39_ ( .D( Add_Subt_Sgf_module_S_to_D[39]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3099), .Q( Add_Subt_result[39]) ); DFFRX1TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_38_ ( .D( Add_Subt_Sgf_module_S_to_D[38]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3093), .Q( Add_Subt_result[38]) ); DFFRX1TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_37_ ( .D( Add_Subt_Sgf_module_S_to_D[37]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3093), .Q( Add_Subt_result[37]) ); DFFRX1TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_36_ ( .D( Add_Subt_Sgf_module_S_to_D[36]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3093), .Q( Add_Subt_result[36]) ); DFFRX1TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_35_ ( .D( Add_Subt_Sgf_module_S_to_D[35]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3093), .Q( Add_Subt_result[35]) ); DFFRX1TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_34_ ( .D( Add_Subt_Sgf_module_S_to_D[34]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3097), .Q( Add_Subt_result[34]), .QN(n3052) ); DFFRX1TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_33_ ( .D( Add_Subt_Sgf_module_S_to_D[33]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3097), .Q( Add_Subt_result[33]) ); DFFRX1TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_32_ ( .D( Add_Subt_Sgf_module_S_to_D[32]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3097), .Q( Add_Subt_result[32]) ); DFFRX1TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_31_ ( .D( Add_Subt_Sgf_module_S_to_D[31]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3097), .Q( Add_Subt_result[31]) ); DFFRX1TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_28_ ( .D( Add_Subt_Sgf_module_S_to_D[28]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3096), .Q( Add_Subt_result[28]), .QN(n3024) ); DFFRX1TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_27_ ( .D( Add_Subt_Sgf_module_S_to_D[27]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3097), .Q( Add_Subt_result[27]) ); DFFRX1TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_24_ ( .D( Add_Subt_Sgf_module_S_to_D[24]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3092), .Q( Add_Subt_result[24]) ); DFFRX4TS Sel_C_Q_reg_0_ ( .D(n867), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n860), .Q( FSM_selector_C), .QN(n3023) ); DFFRXLTS Leading_Zero_Detector_Module_Output_Reg_Q_reg_2_ ( .D( Leading_Zero_Detector_Module_Codec_to_Reg[2]), .CK( Leading_Zero_Detector_Module_Output_Reg_net3849807), .RN(n3096), .Q( LZA_output[2]) ); DFFRXLTS Leading_Zero_Detector_Module_Output_Reg_Q_reg_1_ ( .D( Leading_Zero_Detector_Module_Codec_to_Reg[1]), .CK( Leading_Zero_Detector_Module_Output_Reg_net3849807), .RN(n3091), .Q( LZA_output[1]) ); DFFRXLTS Leading_Zero_Detector_Module_Output_Reg_Q_reg_0_ ( .D( Leading_Zero_Detector_Module_Codec_to_Reg[0]), .CK( Leading_Zero_Detector_Module_Output_Reg_net3849807), .RN(n3091), .Q( LZA_output[0]) ); DFFRXLTS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_3_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[3]), .CK(clk), .RN(n3073), .Q(Barrel_Shifter_module_Mux_Array_Data_array[58]) ); DFFRXLTS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_6_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[6]), .CK(clk), .RN(n3074), .Q(Barrel_Shifter_module_Mux_Array_Data_array[61]) ); DFFRXLTS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_2_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[2]), .CK(clk), .RN(n3074), .Q(Barrel_Shifter_module_Mux_Array_Data_array[57]) ); DFFRXLTS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_5_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[5]), .CK(clk), .RN(n3074), .Q(Barrel_Shifter_module_Mux_Array_Data_array[60]) ); DFFRXLTS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_1_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[1]), .CK(clk), .RN(n3074), .Q(Barrel_Shifter_module_Mux_Array_Data_array[56]) ); DFFRXLTS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_4_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[4]), .CK(clk), .RN(n3074), .Q(Barrel_Shifter_module_Mux_Array_Data_array[59]) ); DFFRXLTS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_0_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[0]), .CK(clk), .RN(n3074), .Q(Barrel_Shifter_module_Mux_Array_Data_array[55]) ); DFFRX4TS Sel_D_Q_reg_0_ ( .D(n866), .CK(FS_Module_net3849879), .RN(n860), .Q(FSM_selector_D), .QN(n2920) ); DFFRXLTS Barrel_Shifter_module_Output_Reg_Q_reg_54_ ( .D( Barrel_Shifter_module_Data_Reg[54]), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3101), .Q( Sgf_normalized_result[54]) ); DFFRXLTS Oper_Start_in_module_SignRegister_Q_reg_0_ ( .D(n3113), .CK( Oper_Start_in_module_MRegister_net3849861), .RN(n3101), .Q( sign_final_result), .QN(n2911) ); DFFRX1TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_27_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[27]), .CK(clk), .RN(n3071), .Q(Barrel_Shifter_module_Mux_Array_Data_array[82]), .QN(n3053) ); DFFRX1TS YRegister_Q_reg_38_ ( .D(Data_Y[38]), .CK(YRegister_net3849802), .RN(n3061), .Q(intDY[38]), .QN(n3051) ); DFFRX1TS XRegister_Q_reg_23_ ( .D(Data_X[23]), .CK(YRegister_net3849802), .RN(n3102), .Q(intDX[23]), .QN(n3050) ); DFFRX1TS YRegister_Q_reg_5_ ( .D(Data_Y[5]), .CK(YRegister_net3849802), .RN( n3109), .Q(intDY[5]), .QN(n3048) ); DFFRX1TS YRegister_Q_reg_7_ ( .D(Data_Y[7]), .CK(YRegister_net3849802), .RN( n3107), .Q(intDY[7]), .QN(n3046) ); DFFRX1TS YRegister_Q_reg_52_ ( .D(Data_Y[52]), .CK(YRegister_net3849802), .RN(n3060), .Q(intDY[52]), .QN(n3042) ); DFFRX1TS YRegister_Q_reg_42_ ( .D(Data_Y[42]), .CK(YRegister_net3849802), .RN(n3061), .Q(intDY[42]), .QN(n3034) ); DFFRX1TS YRegister_Q_reg_48_ ( .D(Data_Y[48]), .CK(YRegister_net3849802), .RN(n3060), .Q(intDY[48]), .QN(n3032) ); DFFRX1TS YRegister_Q_reg_44_ ( .D(Data_Y[44]), .CK(YRegister_net3849802), .RN(n3060), .Q(intDY[44]), .QN(n3031) ); DFFRX1TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_13_ ( .D( Add_Subt_Sgf_module_S_to_D[13]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3096), .Q( Add_Subt_result[13]), .QN(n3026) ); DFFRX1TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_35_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[35]), .CK(clk), .RN(n3071), .Q(Barrel_Shifter_module_Mux_Array_Data_array[90]), .QN(n3021) ); DFFRX1TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_11_ ( .D( Add_Subt_Sgf_module_S_to_D[11]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3096), .Q( Add_Subt_result[11]), .QN(n3020) ); DFFRX1TS YRegister_Q_reg_16_ ( .D(Data_Y[16]), .CK(YRegister_net3849802), .RN(n3105), .Q(intDY[16]), .QN(n3006) ); DFFRX1TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_15_ ( .D( Add_Subt_Sgf_module_S_to_D[15]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3091), .Q( Add_Subt_result[15]), .QN(n2999) ); DFFRX1TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_10_ ( .D( Add_Subt_Sgf_module_S_to_D[10]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3091), .Q( Add_Subt_result[10]), .QN(n2996) ); DFFRX1TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_49_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[49]), .CK(clk), .RN(n3069), .Q(Barrel_Shifter_module_Mux_Array_Data_array[104]), .QN(n2982) ); DFFRX1TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_50_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[50]), .CK(clk), .RN(n3069), .Q(Barrel_Shifter_module_Mux_Array_Data_array[105]), .QN(n2981) ); DFFRX1TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_52_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[52]), .CK(clk), .RN(n3069), .Q(Barrel_Shifter_module_Mux_Array_Data_array[107]), .QN(n2980) ); DFFRX1TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_53_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[53]), .CK(clk), .RN(n3069), .Q(Barrel_Shifter_module_Mux_Array_Data_array[108]), .QN(n2979) ); DFFRX1TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_54_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[54]), .CK(clk), .RN(n3090), .Q(Barrel_Shifter_module_Mux_Array_Data_array[109]), .QN(n2978) ); DFFRX1TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_48_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[48]), .CK(clk), .RN(n3069), .Q(Barrel_Shifter_module_Mux_Array_Data_array[103]), .QN(n2977) ); DFFRX1TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_51_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[51]), .CK(clk), .RN(n3069), .Q(Barrel_Shifter_module_Mux_Array_Data_array[106]), .QN(n2976) ); DFFRX2TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_22_ ( .D( Add_Subt_Sgf_module_S_to_D[22]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3099), .Q( Add_Subt_result[22]), .QN(n2975) ); DFFRX1TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_30_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[30]), .CK(clk), .RN(n3071), .Q(Barrel_Shifter_module_Mux_Array_Data_array[85]), .QN(n2972) ); DFFRX1TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_29_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[29]), .CK(clk), .RN(n3071), .Q(Barrel_Shifter_module_Mux_Array_Data_array[84]), .QN(n2971) ); DFFRX1TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_28_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[28]), .CK(clk), .RN(n3071), .Q(Barrel_Shifter_module_Mux_Array_Data_array[83]), .QN(n2970) ); DFFRX2TS XRegister_Q_reg_3_ ( .D(Data_X[3]), .CK(YRegister_net3849802), .RN( n3109), .Q(intDX[3]), .QN(n2966) ); DFFRX2TS XRegister_Q_reg_8_ ( .D(Data_X[8]), .CK(YRegister_net3849802), .RN( n3108), .Q(intDX[8]), .QN(n2959) ); DFFRX2TS XRegister_Q_reg_53_ ( .D(Data_X[53]), .CK(YRegister_net3849802), .RN(n3062), .QN(n2948) ); DFFRX2TS XRegister_Q_reg_60_ ( .D(Data_X[60]), .CK(YRegister_net3849802), .RN(n3061), .QN(n2947) ); DFFRX2TS XRegister_Q_reg_49_ ( .D(Data_X[49]), .CK(YRegister_net3849802), .RN(n3062), .QN(n2946) ); DFFRX2TS XRegister_Q_reg_45_ ( .D(Data_X[45]), .CK(YRegister_net3849802), .RN(n3063), .QN(n2945) ); DFFRX2TS XRegister_Q_reg_43_ ( .D(Data_X[43]), .CK(YRegister_net3849802), .RN(n3063), .QN(n2944) ); DFFRX2TS XRegister_Q_reg_50_ ( .D(Data_X[50]), .CK(YRegister_net3849802), .RN(n3062), .QN(n2943) ); DFFRX1TS XRegister_Q_reg_20_ ( .D(Data_X[20]), .CK(YRegister_net3849802), .RN(n3104), .Q(intDX[20]), .QN(n2942) ); DFFRX1TS XRegister_Q_reg_28_ ( .D(Data_X[28]), .CK(YRegister_net3849802), .RN(n3105), .Q(intDX[28]), .QN(n2940) ); DFFRX1TS XRegister_Q_reg_4_ ( .D(Data_X[4]), .CK(YRegister_net3849802), .RN( n3109), .Q(intDX[4]), .QN(n2938) ); DFFRX1TS XRegister_Q_reg_16_ ( .D(Data_X[16]), .CK(YRegister_net3849802), .RN(n3105), .Q(intDX[16]), .QN(n2937) ); DFFRX1TS XRegister_Q_reg_12_ ( .D(Data_X[12]), .CK(YRegister_net3849802), .RN(n3107), .Q(intDX[12]), .QN(n2936) ); DFFRX1TS XRegister_Q_reg_37_ ( .D(Data_X[37]), .CK(YRegister_net3849802), .RN(n3103), .Q(intDX[37]), .QN(n2934) ); DFFRX1TS XRegister_Q_reg_6_ ( .D(Data_X[6]), .CK(YRegister_net3849802), .RN( n3108), .Q(intDX[6]), .QN(n2932) ); DFFRX1TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_12_ ( .D( Add_Subt_Sgf_module_S_to_D[12]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3096), .Q( Add_Subt_result[12]), .QN(n2931) ); DFFRX1TS YRegister_Q_reg_23_ ( .D(Data_Y[23]), .CK(YRegister_net3849802), .RN(n3102), .Q(intDY[23]), .QN(n2930) ); DFFRX1TS XRegister_Q_reg_52_ ( .D(Data_X[52]), .CK(YRegister_net3849802), .RN(n3062), .Q(intDX[52]), .QN(n2929) ); DFFRX1TS XRegister_Q_reg_48_ ( .D(Data_X[48]), .CK(YRegister_net3849802), .RN(n3062), .Q(intDX[48]), .QN(n2927) ); DFFRX1TS XRegister_Q_reg_44_ ( .D(Data_X[44]), .CK(YRegister_net3849802), .RN(n3063), .Q(intDX[44]), .QN(n2925) ); DFFRX1TS Exp_Operation_Module_exp_result_Q_reg_5_ ( .D( Exp_Operation_Module_Data_S[5]), .CK( Exp_Operation_Module_exp_result_net3849843), .RN(n3095), .Q( exp_oper_result[5]), .QN(n2924) ); DFFRX2TS XRegister_Q_reg_11_ ( .D(Data_X[11]), .CK(YRegister_net3849802), .RN(n3107), .Q(intDX[11]), .QN(n2923) ); DFFRX1TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_16_ ( .D( Add_Subt_Sgf_module_S_to_D[16]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3091), .Q( Add_Subt_result[16]), .QN(n2921) ); DFFRX1TS YRegister_Q_reg_6_ ( .D(Data_Y[6]), .CK(YRegister_net3849802), .RN( n3108), .Q(intDY[6]), .QN(n2910) ); DFFRX1TS YRegister_Q_reg_0_ ( .D(Data_Y[0]), .CK(YRegister_net3849802), .RN( n3109), .Q(intDY[0]), .QN(n2907) ); DFFRX1TS XRegister_Q_reg_19_ ( .D(Data_X[19]), .CK(YRegister_net3849802), .RN(n3104), .Q(intDX[19]), .QN(n2904) ); DFFRX1TS XRegister_Q_reg_27_ ( .D(Data_X[27]), .CK(YRegister_net3849802), .RN(n3105), .Q(intDX[27]), .QN(n2903) ); DFFRX1TS XRegister_Q_reg_22_ ( .D(Data_X[22]), .CK(YRegister_net3849802), .RN(n3106), .Q(intDX[22]), .QN(n2902) ); DFFRX1TS XRegister_Q_reg_14_ ( .D(Data_X[14]), .CK(YRegister_net3849802), .RN(n3104), .Q(intDX[14]), .QN(n2901) ); DFFRX1TS XRegister_Q_reg_2_ ( .D(Data_X[2]), .CK(YRegister_net3849802), .RN( n3108), .Q(intDX[2]), .QN(n2900) ); DFFRX1TS XRegister_Q_reg_30_ ( .D(Data_X[30]), .CK(YRegister_net3849802), .RN(n3106), .Q(intDX[30]), .QN(n2899) ); DFFRX1TS XRegister_Q_reg_24_ ( .D(Data_X[24]), .CK(YRegister_net3849802), .RN(n3106), .Q(intDX[24]), .QN(n2898) ); DFFRX1TS XRegister_Q_reg_39_ ( .D(Data_X[39]), .CK(YRegister_net3849802), .RN(n3063), .Q(intDX[39]), .QN(n2897) ); DFFRX1TS XRegister_Q_reg_9_ ( .D(Data_X[9]), .CK(YRegister_net3849802), .RN( n3108), .Q(intDX[9]), .QN(n2896) ); DFFRX1TS XRegister_Q_reg_34_ ( .D(Data_X[34]), .CK(YRegister_net3849802), .RN(n3103), .Q(intDX[34]), .QN(n2895) ); DFFRX1TS XRegister_Q_reg_32_ ( .D(Data_X[32]), .CK(YRegister_net3849802), .RN(n3103), .Q(intDX[32]), .QN(n2894) ); DFFRX1TS XRegister_Q_reg_38_ ( .D(Data_X[38]), .CK(YRegister_net3849802), .RN(n3063), .Q(intDX[38]), .QN(n2893) ); DFFRX1TS XRegister_Q_reg_5_ ( .D(Data_X[5]), .CK(YRegister_net3849802), .RN( n3109), .Q(intDX[5]), .QN(n2892) ); DFFRX1TS XRegister_Q_reg_7_ ( .D(Data_X[7]), .CK(YRegister_net3849802), .RN( n3108), .Q(intDX[7]), .QN(n2891) ); DFFRX1TS XRegister_Q_reg_47_ ( .D(Data_X[47]), .CK(YRegister_net3849802), .RN(n3063), .Q(intDX[47]), .QN(n2888) ); DFFRX1TS XRegister_Q_reg_10_ ( .D(Data_X[10]), .CK(YRegister_net3849802), .RN(n3107), .Q(intDX[10]), .QN(n2887) ); DFFRX1TS XRegister_Q_reg_40_ ( .D(Data_X[40]), .CK(YRegister_net3849802), .RN(n3063), .Q(intDX[40]), .QN(n2885) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_63_ ( .D( final_result_ieee_Module_Sign_S_mux), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3074), .Q(final_result_ieee[63]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_52_ ( .D( final_result_ieee_Module_Exp_S_mux[0]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3074), .Q(final_result_ieee[52]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_53_ ( .D( final_result_ieee_Module_Exp_S_mux[1]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3075), .Q(final_result_ieee[53]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_54_ ( .D( final_result_ieee_Module_Exp_S_mux[2]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3075), .Q(final_result_ieee[54]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_55_ ( .D( final_result_ieee_Module_Exp_S_mux[3]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3075), .Q(final_result_ieee[55]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_56_ ( .D( final_result_ieee_Module_Exp_S_mux[4]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3075), .Q(final_result_ieee[56]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_57_ ( .D( final_result_ieee_Module_Exp_S_mux[5]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3075), .Q(final_result_ieee[57]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_58_ ( .D( final_result_ieee_Module_Exp_S_mux[6]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3075), .Q(final_result_ieee[58]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_59_ ( .D( final_result_ieee_Module_Exp_S_mux[7]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3075), .Q(final_result_ieee[59]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_60_ ( .D( final_result_ieee_Module_Exp_S_mux[8]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3075), .Q(final_result_ieee[60]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_61_ ( .D( final_result_ieee_Module_Exp_S_mux[9]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3075), .Q(final_result_ieee[61]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_62_ ( .D( final_result_ieee_Module_Exp_S_mux[10]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3075), .Q(final_result_ieee[62]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_0_ ( .D( final_result_ieee_Module_Sgf_S_mux[0]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3081), .Q(final_result_ieee[0]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_1_ ( .D( final_result_ieee_Module_Sgf_S_mux[1]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3081), .Q(final_result_ieee[1]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_2_ ( .D( final_result_ieee_Module_Sgf_S_mux[2]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3080), .Q(final_result_ieee[2]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_3_ ( .D( final_result_ieee_Module_Sgf_S_mux[3]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3080), .Q(final_result_ieee[3]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_4_ ( .D( final_result_ieee_Module_Sgf_S_mux[4]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3080), .Q(final_result_ieee[4]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_5_ ( .D( final_result_ieee_Module_Sgf_S_mux[5]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3080), .Q(final_result_ieee[5]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_6_ ( .D( final_result_ieee_Module_Sgf_S_mux[6]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3080), .Q(final_result_ieee[6]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_7_ ( .D( final_result_ieee_Module_Sgf_S_mux[7]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3080), .Q(final_result_ieee[7]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_8_ ( .D( final_result_ieee_Module_Sgf_S_mux[8]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3080), .Q(final_result_ieee[8]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_9_ ( .D( final_result_ieee_Module_Sgf_S_mux[9]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3080), .Q(final_result_ieee[9]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_10_ ( .D( final_result_ieee_Module_Sgf_S_mux[10]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3080), .Q(final_result_ieee[10]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_11_ ( .D( final_result_ieee_Module_Sgf_S_mux[11]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3080), .Q(final_result_ieee[11]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_12_ ( .D( final_result_ieee_Module_Sgf_S_mux[12]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3079), .Q(final_result_ieee[12]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_13_ ( .D( final_result_ieee_Module_Sgf_S_mux[13]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3079), .Q(final_result_ieee[13]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_14_ ( .D( final_result_ieee_Module_Sgf_S_mux[14]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3079), .Q(final_result_ieee[14]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_15_ ( .D( final_result_ieee_Module_Sgf_S_mux[15]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3079), .Q(final_result_ieee[15]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_16_ ( .D( final_result_ieee_Module_Sgf_S_mux[16]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3079), .Q(final_result_ieee[16]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_17_ ( .D( final_result_ieee_Module_Sgf_S_mux[17]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3079), .Q(final_result_ieee[17]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_18_ ( .D( final_result_ieee_Module_Sgf_S_mux[18]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3079), .Q(final_result_ieee[18]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_19_ ( .D( final_result_ieee_Module_Sgf_S_mux[19]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3079), .Q(final_result_ieee[19]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_21_ ( .D( final_result_ieee_Module_Sgf_S_mux[21]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3079), .Q(final_result_ieee[21]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_22_ ( .D( final_result_ieee_Module_Sgf_S_mux[22]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3078), .Q(final_result_ieee[22]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_23_ ( .D( final_result_ieee_Module_Sgf_S_mux[23]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3078), .Q(final_result_ieee[23]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_24_ ( .D( final_result_ieee_Module_Sgf_S_mux[24]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3078), .Q(final_result_ieee[24]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_25_ ( .D( final_result_ieee_Module_Sgf_S_mux[25]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3078), .Q(final_result_ieee[25]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_26_ ( .D( final_result_ieee_Module_Sgf_S_mux[26]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3078), .Q(final_result_ieee[26]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_27_ ( .D( final_result_ieee_Module_Sgf_S_mux[27]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3078), .Q(final_result_ieee[27]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_28_ ( .D( final_result_ieee_Module_Sgf_S_mux[28]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3078), .Q(final_result_ieee[28]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_29_ ( .D( final_result_ieee_Module_Sgf_S_mux[29]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3078), .Q(final_result_ieee[29]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_31_ ( .D( final_result_ieee_Module_Sgf_S_mux[31]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3078), .Q(final_result_ieee[31]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_32_ ( .D( final_result_ieee_Module_Sgf_S_mux[32]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3077), .Q(final_result_ieee[32]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_33_ ( .D( final_result_ieee_Module_Sgf_S_mux[33]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3077), .Q(final_result_ieee[33]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_34_ ( .D( final_result_ieee_Module_Sgf_S_mux[34]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3077), .Q(final_result_ieee[34]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_35_ ( .D( final_result_ieee_Module_Sgf_S_mux[35]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3077), .Q(final_result_ieee[35]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_36_ ( .D( final_result_ieee_Module_Sgf_S_mux[36]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3077), .Q(final_result_ieee[36]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_37_ ( .D( final_result_ieee_Module_Sgf_S_mux[37]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3077), .Q(final_result_ieee[37]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_38_ ( .D( final_result_ieee_Module_Sgf_S_mux[38]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3076), .Q(final_result_ieee[38]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_39_ ( .D( final_result_ieee_Module_Sgf_S_mux[39]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3076), .Q(final_result_ieee[39]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_40_ ( .D( final_result_ieee_Module_Sgf_S_mux[40]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3076), .Q(final_result_ieee[40]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_41_ ( .D( final_result_ieee_Module_Sgf_S_mux[41]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3076), .Q(final_result_ieee[41]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_42_ ( .D( final_result_ieee_Module_Sgf_S_mux[42]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3076), .Q(final_result_ieee[42]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_43_ ( .D( final_result_ieee_Module_Sgf_S_mux[43]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3076), .Q(final_result_ieee[43]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_44_ ( .D( final_result_ieee_Module_Sgf_S_mux[44]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3076), .Q(final_result_ieee[44]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_45_ ( .D( final_result_ieee_Module_Sgf_S_mux[45]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3076), .Q(final_result_ieee[45]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_46_ ( .D( final_result_ieee_Module_Sgf_S_mux[46]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3076), .Q(final_result_ieee[46]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_47_ ( .D( final_result_ieee_Module_Sgf_S_mux[47]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3076), .Q(final_result_ieee[47]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_48_ ( .D( final_result_ieee_Module_Sgf_S_mux[48]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3077), .Q(final_result_ieee[48]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_49_ ( .D( final_result_ieee_Module_Sgf_S_mux[49]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3077), .Q(final_result_ieee[49]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_50_ ( .D( final_result_ieee_Module_Sgf_S_mux[50]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3077), .Q(final_result_ieee[50]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_51_ ( .D( final_result_ieee_Module_Sgf_S_mux[51]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3077), .Q(final_result_ieee[51]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_20_ ( .D( final_result_ieee_Module_Sgf_S_mux[20]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3079), .Q(final_result_ieee[20]) ); DFFRXLTS final_result_ieee_Module_Final_Result_IEEE_Q_reg_30_ ( .D( final_result_ieee_Module_Sgf_S_mux[30]), .CK( final_result_ieee_Module_Final_Result_IEEE_net3849802), .RN(n3078), .Q(final_result_ieee[30]) ); DFFRX1TS YRegister_Q_reg_54_ ( .D(Data_Y[54]), .CK(YRegister_net3849802), .RN(n3059), .Q(intDY[54]), .QN(n3039) ); DFFRX1TS YRegister_Q_reg_45_ ( .D(Data_Y[45]), .CK(YRegister_net3849802), .RN(n3060), .Q(intDY[45]), .QN(n3028) ); DFFRX1TS YRegister_Q_reg_46_ ( .D(Data_Y[46]), .CK(YRegister_net3849802), .RN(n3060), .Q(intDY[46]), .QN(n3027) ); DFFRX1TS YRegister_Q_reg_1_ ( .D(Data_Y[1]), .CK(YRegister_net3849802), .RN( n3109), .Q(intDY[1]), .QN(n3049) ); DFFRX1TS YRegister_Q_reg_56_ ( .D(Data_Y[56]), .CK(YRegister_net3849802), .RN(n3059), .Q(intDY[56]), .QN(n3041) ); DFFRX1TS YRegister_Q_reg_58_ ( .D(Data_Y[58]), .CK(YRegister_net3849802), .RN(n3059), .Q(intDY[58]), .QN(n3040) ); DFFRX1TS YRegister_Q_reg_60_ ( .D(Data_Y[60]), .CK(YRegister_net3849802), .RN(n3059), .Q(intDY[60]), .QN(n3038) ); DFFRX1TS YRegister_Q_reg_57_ ( .D(Data_Y[57]), .CK(YRegister_net3849802), .RN(n3059), .Q(intDY[57]), .QN(n3037) ); DFFRX2TS YRegister_Q_reg_55_ ( .D(Data_Y[55]), .CK(YRegister_net3849802), .RN(n3059), .Q(intDY[55]), .QN(n3019) ); DFFRX2TS YRegister_Q_reg_53_ ( .D(Data_Y[53]), .CK(YRegister_net3849802), .RN(n3059), .Q(intDY[53]), .QN(n3018) ); DFFRX2TS YRegister_Q_reg_43_ ( .D(Data_Y[43]), .CK(YRegister_net3849802), .RN(n3060), .Q(intDY[43]), .QN(n3016) ); DFFRX2TS YRegister_Q_reg_41_ ( .D(Data_Y[41]), .CK(YRegister_net3849802), .RN(n3061), .Q(intDY[41]), .QN(n3017) ); DFFRX2TS YRegister_Q_reg_39_ ( .D(Data_Y[39]), .CK(YRegister_net3849802), .RN(n3061), .Q(intDY[39]), .QN(n3008) ); DFFRX2TS YRegister_Q_reg_36_ ( .D(Data_Y[36]), .CK(YRegister_net3849802), .RN(n3102), .Q(intDY[36]), .QN(n2994) ); DFFRX2TS YRegister_Q_reg_35_ ( .D(Data_Y[35]), .CK(YRegister_net3849802), .RN(n3102), .Q(intDY[35]), .QN(n2987) ); DFFRX2TS YRegister_Q_reg_34_ ( .D(Data_Y[34]), .CK(YRegister_net3849802), .RN(n3103), .Q(intDY[34]), .QN(n3004) ); DFFRX2TS YRegister_Q_reg_33_ ( .D(Data_Y[33]), .CK(YRegister_net3849802), .RN(n3103), .Q(intDY[33]), .QN(n2985) ); DFFRX2TS YRegister_Q_reg_32_ ( .D(Data_Y[32]), .CK(YRegister_net3849802), .RN(n3103), .Q(intDY[32]), .QN(n3007) ); DFFRX2TS YRegister_Q_reg_31_ ( .D(Data_Y[31]), .CK(YRegister_net3849802), .RN(n3103), .Q(intDY[31]), .QN(n2986) ); DFFRX2TS YRegister_Q_reg_30_ ( .D(Data_Y[30]), .CK(YRegister_net3849802), .RN(n3106), .Q(intDY[30]), .QN(n3010) ); DFFRX2TS YRegister_Q_reg_29_ ( .D(Data_Y[29]), .CK(YRegister_net3849802), .RN(n3105), .Q(intDY[29]), .QN(n2991) ); DFFRX2TS YRegister_Q_reg_28_ ( .D(Data_Y[28]), .CK(YRegister_net3849802), .RN(n3105), .Q(intDY[28]), .QN(n2997) ); DFFRX2TS YRegister_Q_reg_27_ ( .D(Data_Y[27]), .CK(YRegister_net3849802), .RN(n3105), .Q(intDY[27]), .QN(n3014) ); DFFRX2TS YRegister_Q_reg_26_ ( .D(Data_Y[26]), .CK(YRegister_net3849802), .RN(n3106), .Q(intDY[26]), .QN(n2998) ); DFFRX2TS YRegister_Q_reg_25_ ( .D(Data_Y[25]), .CK(YRegister_net3849802), .RN(n3106), .Q(intDY[25]), .QN(n3005) ); DFFRX2TS YRegister_Q_reg_24_ ( .D(Data_Y[24]), .CK(YRegister_net3849802), .RN(n3106), .Q(intDY[24]), .QN(n3003) ); DFFRX2TS YRegister_Q_reg_22_ ( .D(Data_Y[22]), .CK(YRegister_net3849802), .RN(n3106), .Q(intDY[22]), .QN(n3013) ); DFFRX2TS YRegister_Q_reg_21_ ( .D(Data_Y[21]), .CK(YRegister_net3849802), .RN(n3104), .Q(intDY[21]), .QN(n2990) ); DFFRX2TS YRegister_Q_reg_20_ ( .D(Data_Y[20]), .CK(YRegister_net3849802), .RN(n3104), .Q(intDY[20]), .QN(n3000) ); DFFRX2TS YRegister_Q_reg_19_ ( .D(Data_Y[19]), .CK(YRegister_net3849802), .RN(n3104), .Q(intDY[19]), .QN(n3011) ); DFFRX2TS YRegister_Q_reg_18_ ( .D(Data_Y[18]), .CK(YRegister_net3849802), .RN(n3103), .Q(intDY[18]), .QN(n3001) ); DFFRX2TS YRegister_Q_reg_17_ ( .D(Data_Y[17]), .CK(YRegister_net3849802), .RN(n3105), .Q(intDY[17]), .QN(n3002) ); DFFRX2TS YRegister_Q_reg_15_ ( .D(Data_Y[15]), .CK(YRegister_net3849802), .RN(n3104), .Q(intDY[15]), .QN(n2989) ); DFFRX2TS YRegister_Q_reg_14_ ( .D(Data_Y[14]), .CK(YRegister_net3849802), .RN(n3104), .Q(intDY[14]), .QN(n3012) ); DFFRX2TS YRegister_Q_reg_13_ ( .D(Data_Y[13]), .CK(YRegister_net3849802), .RN(n3107), .Q(intDY[13]), .QN(n2988) ); DFFRX2TS YRegister_Q_reg_12_ ( .D(Data_Y[12]), .CK(YRegister_net3849802), .RN(n3107), .Q(intDY[12]), .QN(n2992) ); DFFRX2TS YRegister_Q_reg_11_ ( .D(Data_Y[11]), .CK(YRegister_net3849802), .RN(n3107), .Q(intDY[11]), .QN(n2995) ); DFFRX2TS YRegister_Q_reg_9_ ( .D(Data_Y[9]), .CK(YRegister_net3849802), .RN( n3108), .Q(intDY[9]), .QN(n3009) ); DFFRX2TS YRegister_Q_reg_8_ ( .D(Data_Y[8]), .CK(YRegister_net3849802), .RN( n3108), .Q(intDY[8]), .QN(n2993) ); DFFRX2TS YRegister_Q_reg_3_ ( .D(Data_Y[3]), .CK(YRegister_net3849802), .RN( n3108), .Q(intDY[3]), .QN(n2984) ); DFFRX2TS YRegister_Q_reg_2_ ( .D(Data_Y[2]), .CK(YRegister_net3849802), .RN( n3108), .Q(intDY[2]), .QN(n3015) ); DFFRX2TS XRegister_Q_reg_59_ ( .D(Data_X[59]), .CK(YRegister_net3849802), .RN(n3061), .Q(intDX[59]), .QN(n2908) ); DFFRX2TS XRegister_Q_reg_58_ ( .D(Data_X[58]), .CK(YRegister_net3849802), .RN(n3061), .QN(n3112) ); DFFRX2TS XRegister_Q_reg_57_ ( .D(Data_X[57]), .CK(YRegister_net3849802), .RN(n3062), .QN(n3058) ); DFFRX2TS XRegister_Q_reg_55_ ( .D(Data_X[55]), .CK(YRegister_net3849802), .RN(n3062), .QN(n3111) ); DFFRX2TS XRegister_Q_reg_54_ ( .D(Data_X[54]), .CK(YRegister_net3849802), .RN(n3062), .Q(intDX[54]), .QN(n2890) ); DFFRX2TS XRegister_Q_reg_51_ ( .D(Data_X[51]), .CK(YRegister_net3849802), .RN(n3062), .Q(intDX[51]), .QN(n2909) ); DFFRX2TS XRegister_Q_reg_46_ ( .D(Data_X[46]), .CK(YRegister_net3849802), .RN(n3063), .Q(intDX[46]), .QN(n2926) ); DFFRX2TS XRegister_Q_reg_42_ ( .D(Data_X[42]), .CK(YRegister_net3849802), .RN(n3063), .Q(intDX[42]), .QN(n2905) ); DFFRX2TS XRegister_Q_reg_41_ ( .D(Data_X[41]), .CK(YRegister_net3849802), .RN(n3063), .Q(intDX[41]), .QN(n2928) ); DFFRX2TS XRegister_Q_reg_36_ ( .D(Data_X[36]), .CK(YRegister_net3849802), .RN(n3102), .Q(intDX[36]), .QN(n2960) ); DFFRX2TS XRegister_Q_reg_35_ ( .D(Data_X[35]), .CK(YRegister_net3849802), .RN(n3102), .Q(intDX[35]), .QN(n2963) ); DFFRX2TS XRegister_Q_reg_33_ ( .D(Data_X[33]), .CK(YRegister_net3849802), .RN(n3103), .Q(intDX[33]), .QN(n2962) ); DFFRX2TS XRegister_Q_reg_31_ ( .D(Data_X[31]), .CK(YRegister_net3849802), .RN(n3103), .Q(intDX[31]), .QN(n2961) ); DFFRX2TS XRegister_Q_reg_29_ ( .D(Data_X[29]), .CK(YRegister_net3849802), .RN(n3106), .Q(intDX[29]), .QN(n2941) ); DFFRX2TS XRegister_Q_reg_26_ ( .D(Data_X[26]), .CK(YRegister_net3849802), .RN(n3107), .Q(intDX[26]), .QN(n2965) ); DFFRX2TS XRegister_Q_reg_25_ ( .D(Data_X[25]), .CK(YRegister_net3849802), .RN(n3106), .Q(intDX[25]), .QN(n2969) ); DFFRX2TS XRegister_Q_reg_21_ ( .D(Data_X[21]), .CK(YRegister_net3849802), .RN(n3104), .Q(intDX[21]), .QN(n2939) ); DFFRX2TS XRegister_Q_reg_18_ ( .D(Data_X[18]), .CK(YRegister_net3849802), .RN(n3104), .Q(intDX[18]), .QN(n2968) ); DFFRX2TS XRegister_Q_reg_17_ ( .D(Data_X[17]), .CK(YRegister_net3849802), .RN(n3105), .Q(intDX[17]), .QN(n2964) ); DFFRX2TS XRegister_Q_reg_15_ ( .D(Data_X[15]), .CK(YRegister_net3849802), .RN(n3105), .Q(intDX[15]), .QN(n2967) ); DFFRX2TS XRegister_Q_reg_13_ ( .D(Data_X[13]), .CK(YRegister_net3849802), .RN(n3107), .Q(intDX[13]), .QN(n2935) ); DFFRX2TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_51_ ( .D( Add_Subt_Sgf_module_S_to_D[51]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3098), .Q( Add_Subt_result[51]) ); DFFRX1TS YRegister_Q_reg_59_ ( .D(Data_Y[59]), .CK(YRegister_net3849802), .RN(n3059), .Q(intDY[59]), .QN(n3043) ); DFFRX2TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_23_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[23]), .CK(clk), .RN(n3072), .Q(Barrel_Shifter_module_Mux_Array_Data_array[78]) ); DFFRX2TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_24_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[24]), .CK(clk), .RN(n3072), .Q(Barrel_Shifter_module_Mux_Array_Data_array[79]) ); DFFRX2TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_38_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[38]), .CK(clk), .RN(n3070), .Q(Barrel_Shifter_module_Mux_Array_Data_array[93]) ); DFFRX2TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_33_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[33]), .CK(clk), .RN(n3071), .Q(Barrel_Shifter_module_Mux_Array_Data_array[88]) ); DFFRX2TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_34_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[34]), .CK(clk), .RN(n3071), .Q(Barrel_Shifter_module_Mux_Array_Data_array[89]) ); DFFRX2TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_36_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[36]), .CK(clk), .RN(n3070), .Q(Barrel_Shifter_module_Mux_Array_Data_array[91]) ); DFFRX2TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_37_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[37]), .CK(clk), .RN(n3070), .Q(Barrel_Shifter_module_Mux_Array_Data_array[92]) ); DFFRX2TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_4_ ( .D( Add_Subt_Sgf_module_S_to_D[4]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3098), .Q( Add_Subt_result[4]) ); DFFRX2TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_2_ ( .D( Add_Subt_Sgf_module_S_to_D[2]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3093), .Q( Add_Subt_result[2]) ); DFFRX2TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_20_ ( .D( Add_Subt_Sgf_module_S_to_D[20]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3099), .Q( Add_Subt_result[20]) ); DFFRX2TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_9_ ( .D( Add_Subt_Sgf_module_S_to_D[9]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3092), .Q( Add_Subt_result[9]) ); DFFRX2TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_14_ ( .D( Add_Subt_Sgf_module_S_to_D[14]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3096), .Q( Add_Subt_result[14]) ); DFFRX2TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_1_ ( .D( Add_Subt_Sgf_module_S_to_D[1]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3092), .Q( Add_Subt_result[1]) ); DFFRX2TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_23_ ( .D( Add_Subt_Sgf_module_S_to_D[23]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3092), .Q( Add_Subt_result[23]) ); DFFRX2TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_7_ ( .D( Add_Subt_Sgf_module_S_to_D[7]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3092), .Q( Add_Subt_result[7]) ); DFFRX1TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_18_ ( .D( Add_Subt_Sgf_module_S_to_D[18]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3091), .Q( Add_Subt_result[18]) ); DFFRX1TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_17_ ( .D( Add_Subt_Sgf_module_S_to_D[17]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3091), .Q( Add_Subt_result[17]) ); DFFRX1TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_22_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[22]), .CK(clk), .RN(n3072), .Q(Barrel_Shifter_module_Mux_Array_Data_array[77]) ); DFFRX1TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_5_ ( .D( Add_Subt_Sgf_module_S_to_D[5]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3097), .Q( Add_Subt_result[5]) ); DFFRX1TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_21_ ( .D( Add_Subt_Sgf_module_S_to_D[21]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3099), .Q( Add_Subt_result[21]) ); DFFRX1TS YRegister_Q_reg_4_ ( .D(Data_Y[4]), .CK(YRegister_net3849802), .RN( n3109), .Q(intDY[4]), .QN(n923) ); DFFRX1TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_19_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[19]), .CK(clk), .RN(n3072), .Q(Barrel_Shifter_module_Mux_Array_Data_array[74]) ); DFFRX1TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_16_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[16]), .CK(clk), .RN(n3072), .Q(Barrel_Shifter_module_Mux_Array_Data_array[71]) ); DFFRX1TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_29_ ( .D( Add_Subt_Sgf_module_S_to_D[29]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3096), .Q( Add_Subt_result[29]) ); DFFRX1TS YRegister_Q_reg_37_ ( .D(Data_Y[37]), .CK(YRegister_net3849802), .RN(n3102), .Q(intDY[37]), .QN(n924) ); DFFRX1TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_0_ ( .D( Add_Subt_Sgf_module_S_to_D[0]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3099), .Q( Add_Subt_result[0]) ); DFFRX1TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_7_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[7]), .CK(clk), .RN(n3073), .Q(Barrel_Shifter_module_Mux_Array_Data_array[62]) ); DFFRX1TS XRegister_Q_reg_61_ ( .D(Data_X[61]), .CK(YRegister_net3849802), .RN(n3061), .Q(intDX[61]), .QN(n888) ); DFFRX1TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_9_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[9]), .CK(clk), .RN(n3073), .Q(Barrel_Shifter_module_Mux_Array_Data_array[64]) ); DFFRX1TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_10_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[10]), .CK(clk), .RN(n3073), .Q(Barrel_Shifter_module_Mux_Array_Data_array[65]) ); DFFRX1TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_12_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[12]), .CK(clk), .RN(n3073), .Q(Barrel_Shifter_module_Mux_Array_Data_array[67]) ); DFFRX1TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_13_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[13]), .CK(clk), .RN(n3073), .Q(Barrel_Shifter_module_Mux_Array_Data_array[68]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_2_ ( .D( Barrel_Shifter_module_Data_Reg[2]), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3081), .Q( Sgf_normalized_result[2]) ); DFFRX1TS Exp_Operation_Module_exp_result_Q_reg_0_ ( .D( Exp_Operation_Module_Data_S[0]), .CK( Exp_Operation_Module_exp_result_net3849843), .RN(n3094), .Q( exp_oper_result[0]) ); DFFRX1TS Exp_Operation_Module_exp_result_Q_reg_1_ ( .D( Exp_Operation_Module_Data_S[1]), .CK( Exp_Operation_Module_exp_result_net3849843), .RN(n3094), .Q( exp_oper_result[1]) ); DFFRX1TS Exp_Operation_Module_exp_result_Q_reg_2_ ( .D( Exp_Operation_Module_Data_S[2]), .CK( Exp_Operation_Module_exp_result_net3849843), .RN(n3090), .Q( exp_oper_result[2]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_0_ ( .D( Barrel_Shifter_module_Data_Reg[0]), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3081), .Q( Sgf_normalized_result[0]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_1_ ( .D( Barrel_Shifter_module_Data_Reg[1]), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3081), .Q( Sgf_normalized_result[1]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_32_ ( .D( Barrel_Shifter_module_Data_Reg[32]), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3087), .Q( Sgf_normalized_result[32]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_22_ ( .D( Barrel_Shifter_module_Data_Reg[22]), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3085), .Q( Sgf_normalized_result[22]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_50_ ( .D( Barrel_Shifter_module_Data_Reg[50]), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3100), .Q( Sgf_normalized_result[50]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_4_ ( .D( Barrel_Shifter_module_Data_Reg[4]), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3082), .Q( Sgf_normalized_result[4]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_53_ ( .D( Barrel_Shifter_module_Data_Reg[53]), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3101), .Q( Sgf_normalized_result[53]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_49_ ( .D( Barrel_Shifter_module_Data_Reg[49]), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3100), .Q( Sgf_normalized_result[49]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_5_ ( .D( Barrel_Shifter_module_Data_Reg[5]), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3082), .Q( Sgf_normalized_result[5]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_52_ ( .D( Barrel_Shifter_module_Data_Reg[52]), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3101), .Q( Sgf_normalized_result[52]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_48_ ( .D( Barrel_Shifter_module_Data_Reg[48]), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3100), .Q( Sgf_normalized_result[48]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_6_ ( .D( Barrel_Shifter_module_Data_Reg[6]), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3082), .Q( Sgf_normalized_result[6]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_51_ ( .D( Barrel_Shifter_module_Data_Reg[51]), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3100), .Q( Sgf_normalized_result[51]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_3_ ( .D( Barrel_Shifter_module_Data_Reg[3]), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3082), .Q( Sgf_normalized_result[3]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_47_ ( .D(n3114), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3100), .Q( Sgf_normalized_result[47]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_7_ ( .D(n3115), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3082), .Q( Sgf_normalized_result[7]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_46_ ( .D(n3116), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3090), .Q( Sgf_normalized_result[46]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_8_ ( .D(n3117), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3083), .Q( Sgf_normalized_result[8]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_45_ ( .D(n3118), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3090), .Q( Sgf_normalized_result[45]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_9_ ( .D(n3119), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3083), .Q( Sgf_normalized_result[9]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_44_ ( .D(n3120), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3090), .Q( Sgf_normalized_result[44]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_10_ ( .D(n3121), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3083), .Q( Sgf_normalized_result[10]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_43_ ( .D(n3122), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3090), .Q( Sgf_normalized_result[43]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_11_ ( .D(n3123), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3083), .Q( Sgf_normalized_result[11]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_42_ ( .D(n3124), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3089), .Q( Sgf_normalized_result[42]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_12_ ( .D(n3125), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3083), .Q( Sgf_normalized_result[12]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_41_ ( .D(n3126), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3089), .Q( Sgf_normalized_result[41]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_13_ ( .D(n3127), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3084), .Q( Sgf_normalized_result[13]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_40_ ( .D(n3128), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3089), .Q( Sgf_normalized_result[40]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_14_ ( .D(n3129), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3084), .Q( Sgf_normalized_result[14]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_39_ ( .D(n3130), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3089), .Q( Sgf_normalized_result[39]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_15_ ( .D(n3131), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3084), .Q( Sgf_normalized_result[15]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_38_ ( .D( Barrel_Shifter_module_Data_Reg[38]), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3089), .Q( Sgf_normalized_result[38]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_16_ ( .D( Barrel_Shifter_module_Data_Reg[16]), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3084), .Q( Sgf_normalized_result[16]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_37_ ( .D( Barrel_Shifter_module_Data_Reg[37]), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3088), .Q( Sgf_normalized_result[37]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_17_ ( .D( Barrel_Shifter_module_Data_Reg[17]), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3084), .Q( Sgf_normalized_result[17]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_36_ ( .D( Barrel_Shifter_module_Data_Reg[36]), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3088), .Q( Sgf_normalized_result[36]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_18_ ( .D( Barrel_Shifter_module_Data_Reg[18]), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3085), .Q( Sgf_normalized_result[18]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_35_ ( .D( Barrel_Shifter_module_Data_Reg[35]), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3088), .Q( Sgf_normalized_result[35]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_19_ ( .D( Barrel_Shifter_module_Data_Reg[19]), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3085), .Q( Sgf_normalized_result[19]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_34_ ( .D( Barrel_Shifter_module_Data_Reg[34]), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3088), .Q( Sgf_normalized_result[34]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_20_ ( .D( Barrel_Shifter_module_Data_Reg[20]), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3085), .Q( Sgf_normalized_result[20]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_33_ ( .D( Barrel_Shifter_module_Data_Reg[33]), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3088), .Q( Sgf_normalized_result[33]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_21_ ( .D( Barrel_Shifter_module_Data_Reg[21]), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3085), .Q( Sgf_normalized_result[21]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_23_ ( .D(n3133), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3086), .Q( Sgf_normalized_result[23]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_30_ ( .D(n3134), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3087), .Q( Sgf_normalized_result[30]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_29_ ( .D(n3136), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3087), .Q( Sgf_normalized_result[29]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_25_ ( .D(n3137), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3086), .Q( Sgf_normalized_result[25]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_28_ ( .D(n3138), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3087), .Q( Sgf_normalized_result[28]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_27_ ( .D(n3140), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3086), .Q( Sgf_normalized_result[27]) ); DFFRX1TS XRegister_Q_reg_62_ ( .D(Data_X[62]), .CK(YRegister_net3849802), .RN(n3061), .Q(intDX[62]), .QN(n887) ); DFFRX1TS Exp_Operation_Module_Overflow_Q_reg_0_ ( .D(n86), .CK( Exp_Operation_Module_exp_result_net3849843), .RN(n3074), .Q( overflow_flag) ); DFFRX2TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_39_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[39]), .CK(clk), .RN(n3070), .Q(Barrel_Shifter_module_Mux_Array_Data_array[94]), .QN(n2956) ); DFFRX2TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_47_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[47]), .CK(clk), .RN(n3069), .Q(Barrel_Shifter_module_Mux_Array_Data_array[102]), .QN(n2957) ); DFFRX2TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_25_ ( .D( Add_Subt_Sgf_module_S_to_D[25]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3092), .Q( Add_Subt_result[25]) ); DFFRX2TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_30_ ( .D( Add_Subt_Sgf_module_S_to_D[30]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3097), .Q( Add_Subt_result[30]) ); DFFRX1TS Leading_Zero_Detector_Module_Output_Reg_Q_reg_5_ ( .D( Leading_Zero_Detector_Module_Codec_to_Reg[5]), .CK( Leading_Zero_Detector_Module_Output_Reg_net3849807), .RN(n3081), .Q( LZA_output[5]), .QN(n2922) ); DFFRX2TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_32_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[32]), .CK(clk), .RN(n3071), .Q(Barrel_Shifter_module_Mux_Array_Data_array[87]) ); DFFRX2TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_3_ ( .D( Add_Subt_Sgf_module_S_to_D[3]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3099), .Q( Add_Subt_result[3]) ); DFFRX2TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_8_ ( .D( Add_Subt_Sgf_module_S_to_D[8]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3092), .Q( Add_Subt_result[8]) ); DFFRX1TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_15_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[15]), .CK(clk), .RN(n3073), .Q(Barrel_Shifter_module_Mux_Array_Data_array[70]) ); DFFRX1TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_8_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[8]), .CK(clk), .RN(n3073), .Q(Barrel_Shifter_module_Mux_Array_Data_array[63]) ); DFFRX1TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_19_ ( .D( Add_Subt_Sgf_module_S_to_D[19]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3099), .Q( Add_Subt_result[19]) ); DFFRX1TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_6_ ( .D( Add_Subt_Sgf_module_S_to_D[6]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3097), .Q( Add_Subt_result[6]) ); DFFRX1TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_18_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[18]), .CK(clk), .RN(n3072), .Q(Barrel_Shifter_module_Mux_Array_Data_array[73]) ); DFFRX1TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_17_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[17]), .CK(clk), .RN(n3072), .Q(Barrel_Shifter_module_Mux_Array_Data_array[72]) ); DFFRX1TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_21_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[21]), .CK(clk), .RN(n3072), .Q(Barrel_Shifter_module_Mux_Array_Data_array[76]) ); DFFRX1TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_20_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[20]), .CK(clk), .RN(n3072), .Q(Barrel_Shifter_module_Mux_Array_Data_array[75]) ); DFFRX1TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_14_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[14]), .CK(clk), .RN(n3073), .Q(Barrel_Shifter_module_Mux_Array_Data_array[69]) ); DFFRX1TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_11_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[11]), .CK(clk), .RN(n3073), .Q(Barrel_Shifter_module_Mux_Array_Data_array[66]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_26_ ( .D(n3139), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3086), .Q( Sgf_normalized_result[26]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_24_ ( .D(n3135), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3086), .Q( Sgf_normalized_result[24]) ); DFFRX1TS Barrel_Shifter_module_Output_Reg_Q_reg_31_ ( .D(n3132), .CK( Barrel_Shifter_module_Output_Reg_net3849825), .RN(n3087), .Q( Sgf_normalized_result[31]) ); DFFRX2TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_31_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[31]), .CK(clk), .RN(n3071), .Q(Barrel_Shifter_module_Mux_Array_Data_array[86]), .QN(n2886) ); DFFRX2TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_40_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[40]), .CK(clk), .RN(n3070), .Q(Barrel_Shifter_module_Mux_Array_Data_array[95]), .QN(n2949) ); DFFRX2TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_25_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[25]), .CK(clk), .RN(n3072), .Q(Barrel_Shifter_module_Mux_Array_Data_array[80]), .QN(n2974) ); DFFRX2TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_26_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[26]), .CK(clk), .RN(n3071), .Q(Barrel_Shifter_module_Mux_Array_Data_array[81]), .QN(n2973) ); DFFRX2TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_44_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[44]), .CK(clk), .RN(n3070), .Q(Barrel_Shifter_module_Mux_Array_Data_array[99]), .QN(n2951) ); DFFRX2TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_45_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[45]), .CK(clk), .RN(n3070), .Q(Barrel_Shifter_module_Mux_Array_Data_array[100]), .QN(n2950) ); DFFRX2TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_46_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[46]), .CK(clk), .RN(n3069), .Q(Barrel_Shifter_module_Mux_Array_Data_array[101]), .QN(n2952) ); DFFRX2TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_41_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[41]), .CK(clk), .RN(n3070), .Q(Barrel_Shifter_module_Mux_Array_Data_array[96]), .QN(n2954) ); DFFRX2TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_42_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[42]), .CK(clk), .RN(n3070), .Q(Barrel_Shifter_module_Mux_Array_Data_array[97]), .QN(n2953) ); DFFRX2TS Barrel_Shifter_module_Mux_Array_Mid_Reg_Q_reg_43_ ( .D( Barrel_Shifter_module_Mux_Array_Data_array[43]), .CK(clk), .RN(n3070), .Q(Barrel_Shifter_module_Mux_Array_Data_array[98]), .QN(n2955) ); DFFRX1TS Exp_Operation_Module_Underflow_Q_reg_0_ ( .D(n861), .CK( Exp_Operation_Module_exp_result_net3849843), .RN(n3074), .Q( underflow_flag), .QN(n3056) ); DFFRX4TS Sel_B_Q_reg_1_ ( .D(n864), .CK(FS_Module_net3849879), .RN(n860), .Q(FSM_selector_B[1]), .QN(n2914) ); DFFRX1TS Exp_Operation_Module_exp_result_Q_reg_3_ ( .D( Exp_Operation_Module_Data_S[3]), .CK( Exp_Operation_Module_exp_result_net3849843), .RN(n3094), .Q( exp_oper_result[3]), .QN(n882) ); DFFRX2TS FS_Module_state_reg_reg_2_ ( .D(FS_Module_state_next[2]), .CK( FS_Module_net3849879), .RN(n3101), .Q(FS_Module_state_reg[2]), .QN( n2983) ); DFFRX2TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_54_ ( .D( Add_Subt_Sgf_module_S_to_D[54]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3099), .Q( Add_Subt_result[54]) ); DFFRX2TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_53_ ( .D( Add_Subt_Sgf_module_S_to_D[53]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3098), .Q( Add_Subt_result[53]) ); DFFRX2TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_52_ ( .D( Add_Subt_Sgf_module_S_to_D[52]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3098), .Q( Add_Subt_result[52]) ); DFFRX1TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_46_ ( .D( Add_Subt_Sgf_module_S_to_D[46]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3098), .Q( Add_Subt_result[46]), .QN(n2913) ); DFFRX1TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_44_ ( .D( Add_Subt_Sgf_module_S_to_D[44]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3098), .Q( Add_Subt_result[44]) ); DFFRX1TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_42_ ( .D( Add_Subt_Sgf_module_S_to_D[42]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3097), .Q( Add_Subt_result[42]), .QN(n3055) ); DFFRX2TS Add_Subt_Sgf_module_Add_overflow_Result_Q_reg_0_ ( .D( Add_Subt_Sgf_module_S_to_D[55]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3101), .Q( add_overflow_flag), .QN(n2915) ); DFFSX1TS R_0 ( .D(n3057), .CK(YRegister_net3849802), .SN(n3102), .Q(n3110) ); DFFRX1TS XRegister_Q_reg_0_ ( .D(Data_X[0]), .CK(YRegister_net3849802), .RN( n3109), .Q(intDX[0]), .QN(n2958) ); DFFRX1TS XRegister_Q_reg_1_ ( .D(Data_X[1]), .CK(YRegister_net3849802), .RN( n3109), .Q(intDX[1]), .QN(n2933) ); DFFRX1TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_26_ ( .D( Add_Subt_Sgf_module_S_to_D[26]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3092), .Q( Add_Subt_result[26]), .QN(n2916) ); DFFRX2TS Leading_Zero_Detector_Module_Output_Reg_Q_reg_4_ ( .D( Leading_Zero_Detector_Module_Codec_to_Reg[4]), .CK( Leading_Zero_Detector_Module_Output_Reg_net3849807), .RN(n3092), .Q( LZA_output[4]), .QN(n2919) ); DFFRX1TS YRegister_Q_reg_62_ ( .D(Data_Y[62]), .CK(YRegister_net3849802), .RN(n3059), .Q(intDY[62]), .QN(n3044) ); DFFRX1TS YRegister_Q_reg_61_ ( .D(Data_Y[61]), .CK(YRegister_net3849802), .RN(n3059), .Q(intDY[61]), .QN(n3045) ); DFFRX1TS YRegister_Q_reg_51_ ( .D(Data_Y[51]), .CK(YRegister_net3849802), .RN(n3060), .Q(intDY[51]), .QN(n3033) ); DFFRX1TS YRegister_Q_reg_50_ ( .D(Data_Y[50]), .CK(YRegister_net3849802), .RN(n3060), .Q(intDY[50]), .QN(n3030) ); DFFRX1TS YRegister_Q_reg_49_ ( .D(Data_Y[49]), .CK(YRegister_net3849802), .RN(n3060), .Q(intDY[49]), .QN(n3029) ); DFFRX1TS YRegister_Q_reg_47_ ( .D(Data_Y[47]), .CK(YRegister_net3849802), .RN(n3060), .Q(intDY[47]), .QN(n3036) ); DFFRX1TS YRegister_Q_reg_40_ ( .D(Data_Y[40]), .CK(YRegister_net3849802), .RN(n3061), .Q(intDY[40]), .QN(n3035) ); DFFRX1TS YRegister_Q_reg_10_ ( .D(Data_Y[10]), .CK(YRegister_net3849802), .RN(n3107), .Q(intDY[10]), .QN(n3047) ); DFFRX1TS XRegister_Q_reg_56_ ( .D(Data_X[56]), .CK(YRegister_net3849802), .RN(n3062), .Q(intDX[56]), .QN(n2889) ); DFFRX2TS Sel_B_Q_reg_0_ ( .D(n865), .CK(FS_Module_net3849879), .RN(n860), .Q(FSM_selector_B[0]), .QN(n2917) ); DFFRX4TS FS_Module_state_reg_reg_0_ ( .D(FS_Module_state_next[0]), .CK( FS_Module_net3849879), .RN(n3101), .Q(FS_Module_state_reg[0]), .QN( n2906) ); DFFRX2TS XRegister_Q_reg_63_ ( .D(Data_X[63]), .CK(YRegister_net3849802), .RN(n3102), .Q(intDX[63]) ); DFFRX2TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_48_ ( .D( Add_Subt_Sgf_module_S_to_D[48]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3098), .Q( Add_Subt_result[48]) ); DFFRX2TS Add_Subt_Sgf_module_Add_Subt_Result_Q_reg_50_ ( .D( Add_Subt_Sgf_module_S_to_D[50]), .CK( Add_Subt_Sgf_module_Add_Subt_Result_net3849825), .RN(n3098), .Q( Add_Subt_result[50]), .QN(n3025) ); DFFRX4TS Leading_Zero_Detector_Module_Output_Reg_Q_reg_3_ ( .D( Leading_Zero_Detector_Module_Codec_to_Reg[3]), .CK( Leading_Zero_Detector_Module_Output_Reg_net3849807), .RN(n3091), .Q( LZA_output[3]), .QN(n881) ); DFFRX4TS Exp_Operation_Module_exp_result_Q_reg_4_ ( .D( Exp_Operation_Module_Data_S[4]), .CK( Exp_Operation_Module_exp_result_net3849843), .RN(n3094), .Q( exp_oper_result[4]) ); OR3X4TS U1327 ( .A(n2156), .B(Exp_Operation_Module_Data_S[10]), .C(n1020), .Y(n1022) ); CLKBUFX2TS U1328 ( .A(n1026), .Y(n902) ); BUFX3TS U1329 ( .A(n2634), .Y(n2632) ); BUFX3TS U1330 ( .A(n2634), .Y(n2637) ); NAND2X2TS U1331 ( .A(n1646), .B(n2126), .Y(n1026) ); NAND2X1TS U1332 ( .A(n1240), .B(n1239), .Y(n2677) ); BUFX3TS U1333 ( .A(n2303), .Y(n2634) ); ADDFHX2TS U1334 ( .A(n1001), .B(n1000), .CI(n999), .CO(n1013), .S( Exp_Operation_Module_Data_S[9]) ); ADDFHX2TS U1335 ( .A(n997), .B(n996), .CI(n995), .CO(n999), .S( Exp_Operation_Module_Data_S[8]) ); CMPR32X2TS U1336 ( .A(n1004), .B(n1003), .C(n1002), .CO(n995), .S( Exp_Operation_Module_Data_S[7]) ); INVX4TS U1337 ( .A(n1950), .Y(n2391) ); INVX2TS U1338 ( .A(n2392), .Y(n2494) ); NAND3X1TS U1339 ( .A(n2281), .B(n2290), .C(n2161), .Y(n2298) ); CMPR32X2TS U1340 ( .A(n1007), .B(n1006), .C(n1005), .CO(n982), .S( Exp_Operation_Module_Data_S[4]) ); CMPR32X2TS U1341 ( .A(n1010), .B(n1009), .C(n1008), .CO(n978), .S( Exp_Operation_Module_Data_S[2]) ); NAND2XLTS U1342 ( .A(n2394), .B(n1517), .Y(n1519) ); NAND2X1TS U1343 ( .A(n1930), .B(n1944), .Y(n2343) ); CMPR32X2TS U1344 ( .A(n987), .B(n986), .C(n985), .CO(n1008), .S( Exp_Operation_Module_Data_S[1]) ); OAI21X2TS U1345 ( .A0(n2513), .A1(n1380), .B0(n1379), .Y(n1450) ); CMPR32X2TS U1346 ( .A(n1012), .B(n970), .C(n1011), .CO(n985), .S( Exp_Operation_Module_Data_S[0]) ); NAND2X1TS U1347 ( .A(n1809), .B(n1798), .Y(n1929) ); NAND2X4TS U1348 ( .A(n1116), .B(n935), .Y(n1099) ); AOI21X1TS U1349 ( .A0(n1407), .A1(n1395), .B0(n1394), .Y(n1447) ); NOR2X1TS U1350 ( .A(n1410), .B(n1412), .Y(n1395) ); NOR2X1TS U1351 ( .A(n2429), .B(n2424), .Y(n1503) ); NOR2X1TS U1352 ( .A(n2521), .B(n2516), .Y(n1378) ); NOR2X1TS U1353 ( .A(n1437), .B(n1441), .Y(n1443) ); NOR2X1TS U1354 ( .A(n2508), .B(n2503), .Y(n1406) ); NOR2X1TS U1355 ( .A(n2417), .B(n2412), .Y(n2400) ); NOR2X1TS U1356 ( .A(n2440), .B(n2435), .Y(n2423) ); NOR2X1TS U1357 ( .A(n2467), .B(n2462), .Y(n2450) ); NOR2X1TS U1358 ( .A(n2484), .B(n2486), .Y(n2473) ); OAI211X4TS U1359 ( .A0(FS_Module_state_reg[1]), .A1(FS_Module_state_reg[2]), .B0(n969), .C0(n1237), .Y(n970) ); NOR2X1TS U1360 ( .A(n1429), .B(n1428), .Y(n1437) ); NAND2X1TS U1361 ( .A(n1537), .B(n1536), .Y(n1673) ); NOR2X1TS U1362 ( .A(n1680), .B(n1679), .Y(n1770) ); NOR2X1TS U1363 ( .A(n1398), .B(n1397), .Y(n1420) ); NOR2X1TS U1364 ( .A(n1529), .B(n1528), .Y(n1549) ); NOR2X1TS U1365 ( .A(n1537), .B(n1536), .Y(n1671) ); INVX4TS U1366 ( .A(n1984), .Y(n1952) ); INVX4TS U1367 ( .A(n1984), .Y(n1454) ); INVX4TS U1368 ( .A(n1984), .Y(n1382) ); INVX4TS U1369 ( .A(n1984), .Y(n1788) ); INVX2TS U1370 ( .A(n1969), .Y(n1964) ); INVX2TS U1371 ( .A(n1641), .Y(n2553) ); NOR2XLTS U1372 ( .A(n2193), .B(intDX[10]), .Y(n2194) ); OAI21XLTS U1373 ( .A0(intDY[43]), .A1(n2944), .B0(intDY[42]), .Y(n2250) ); OAI21XLTS U1374 ( .A0(intDY[53]), .A1(n2948), .B0(intDY[52]), .Y(n2278) ); NOR2XLTS U1375 ( .A(n933), .B(n1081), .Y(n934) ); NAND2X1TS U1376 ( .A(n1087), .B(n928), .Y(n929) ); OAI21XLTS U1377 ( .A0(n2424), .A1(n2430), .B0(n2425), .Y(n1502) ); OAI21XLTS U1378 ( .A0(n2516), .A1(n2522), .B0(n2517), .Y(n1377) ); CLKINVX3TS U1379 ( .A(n2920), .Y(n1535) ); CLKINVX3TS U1380 ( .A(n2920), .Y(n1786) ); NOR2XLTS U1381 ( .A(n2280), .B(n2279), .Y(n2293) ); AOI211XLTS U1382 ( .A0(n2129), .A1(n2128), .B0(n2127), .C0(n2126), .Y(n2130) ); NOR2X1TS U1383 ( .A(n1391), .B(n1390), .Y(n1410) ); OR2X2TS U1384 ( .A(n2842), .B(n2841), .Y(n2766) ); OR2X1TS U1385 ( .A(n1661), .B(n2726), .Y(n884) ); NAND2X1TS U1386 ( .A(n1090), .B(n2916), .Y(n1081) ); XOR2X1TS U1387 ( .A(n1788), .B(n1534), .Y(n1537) ); XOR2X1TS U1388 ( .A(n1952), .B(n1783), .Y(n1790) ); NOR2X1TS U1389 ( .A(n1801), .B(n1800), .Y(n1927) ); NOR2XLTS U1390 ( .A(n922), .B(n2983), .Y(n1023) ); CLKINVX3TS U1391 ( .A(n2152), .Y(n2842) ); OAI21XLTS U1392 ( .A0(n2048), .A1(n2087), .B0(n1702), .Y(n1703) ); OAI21XLTS U1393 ( .A0(n2017), .A1(n2087), .B0(n1719), .Y(n1720) ); OAI21XLTS U1394 ( .A0(n2915), .A1(FS_Module_state_reg[0]), .B0(n1298), .Y( n1299) ); AOI21X2TS U1395 ( .A0(n1450), .A1(n1449), .B0(n1448), .Y(n2392) ); NAND2X1TS U1396 ( .A(n1525), .B(n1524), .Y(n2388) ); OAI21X2TS U1397 ( .A0(n2391), .A1(n1782), .B0(n1781), .Y(n2364) ); OAI21XLTS U1398 ( .A0(n2391), .A1(n2343), .B0(n2342), .Y(n2348) ); OAI21XLTS U1399 ( .A0(n2525), .A1(n2521), .B0(n2522), .Y(n2520) ); OAI21XLTS U1400 ( .A0(n2512), .A1(n2508), .B0(n2509), .Y(n2507) ); AND4X1TS U1401 ( .A(Exp_Operation_Module_Data_S[9]), .B( Exp_Operation_Module_Data_S[8]), .C(Exp_Operation_Module_Data_S[7]), .D(n2154), .Y(n2155) ); OAI211XLTS U1402 ( .A0(n1885), .A1(n2048), .B0(n1320), .C0(n1319), .Y(n1321) ); OAI21XLTS U1403 ( .A0(n2483), .A1(n2479), .B0(n2480), .Y(n2478) ); AND3X1TS U1404 ( .A(n1158), .B(n1105), .C(n1104), .Y(n1129) ); OAI211XLTS U1405 ( .A0(n2043), .A1(n2141), .B0(n2024), .C0(n2023), .Y(n3139) ); AND3X1TS U1406 ( .A(n2156), .B(Exp_Operation_Module_Data_S[10]), .C(n2155), .Y(n86) ); OAI211XLTS U1407 ( .A0(n2579), .A1(n2114), .B0(n902), .C0(n2105), .Y( Barrel_Shifter_module_Data_Reg[34]) ); OAI211XLTS U1408 ( .A0(n1723), .A1(n920), .B0(n1722), .C0(n1721), .Y(n3125) ); OAI211XLTS U1409 ( .A0(n2571), .A1(n2152), .B0(n2151), .C0(n902), .Y( Barrel_Shifter_module_Data_Reg[32]) ); OAI211XLTS U1410 ( .A0(n2726), .A1(n1900), .B0(n1899), .C0(n1898), .Y( Barrel_Shifter_module_Mux_Array_Data_array[24]) ); OAI21XLTS U1411 ( .A0(n2647), .A1(n2711), .B0(n1650), .Y( Barrel_Shifter_module_Mux_Array_Data_array[52]) ); NAND4BX1TS U1412 ( .AN(n1108), .B(n1129), .C(n1107), .D(n1131), .Y( Leading_Zero_Detector_Module_Codec_to_Reg[3]) ); XOR2X1TS U1413 ( .A(n1808), .B(n1807), .Y(Add_Subt_Sgf_module_S_to_D[44]) ); XOR2X1TS U1414 ( .A(n1819), .B(n1818), .Y(Add_Subt_Sgf_module_S_to_D[42]) ); XOR2X1TS U1415 ( .A(n2410), .B(n2409), .Y(Add_Subt_Sgf_module_S_to_D[29]) ); XOR2X1TS U1416 ( .A(n2353), .B(n1835), .Y(Add_Subt_Sgf_module_S_to_D[43]) ); XOR2X1TS U1417 ( .A(n2460), .B(n2459), .Y(Add_Subt_Sgf_module_S_to_D[21]) ); OAI21X1TS U1418 ( .A0(n2433), .A1(n2429), .B0(n2430), .Y(n2428) ); XOR2X1TS U1419 ( .A(n1436), .B(n1435), .Y(Add_Subt_Sgf_module_S_to_D[14]) ); AO22X1TS U1420 ( .A0(n2115), .A1(n1348), .B0(n2152), .B1(n2116), .Y( Barrel_Shifter_module_Data_Reg[16]) ); XOR2X1TS U1421 ( .A(n1555), .B(n1554), .Y(Add_Subt_Sgf_module_S_to_D[34]) ); XOR2X1TS U1422 ( .A(n1677), .B(n1563), .Y(Add_Subt_Sgf_module_S_to_D[35]) ); XOR2X1TS U1423 ( .A(n1544), .B(n1543), .Y(Add_Subt_Sgf_module_S_to_D[36]) ); INVX2TS U1424 ( .A(n1561), .Y(n1677) ); OAI21X1TS U1425 ( .A0(n2602), .A1(n908), .B0(n2147), .Y(n2148) ); OAI211X1TS U1426 ( .A0(n2725), .A1(n2568), .B0(n1560), .C0(n1559), .Y( Barrel_Shifter_module_Mux_Array_Data_array[53]) ); INVX4TS U1427 ( .A(n2637), .Y(n2633) ); OAI211X1TS U1428 ( .A0(n2070), .A1(n2141), .B0(n2057), .C0(n2056), .Y(n3135) ); INVX4TS U1429 ( .A(n2637), .Y(n2635) ); OAI21X1TS U1430 ( .A0(n1745), .A1(n3053), .B0(n1744), .Y(n3140) ); INVX4TS U1431 ( .A(n2634), .Y(n2563) ); NAND3X1TS U1432 ( .A(n2606), .B(n965), .C(Add_Subt_result[16]), .Y(n966) ); AOI211X1TS U1433 ( .A0(n2092), .A1( Barrel_Shifter_module_Mux_Array_Data_array[79]), .B0(n2055), .C0(n2054), .Y(n2056) ); INVX2TS U1434 ( .A(n2606), .Y(n1150) ); OAI21X1TS U1435 ( .A0(n2138), .A1(n2141), .B0(n2081), .Y(n2091) ); OAI211X1TS U1436 ( .A0(n2066), .A1(n2065), .B0(n2064), .C0(n2081), .Y(n2067) ); OAI211X1TS U1437 ( .A0(n2039), .A1(n2065), .B0(n2038), .C0(n2081), .Y(n2040) ); OAI211X1TS U1438 ( .A0(n2030), .A1(n2065), .B0(n2029), .C0(n2081), .Y(n2031) ); OAI21X1TS U1439 ( .A0(n2036), .A1(n2087), .B0(n1752), .Y(n1753) ); AO22XLTS U1440 ( .A0(n2860), .A1(Add_Subt_result[1]), .B0(n896), .B1( Add_Subt_result[53]), .Y(n2864) ); OAI21X1TS U1441 ( .A0(n2027), .A1(n2087), .B0(n1765), .Y(n1766) ); AOI211X1TS U1442 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[63]), .A1( FSM_selector_B[1]), .B0(n1865), .C0(n1864), .Y(n1871) ); INVX4TS U1443 ( .A(n2787), .Y(n1651) ); OAI21X1TS U1444 ( .A0(n2005), .A1(n2087), .B0(n1693), .Y(n1696) ); INVX4TS U1445 ( .A(n2787), .Y(n1244) ); OAI211X1TS U1446 ( .A0(n2017), .A1(n2074), .B0(n2016), .C0(n2015), .Y(n2035) ); NOR2X4TS U1447 ( .A(n1207), .B(n2726), .Y(n2645) ); BUFX4TS U1448 ( .A(n2766), .Y(n2787) ); AND2X2TS U1449 ( .A(n908), .B(n2842), .Y(n1348) ); INVX4TS U1450 ( .A(n1558), .Y(n2726) ); OAI21X1TS U1451 ( .A0(n1674), .A1(n1673), .B0(n1672), .Y(n1777) ); OAI211X1TS U1452 ( .A0(n1643), .A1(n2559), .B0(n1642), .C0(n2550), .Y( FS_Module_state_next[3]) ); CLKBUFX2TS U1453 ( .A(n1692), .Y(n907) ); NAND2BX1TS U1454 ( .AN(n1100), .B(Add_Subt_result[43]), .Y(n1079) ); CLKBUFX2TS U1455 ( .A(n2058), .Y(n906) ); BUFX6TS U1456 ( .A(n2114), .Y(n2152) ); NAND2X2TS U1457 ( .A(n1688), .B(n1694), .Y(n1025) ); XOR2X1TS U1458 ( .A(n1454), .B(n1400), .Y(n1402) ); BUFX3TS U1459 ( .A(n970), .Y(n917) ); OR2X4TS U1460 ( .A(add_overflow_flag), .B(n1040), .Y(n2114) ); INVX3TS U1461 ( .A(n973), .Y(n2129) ); NOR2X1TS U1462 ( .A(n2225), .B(intDX[24]), .Y(n2168) ); AOI2BB2X1TS U1463 ( .B0(intDY[53]), .B1(n2948), .A0N(intDX[52]), .A1N(n2278), .Y(n2280) ); OAI21X1TS U1464 ( .A0(r_mode[1]), .A1(n1565), .B0(sign_final_result), .Y( n1566) ); OAI21X1TS U1465 ( .A0(r_mode[0]), .A1(n1564), .B0(n2911), .Y(n1567) ); NAND2BX1TS U1466 ( .AN(intDY[13]), .B(intDX[13]), .Y(n2178) ); OAI21X1TS U1467 ( .A0(intDY[29]), .A1(n2941), .B0(intDY[28]), .Y(n2166) ); OAI21X1TS U1468 ( .A0(intDY[23]), .A1(n3050), .B0(intDY[22]), .Y(n2220) ); OAI21X1TS U1469 ( .A0(n2410), .A1(n2406), .B0(n2407), .Y(n2405) ); OAI211X1TS U1470 ( .A0(n2119), .A1(n2118), .B0(n2117), .C0(n902), .Y( Barrel_Shifter_module_Data_Reg[38]) ); OAI21X1TS U1471 ( .A0(n2411), .A1(n2417), .B0(n2418), .Y(n2416) ); OAI21X1TS U1472 ( .A0(n2460), .A1(n2456), .B0(n2457), .Y(n2455) ); OAI211X1TS U1473 ( .A0(n2665), .A1(n2711), .B0(n1663), .C0(n1662), .Y( Barrel_Shifter_module_Mux_Array_Data_array[49]) ); OAI211X1TS U1474 ( .A0(n2659), .A1(n2711), .B0(n1670), .C0(n1669), .Y( Barrel_Shifter_module_Mux_Array_Data_array[50]) ); OAI21X1TS U1475 ( .A0(n2652), .A1(n2711), .B0(n1657), .Y( Barrel_Shifter_module_Mux_Array_Data_array[51]) ); OAI211X1TS U1476 ( .A0(n1885), .A1(n2060), .B0(n1884), .C0(n1883), .Y(n3116) ); INVX1TS U1477 ( .A(n1125), .Y(n1082) ); OAI211X1TS U1478 ( .A0(n2070), .A1(n2137), .B0(n2069), .C0(n2068), .Y(n3134) ); OAI211X1TS U1479 ( .A0(n2034), .A1(n2137), .B0(n2033), .C0(n2032), .Y(n3136) ); OAI211X1TS U1480 ( .A0(n2576), .A1(n2152), .B0(n902), .C0(n2101), .Y( Barrel_Shifter_module_Data_Reg[33]) ); OAI211X1TS U1481 ( .A0(n2043), .A1(n2137), .B0(n2042), .C0(n2041), .Y(n3138) ); OAI211X1TS U1482 ( .A0(n1769), .A1(n920), .B0(n1768), .C0(n1767), .Y(n3119) ); NAND3BX1TS U1483 ( .AN(n2729), .B(n2728), .C(n2727), .Y( Barrel_Shifter_module_Mux_Array_Data_array[20]) ); OAI21X1TS U1484 ( .A0(n2391), .A1(n2387), .B0(n2388), .Y(n2386) ); OAI211X1TS U1485 ( .A0(n2676), .A1(n1921), .B0(n1920), .C0(n1919), .Y( Barrel_Shifter_module_Mux_Array_Data_array[27]) ); OAI211X1TS U1486 ( .A0(n1699), .A1(n920), .B0(n1698), .C0(n1697), .Y(n3127) ); OAI21X1TS U1487 ( .A0(n2461), .A1(n2467), .B0(n2468), .Y(n2466) ); OAI211X1TS U1488 ( .A0(n1706), .A1(n920), .B0(n1705), .C0(n1704), .Y(n3129) ); OAI211X1TS U1489 ( .A0(n1885), .A1(n2017), .B0(n1838), .C0(n1837), .Y(n3124) ); OAI211X1TS U1490 ( .A0(n1741), .A1(n920), .B0(n1740), .C0(n1739), .Y(n3123) ); OAI211X1TS U1491 ( .A0(n1885), .A1(n1843), .B0(n1842), .C0(n1841), .Y(n3122) ); OAI211X1TS U1492 ( .A0(n2586), .A1(n2114), .B0(n902), .C0(n2113), .Y( Barrel_Shifter_module_Data_Reg[36]) ); OAI211X1TS U1493 ( .A0(n1885), .A1(n2036), .B0(n1856), .C0(n1855), .Y(n3120) ); OAI211X1TS U1494 ( .A0(n2589), .A1(n2152), .B0(n902), .C0(n2109), .Y( Barrel_Shifter_module_Data_Reg[37]) ); OAI211X1TS U1495 ( .A0(n1756), .A1(n920), .B0(n1755), .C0(n1754), .Y(n3121) ); OAI211X1TS U1496 ( .A0(n2582), .A1(n2114), .B0(n902), .C0(n2097), .Y( Barrel_Shifter_module_Data_Reg[35]) ); OAI211X1TS U1497 ( .A0(n1885), .A1(n2027), .B0(n1852), .C0(n1851), .Y(n3118) ); OAI211X1TS U1498 ( .A0(n2726), .A1(n1915), .B0(n1914), .C0(n1913), .Y( Barrel_Shifter_module_Mux_Array_Data_array[19]) ); OAI211XLTS U1499 ( .A0(n2610), .A1(n1120), .B0(n1119), .C0(n1118), .Y(n1126) ); OAI211X1TS U1500 ( .A0(n2005), .A1(n1885), .B0(n1306), .C0(n1305), .Y(n1307) ); OAI21X1TS U1501 ( .A0(n2142), .A1(n2137), .B0(n2093), .Y(n3133) ); OAI211X1TS U1502 ( .A0(n2075), .A1(n1885), .B0(n1346), .C0(n1345), .Y(n1347) ); ADDFHX2TS U1503 ( .A(n993), .B(n992), .CI(n991), .CO(n1002), .S( Exp_Operation_Module_Data_S[6]) ); OAI211X1TS U1504 ( .A0(n2726), .A1(n1905), .B0(n1904), .C0(n1903), .Y( Barrel_Shifter_module_Mux_Array_Data_array[25]) ); AOI21X2TS U1505 ( .A0(n2494), .A1(n2394), .B0(n2393), .Y(n2434) ); NAND3BX1TS U1506 ( .AN(n2722), .B(n2721), .C(n2720), .Y( Barrel_Shifter_module_Mux_Array_Data_array[21]) ); OAI211X1TS U1507 ( .A0(n2034), .A1(n2141), .B0(n2013), .C0(n2012), .Y(n3137) ); NOR2X1TS U1508 ( .A(n1123), .B(n1122), .Y(n1124) ); OAI21X1TS U1509 ( .A0(n1845), .A1(n2137), .B0(n1832), .Y(n3115) ); OAI211X1TS U1510 ( .A0(n2142), .A1(n2141), .B0(n2140), .C0(n2139), .Y(n3132) ); INVX3TS U1511 ( .A(n2634), .Y(n2629) ); ADDFHX2TS U1512 ( .A(n984), .B(n983), .CI(n982), .CO(n991), .S( Exp_Operation_Module_Data_S[5]) ); OAI211X1TS U1513 ( .A0(n2060), .A1(n2087), .B0(n1874), .C0(n1873), .Y(n1875) ); AOI222X1TS U1514 ( .A0(n2710), .A1(n2678), .B0(n2709), .B1(n2680), .C0(n1328), .C1(n2669), .Y(n1900) ); AOI211X2TS U1515 ( .A0(n2302), .A1(n2301), .B0(n2300), .C0(n2299), .Y(n2303) ); OAI211X1TS U1516 ( .A0(n2005), .A1(n2074), .B0(n2000), .C0(n1999), .Y(n2025) ); OAI21X1TS U1517 ( .A0(n2075), .A1(n2087), .B0(n1993), .Y(n1994) ); OAI21X2TS U1518 ( .A0(n1447), .A1(n1446), .B0(n1445), .Y(n1448) ); OAI21X1TS U1519 ( .A0(n2546), .A1(n2547), .B0(n2540), .Y(n2545) ); AO22XLTS U1520 ( .A0(n2860), .A1(Add_Subt_result[0]), .B0(n896), .B1( Add_Subt_result[54]), .Y(n2862) ); OAI21X2TS U1521 ( .A0(n2446), .A1(n1493), .B0(n1492), .Y(n2393) ); OR2X2TS U1522 ( .A(n1667), .B(n2726), .Y(n885) ); NOR2X4TS U1523 ( .A(n1661), .B(n1558), .Y(n2757) ); NAND2X1TS U1524 ( .A(n2515), .B(n1378), .Y(n1380) ); INVX1TS U1525 ( .A(n944), .Y(n1084) ); INVX3TS U1526 ( .A(n1207), .Y(n2679) ); NAND2X1TS U1527 ( .A(n1406), .B(n1395), .Y(n1439) ); CLKBUFX3TS U1528 ( .A(n2149), .Y(n905) ); NAND2X1TS U1529 ( .A(n1545), .B(n1533), .Y(n1772) ); OAI221X1TS U1530 ( .A0(n2298), .A1(n2297), .B0(n2296), .B1(n2295), .C0(n2294), .Y(n2299) ); OAI21X1TS U1531 ( .A0(n2451), .A1(n2457), .B0(n2452), .Y(n1490) ); NAND3BX1TS U1532 ( .AN(n2218), .B(n2211), .C(n2210), .Y(n2231) ); NOR2X4TS U1533 ( .A(n1667), .B(n1558), .Y(n2743) ); INVX2TS U1534 ( .A(n2706), .Y(n2676) ); INVX2TS U1535 ( .A(n2706), .Y(n2708) ); NAND3BX1TS U1536 ( .AN(n2554), .B(n873), .C(n1641), .Y(n2550) ); OAI211X2TS U1537 ( .A0(n2886), .A1(n1337), .B0(n1336), .C0(n1335), .Y(n1988) ); NAND2BX1TS U1538 ( .AN(n2088), .B(n1303), .Y(n1304) ); NAND3X1TS U1539 ( .A(n2623), .B(n2622), .C(n2621), .Y( FS_Module_state_next[1]) ); NAND3X1TS U1540 ( .A(n1142), .B(n1087), .C(n3022), .Y(n1100) ); NOR2X4TS U1541 ( .A(n2141), .B(n2914), .Y(n1692) ); OAI2BB2X1TS U1542 ( .B0(n2245), .B1(n2244), .A0N(n2243), .A1N(n2242), .Y( n2300) ); OAI21X1TS U1543 ( .A0(n2257), .A1(n2256), .B0(n2255), .Y(n2259) ); OAI21X1TS U1544 ( .A0(FS_Module_state_reg[0]), .A1(n1040), .B0(n1569), .Y( n883) ); NAND3X1TS U1545 ( .A(n1569), .B(n2884), .C(n1040), .Y(n1024) ); INVX1TS U1546 ( .A(n1121), .Y(n1142) ); INVX3TS U1547 ( .A(n886), .Y(n899) ); NOR2X1TS U1548 ( .A(n940), .B(Add_Subt_result[30]), .Y(n941) ); OAI211XLTS U1549 ( .A0(intDY[8]), .A1(n2959), .B0(n2195), .C0(n2198), .Y( n2207) ); NAND2BX1TS U1550 ( .AN(Sgf_normalized_result[54]), .B(n1933), .Y(n2307) ); INVX1TS U1551 ( .A(n2281), .Y(n2287) ); OAI211X1TS U1552 ( .A0(intDX[61]), .A1(n3045), .B0(n2241), .C0(n2240), .Y( n2242) ); OAI211X1TS U1553 ( .A0(n2962), .A1(intDY[33]), .B0(n2164), .C0(n2267), .Y( n2165) ); OAI211X2TS U1554 ( .A0(intDY[28]), .A1(n2940), .B0(n2176), .C0(n2167), .Y( n2227) ); NOR2X1TS U1555 ( .A(n2247), .B(intDX[44]), .Y(n2248) ); OAI211X2TS U1556 ( .A0(intDY[12]), .A1(n2936), .B0(n2205), .C0(n2178), .Y( n2209) ); OAI211X2TS U1557 ( .A0(intDY[20]), .A1(n2942), .B0(n2224), .C0(n2177), .Y( n2218) ); NOR2BX1TS U1558 ( .AN(Sgf_normalized_result[12]), .B(n1461), .Y(n1400) ); NAND3X1TS U1559 ( .A(n2947), .B(n2239), .C(intDY[60]), .Y(n2240) ); NOR2X1TS U1560 ( .A(n2233), .B(intDX[56]), .Y(n2234) ); NOR2X4TS U1561 ( .A(n2919), .B(LZA_output[3]), .Y(n1035) ); NAND3X1TS U1562 ( .A(n1138), .B(n1163), .C(n946), .Y(n930) ); NOR2X1TS U1563 ( .A(n2948), .B(intDY[53]), .Y(n2159) ); INVX3TS U1564 ( .A(n2920), .Y(n1931) ); NAND2BX1TS U1565 ( .AN(intDY[41]), .B(intDX[41]), .Y(n2163) ); INVX3TS U1566 ( .A(n2920), .Y(n1955) ); INVX3TS U1567 ( .A(n2920), .Y(n1981) ); XNOR2X2TS U1568 ( .A(n3110), .B(intDX[63]), .Y(n1641) ); NOR2X1TS U1569 ( .A(n922), .B(n925), .Y(n1021) ); NAND2BX1TS U1570 ( .AN(intDY[19]), .B(intDX[19]), .Y(n2215) ); OAI21X1TS U1571 ( .A0(intDY[55]), .A1(n3111), .B0(intDY[54]), .Y(n2289) ); OAI21X1TS U1572 ( .A0(intDY[31]), .A1(n2961), .B0(intDY[30]), .Y(n2172) ); NAND2BX1TS U1573 ( .AN(intDY[29]), .B(intDX[29]), .Y(n2167) ); NAND2BX1TS U1574 ( .AN(intDY[27]), .B(intDX[27]), .Y(n2169) ); NAND2BX1TS U1575 ( .AN(intDY[32]), .B(intDX[32]), .Y(n2164) ); NAND2BX1TS U1576 ( .AN(intDY[62]), .B(intDX[62]), .Y(n2243) ); NAND2BX1TS U1577 ( .AN(intDX[62]), .B(intDY[62]), .Y(n2241) ); NAND2BX1TS U1578 ( .AN(intDY[59]), .B(intDX[59]), .Y(n2235) ); NAND2BX1TS U1579 ( .AN(intDY[47]), .B(intDX[47]), .Y(n2246) ); NAND2BX1TS U1580 ( .AN(intDY[51]), .B(intDX[51]), .Y(n2284) ); NAND2BX1TS U1581 ( .AN(intDY[40]), .B(intDX[40]), .Y(n2162) ); INVX3TS U1582 ( .A(n2920), .Y(n1461) ); NAND2BX1TS U1583 ( .AN(intDY[21]), .B(intDX[21]), .Y(n2177) ); OAI21X1TS U1584 ( .A0(n2906), .A1(FSM_selector_C), .B0(add_overflow_flag), .Y(n1297) ); NOR2X4TS U1585 ( .A(underflow_flag), .B(overflow_flag), .Y(n1236) ); XOR2X1TS U1586 ( .A(n1687), .B(n1686), .Y(Add_Subt_Sgf_module_S_to_D[38]) ); NAND2BX2TS U1587 ( .AN(n2158), .B(FSM_selector_C), .Y(n1040) ); OAI21X4TS U1588 ( .A0(n2314), .A1(n2310), .B0(n2311), .Y(n2309) ); AOI21X2TS U1589 ( .A0(n1810), .A1(n1798), .B0(n1797), .Y(n1942) ); XOR2X2TS U1590 ( .A(n1017), .B(n917), .Y(n2156) ); ADDFHX4TS U1591 ( .A(n1015), .B(n1014), .CI(n1013), .CO(n1017), .S( Exp_Operation_Module_Data_S[10]) ); NAND2X6TS U1592 ( .A(n2606), .B(n937), .Y(n2610) ); NAND4X1TS U1593 ( .A(n1173), .B(n1172), .C(n1171), .D(n1170), .Y( Leading_Zero_Detector_Module_Codec_to_Reg[4]) ); AOI2BB1X4TS U1594 ( .A0N(n2611), .A1N(Add_Subt_result[1]), .B0(n951), .Y( n1173) ); OR3X2TS U1595 ( .A(n1125), .B(Add_Subt_result[11]), .C(Add_Subt_result[10]), .Y(n953) ); NOR2X8TS U1596 ( .A(n1099), .B(n936), .Y(n2606) ); XOR2X1TS U1597 ( .A(n1985), .B(n1984), .Y(Add_Subt_Sgf_module_S_to_D[55]) ); AOI21X2TS U1598 ( .A0(n2309), .A1(n2307), .B0(n2305), .Y(n1985) ); MX2X1TS U1599 ( .A(DMP[55]), .B(n901), .S0(n1973), .Y(n979) ); NAND2BXLTS U1600 ( .AN(intDX[9]), .B(intDY[9]), .Y(n2196) ); NAND3XLTS U1601 ( .A(n2959), .B(n2195), .C(intDY[8]), .Y(n2197) ); OA22X1TS U1602 ( .A0(n2901), .A1(intDY[14]), .B0(n2967), .B1(intDY[15]), .Y( n2205) ); NAND2X1TS U1603 ( .A(n1031), .B(n1303), .Y(n1036) ); OA22X1TS U1604 ( .A0(n2899), .A1(intDY[30]), .B0(n2961), .B1(intDY[31]), .Y( n2176) ); OA22X1TS U1605 ( .A0(n2902), .A1(intDY[22]), .B0(n3050), .B1(intDY[23]), .Y( n2224) ); MX2X1TS U1606 ( .A(DMP[15]), .B(Sgf_normalized_result[17]), .S0(n1458), .Y( n1476) ); MX2X1TS U1607 ( .A(DMP[23]), .B(Sgf_normalized_result[25]), .S0(n1471), .Y( n1498) ); MX2X1TS U1608 ( .A(DMP[24]), .B(Sgf_normalized_result[26]), .S0(n1471), .Y( n1500) ); INVX2TS U1609 ( .A(n1922), .Y(n2725) ); MX2X1TS U1610 ( .A(DMP[54]), .B(exp_oper_result[2]), .S0(n1933), .Y(n1009) ); MX2X1TS U1611 ( .A(DMP[57]), .B(exp_oper_result[5]), .S0(n1933), .Y(n983) ); MX2X1TS U1612 ( .A(DMP[60]), .B(exp_oper_result[8]), .S0(n1933), .Y(n996) ); CLKAND2X2TS U1613 ( .A(n988), .B(DmP[60]), .Y(n989) ); AOI2BB2XLTS U1614 ( .B0(intDX[1]), .B1(n3049), .A0N(intDY[0]), .A1N(n2181), .Y(n2182) ); OAI21XLTS U1615 ( .A0(intDX[1]), .A1(n3049), .B0(intDX[0]), .Y(n2181) ); NAND2BXLTS U1616 ( .AN(intDY[2]), .B(intDX[2]), .Y(n2183) ); INVX2TS U1617 ( .A(n2263), .Y(n2269) ); OAI21XLTS U1618 ( .A0(intDY[33]), .A1(n2962), .B0(intDY[32]), .Y(n2264) ); OAI21XLTS U1619 ( .A0(intDY[41]), .A1(n2928), .B0(intDY[40]), .Y(n2249) ); NAND4XLTS U1620 ( .A(n1632), .B(n1631), .C(n1630), .D(n1629), .Y(n1633) ); OAI2BB2XLTS U1621 ( .B0(n2200), .B1(n2209), .A0N(n2199), .A1N(n2198), .Y( n2203) ); NAND2X1TS U1622 ( .A(n924), .B(intDX[37]), .Y(n2261) ); MX2X1TS U1623 ( .A(DMP[6]), .B(Sgf_normalized_result[8]), .S0(n1535), .Y( n1388) ); MX2X1TS U1624 ( .A(DMP[27]), .B(Sgf_normalized_result[29]), .S0(n1471), .Y( n1508) ); MX2X1TS U1625 ( .A(DMP[5]), .B(Sgf_normalized_result[7]), .S0(n1535), .Y( n1386) ); MX2X1TS U1626 ( .A(DMP[12]), .B(Sgf_normalized_result[14]), .S0(n1458), .Y( n1432) ); MX2X1TS U1627 ( .A(DMP[17]), .B(Sgf_normalized_result[19]), .S0(n1458), .Y( n1482) ); MX2X1TS U1628 ( .A(DMP[18]), .B(Sgf_normalized_result[20]), .S0(n1458), .Y( n1484) ); CLKAND2X2TS U1629 ( .A(n1981), .B(Sgf_normalized_result[1]), .Y(n2538) ); MX2X1TS U1630 ( .A(DMP[0]), .B(Sgf_normalized_result[2]), .S0(n1535), .Y( n1361) ); MX2X1TS U1631 ( .A(DMP[2]), .B(Sgf_normalized_result[4]), .S0(n1535), .Y( n1371) ); MX2X1TS U1632 ( .A(DMP[10]), .B(Sgf_normalized_result[12]), .S0(n1458), .Y( n1401) ); INVX2TS U1633 ( .A(n1667), .Y(n2667) ); MX2X1TS U1634 ( .A(DMP[19]), .B(Sgf_normalized_result[21]), .S0(n1471), .Y( n1486) ); MX2X1TS U1635 ( .A(DMP[20]), .B(Sgf_normalized_result[22]), .S0(n1471), .Y( n1488) ); INVX2TS U1636 ( .A(n1661), .Y(n2666) ); MX2X1TS U1637 ( .A(DMP[8]), .B(Sgf_normalized_result[10]), .S0(n1535), .Y( n1392) ); MX2X1TS U1638 ( .A(DMP[9]), .B(Sgf_normalized_result[11]), .S0(n1458), .Y( n1397) ); INVX2TS U1639 ( .A(n1042), .Y(n1077) ); INVX2TS U1640 ( .A(n2144), .Y(n1350) ); INVX2TS U1641 ( .A(n2787), .Y(n2806) ); MX2X1TS U1642 ( .A(DMP[21]), .B(Sgf_normalized_result[23]), .S0(n1471), .Y( n1494) ); MX2X1TS U1643 ( .A(DMP[22]), .B(Sgf_normalized_result[24]), .S0(n1471), .Y( n1496) ); MX2X1TS U1644 ( .A(DMP[25]), .B(Sgf_normalized_result[27]), .S0(n1471), .Y( n1504) ); MX2X1TS U1645 ( .A(DMP[26]), .B(Sgf_normalized_result[28]), .S0(n1471), .Y( n1506) ); MX2X1TS U1646 ( .A(DMP[29]), .B(Sgf_normalized_result[31]), .S0(n1786), .Y( n1524) ); MX2X1TS U1647 ( .A(DMP[30]), .B(Sgf_normalized_result[32]), .S0(n1786), .Y( n1526) ); MX2X1TS U1648 ( .A(DMP[32]), .B(Sgf_normalized_result[34]), .S0(n1786), .Y( n1530) ); MX2X1TS U1649 ( .A(DMP[33]), .B(Sgf_normalized_result[35]), .S0(n1535), .Y( n1536) ); MX2X1TS U1650 ( .A(DMP[34]), .B(Sgf_normalized_result[36]), .S0(n1786), .Y( n1540) ); MX2X1TS U1651 ( .A(DMP[36]), .B(Sgf_normalized_result[38]), .S0(n1786), .Y( n1683) ); MX2X1TS U1652 ( .A(DMP[37]), .B(Sgf_normalized_result[39]), .S0(n1786), .Y( n1789) ); MX2X1TS U1653 ( .A(DMP[38]), .B(Sgf_normalized_result[40]), .S0(n1786), .Y( n1791) ); MX2X1TS U1654 ( .A(DMP[40]), .B(Sgf_normalized_result[42]), .S0(n1964), .Y( n1795) ); MX2X1TS U1655 ( .A(DMP[41]), .B(Sgf_normalized_result[43]), .S0(n1964), .Y( n1800) ); MX2X1TS U1656 ( .A(DMP[42]), .B(Sgf_normalized_result[44]), .S0(n1964), .Y( n1804) ); MX2X1TS U1657 ( .A(DMP[44]), .B(Sgf_normalized_result[46]), .S0(n1964), .Y( n1946) ); OAI211X1TS U1658 ( .A0(intDY[36]), .A1(n2960), .B0(n2272), .C0(n2261), .Y( n2263) ); NAND2X1TS U1659 ( .A(n922), .B(FS_Module_state_reg[1]), .Y(n1237) ); NAND2X1TS U1660 ( .A(n965), .B(n2921), .Y(n2607) ); INVX2TS U1661 ( .A(n2072), .Y(n2144) ); OAI2BB2XLTS U1662 ( .B0(n2061), .B1(n2036), .A0N(n907), .A1N( Barrel_Shifter_module_Mux_Array_Data_array[81]), .Y(n2037) ); OAI2BB2XLTS U1663 ( .B0(n2061), .B1(n2027), .A0N(n907), .A1N( Barrel_Shifter_module_Mux_Array_Data_array[80]), .Y(n2028) ); NOR2XLTS U1664 ( .A(n2957), .B(n2079), .Y(n2080) ); OAI21XLTS U1665 ( .A0(n2075), .A1(n2074), .B0(n2073), .Y(n2076) ); AO22XLTS U1666 ( .A0(n1846), .A1( Barrel_Shifter_module_Mux_Array_Data_array[88]), .B0(n1070), .B1( Barrel_Shifter_module_Mux_Array_Data_array[104]), .Y(n1055) ); AO22XLTS U1667 ( .A0(n1846), .A1( Barrel_Shifter_module_Mux_Array_Data_array[89]), .B0(n1070), .B1( Barrel_Shifter_module_Mux_Array_Data_array[105]), .Y(n1065) ); AO22XLTS U1668 ( .A0(n1846), .A1( Barrel_Shifter_module_Mux_Array_Data_array[90]), .B0(n1070), .B1( Barrel_Shifter_module_Mux_Array_Data_array[106]), .Y(n1045) ); AO22XLTS U1669 ( .A0(n1846), .A1( Barrel_Shifter_module_Mux_Array_Data_array[91]), .B0(n1070), .B1( Barrel_Shifter_module_Mux_Array_Data_array[107]), .Y(n1033) ); AO22XLTS U1670 ( .A0(n1846), .A1( Barrel_Shifter_module_Mux_Array_Data_array[92]), .B0(n1070), .B1( Barrel_Shifter_module_Mux_Array_Data_array[108]), .Y(n1050) ); AO22XLTS U1671 ( .A0(n1846), .A1( Barrel_Shifter_module_Mux_Array_Data_array[93]), .B0(n1070), .B1( Barrel_Shifter_module_Mux_Array_Data_array[109]), .Y(n1060) ); OAI21XLTS U1672 ( .A0(n2136), .A1(n2074), .B0(n1338), .Y(n1339) ); AOI2BB1XLTS U1673 ( .A0N(n1868), .A1N(n2060), .B0(n1700), .Y(n1314) ); AOI2BB1XLTS U1674 ( .A0N(n1868), .A1N(n2027), .B0(n1689), .Y(n1293) ); NAND3XLTS U1675 ( .A(n908), .B(n1846), .C( Barrel_Shifter_module_Mux_Array_Data_array[102]), .Y(n1844) ); CLKAND2X2TS U1676 ( .A(n1829), .B(n1827), .Y(n1845) ); AO22XLTS U1677 ( .A0(n1846), .A1( Barrel_Shifter_module_Mux_Array_Data_array[87]), .B0( Barrel_Shifter_module_Mux_Array_Data_array[103]), .B1(n1070), .Y(n1073) ); AOI21X1TS U1678 ( .A0(n2494), .A1(n2448), .B0(n2447), .Y(n2461) ); OAI21XLTS U1679 ( .A0(n1161), .A1(n1160), .B0(n1159), .Y(n1167) ); CLKAND2X2TS U1680 ( .A(n1134), .B(Add_Subt_result[33]), .Y(n1164) ); AND3X1TS U1681 ( .A(n1649), .B(n1648), .C(n1647), .Y(n2647) ); NAND2X2TS U1682 ( .A(n1180), .B(n1179), .Y(n1922) ); OAI211XLTS U1683 ( .A0(n962), .A1(n1121), .B0(n1079), .C0(n961), .Y(n963) ); NOR2XLTS U1684 ( .A(Add_Subt_result[53]), .B(Add_Subt_result[54]), .Y(n959) ); NAND4BXLTS U1685 ( .AN(Add_Subt_result[25]), .B(n1089), .C(n1161), .D( Add_Subt_result[24]), .Y(n1091) ); OAI21XLTS U1686 ( .A0(Add_Subt_result[4]), .A1(n2605), .B0(n2604), .Y(n1104) ); OAI21X1TS U1687 ( .A0(n2373), .A1(n1812), .B0(n1811), .Y(n2361) ); OR2X1TS U1688 ( .A(n1958), .B(n1957), .Y(n2334) ); INVX2TS U1689 ( .A(n973), .Y(n1178) ); OR2X1TS U1690 ( .A(n2560), .B(n2559), .Y(n2623) ); MX2X1TS U1691 ( .A(DMP[53]), .B(exp_oper_result[1]), .S0(n1973), .Y(n986) ); XOR2XLTS U1692 ( .A(n2525), .B(n2524), .Y(Add_Subt_Sgf_module_S_to_D[5]) ); XOR2XLTS U1693 ( .A(n2490), .B(n2489), .Y(Add_Subt_Sgf_module_S_to_D[16]) ); MX2X1TS U1694 ( .A(DMP[58]), .B(exp_oper_result[6]), .S0(n1973), .Y(n992) ); CLKAND2X2TS U1695 ( .A(n2129), .B(DmP[58]), .Y(n981) ); MX2X1TS U1696 ( .A(DMP[61]), .B(exp_oper_result[9]), .S0(n1964), .Y(n1000) ); CLKAND2X2TS U1697 ( .A(n2129), .B(DmP[61]), .Y(n994) ); NOR2X1TS U1698 ( .A(n2406), .B(n2401), .Y(n1513) ); AOI2BB2XLTS U1699 ( .B0(intDY[3]), .B1(n2966), .A0N(intDX[2]), .A1N(n2184), .Y(n2185) ); OAI21XLTS U1700 ( .A0(intDY[3]), .A1(n2966), .B0(intDY[2]), .Y(n2184) ); OAI21XLTS U1701 ( .A0(intDY[15]), .A1(n2967), .B0(intDY[14]), .Y(n2201) ); OAI21XLTS U1702 ( .A0(intDY[13]), .A1(n2935), .B0(intDY[12]), .Y(n2192) ); INVX2TS U1703 ( .A(n1857), .Y(n2078) ); NOR2X1TS U1704 ( .A(n2479), .B(n2474), .Y(n1481) ); INVX2TS U1705 ( .A(n1846), .Y(n1041) ); NAND2X1TS U1706 ( .A(n1041), .B(n1646), .Y(n1042) ); NOR2X1TS U1707 ( .A(n1113), .B(n939), .Y(n947) ); NOR2X1TS U1708 ( .A(n2456), .B(n2451), .Y(n1491) ); NAND2X1TS U1709 ( .A(n2450), .B(n1491), .Y(n1493) ); INVX4TS U1710 ( .A(n1984), .Y(n1467) ); NOR2X1TS U1711 ( .A(n1549), .B(n1551), .Y(n1533) ); NOR2X1TS U1712 ( .A(n1770), .B(n1774), .Y(n1776) ); NOR2X1TS U1713 ( .A(n1813), .B(n1815), .Y(n1798) ); NAND2X1TS U1714 ( .A(n1771), .B(n1776), .Y(n1779) ); NAND2X1TS U1715 ( .A(n2400), .B(n1513), .Y(n1515) ); NAND2BXLTS U1716 ( .AN(intDY[9]), .B(intDX[9]), .Y(n2195) ); OAI21XLTS U1717 ( .A0(intDY[21]), .A1(n2939), .B0(intDY[20]), .Y(n2212) ); OAI2BB1X1TS U1718 ( .A0N(n2272), .A1N(n2271), .B0(n2270), .Y(n2277) ); OAI21XLTS U1719 ( .A0(intDX[37]), .A1(n924), .B0(n2262), .Y(n2271) ); NAND3XLTS U1720 ( .A(n2960), .B(n2261), .C(intDY[36]), .Y(n2262) ); MX2X1TS U1721 ( .A(DMP[4]), .B(Sgf_normalized_result[6]), .S0(n1535), .Y( n1375) ); MX2X1TS U1722 ( .A(DMP[1]), .B(Sgf_normalized_result[3]), .S0(n1535), .Y( n1369) ); MX2X1TS U1723 ( .A(DMP[28]), .B(Sgf_normalized_result[30]), .S0(n1471), .Y( n1510) ); AOI222X1TS U1724 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[81]), .A1( n1861), .B0(Barrel_Shifter_module_Mux_Array_Data_array[73]), .B1(n1860), .C0(Barrel_Shifter_module_Mux_Array_Data_array[89]), .C1(n2123), .Y(n1746) ); AOI222X1TS U1725 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[80]), .A1( n1861), .B0(Barrel_Shifter_module_Mux_Array_Data_array[72]), .B1(n1860), .C0(Barrel_Shifter_module_Mux_Array_Data_array[88]), .C1(n2123), .Y(n1757) ); NOR2X4TS U1726 ( .A(n891), .B(LZA_output[4]), .Y(n1857) ); CLKAND2X2TS U1727 ( .A(n1981), .B(Sgf_normalized_result[0]), .Y(n1358) ); MX2X1TS U1728 ( .A(DMP[3]), .B(Sgf_normalized_result[5]), .S0(n1535), .Y( n1373) ); NOR2X1TS U1729 ( .A(n2526), .B(n2528), .Y(n2515) ); MX2X1TS U1730 ( .A(DMP[16]), .B(Sgf_normalized_result[18]), .S0(n1458), .Y( n1478) ); MX2X1TS U1731 ( .A(DMP[7]), .B(Sgf_normalized_result[9]), .S0(n1535), .Y( n1390) ); NAND2X1TS U1732 ( .A(n2473), .B(n1481), .Y(n2445) ); INVX2TS U1733 ( .A(n1895), .Y(n1897) ); MX2X1TS U1734 ( .A(DmP[25]), .B(Add_Subt_result[27]), .S0(FSM_selector_C), .Y(n1896) ); MX2X1TS U1735 ( .A(DMP[49]), .B(Sgf_normalized_result[51]), .S0(n1933), .Y( n1970) ); MX2X1TS U1736 ( .A(DMP[14]), .B(Sgf_normalized_result[16]), .S0(n1458), .Y( n1474) ); MX2X1TS U1737 ( .A(DMP[13]), .B(Sgf_normalized_result[15]), .S0(n1458), .Y( n1472) ); NOR2X1TS U1738 ( .A(n1439), .B(n1446), .Y(n1449) ); NAND2X1TS U1739 ( .A(n1438), .B(n1443), .Y(n1446) ); MX2X1TS U1740 ( .A(DMP[11]), .B(Sgf_normalized_result[13]), .S0(n1458), .Y( n1428) ); NOR2X1TS U1741 ( .A(n1420), .B(n1423), .Y(n1438) ); NAND4XLTS U1742 ( .A(n1580), .B(n1579), .C(n1578), .D(n1577), .Y(n1581) ); NAND4XLTS U1743 ( .A(n1608), .B(n1607), .C(n1606), .D(n1605), .Y(n1636) ); NAND4XLTS U1744 ( .A(n1616), .B(n1615), .C(n1614), .D(n1613), .Y(n1635) ); NAND4XLTS U1745 ( .A(n1624), .B(n1623), .C(n1622), .D(n1621), .Y(n1634) ); AOI31XLTS U1746 ( .A0(n1142), .A1(Add_Subt_result[45]), .A2(n2913), .B0( n1141), .Y(n1143) ); NOR2XLTS U1747 ( .A(n1140), .B(Add_Subt_result[54]), .Y(n1141) ); AOI2BB1XLTS U1748 ( .A0N(n1139), .A1N(Add_Subt_result[52]), .B0( Add_Subt_result[53]), .Y(n1140) ); INVX2TS U1749 ( .A(n1137), .Y(n1094) ); NAND2X1TS U1750 ( .A(n1134), .B(n934), .Y(n944) ); NAND4XLTS U1751 ( .A(n1112), .B(n932), .C(n1083), .D(n931), .Y(n933) ); OR2X1TS U1752 ( .A(Add_Subt_result[53]), .B(Add_Subt_result[52]), .Y(n927) ); INVX2TS U1753 ( .A(n1099), .Y(n1102) ); NAND2X1TS U1754 ( .A(n2423), .B(n1503), .Y(n2395) ); MX2X1TS U1755 ( .A(DMP[31]), .B(Sgf_normalized_result[33]), .S0(n1786), .Y( n1528) ); NOR2X1TS U1756 ( .A(n2387), .B(n2382), .Y(n1545) ); MX2X1TS U1757 ( .A(DMP[35]), .B(Sgf_normalized_result[37]), .S0(n1786), .Y( n1679) ); NOR2X1TS U1758 ( .A(n1671), .B(n1674), .Y(n1771) ); MX2X1TS U1759 ( .A(DMP[39]), .B(Sgf_normalized_result[41]), .S0(n1786), .Y( n1793) ); NOR2X1TS U1760 ( .A(n2362), .B(n2365), .Y(n1809) ); MX2X1TS U1761 ( .A(DMP[43]), .B(Sgf_normalized_result[45]), .S0(n1964), .Y( n1937) ); MX2X1TS U1762 ( .A(DMP[45]), .B(Sgf_normalized_result[47]), .S0(n1933), .Y( n1953) ); MX2X1TS U1763 ( .A(DMP[46]), .B(Sgf_normalized_result[48]), .S0(n1933), .Y( n1957) ); MX2X1TS U1764 ( .A(DMP[47]), .B(Sgf_normalized_result[49]), .S0(n1933), .Y( n1961) ); MX2X1TS U1765 ( .A(DMP[48]), .B(Sgf_normalized_result[50]), .S0(n1973), .Y( n1965) ); MX2X1TS U1766 ( .A(DMP[50]), .B(Sgf_normalized_result[52]), .S0(n1933), .Y( n1974) ); MX2X1TS U1767 ( .A(DMP[51]), .B(Sgf_normalized_result[53]), .S0(n1981), .Y( n1978) ); CLKINVX3TS U1768 ( .A(n1984), .Y(n1983) ); OR2X1TS U1769 ( .A(FS_Module_state_reg[0]), .B(FS_Module_state_reg[2]), .Y( n1238) ); AND3X1TS U1770 ( .A(n2656), .B(n2655), .C(n2654), .Y(n2686) ); AND3X1TS U1771 ( .A(n2662), .B(n2661), .C(n2660), .Y(n2691) ); OAI21XLTS U1772 ( .A0(exp_oper_result[4]), .A1(n2136), .B0(n2124), .Y(n2128) ); OAI21XLTS U1773 ( .A0(n2122), .A1(n2121), .B0(n897), .Y(n2131) ); AOI222X1TS U1774 ( .A0(n2019), .A1(n2082), .B0(n2018), .B1(n2084), .C0(n921), .C1(Barrel_Shifter_module_Mux_Array_Data_array[89]), .Y(n2020) ); AND3X1TS U1775 ( .A(n1264), .B(n1263), .C(n1262), .Y(n2699) ); AOI222X1TS U1776 ( .A0(n2008), .A1(n2082), .B0(n2007), .B1(n2084), .C0(n921), .C1(Barrel_Shifter_module_Mux_Array_Data_array[88]), .Y(n2009) ); AO22XLTS U1777 ( .A0(n2146), .A1( Barrel_Shifter_module_Mux_Array_Data_array[76]), .B0(n905), .B1( Barrel_Shifter_module_Mux_Array_Data_array[92]), .Y(n2099) ); AO22XLTS U1778 ( .A0(n2146), .A1( Barrel_Shifter_module_Mux_Array_Data_array[75]), .B0(n905), .B1( Barrel_Shifter_module_Mux_Array_Data_array[91]), .Y(n2103) ); AO22XLTS U1779 ( .A0(n905), .A1( Barrel_Shifter_module_Mux_Array_Data_array[90]), .B0(n2146), .B1( Barrel_Shifter_module_Mux_Array_Data_array[74]), .Y(n2095) ); AO22XLTS U1780 ( .A0(n905), .A1( Barrel_Shifter_module_Mux_Array_Data_array[89]), .B0(n2146), .B1( Barrel_Shifter_module_Mux_Array_Data_array[73]), .Y(n2111) ); AO22XLTS U1781 ( .A0(n905), .A1( Barrel_Shifter_module_Mux_Array_Data_array[88]), .B0(n2146), .B1( Barrel_Shifter_module_Mux_Array_Data_array[72]), .Y(n2107) ); AO22XLTS U1782 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[87]), .A1( n2149), .B0(n904), .B1(Barrel_Shifter_module_Mux_Array_Data_array[71]), .Y(n1349) ); AOI2BB2XLTS U1783 ( .B0(Barrel_Shifter_module_Mux_Array_Data_array[95]), .B1(n907), .A0N(n1764), .A1N(n2060), .Y(n1702) ); AOI2BB2XLTS U1784 ( .B0(n1692), .B1( Barrel_Shifter_module_Mux_Array_Data_array[96]), .A0N(n1764), .A1N( n2027), .Y(n1693) ); AOI2BB2XLTS U1785 ( .B0(n1692), .B1( Barrel_Shifter_module_Mux_Array_Data_array[97]), .A0N(n1764), .A1N( n2036), .Y(n1719) ); AOI2BB1XLTS U1786 ( .A0N(n1868), .A1N(n2036), .B0(n1713), .Y(n1714) ); AO22XLTS U1787 ( .A0(n1839), .A1(n1992), .B0(n1692), .B1( Barrel_Shifter_module_Mux_Array_Data_array[98]), .Y(n1738) ); AOI2BB1XLTS U1788 ( .A0N(n1868), .A1N(n1843), .B0(n1733), .Y(n1734) ); AOI2BB2XLTS U1789 ( .B0(n1692), .B1( Barrel_Shifter_module_Mux_Array_Data_array[99]), .A0N(n1764), .A1N( n2017), .Y(n1752) ); MX2X1TS U1790 ( .A(Barrel_Shifter_module_Mux_Array_Data_array[99]), .B( Barrel_Shifter_module_Mux_Array_Data_array[107]), .S0(LZA_output[3]), .Y(n1853) ); AOI2BB2XLTS U1791 ( .B0(n1692), .B1( Barrel_Shifter_module_Mux_Array_Data_array[100]), .A0N(n1764), .A1N( n2005), .Y(n1765) ); MX2X1TS U1792 ( .A(Barrel_Shifter_module_Mux_Array_Data_array[100]), .B( Barrel_Shifter_module_Mux_Array_Data_array[108]), .S0(LZA_output[3]), .Y(n1849) ); MX2X1TS U1793 ( .A(Barrel_Shifter_module_Mux_Array_Data_array[101]), .B( Barrel_Shifter_module_Mux_Array_Data_array[109]), .S0(LZA_output[3]), .Y(n1878) ); AO22XLTS U1794 ( .A0(n904), .A1( Barrel_Shifter_module_Mux_Array_Data_array[58]), .B0(n2149), .B1( Barrel_Shifter_module_Mux_Array_Data_array[74]), .Y(n1047) ); AO22XLTS U1795 ( .A0(n2146), .A1( Barrel_Shifter_module_Mux_Array_Data_array[61]), .B0(n905), .B1( Barrel_Shifter_module_Mux_Array_Data_array[77]), .Y(n1062) ); AO22XLTS U1796 ( .A0(n904), .A1( Barrel_Shifter_module_Mux_Array_Data_array[60]), .B0(n2149), .B1( Barrel_Shifter_module_Mux_Array_Data_array[76]), .Y(n1052) ); AO22XLTS U1797 ( .A0(n2146), .A1( Barrel_Shifter_module_Mux_Array_Data_array[59]), .B0(n2149), .B1( Barrel_Shifter_module_Mux_Array_Data_array[75]), .Y(n1039) ); AO22XLTS U1798 ( .A0(n904), .A1( Barrel_Shifter_module_Mux_Array_Data_array[56]), .B0(n2149), .B1( Barrel_Shifter_module_Mux_Array_Data_array[72]), .Y(n1057) ); AO22XLTS U1799 ( .A0(n904), .A1( Barrel_Shifter_module_Mux_Array_Data_array[57]), .B0(n905), .B1( Barrel_Shifter_module_Mux_Array_Data_array[73]), .Y(n1068) ); AND3X1TS U1800 ( .A(n1283), .B(n1282), .C(n1281), .Y(n2690) ); AND3X1TS U1801 ( .A(n1243), .B(n1242), .C(n1241), .Y(n2693) ); AND3X1TS U1802 ( .A(n1206), .B(n1205), .C(n1204), .Y(n1286) ); AND3X1TS U1803 ( .A(n1217), .B(n1216), .C(n1215), .Y(n2705) ); AND3X1TS U1804 ( .A(n2683), .B(n2682), .C(n2681), .Y(n2707) ); AND3X1TS U1805 ( .A(n1198), .B(n1197), .C(n1196), .Y(n1324) ); AND3X1TS U1806 ( .A(n1210), .B(n1209), .C(n1208), .Y(n1229) ); AND3X1TS U1807 ( .A(n1220), .B(n1219), .C(n1218), .Y(n1332) ); AND3X1TS U1808 ( .A(n1666), .B(n1665), .C(n1664), .Y(n2659) ); AND3X1TS U1809 ( .A(n1274), .B(n1273), .C(n1272), .Y(n2698) ); AND3X1TS U1810 ( .A(n1279), .B(n1278), .C(n1277), .Y(n1327) ); AO22XLTS U1811 ( .A0(n2143), .A1( Barrel_Shifter_module_Mux_Array_Data_array[79]), .B0(n1350), .B1( Barrel_Shifter_module_Mux_Array_Data_array[63]), .Y(n1075) ); AO22XLTS U1812 ( .A0(n2149), .A1( Barrel_Shifter_module_Mux_Array_Data_array[71]), .B0(n904), .B1( Barrel_Shifter_module_Mux_Array_Data_array[55]), .Y(n1074) ); NOR2X4TS U1813 ( .A(n944), .B(Add_Subt_result[23]), .Y(n1116) ); OR2X1TS U1814 ( .A(n1938), .B(n1937), .Y(n2355) ); NOR2X1TS U1815 ( .A(n1927), .B(n1936), .Y(n2349) ); OR2X1TS U1816 ( .A(n1966), .B(n1965), .Y(n2325) ); OR2X1TS U1817 ( .A(n1975), .B(n1974), .Y(n2316) ); NOR4X1TS U1818 ( .A(n2298), .B(n2263), .C(n2296), .D(n2165), .Y(n2302) ); BUFX3TS U1819 ( .A(n2632), .Y(n2590) ); BUFX3TS U1820 ( .A(n2632), .Y(n2599) ); BUFX3TS U1821 ( .A(n2632), .Y(n2583) ); AOI2BB2XLTS U1822 ( .B0(n2882), .B1(ready), .A0N(beg_FSM), .A1N(n860), .Y( n872) ); NAND4BXLTS U1823 ( .AN(n2558), .B(n2557), .C(n2559), .D(n2556), .Y( FS_Module_state_next[0]) ); OAI21XLTS U1824 ( .A0(n2554), .A1(n2553), .B0(n873), .Y(n2557) ); OAI21XLTS U1825 ( .A0(n2561), .A1(n2914), .B0(n1353), .Y(n864) ); AOI2BB2XLTS U1826 ( .B0(n2781), .B1(n1902), .A0N(n2719), .A1N(n1901), .Y( n1903) ); NAND4XLTS U1827 ( .A(n2785), .B(n2784), .C(n2783), .D(n2782), .Y( Barrel_Shifter_module_Mux_Array_Data_array[11]) ); NAND4XLTS U1828 ( .A(n2763), .B(n2762), .C(n2761), .D(n2760), .Y( Barrel_Shifter_module_Mux_Array_Data_array[14]) ); OAI31X1TS U1829 ( .A0(n2726), .A1(n2725), .A2(n2724), .B0(n2723), .Y(n2729) ); NAND4XLTS U1830 ( .A(n2742), .B(n2741), .C(n2740), .D(n2739), .Y( Barrel_Shifter_module_Mux_Array_Data_array[17]) ); NAND4XLTS U1831 ( .A(n2735), .B(n2734), .C(n2733), .D(n2732), .Y( Barrel_Shifter_module_Mux_Array_Data_array[18]) ); NAND4XLTS U1832 ( .A(n2804), .B(n2803), .C(n2802), .D(n2801), .Y( Barrel_Shifter_module_Mux_Array_Data_array[8]) ); NAND4XLTS U1833 ( .A(n2756), .B(n2755), .C(n2754), .D(n2753), .Y( Barrel_Shifter_module_Mux_Array_Data_array[15]) ); NAND4BXLTS U1834 ( .AN(n2614), .B(n2613), .C(n2612), .D(n2611), .Y( Leading_Zero_Detector_Module_Codec_to_Reg[5]) ); OAI211XLTS U1835 ( .A0(n2610), .A1(n2996), .B0(n2609), .C0(n2608), .Y(n2614) ); XOR2XLTS U1836 ( .A(n2433), .B(n2432), .Y(Add_Subt_Sgf_module_S_to_D[25]) ); AOI31XLTS U1837 ( .A0(n1991), .A1(n1990), .A2(n1989), .B0(n2088), .Y(n1995) ); AO21XLTS U1838 ( .A0(n1996), .A1(n2058), .B0(n1347), .Y(n3130) ); AO21XLTS U1839 ( .A0(n1701), .A1(n2058), .B0(n1321), .Y(n3128) ); AO21XLTS U1840 ( .A0(n1690), .A1(n906), .B0(n1307), .Y(n3126) ); AOI31XLTS U1841 ( .A0(n908), .A1(n1846), .A2(n2957), .B0(n920), .Y(n1847) ); MX2X1TS U1842 ( .A(DMP[52]), .B(exp_oper_result[0]), .S0(n1980), .Y(n1012) ); NAND4XLTS U1843 ( .A(n2771), .B(n2770), .C(n2769), .D(n2768), .Y( Barrel_Shifter_module_Mux_Array_Data_array[13]) ); NAND4XLTS U1844 ( .A(n2777), .B(n2776), .C(n2775), .D(n2774), .Y( Barrel_Shifter_module_Mux_Array_Data_array[12]) ); NAND4XLTS U1845 ( .A(n2792), .B(n2791), .C(n2790), .D(n2789), .Y( Barrel_Shifter_module_Mux_Array_Data_array[10]) ); NAND4XLTS U1846 ( .A(n2798), .B(n2797), .C(n2796), .D(n2795), .Y( Barrel_Shifter_module_Mux_Array_Data_array[9]) ); NAND4XLTS U1847 ( .A(n2811), .B(n2810), .C(n2809), .D(n2808), .Y( Barrel_Shifter_module_Mux_Array_Data_array[7]) ); NAND4XLTS U1848 ( .A(n2750), .B(n2749), .C(n2748), .D(n2747), .Y( Barrel_Shifter_module_Mux_Array_Data_array[16]) ); AO22XLTS U1849 ( .A0(n2850), .A1(n2773), .B0(n2874), .B1(n2717), .Y(n1912) ); NAND4XLTS U1850 ( .A(n2716), .B(n2715), .C(n2714), .D(n2713), .Y( Barrel_Shifter_module_Mux_Array_Data_array[22]) ); XOR2XLTS U1851 ( .A(n2483), .B(n2482), .Y(Add_Subt_Sgf_module_S_to_D[17]) ); XOR2XLTS U1852 ( .A(n2512), .B(n2511), .Y(Add_Subt_Sgf_module_S_to_D[7]) ); XOR2XLTS U1853 ( .A(n2547), .B(n2546), .Y(Add_Subt_Sgf_module_S_to_D[1]) ); XOR2XLTS U1854 ( .A(n2532), .B(n2531), .Y(Add_Subt_Sgf_module_S_to_D[4]) ); AOI2BB2XLTS U1855 ( .B0(n2645), .B1(n1916), .A0N(n2724), .A1N(n1901), .Y( n1898) ); OAI211XLTS U1856 ( .A0(n1915), .A1(n2711), .B0(n1894), .C0(n1893), .Y( Barrel_Shifter_module_Mux_Array_Data_array[23]) ); XOR2XLTS U1857 ( .A(n2323), .B(n2322), .Y(Add_Subt_Sgf_module_S_to_D[51]) ); CLKAND2X2TS U1858 ( .A(n2626), .B(Sgf_normalized_result[32]), .Y( final_result_ieee_Module_Sgf_S_mux[30]) ); CLKAND2X2TS U1859 ( .A(n2625), .B(Sgf_normalized_result[22]), .Y( final_result_ieee_Module_Sgf_S_mux[20]) ); CLKAND2X2TS U1860 ( .A(n2881), .B(Sgf_normalized_result[53]), .Y( final_result_ieee_Module_Sgf_S_mux[51]) ); CLKAND2X2TS U1861 ( .A(n2881), .B(Sgf_normalized_result[52]), .Y( final_result_ieee_Module_Sgf_S_mux[50]) ); CLKAND2X2TS U1862 ( .A(n2881), .B(Sgf_normalized_result[51]), .Y( final_result_ieee_Module_Sgf_S_mux[49]) ); CLKAND2X2TS U1863 ( .A(n2881), .B(Sgf_normalized_result[50]), .Y( final_result_ieee_Module_Sgf_S_mux[48]) ); CLKAND2X2TS U1864 ( .A(n2880), .B(Sgf_normalized_result[49]), .Y( final_result_ieee_Module_Sgf_S_mux[47]) ); CLKAND2X2TS U1865 ( .A(n2881), .B(Sgf_normalized_result[48]), .Y( final_result_ieee_Module_Sgf_S_mux[46]) ); CLKAND2X2TS U1866 ( .A(n2880), .B(Sgf_normalized_result[47]), .Y( final_result_ieee_Module_Sgf_S_mux[45]) ); CLKAND2X2TS U1867 ( .A(n1236), .B(Sgf_normalized_result[46]), .Y( final_result_ieee_Module_Sgf_S_mux[44]) ); CLKAND2X2TS U1868 ( .A(n1236), .B(Sgf_normalized_result[45]), .Y( final_result_ieee_Module_Sgf_S_mux[43]) ); CLKAND2X2TS U1869 ( .A(n1236), .B(Sgf_normalized_result[44]), .Y( final_result_ieee_Module_Sgf_S_mux[42]) ); CLKAND2X2TS U1870 ( .A(n1236), .B(Sgf_normalized_result[43]), .Y( final_result_ieee_Module_Sgf_S_mux[41]) ); CLKAND2X2TS U1871 ( .A(n2880), .B(Sgf_normalized_result[42]), .Y( final_result_ieee_Module_Sgf_S_mux[40]) ); CLKAND2X2TS U1872 ( .A(n2881), .B(Sgf_normalized_result[41]), .Y( final_result_ieee_Module_Sgf_S_mux[39]) ); CLKAND2X2TS U1873 ( .A(n2879), .B(Sgf_normalized_result[40]), .Y( final_result_ieee_Module_Sgf_S_mux[38]) ); CLKAND2X2TS U1874 ( .A(n2626), .B(Sgf_normalized_result[39]), .Y( final_result_ieee_Module_Sgf_S_mux[37]) ); CLKAND2X2TS U1875 ( .A(n2626), .B(Sgf_normalized_result[38]), .Y( final_result_ieee_Module_Sgf_S_mux[36]) ); CLKAND2X2TS U1876 ( .A(n2626), .B(Sgf_normalized_result[37]), .Y( final_result_ieee_Module_Sgf_S_mux[35]) ); CLKAND2X2TS U1877 ( .A(n2626), .B(Sgf_normalized_result[36]), .Y( final_result_ieee_Module_Sgf_S_mux[34]) ); CLKAND2X2TS U1878 ( .A(n2626), .B(Sgf_normalized_result[35]), .Y( final_result_ieee_Module_Sgf_S_mux[33]) ); CLKAND2X2TS U1879 ( .A(n2626), .B(Sgf_normalized_result[34]), .Y( final_result_ieee_Module_Sgf_S_mux[32]) ); CLKAND2X2TS U1880 ( .A(n2626), .B(Sgf_normalized_result[33]), .Y( final_result_ieee_Module_Sgf_S_mux[31]) ); CLKAND2X2TS U1881 ( .A(n2626), .B(Sgf_normalized_result[31]), .Y( final_result_ieee_Module_Sgf_S_mux[29]) ); CLKAND2X2TS U1882 ( .A(n2625), .B(Sgf_normalized_result[30]), .Y( final_result_ieee_Module_Sgf_S_mux[28]) ); CLKAND2X2TS U1883 ( .A(n2625), .B(Sgf_normalized_result[29]), .Y( final_result_ieee_Module_Sgf_S_mux[27]) ); CLKAND2X2TS U1884 ( .A(n2625), .B(Sgf_normalized_result[28]), .Y( final_result_ieee_Module_Sgf_S_mux[26]) ); CLKAND2X2TS U1885 ( .A(n2625), .B(Sgf_normalized_result[27]), .Y( final_result_ieee_Module_Sgf_S_mux[25]) ); CLKAND2X2TS U1886 ( .A(n2625), .B(Sgf_normalized_result[26]), .Y( final_result_ieee_Module_Sgf_S_mux[24]) ); CLKAND2X2TS U1887 ( .A(n2625), .B(Sgf_normalized_result[25]), .Y( final_result_ieee_Module_Sgf_S_mux[23]) ); CLKAND2X2TS U1888 ( .A(n2625), .B(Sgf_normalized_result[24]), .Y( final_result_ieee_Module_Sgf_S_mux[22]) ); CLKAND2X2TS U1889 ( .A(n2625), .B(Sgf_normalized_result[23]), .Y( final_result_ieee_Module_Sgf_S_mux[21]) ); CLKAND2X2TS U1890 ( .A(n2624), .B(Sgf_normalized_result[21]), .Y( final_result_ieee_Module_Sgf_S_mux[19]) ); CLKAND2X2TS U1891 ( .A(n2624), .B(Sgf_normalized_result[20]), .Y( final_result_ieee_Module_Sgf_S_mux[18]) ); CLKAND2X2TS U1892 ( .A(n2624), .B(Sgf_normalized_result[19]), .Y( final_result_ieee_Module_Sgf_S_mux[17]) ); CLKAND2X2TS U1893 ( .A(n2624), .B(Sgf_normalized_result[18]), .Y( final_result_ieee_Module_Sgf_S_mux[16]) ); CLKAND2X2TS U1894 ( .A(n2624), .B(Sgf_normalized_result[17]), .Y( final_result_ieee_Module_Sgf_S_mux[15]) ); CLKAND2X2TS U1895 ( .A(n2624), .B(Sgf_normalized_result[16]), .Y( final_result_ieee_Module_Sgf_S_mux[14]) ); CLKAND2X2TS U1896 ( .A(n2624), .B(Sgf_normalized_result[15]), .Y( final_result_ieee_Module_Sgf_S_mux[13]) ); CLKAND2X2TS U1897 ( .A(n2624), .B(Sgf_normalized_result[14]), .Y( final_result_ieee_Module_Sgf_S_mux[12]) ); CLKAND2X2TS U1898 ( .A(n2624), .B(Sgf_normalized_result[13]), .Y( final_result_ieee_Module_Sgf_S_mux[11]) ); CLKAND2X2TS U1899 ( .A(n2624), .B(Sgf_normalized_result[12]), .Y( final_result_ieee_Module_Sgf_S_mux[10]) ); CLKAND2X2TS U1900 ( .A(n2879), .B(Sgf_normalized_result[11]), .Y( final_result_ieee_Module_Sgf_S_mux[9]) ); CLKAND2X2TS U1901 ( .A(n2879), .B(Sgf_normalized_result[10]), .Y( final_result_ieee_Module_Sgf_S_mux[8]) ); CLKAND2X2TS U1902 ( .A(n2879), .B(Sgf_normalized_result[9]), .Y( final_result_ieee_Module_Sgf_S_mux[7]) ); CLKAND2X2TS U1903 ( .A(n2879), .B(Sgf_normalized_result[8]), .Y( final_result_ieee_Module_Sgf_S_mux[6]) ); CLKAND2X2TS U1904 ( .A(n2879), .B(Sgf_normalized_result[7]), .Y( final_result_ieee_Module_Sgf_S_mux[5]) ); CLKAND2X2TS U1905 ( .A(n2879), .B(Sgf_normalized_result[6]), .Y( final_result_ieee_Module_Sgf_S_mux[4]) ); CLKAND2X2TS U1906 ( .A(n2879), .B(Sgf_normalized_result[5]), .Y( final_result_ieee_Module_Sgf_S_mux[3]) ); CLKAND2X2TS U1907 ( .A(n2879), .B(Sgf_normalized_result[4]), .Y( final_result_ieee_Module_Sgf_S_mux[2]) ); CLKAND2X2TS U1908 ( .A(n2879), .B(Sgf_normalized_result[3]), .Y( final_result_ieee_Module_Sgf_S_mux[1]) ); CLKAND2X2TS U1909 ( .A(n2625), .B(Sgf_normalized_result[2]), .Y( final_result_ieee_Module_Sgf_S_mux[0]) ); NAND2BXLTS U1910 ( .AN(exp_oper_result[10]), .B(n2626), .Y( final_result_ieee_Module_Exp_S_mux[10]) ); NAND2BXLTS U1911 ( .AN(exp_oper_result[9]), .B(n2628), .Y( final_result_ieee_Module_Exp_S_mux[9]) ); NAND2BXLTS U1912 ( .AN(exp_oper_result[8]), .B(n2628), .Y( final_result_ieee_Module_Exp_S_mux[8]) ); NAND2BXLTS U1913 ( .AN(exp_oper_result[7]), .B(n2628), .Y( final_result_ieee_Module_Exp_S_mux[7]) ); NAND2BXLTS U1914 ( .AN(exp_oper_result[6]), .B(n2628), .Y( final_result_ieee_Module_Exp_S_mux[6]) ); NAND2BXLTS U1915 ( .AN(exp_oper_result[2]), .B(n2628), .Y( final_result_ieee_Module_Exp_S_mux[2]) ); NAND2BXLTS U1916 ( .AN(exp_oper_result[1]), .B(n2628), .Y( final_result_ieee_Module_Exp_S_mux[1]) ); NAND2BXLTS U1917 ( .AN(exp_oper_result[0]), .B(n2628), .Y( final_result_ieee_Module_Exp_S_mux[0]) ); XOR2XLTS U1918 ( .A(n1405), .B(n1404), .Y(Add_Subt_Sgf_module_S_to_D[12]) ); XOR2XLTS U1919 ( .A(n1416), .B(n1415), .Y(Add_Subt_Sgf_module_S_to_D[10]) ); INVX2TS U1920 ( .A(n1412), .Y(n1414) ); XOR2XLTS U1921 ( .A(n1426), .B(n1419), .Y(Add_Subt_Sgf_module_S_to_D[11]) ); NAND4XLTS U1922 ( .A(n2878), .B(n2877), .C(n2876), .D(n2875), .Y( Barrel_Shifter_module_Mux_Array_Data_array[0]) ); NAND4XLTS U1923 ( .A(n2830), .B(n2829), .C(n2828), .D(n2827), .Y( Barrel_Shifter_module_Mux_Array_Data_array[4]) ); NAND4XLTS U1924 ( .A(n2858), .B(n2857), .C(n2856), .D(n2855), .Y( Barrel_Shifter_module_Mux_Array_Data_array[1]) ); NAND4XLTS U1925 ( .A(n2824), .B(n2823), .C(n2822), .D(n2821), .Y( Barrel_Shifter_module_Mux_Array_Data_array[5]) ); NAND4XLTS U1926 ( .A(n2849), .B(n2848), .C(n2847), .D(n2846), .Y( Barrel_Shifter_module_Mux_Array_Data_array[2]) ); NAND4XLTS U1927 ( .A(n2817), .B(n2816), .C(n2815), .D(n2814), .Y( Barrel_Shifter_module_Mux_Array_Data_array[6]) ); NAND4XLTS U1928 ( .A(n2838), .B(n2837), .C(n2836), .D(n2835), .Y( Barrel_Shifter_module_Mux_Array_Data_array[3]) ); NAND4XLTS U1929 ( .A(n1158), .B(n2613), .C(n1157), .D(n1156), .Y( Leading_Zero_Detector_Module_Codec_to_Reg[0]) ); NAND3BXLTS U1930 ( .AN(Add_Subt_result[6]), .B(n2604), .C(Add_Subt_result[5]), .Y(n1156) ); NOR2XLTS U1931 ( .A(n1135), .B(n1138), .Y(n964) ); NAND4BXLTS U1932 ( .AN(n1152), .B(n1093), .C(n1092), .D(n1091), .Y(n1108) ); AOI31XLTS U1933 ( .A0(n1090), .A1(n1089), .A2(Add_Subt_result[26]), .B0( n1088), .Y(n1092) ); OAI21XLTS U1934 ( .A0(n2434), .A1(n2440), .B0(n2441), .Y(n2439) ); XOR2XLTS U1935 ( .A(n2391), .B(n2390), .Y(Add_Subt_Sgf_module_S_to_D[31]) ); XOR2XLTS U1936 ( .A(n2373), .B(n2372), .Y(Add_Subt_Sgf_module_S_to_D[39]) ); XOR2XLTS U1937 ( .A(n2369), .B(n2368), .Y(Add_Subt_Sgf_module_S_to_D[40]) ); XOR2XLTS U1938 ( .A(n2341), .B(n2340), .Y(Add_Subt_Sgf_module_S_to_D[47]) ); XOR2XLTS U1939 ( .A(n2332), .B(n2331), .Y(Add_Subt_Sgf_module_S_to_D[49]) ); XOR2XLTS U1940 ( .A(n2314), .B(n2313), .Y(Add_Subt_Sgf_module_S_to_D[53]) ); MX2X1TS U1941 ( .A(intDY[0]), .B(intDX[0]), .S0(n2599), .Y( Oper_Start_in_module_intM[0]) ); MX2X1TS U1942 ( .A(intDY[1]), .B(intDX[1]), .S0(n2599), .Y( Oper_Start_in_module_intM[1]) ); MX2X1TS U1943 ( .A(intDY[2]), .B(intDX[2]), .S0(n2599), .Y( Oper_Start_in_module_intM[2]) ); MX2X1TS U1944 ( .A(intDY[3]), .B(intDX[3]), .S0(n2599), .Y( Oper_Start_in_module_intM[3]) ); MX2X1TS U1945 ( .A(intDY[4]), .B(intDX[4]), .S0(n2590), .Y( Oper_Start_in_module_intM[4]) ); MX2X1TS U1946 ( .A(intDY[5]), .B(intDX[5]), .S0(n2599), .Y( Oper_Start_in_module_intM[5]) ); MX2X1TS U1947 ( .A(intDY[6]), .B(intDX[6]), .S0(n2599), .Y( Oper_Start_in_module_intM[6]) ); MX2X1TS U1948 ( .A(intDY[7]), .B(intDX[7]), .S0(n2599), .Y( Oper_Start_in_module_intM[7]) ); MX2X1TS U1949 ( .A(intDY[8]), .B(intDX[8]), .S0(n2599), .Y( Oper_Start_in_module_intM[8]) ); MX2X1TS U1950 ( .A(intDY[9]), .B(intDX[9]), .S0(n2590), .Y( Oper_Start_in_module_intM[9]) ); MX2X1TS U1951 ( .A(intDY[10]), .B(intDX[10]), .S0(n2590), .Y( Oper_Start_in_module_intM[10]) ); MX2X1TS U1952 ( .A(intDY[11]), .B(intDX[11]), .S0(n2590), .Y( Oper_Start_in_module_intM[11]) ); MX2X1TS U1953 ( .A(intDY[12]), .B(intDX[12]), .S0(n2590), .Y( Oper_Start_in_module_intM[12]) ); MX2X1TS U1954 ( .A(intDY[13]), .B(intDX[13]), .S0(n2590), .Y( Oper_Start_in_module_intM[13]) ); MX2X1TS U1955 ( .A(intDY[14]), .B(intDX[14]), .S0(n2590), .Y( Oper_Start_in_module_intM[14]) ); MX2X1TS U1956 ( .A(intDY[15]), .B(intDX[15]), .S0(n2590), .Y( Oper_Start_in_module_intM[15]) ); MX2X1TS U1957 ( .A(intDY[16]), .B(intDX[16]), .S0(n2583), .Y( Oper_Start_in_module_intM[16]) ); MX2X1TS U1958 ( .A(intDY[17]), .B(intDX[17]), .S0(n2583), .Y( Oper_Start_in_module_intM[17]) ); MX2X1TS U1959 ( .A(intDY[18]), .B(intDX[18]), .S0(n2583), .Y( Oper_Start_in_module_intM[18]) ); MX2X1TS U1960 ( .A(intDY[19]), .B(intDX[19]), .S0(n2583), .Y( Oper_Start_in_module_intM[19]) ); MX2X1TS U1961 ( .A(intDY[20]), .B(intDX[20]), .S0(n2583), .Y( Oper_Start_in_module_intM[20]) ); MX2X1TS U1962 ( .A(intDY[21]), .B(intDX[21]), .S0(n2583), .Y( Oper_Start_in_module_intM[21]) ); MX2X1TS U1963 ( .A(intDY[22]), .B(intDX[22]), .S0(n2590), .Y( Oper_Start_in_module_intM[22]) ); MX2X1TS U1964 ( .A(intDY[23]), .B(intDX[23]), .S0(n2583), .Y( Oper_Start_in_module_intM[23]) ); MX2X1TS U1965 ( .A(intDY[24]), .B(intDX[24]), .S0(n2583), .Y( Oper_Start_in_module_intM[24]) ); MX2X1TS U1966 ( .A(intDY[25]), .B(intDX[25]), .S0(n2599), .Y( Oper_Start_in_module_intM[25]) ); MX2X1TS U1967 ( .A(intDY[26]), .B(intDX[26]), .S0(n2590), .Y( Oper_Start_in_module_intM[26]) ); MX2X1TS U1968 ( .A(intDY[27]), .B(intDX[27]), .S0(n2599), .Y( Oper_Start_in_module_intM[27]) ); MX2X1TS U1969 ( .A(intDY[28]), .B(intDX[28]), .S0(n2569), .Y( Oper_Start_in_module_intM[28]) ); MX2X1TS U1970 ( .A(intDY[29]), .B(intDX[29]), .S0(n2632), .Y( Oper_Start_in_module_intM[29]) ); MX2X1TS U1971 ( .A(intDY[30]), .B(intDX[30]), .S0(n2583), .Y( Oper_Start_in_module_intM[30]) ); MX2X1TS U1972 ( .A(intDY[31]), .B(intDX[31]), .S0(n2634), .Y( Oper_Start_in_module_intM[31]) ); MX2X1TS U1973 ( .A(intDY[32]), .B(intDX[32]), .S0(n2583), .Y( Oper_Start_in_module_intM[32]) ); MX2X1TS U1974 ( .A(intDY[33]), .B(intDX[33]), .S0(n2569), .Y( Oper_Start_in_module_intM[33]) ); MX2X1TS U1975 ( .A(intDY[34]), .B(intDX[34]), .S0(n2569), .Y( Oper_Start_in_module_intM[34]) ); MX2X1TS U1976 ( .A(intDY[35]), .B(intDX[35]), .S0(n2569), .Y( Oper_Start_in_module_intM[35]) ); MX2X1TS U1977 ( .A(intDY[36]), .B(intDX[36]), .S0(n2569), .Y( Oper_Start_in_module_intM[36]) ); MX2X1TS U1978 ( .A(intDY[37]), .B(intDX[37]), .S0(n2569), .Y( Oper_Start_in_module_intM[37]) ); MX2X1TS U1979 ( .A(intDY[38]), .B(intDX[38]), .S0(n2569), .Y( Oper_Start_in_module_intM[38]) ); MX2X1TS U1980 ( .A(intDY[39]), .B(intDX[39]), .S0(n2569), .Y( Oper_Start_in_module_intM[39]) ); MX2X1TS U1981 ( .A(DMP[56]), .B(exp_oper_result[4]), .S0(n1964), .Y(n1006) ); OAI2BB1X1TS U1982 ( .A0N(n2129), .A1N(DmP[56]), .B0(n2132), .Y(n977) ); MX2X1TS U1983 ( .A(DMP[59]), .B(exp_oper_result[7]), .S0(n1964), .Y(n1003) ); CLKAND2X2TS U1984 ( .A(n1178), .B(DmP[59]), .Y(n990) ); MX2X1TS U1985 ( .A(DMP[62]), .B(exp_oper_result[10]), .S0(n1973), .Y(n1014) ); CLKAND2X2TS U1986 ( .A(n1178), .B(DmP[62]), .Y(n998) ); ADDFHX2TS U1987 ( .A(n980), .B(n979), .CI(n978), .CO(n1005), .S( Exp_Operation_Module_Data_S[3]) ); INVX2TS U1988 ( .A(n901), .Y(n1729) ); INVX2TS U1989 ( .A(n2146), .Y(n903) ); INVX2TS U1990 ( .A(n1745), .Y(n2146) ); NAND2X2TS U1991 ( .A(n2129), .B(n2924), .Y(n1034) ); BUFX3TS U1992 ( .A(n1025), .Y(n2126) ); INVX2TS U1993 ( .A(n2079), .Y(n2149) ); INVX2TS U1994 ( .A(LZA_output[3]), .Y(n891) ); NOR2X4TS U1995 ( .A(LZA_output[4]), .B(n892), .Y(n1027) ); CLKBUFX2TS U1996 ( .A(FS_Module_state_reg[0]), .Y(n2620) ); CLKBUFX2TS U1997 ( .A(exp_oper_result[3]), .Y(n1730) ); BUFX3TS U1998 ( .A(n2114), .Y(n2573) ); AND2X2TS U1999 ( .A(n2120), .B(n2922), .Y(n886) ); INVX2TS U2000 ( .A(n2141), .Y(n2058) ); OAI21X1TS U2001 ( .A0(n2353), .A1(n2352), .B0(n2351), .Y(n2357) ); INVX2TS U2002 ( .A(n2573), .Y(n1909) ); INVX2TS U2003 ( .A(n1027), .Y(n889) ); INVX2TS U2004 ( .A(n889), .Y(n890) ); INVX2TS U2005 ( .A(n891), .Y(n892) ); INVX2TS U2006 ( .A(n1034), .Y(n893) ); INVX2TS U2007 ( .A(n893), .Y(n894) ); INVX2TS U2008 ( .A(n2573), .Y(n895) ); INVX2TS U2009 ( .A(n2573), .Y(n896) ); INVX2TS U2010 ( .A(n1334), .Y(n897) ); NOR2X4TS U2011 ( .A(n2917), .B(FSM_selector_B[1]), .Y(n2120) ); INVX2TS U2012 ( .A(n886), .Y(n898) ); INVX2TS U2013 ( .A(n1730), .Y(n900) ); INVX2TS U2014 ( .A(n900), .Y(n901) ); INVX2TS U2015 ( .A(n903), .Y(n904) ); INVX2TS U2016 ( .A(n2126), .Y(n908) ); INVX2TS U2017 ( .A(n884), .Y(n909) ); INVX2TS U2018 ( .A(n884), .Y(n910) ); INVX2TS U2019 ( .A(n884), .Y(n911) ); INVX2TS U2020 ( .A(n885), .Y(n912) ); INVX2TS U2021 ( .A(n885), .Y(n913) ); INVX2TS U2022 ( .A(n885), .Y(n914) ); OAI221X1TS U2023 ( .A0(n2939), .A1(intDY[21]), .B0(n2942), .B1(intDY[20]), .C0(n1595), .Y(n1598) ); OAI221X1TS U2024 ( .A0(n2899), .A1(intDY[30]), .B0(n2941), .B1(intDY[29]), .C0(n1587), .Y(n1590) ); NAND4X1TS U2025 ( .A(n1173), .B(n2612), .C(n967), .D(n966), .Y( Leading_Zero_Detector_Module_Codec_to_Reg[1]) ); INVX2TS U2026 ( .A(n1969), .Y(n1980) ); NOR2X4TS U2027 ( .A(n1309), .B(n1308), .Y(n2060) ); OAI21X2TS U2028 ( .A0(n1077), .A1( Barrel_Shifter_module_Mux_Array_Data_array[109]), .B0(n1076), .Y(n2602) ); AOI22X2TS U2029 ( .A0(n1897), .A1(n1896), .B0(n2709), .B1(n1895), .Y(n2719) ); OAI2BB1X2TS U2030 ( .A0N(Add_Subt_result[28]), .A1N(n1907), .B0(n1322), .Y( n2709) ); OA22X1TS U2031 ( .A0(n2592), .A1(n2573), .B0(n2591), .B1(n2118), .Y(n1063) ); OAI21X2TS U2032 ( .A0(n1077), .A1( Barrel_Shifter_module_Mux_Array_Data_array[103]), .B0(n1076), .Y(n2591) ); OAI21X2TS U2033 ( .A0(n1077), .A1( Barrel_Shifter_module_Mux_Array_Data_array[106]), .B0(n1076), .Y(n2597) ); OAI21X2TS U2034 ( .A0(n1077), .A1( Barrel_Shifter_module_Mux_Array_Data_array[108]), .B0(n1076), .Y(n2615) ); OAI21X2TS U2035 ( .A0(n1077), .A1( Barrel_Shifter_module_Mux_Array_Data_array[107]), .B0(n1076), .Y(n2600) ); OA22X1TS U2036 ( .A0(n2596), .A1(n2152), .B0(n2595), .B1(n2118), .Y(n1043) ); OAI21X2TS U2037 ( .A0(n1077), .A1( Barrel_Shifter_module_Mux_Array_Data_array[105]), .B0(n1076), .Y(n2595) ); OA22X1TS U2038 ( .A0(n2594), .A1(n2114), .B0(n2593), .B1(n2118), .Y(n1053) ); OAI21X2TS U2039 ( .A0(n1077), .A1( Barrel_Shifter_module_Mux_Array_Data_array[104]), .B0(n1076), .Y(n2593) ); OAI21X4TS U2040 ( .A0(n2787), .A1(n1226), .B0(n1225), .Y(n2710) ); INVX2TS U2041 ( .A(n1348), .Y(n915) ); INVX2TS U2042 ( .A(n1348), .Y(n916) ); OAI211XLTS U2043 ( .A0(n2676), .A1(n1926), .B0(n1925), .C0(n1924), .Y( Barrel_Shifter_module_Mux_Array_Data_array[26]) ); NOR2X4TS U2044 ( .A(n901), .B(exp_oper_result[4]), .Y(n2002) ); AOI222X1TS U2045 ( .A0(n921), .A1( Barrel_Shifter_module_Mux_Array_Data_array[86]), .B0(n2085), .B1(n2084), .C0(n2083), .C1(n2082), .Y(n2089) ); MXI2X4TS U2046 ( .A(Barrel_Shifter_module_Mux_Array_Data_array[86]), .B( Barrel_Shifter_module_Mux_Array_Data_array[94]), .S0(n1730), .Y(n2136) ); AOI222X1TS U2047 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[91]), .A1( n2123), .B0(Barrel_Shifter_module_Mux_Array_Data_array[83]), .B1(n1861), .C0(Barrel_Shifter_module_Mux_Array_Data_array[75]), .C1(n1860), .Y(n1707) ); AOI222X1TS U2048 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[92]), .A1( n2123), .B0(Barrel_Shifter_module_Mux_Array_Data_array[84]), .B1(n1861), .C0(Barrel_Shifter_module_Mux_Array_Data_array[76]), .C1(n1860), .Y(n1289) ); NOR2X1TS U2049 ( .A(Add_Subt_result[5]), .B(Add_Subt_result[6]), .Y(n1103) ); NOR2X1TS U2050 ( .A(Add_Subt_result[20]), .B(Add_Subt_result[19]), .Y(n950) ); NOR2X1TS U2051 ( .A(Add_Subt_result[9]), .B(Add_Subt_result[8]), .Y(n954) ); AOI222X1TS U2052 ( .A0(n2051), .A1(n2082), .B0(n2050), .B1(n2084), .C0(n921), .C1(Barrel_Shifter_module_Mux_Array_Data_array[87]), .Y(n2053) ); XOR2X1TS U2053 ( .A(n970), .B(n975), .Y(n1011) ); XOR2X1TS U2054 ( .A(n970), .B(n977), .Y(n1007) ); INVX2TS U2055 ( .A(n2137), .Y(n918) ); INVX2TS U2056 ( .A(n2137), .Y(n2049) ); OAI221X1TS U2057 ( .A0(intDX[0]), .A1(n2907), .B0(n2958), .B1(intDY[0]), .C0(n1571), .Y(n1584) ); OAI221X1TS U2058 ( .A0(n2965), .A1(intDY[26]), .B0(n2969), .B1(intDY[25]), .C0(n1585), .Y(n1592) ); OAI221X1TS U2059 ( .A0(n2964), .A1(intDY[17]), .B0(n2937), .B1(intDY[16]), .C0(n1593), .Y(n1600) ); AOI211X1TS U2060 ( .A0(n2176), .A1(n2175), .B0(n2174), .C0(n2173), .Y(n2232) ); CLKINVX3TS U2061 ( .A(rst), .Y(n1231) ); NAND2X1TS U2062 ( .A(n2120), .B(LZA_output[5]), .Y(n919) ); NOR2X4TS U2063 ( .A(n1712), .B(n1711), .Y(n2036) ); NOR2X4TS U2064 ( .A(n1288), .B(n1287), .Y(n2027) ); AOI222X4TS U2065 ( .A0(n1902), .A1(n1890), .B0(n1328), .B1(n1889), .C0(n1923), .C1(n2653), .Y(n1921) ); AOI222X4TS U2066 ( .A0(n1916), .A1(n2666), .B0(n2710), .B1(n2667), .C0(n1328), .C1(n2653), .Y(n1905) ); AOI22X2TS U2067 ( .A0(n1897), .A1(n2717), .B0(n1896), .B1(n1895), .Y(n2724) ); NOR2X2TS U2068 ( .A(Add_Subt_result[34]), .B(Add_Subt_result[33]), .Y(n1112) ); NOR2X4TS U2069 ( .A(n1718), .B(n1717), .Y(n2017) ); NOR2X4TS U2070 ( .A(n1296), .B(n1295), .Y(n2005) ); NOR2XLTS U2071 ( .A(Add_Subt_result[27]), .B(Add_Subt_result[25]), .Y(n932) ); OAI21XLTS U2072 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[102]), .A1( n1987), .B0(n1986), .Y(n1990) ); INVX2TS U2073 ( .A(n2133), .Y(n920) ); BUFX3TS U2074 ( .A(n1297), .Y(n2088) ); OR2X1TS U2075 ( .A(n1848), .B(n1847), .Y(n3114) ); OAI211X1TS U2076 ( .A0(Sgf_normalized_result[0]), .A1( Sgf_normalized_result[1]), .B0(n1567), .C0(n1566), .Y(n2560) ); OR2X1TS U2077 ( .A(Sgf_normalized_result[2]), .B(n1973), .Y(n1356) ); NOR4X2TS U2078 ( .A(FS_Module_state_reg[1]), .B(n2983), .C(n922), .D(n2906), .Y(FSM_Final_Result_load) ); INVX2TS U2079 ( .A(n2026), .Y(n921) ); OAI22X2TS U2080 ( .A0(n1334), .A1(n2078), .B0(n973), .B1(n1037), .Y(n2086) ); AOI22X2TS U2081 ( .A0(n2077), .A1(n2049), .B0(n2133), .B1(n2084), .Y(n2065) ); NOR2X4TS U2082 ( .A(n899), .B(n2919), .Y(n2077) ); NAND2X4TS U2083 ( .A(n1294), .B(n2620), .Y(n2141) ); OAI221X1TS U2084 ( .A0(n2892), .A1(intDY[5]), .B0(n2938), .B1(intDY[4]), .C0(n1572), .Y(n1583) ); AOI222X1TS U2085 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[93]), .A1( n2123), .B0(Barrel_Shifter_module_Mux_Array_Data_array[77]), .B1(n1860), .C0(Barrel_Shifter_module_Mux_Array_Data_array[85]), .C1(n1861), .Y(n1310) ); NOR2X1TS U2086 ( .A(Add_Subt_result[17]), .B(Add_Subt_result[18]), .Y(n965) ); AND3X1TS U2087 ( .A(n1106), .B(n954), .C(Add_Subt_result[7]), .Y(n1154) ); OAI21XLTS U2088 ( .A0(Add_Subt_result[1]), .A1(Add_Subt_result[2]), .B0( n1169), .Y(n1170) ); AOI211X1TS U2089 ( .A0(n2092), .A1( Barrel_Shifter_module_Mux_Array_Data_array[78]), .B0(n2091), .C0(n2090), .Y(n2093) ); BUFX3TS U2090 ( .A(n2634), .Y(n2569) ); INVX2TS U2091 ( .A(n1969), .Y(n1973) ); BUFX3TS U2092 ( .A(n2706), .Y(n1558) ); NOR2XLTS U2093 ( .A(n2923), .B(intDY[11]), .Y(n2193) ); OAI21XLTS U2094 ( .A0(intDY[35]), .A1(n2963), .B0(intDY[34]), .Y(n2265) ); NOR2XLTS U2095 ( .A(n2282), .B(intDX[48]), .Y(n2283) ); NOR2XLTS U2096 ( .A(n2213), .B(intDX[16]), .Y(n2214) ); NOR2XLTS U2097 ( .A(Add_Subt_result[30]), .B(Add_Subt_result[24]), .Y(n931) ); NAND2X1TS U2098 ( .A(n2132), .B(n2006), .Y(n1303) ); NAND2X1TS U2099 ( .A(n2349), .B(n2355), .Y(n1941) ); OAI211XLTS U2100 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[102]), .A1(n889), .B0(n897), .C0(n1988), .Y(n1989) ); NAND2X2TS U2101 ( .A(n2120), .B(LZA_output[4]), .Y(n2132) ); INVX2TS U2102 ( .A(n1423), .Y(n1403) ); NAND2X1TS U2103 ( .A(n1387), .B(n1386), .Y(n2509) ); OAI21X1TS U2104 ( .A0(n2391), .A1(n1772), .B0(n1780), .Y(n1561) ); NAND2X1TS U2105 ( .A(FS_Module_state_reg[2]), .B(n2555), .Y(n2158) ); AND3X1TS U2106 ( .A(n2672), .B(n2671), .C(n2670), .Y(n2694) ); AND3X1TS U2107 ( .A(n1257), .B(n1256), .C(n1255), .Y(n2651) ); AND3X1TS U2108 ( .A(n2644), .B(n2643), .C(n2642), .Y(n2675) ); AND3X1TS U2109 ( .A(n1660), .B(n1659), .C(n1658), .Y(n2665) ); OA22X1TS U2110 ( .A0(n2603), .A1(n2114), .B0(n2602), .B1(n2118), .Y(n1078) ); OA22X1TS U2111 ( .A0(n2617), .A1(n2152), .B0(n2615), .B1(n2118), .Y(n1058) ); OA22X1TS U2112 ( .A0(n2601), .A1(n2152), .B0(n2600), .B1(n2118), .Y(n1069) ); OA22X1TS U2113 ( .A0(n2598), .A1(n2114), .B0(n2597), .B1(n2118), .Y(n1048) ); AND3X1TS U2114 ( .A(n1189), .B(n1188), .C(n1187), .Y(n1248) ); INVX2TS U2115 ( .A(n1450), .Y(n2512) ); INVX2TS U2116 ( .A(n2434), .Y(n2444) ); INVX2TS U2117 ( .A(n2364), .Y(n2373) ); NOR3X1TS U2118 ( .A(Add_Subt_result[50]), .B(Add_Subt_result[48]), .C( Add_Subt_result[49]), .Y(n1111) ); OR2X2TS U2119 ( .A(Add_Subt_result[51]), .B(Add_Subt_result[54]), .Y(n926) ); NOR2X2TS U2120 ( .A(n927), .B(n926), .Y(n1109) ); NAND2X2TS U2121 ( .A(n1111), .B(n1109), .Y(n1121) ); NOR3X2TS U2122 ( .A(Add_Subt_result[46]), .B(Add_Subt_result[44]), .C( Add_Subt_result[45]), .Y(n1087) ); NOR3X1TS U2123 ( .A(Add_Subt_result[47]), .B(Add_Subt_result[43]), .C( Add_Subt_result[42]), .Y(n928) ); NOR2X4TS U2124 ( .A(n1121), .B(n929), .Y(n1137) ); NAND2X4TS U2125 ( .A(n1137), .B(n2918), .Y(n1135) ); NOR2X2TS U2126 ( .A(Add_Subt_result[39]), .B(Add_Subt_result[40]), .Y(n1138) ); NOR2X2TS U2127 ( .A(Add_Subt_result[38]), .B(Add_Subt_result[37]), .Y(n1163) ); NOR2X1TS U2128 ( .A(Add_Subt_result[36]), .B(Add_Subt_result[35]), .Y(n946) ); NOR2X4TS U2129 ( .A(n1135), .B(n930), .Y(n1134) ); NOR2X2TS U2130 ( .A(Add_Subt_result[32]), .B(Add_Subt_result[31]), .Y(n1083) ); NOR2X1TS U2131 ( .A(Add_Subt_result[29]), .B(Add_Subt_result[28]), .Y(n1090) ); NOR2X1TS U2132 ( .A(Add_Subt_result[22]), .B(Add_Subt_result[21]), .Y(n935) ); INVX2TS U2133 ( .A(n950), .Y(n936) ); NOR2X1TS U2134 ( .A(n2607), .B(Add_Subt_result[15]), .Y(n937) ); NOR2X1TS U2135 ( .A(Add_Subt_result[14]), .B(Add_Subt_result[13]), .Y(n1120) ); INVX2TS U2136 ( .A(n1120), .Y(n938) ); NOR2X4TS U2137 ( .A(n2610), .B(n938), .Y(n1127) ); NAND2X4TS U2138 ( .A(n1127), .B(n2931), .Y(n1125) ); NOR3BX4TS U2139 ( .AN(n954), .B(n953), .C(Add_Subt_result[7]), .Y(n2604) ); NAND2X2TS U2140 ( .A(n2604), .B(n1103), .Y(n952) ); NOR2X4TS U2141 ( .A(n952), .B(Add_Subt_result[4]), .Y(n1098) ); NAND2BX2TS U2142 ( .AN(Add_Subt_result[3]), .B(n1098), .Y(n1168) ); NOR2X2TS U2143 ( .A(n1168), .B(Add_Subt_result[2]), .Y(n1133) ); NAND2X2TS U2144 ( .A(n1133), .B(Add_Subt_result[0]), .Y(n2611) ); INVX2TS U2145 ( .A(n1134), .Y(n1113) ); INVX2TS U2146 ( .A(n1112), .Y(n939) ); INVX2TS U2147 ( .A(n1083), .Y(n940) ); NAND2X2TS U2148 ( .A(n947), .B(n941), .Y(n1160) ); NAND2X1TS U2149 ( .A(n3024), .B(Add_Subt_result[27]), .Y(n942) ); NOR2X1TS U2150 ( .A(n1160), .B(n942), .Y(n1122) ); INVX2TS U2151 ( .A(Add_Subt_result[29]), .Y(n1226) ); INVX2TS U2152 ( .A(n1163), .Y(n945) ); INVX2TS U2153 ( .A(n1135), .Y(n943) ); NAND2X1TS U2154 ( .A(n943), .B(n1138), .Y(n1162) ); NAND2X1TS U2155 ( .A(n1084), .B(Add_Subt_result[23]), .Y(n1080) ); OAI31X1TS U2156 ( .A0(n946), .A1(n945), .A2(n1162), .B0(n1080), .Y(n948) ); INVX2TS U2157 ( .A(n947), .Y(n1146) ); NOR2X1TS U2158 ( .A(n1146), .B(n1083), .Y(n1115) ); AOI211X1TS U2159 ( .A0(n1122), .A1(n1226), .B0(n948), .C0(n1115), .Y(n949) ); NOR2X2TS U2160 ( .A(n1160), .B(Add_Subt_result[27]), .Y(n1089) ); INVX2TS U2161 ( .A(n1081), .Y(n1161) ); OAI211X1TS U2162 ( .A0(n950), .A1(n1099), .B0(n949), .C0(n1091), .Y(n951) ); AOI2BB1X1TS U2163 ( .A0N(Add_Subt_result[3]), .A1N(Add_Subt_result[4]), .B0( n952), .Y(n958) ); INVX2TS U2164 ( .A(n953), .Y(n1106) ); NOR3BX1TS U2165 ( .AN(Add_Subt_result[8]), .B(Add_Subt_result[10]), .C( Add_Subt_result[9]), .Y(n955) ); OAI31X1TS U2166 ( .A0(Add_Subt_result[12]), .A1(Add_Subt_result[11]), .A2( n955), .B0(n1127), .Y(n956) ); OAI31X1TS U2167 ( .A0(n2607), .A1(n1150), .A2(n2999), .B0(n956), .Y(n957) ); NOR3X1TS U2168 ( .A(n958), .B(n1154), .C(n957), .Y(n2612) ); NOR2BX1TS U2169 ( .AN(Add_Subt_result[28]), .B(n1160), .Y(n1117) ); AOI31XLTS U2170 ( .A0(n2913), .A1(Add_Subt_result[44]), .A2(n3054), .B0( Add_Subt_result[47]), .Y(n962) ); NOR3BX1TS U2171 ( .AN(Add_Subt_result[48]), .B(Add_Subt_result[50]), .C( Add_Subt_result[49]), .Y(n960) ); OAI31X1TS U2172 ( .A0(n960), .A1(Add_Subt_result[52]), .A2( Add_Subt_result[51]), .B0(n959), .Y(n961) ); AOI211X1TS U2173 ( .A0(n1117), .A1(n1226), .B0(n964), .C0(n963), .Y(n967) ); AOI21X1TS U2174 ( .A0(n922), .A1(FSM_selector_C), .B0(FS_Module_state_reg[0]), .Y(n968) ); AOI211X2TS U2175 ( .A0(n2620), .A1(FS_Module_state_reg[2]), .B0(n968), .C0( n2915), .Y(n969) ); NOR2X2TS U2176 ( .A(FSM_selector_B[1]), .B(FSM_selector_B[0]), .Y(n988) ); INVX2TS U2177 ( .A(n988), .Y(n973) ); NAND2X1TS U2178 ( .A(n2120), .B(n892), .Y(n1029) ); OAI2BB1X1TS U2179 ( .A0N(n1178), .A1N(DmP[55]), .B0(n1029), .Y(n971) ); XOR2X1TS U2180 ( .A(n970), .B(n971), .Y(n980) ); INVX4TS U2181 ( .A(FSM_selector_D), .Y(n1969) ); INVX4TS U2182 ( .A(n1969), .Y(n1933) ); NAND2X1TS U2183 ( .A(n2120), .B(LZA_output[2]), .Y(n1175) ); OAI2BB1X1TS U2184 ( .A0N(n1178), .A1N(DmP[54]), .B0(n1175), .Y(n972) ); XOR2X1TS U2185 ( .A(n917), .B(n972), .Y(n1010) ); NAND2X1TS U2186 ( .A(n2120), .B(LZA_output[1]), .Y(n1180) ); OAI2BB1X1TS U2187 ( .A0N(n2129), .A1N(DmP[53]), .B0(n1180), .Y(n974) ); XOR2X1TS U2188 ( .A(n917), .B(n974), .Y(n987) ); AOI2BB2X1TS U2189 ( .B0(n2120), .B1(LZA_output[0]), .A0N(FSM_selector_B[0]), .A1N(n2914), .Y(n1177) ); OAI2BB1X1TS U2190 ( .A0N(DmP[52]), .A1N(n2917), .B0(n1177), .Y(n975) ); NAND2X1TS U2191 ( .A(n2120), .B(LZA_output[5]), .Y(n1688) ); OAI2BB1X1TS U2192 ( .A0N(n1178), .A1N(DmP[57]), .B0(n1688), .Y(n976) ); XOR2X1TS U2193 ( .A(n970), .B(n976), .Y(n984) ); XOR2X1TS U2194 ( .A(n970), .B(n981), .Y(n993) ); XOR2X1TS U2195 ( .A(n970), .B(n989), .Y(n997) ); XOR2X1TS U2196 ( .A(n970), .B(n990), .Y(n1004) ); XOR2X1TS U2197 ( .A(n970), .B(n994), .Y(n1001) ); XOR2X1TS U2198 ( .A(n917), .B(n998), .Y(n1015) ); OR4X2TS U2199 ( .A(Exp_Operation_Module_Data_S[3]), .B( Exp_Operation_Module_Data_S[2]), .C(Exp_Operation_Module_Data_S[1]), .D(Exp_Operation_Module_Data_S[0]), .Y(n1018) ); OR4X2TS U2200 ( .A(Exp_Operation_Module_Data_S[6]), .B( Exp_Operation_Module_Data_S[5]), .C(Exp_Operation_Module_Data_S[4]), .D(n1018), .Y(n1019) ); OR4X2TS U2201 ( .A(Exp_Operation_Module_Data_S[9]), .B( Exp_Operation_Module_Data_S[8]), .C(Exp_Operation_Module_Data_S[7]), .D(n1019), .Y(n1020) ); NOR2X2TS U2202 ( .A(FS_Module_state_reg[1]), .B(FS_Module_state_reg[3]), .Y( n2555) ); NOR2X1TS U2203 ( .A(n2906), .B(FS_Module_state_reg[2]), .Y(n1568) ); NAND2X1TS U2204 ( .A(n1568), .B(n1021), .Y(n1569) ); MXI2X4TS U2205 ( .A(n3056), .B(n1022), .S0(n883), .Y(n861) ); NOR2X1TS U2206 ( .A(FS_Module_state_reg[1]), .B(n2620), .Y(n1354) ); NAND2X1TS U2207 ( .A(n1023), .B(n1354), .Y(n2884) ); NAND2X2TS U2208 ( .A(n1024), .B(add_overflow_flag), .Y(n2568) ); INVX2TS U2209 ( .A(n2568), .Y(n1646) ); NAND2X1TS U2210 ( .A(n1178), .B(exp_oper_result[5]), .Y(n1694) ); INVX2TS U2211 ( .A(n2002), .Y(n1987) ); AOI22X4TS U2212 ( .A0(n2120), .A1(n889), .B0(n1987), .B1(n2129), .Y(n1846) ); NAND2X1TS U2213 ( .A(n1178), .B(exp_oper_result[4]), .Y(n2006) ); INVX2TS U2214 ( .A(n1303), .Y(n1030) ); NAND2X1TS U2215 ( .A(n1178), .B(n901), .Y(n1028) ); NAND2X1TS U2216 ( .A(n1029), .B(n1028), .Y(n1031) ); NOR2X4TS U2217 ( .A(n1030), .B(n1031), .Y(n1070) ); INVX2TS U2218 ( .A(n2120), .Y(n1334) ); NOR2X4TS U2219 ( .A(n900), .B(exp_oper_result[4]), .Y(n1860) ); INVX2TS U2220 ( .A(n1860), .Y(n1037) ); NOR2X4TS U2221 ( .A(n2568), .B(n1036), .Y(n1071) ); AOI21X1TS U2222 ( .A0(n921), .A1( Barrel_Shifter_module_Mux_Array_Data_array[99]), .B0(n1071), .Y(n1032) ); NAND2BX1TS U2223 ( .AN(n1033), .B(n1032), .Y(n2584) ); OAI21X4TS U2224 ( .A0(n894), .A1(n1987), .B0(n2914), .Y(n1758) ); AOI21X1TS U2225 ( .A0(n886), .A1(n890), .B0(n1758), .Y(n1745) ); INVX2TS U2226 ( .A(exp_oper_result[4]), .Y(n2627) ); NOR2X4TS U2227 ( .A(n2627), .B(n901), .Y(n1861) ); AOI22X1TS U2228 ( .A0(n893), .A1(n1861), .B0(n886), .B1(n1035), .Y(n2079) ); NOR2X4TS U2229 ( .A(n1025), .B(n1036), .Y(n2143) ); INVX2TS U2230 ( .A(n2143), .Y(n1066) ); OAI22X4TS U2231 ( .A0(n894), .A1(n1037), .B0(n898), .B1(n2078), .Y(n2072) ); OAI2BB2XLTS U2232 ( .B0(n1066), .B1(n2970), .A0N(n1350), .A1N( Barrel_Shifter_module_Mux_Array_Data_array[67]), .Y(n1038) ); AOI211X1TS U2233 ( .A0(n2126), .A1(n2584), .B0(n1039), .C0(n1038), .Y(n2596) ); NAND2X2TS U2234 ( .A(n1042), .B(n1041), .Y(n1076) ); NAND2X2TS U2235 ( .A(n908), .B(n2152), .Y(n2118) ); NAND2X1TS U2236 ( .A(n1026), .B(n1043), .Y( Barrel_Shifter_module_Data_Reg[50]) ); AOI21X1TS U2237 ( .A0(n921), .A1( Barrel_Shifter_module_Mux_Array_Data_array[98]), .B0(n1071), .Y(n1044) ); NAND2BX1TS U2238 ( .AN(n1045), .B(n1044), .Y(n2580) ); OAI2BB2XLTS U2239 ( .B0(n1066), .B1(n3053), .A0N(n1350), .A1N( Barrel_Shifter_module_Mux_Array_Data_array[66]), .Y(n1046) ); AOI211X1TS U2240 ( .A0(n1025), .A1(n2580), .B0(n1047), .C0(n1046), .Y(n2598) ); NAND2X1TS U2241 ( .A(n1026), .B(n1048), .Y( Barrel_Shifter_module_Data_Reg[51]) ); AOI21X1TS U2242 ( .A0(n921), .A1( Barrel_Shifter_module_Mux_Array_Data_array[100]), .B0(n1071), .Y(n1049) ); NAND2BX1TS U2243 ( .AN(n1050), .B(n1049), .Y(n2587) ); OAI2BB2XLTS U2244 ( .B0(n1066), .B1(n2971), .A0N(n1350), .A1N( Barrel_Shifter_module_Mux_Array_Data_array[68]), .Y(n1051) ); AOI211X1TS U2245 ( .A0(n2126), .A1(n2587), .B0(n1052), .C0(n1051), .Y(n2594) ); NAND2X1TS U2246 ( .A(n1026), .B(n1053), .Y( Barrel_Shifter_module_Data_Reg[49]) ); AOI21X1TS U2247 ( .A0(n2086), .A1( Barrel_Shifter_module_Mux_Array_Data_array[96]), .B0(n1071), .Y(n1054) ); NAND2BX1TS U2248 ( .AN(n1055), .B(n1054), .Y(n2574) ); OAI2BB2XLTS U2249 ( .B0(n1066), .B1(n2974), .A0N(n1350), .A1N( Barrel_Shifter_module_Mux_Array_Data_array[64]), .Y(n1056) ); AOI211X1TS U2250 ( .A0(n2126), .A1(n2574), .B0(n1057), .C0(n1056), .Y(n2617) ); NAND2X1TS U2251 ( .A(n1026), .B(n1058), .Y( Barrel_Shifter_module_Data_Reg[53]) ); AOI21X1TS U2252 ( .A0(n921), .A1( Barrel_Shifter_module_Mux_Array_Data_array[101]), .B0(n1071), .Y(n1059) ); NAND2BX1TS U2253 ( .AN(n1060), .B(n1059), .Y(n2115) ); OAI2BB2XLTS U2254 ( .B0(n1066), .B1(n2972), .A0N(n1350), .A1N( Barrel_Shifter_module_Mux_Array_Data_array[69]), .Y(n1061) ); AOI211X1TS U2255 ( .A0(n2126), .A1(n2115), .B0(n1062), .C0(n1061), .Y(n2592) ); NAND2X1TS U2256 ( .A(n1026), .B(n1063), .Y( Barrel_Shifter_module_Data_Reg[48]) ); AOI21X1TS U2257 ( .A0(n2086), .A1( Barrel_Shifter_module_Mux_Array_Data_array[97]), .B0(n1071), .Y(n1064) ); NAND2BX1TS U2258 ( .AN(n1065), .B(n1064), .Y(n2577) ); OAI2BB2XLTS U2259 ( .B0(n1066), .B1(n2973), .A0N(n1350), .A1N( Barrel_Shifter_module_Mux_Array_Data_array[65]), .Y(n1067) ); AOI211X1TS U2260 ( .A0(n2126), .A1(n2577), .B0(n1068), .C0(n1067), .Y(n2601) ); NAND2X1TS U2261 ( .A(n1026), .B(n1069), .Y( Barrel_Shifter_module_Data_Reg[52]) ); AOI21X1TS U2262 ( .A0(n2086), .A1( Barrel_Shifter_module_Mux_Array_Data_array[95]), .B0(n1071), .Y(n1072) ); NAND2BX1TS U2263 ( .AN(n1073), .B(n1072), .Y(n2570) ); AOI211X1TS U2264 ( .A0(n1025), .A1(n2570), .B0(n1075), .C0(n1074), .Y(n2603) ); NAND2X1TS U2265 ( .A(n1026), .B(n1078), .Y( Barrel_Shifter_module_Data_Reg[54]) ); AND3X1TS U2266 ( .A(n2555), .B(n2983), .C(FS_Module_state_reg[0]), .Y(n871) ); NAND2X1TS U2267 ( .A(n1089), .B(Add_Subt_result[25]), .Y(n1171) ); OAI211X1TS U2268 ( .A0(n1171), .A1(n1081), .B0(n1080), .C0(n1079), .Y(n1152) ); OAI211XLTS U2269 ( .A0(Add_Subt_result[10]), .A1(Add_Subt_result[8]), .B0( n1082), .C0(n3020), .Y(n1093) ); NAND2X1TS U2270 ( .A(n1083), .B(Add_Subt_result[30]), .Y(n1085) ); OAI2BB2X1TS U2271 ( .B0(n1146), .B1(n1085), .A0N(Add_Subt_result[22]), .A1N( n1084), .Y(n1166) ); INVX2TS U2272 ( .A(n1166), .Y(n1086) ); OAI31X1TS U2273 ( .A0(n1087), .A1(Add_Subt_result[47]), .A2(n1121), .B0( n1086), .Y(n1088) ); NOR3BX1TS U2274 ( .AN(Add_Subt_result[19]), .B(n1099), .C( Add_Subt_result[20]), .Y(n1097) ); NAND2X1TS U2275 ( .A(n1116), .B(Add_Subt_result[21]), .Y(n1159) ); AOI21X1TS U2276 ( .A0(n2912), .A1(Add_Subt_result[39]), .B0( Add_Subt_result[41]), .Y(n1095) ); OAI22X1TS U2277 ( .A0(n1159), .A1(Add_Subt_result[22]), .B0(n1095), .B1( n1094), .Y(n1096) ); AOI211X1TS U2278 ( .A0(n1098), .A1(Add_Subt_result[3]), .B0(n1097), .C0( n1096), .Y(n1158) ); AOI211X1TS U2279 ( .A0(n3055), .A1(n2912), .B0(n1100), .C0( Add_Subt_result[43]), .Y(n1101) ); AOI21X1TS U2280 ( .A0(n1102), .A1(Add_Subt_result[20]), .B0(n1101), .Y(n1105) ); INVX2TS U2281 ( .A(n1103), .Y(n2605) ); INVX2TS U2282 ( .A(n1154), .Y(n1107) ); NAND2X1TS U2283 ( .A(n1106), .B(Add_Subt_result[9]), .Y(n1131) ); INVX2TS U2284 ( .A(n1109), .Y(n1110) ); OAI22X1TS U2285 ( .A0(n1113), .A1(n1112), .B0(n1111), .B1(n1110), .Y(n1114) ); AOI211X1TS U2286 ( .A0(n1116), .A1(Add_Subt_result[22]), .B0(n1115), .C0( n1114), .Y(n1119) ); INVX2TS U2287 ( .A(n1117), .Y(n1118) ); OAI22X1TS U2288 ( .A0(n1160), .A1(n1226), .B0(n1121), .B1(n3022), .Y(n1123) ); OAI21X1TS U2289 ( .A0(n1125), .A1(n3020), .B0(n1124), .Y(n1153) ); AOI211X1TS U2290 ( .A0(n1127), .A1(Add_Subt_result[12]), .B0(n1126), .C0( n1153), .Y(n1128) ); NAND2X1TS U2291 ( .A(n1129), .B(n1128), .Y( Leading_Zero_Detector_Module_Codec_to_Reg[2]) ); NOR2X2TS U2292 ( .A(n1238), .B(n922), .Y(n2561) ); INVX2TS U2293 ( .A(n2561), .Y(n1130) ); NOR2XLTS U2294 ( .A(FS_Module_state_reg[1]), .B(n1130), .Y(FSM_LZA_load) ); OAI31X1TS U2295 ( .A0(Add_Subt_result[14]), .A1(n2610), .A2(n3026), .B0( n1131), .Y(n1132) ); AOI21X1TS U2296 ( .A0(n1133), .A1(Add_Subt_result[1]), .B0(n1132), .Y(n2613) ); AOI21X1TS U2297 ( .A0(n2921), .A1(Add_Subt_result[15]), .B0( Add_Subt_result[17]), .Y(n1151) ); NOR3BX1TS U2298 ( .AN(Add_Subt_result[35]), .B(n1135), .C( Add_Subt_result[36]), .Y(n1136) ); AOI21X1TS U2299 ( .A0(Add_Subt_result[37]), .A1(n1137), .B0(n1136), .Y(n1145) ); INVX2TS U2300 ( .A(n1138), .Y(n1144) ); AOI21X1TS U2301 ( .A0(n3025), .A1(Add_Subt_result[49]), .B0( Add_Subt_result[51]), .Y(n1139) ); OAI31X1TS U2302 ( .A0(n1145), .A1(Add_Subt_result[38]), .A2(n1144), .B0( n1143), .Y(n1148) ); NOR3BX1TS U2303 ( .AN(Add_Subt_result[31]), .B(n1146), .C( Add_Subt_result[32]), .Y(n1147) ); AOI211X1TS U2304 ( .A0(n1164), .A1(n3052), .B0(n1148), .C0(n1147), .Y(n1149) ); OAI31X1TS U2305 ( .A0(Add_Subt_result[18]), .A1(n1151), .A2(n1150), .B0( n1149), .Y(n1155) ); NOR4X1TS U2306 ( .A(n1155), .B(n1154), .C(n1153), .D(n1152), .Y(n1157) ); AOI21X1TS U2307 ( .A0(n1163), .A1(n3052), .B0(n1162), .Y(n1165) ); NOR4X1TS U2308 ( .A(n1167), .B(n1166), .C(n1165), .D(n1164), .Y(n1172) ); INVX2TS U2309 ( .A(n1168), .Y(n1169) ); NAND2X1TS U2310 ( .A(n2129), .B(exp_oper_result[2]), .Y(n1174) ); NAND2X4TS U2311 ( .A(n1175), .B(n1174), .Y(n2706) ); INVX2TS U2312 ( .A(n1558), .Y(n1333) ); NAND2X1TS U2313 ( .A(n2917), .B(exp_oper_result[0]), .Y(n1176) ); NAND2X2TS U2314 ( .A(n1177), .B(n1176), .Y(n1895) ); NAND2X1TS U2315 ( .A(n1178), .B(exp_oper_result[1]), .Y(n1179) ); NAND2X2TS U2316 ( .A(n1895), .B(n2725), .Y(n1661) ); INVX2TS U2317 ( .A(n1661), .Y(n2678) ); INVX2TS U2318 ( .A(FSM_selector_C), .Y(n2736) ); BUFX3TS U2319 ( .A(n2736), .Y(n2841) ); NAND2X1TS U2320 ( .A(n1244), .B(Add_Subt_result[37]), .Y(n1182) ); INVX2TS U2321 ( .A(n2573), .Y(n2744) ); AOI22X1TS U2322 ( .A0(n895), .A1(Add_Subt_result[17]), .B0(DmP[35]), .B1( n3023), .Y(n1181) ); NAND2X2TS U2323 ( .A(n1182), .B(n1181), .Y(n1329) ); NAND2X1TS U2324 ( .A(n2678), .B(n1329), .Y(n1189) ); OR2X2TS U2325 ( .A(n1895), .B(n1922), .Y(n1667) ); INVX2TS U2326 ( .A(n1667), .Y(n2680) ); NAND2X1TS U2327 ( .A(n1244), .B(Add_Subt_result[36]), .Y(n1184) ); AOI22X1TS U2328 ( .A0(n1265), .A1(Add_Subt_result[18]), .B0(DmP[34]), .B1( n3023), .Y(n1183) ); NAND2X2TS U2329 ( .A(n1184), .B(n1183), .Y(n1275) ); NAND2X1TS U2330 ( .A(n2680), .B(n1275), .Y(n1188) ); AND2X2TS U2331 ( .A(n1895), .B(n1922), .Y(n2669) ); NAND2X1TS U2332 ( .A(n1244), .B(Add_Subt_result[39]), .Y(n1186) ); AOI22X1TS U2333 ( .A0(n1909), .A1(Add_Subt_result[15]), .B0(DmP[37]), .B1( n2736), .Y(n1185) ); NAND2X1TS U2334 ( .A(n1186), .B(n1185), .Y(n1271) ); NAND2X1TS U2335 ( .A(n2669), .B(n1271), .Y(n1187) ); BUFX3TS U2336 ( .A(n2706), .Y(n1331) ); INVX2TS U2337 ( .A(n1661), .Y(n1890) ); INVX2TS U2338 ( .A(n2766), .Y(n2860) ); NAND2X1TS U2339 ( .A(n2860), .B(Add_Subt_result[33]), .Y(n1191) ); BUFX3TS U2340 ( .A(n2736), .Y(n1891) ); AOI22X1TS U2341 ( .A0(n2859), .A1(Add_Subt_result[21]), .B0(DmP[31]), .B1( n1891), .Y(n1190) ); NAND2X2TS U2342 ( .A(n1191), .B(n1190), .Y(n1923) ); NAND2X1TS U2343 ( .A(n1890), .B(n1923), .Y(n1198) ); INVX2TS U2344 ( .A(n1667), .Y(n1889) ); NAND2X1TS U2345 ( .A(n2860), .B(Add_Subt_result[32]), .Y(n1193) ); AOI22X1TS U2346 ( .A0(n1265), .A1(Add_Subt_result[22]), .B0(DmP[30]), .B1( n1891), .Y(n1192) ); NAND2X2TS U2347 ( .A(n1193), .B(n1192), .Y(n1902) ); NAND2X1TS U2348 ( .A(n2667), .B(n1902), .Y(n1197) ); NAND2X1TS U2349 ( .A(n1244), .B(Add_Subt_result[35]), .Y(n1195) ); AOI22X1TS U2350 ( .A0(n1909), .A1(Add_Subt_result[19]), .B0(DmP[33]), .B1( n1891), .Y(n1194) ); NAND2X1TS U2351 ( .A(n1195), .B(n1194), .Y(n1276) ); NAND2X1TS U2352 ( .A(n2669), .B(n1276), .Y(n1196) ); OR2X2TS U2353 ( .A(n1895), .B(n2725), .Y(n1207) ); NAND2X1TS U2354 ( .A(n1244), .B(Add_Subt_result[38]), .Y(n1200) ); AOI22X1TS U2355 ( .A0(n1265), .A1(Add_Subt_result[16]), .B0(DmP[36]), .B1( n3023), .Y(n1199) ); NAND2X2TS U2356 ( .A(n1200), .B(n1199), .Y(n1325) ); NOR2X2TS U2357 ( .A(n1207), .B(n1558), .Y(n2868) ); BUFX3TS U2358 ( .A(n2868), .Y(n2844) ); NAND2X1TS U2359 ( .A(n1244), .B(Add_Subt_result[34]), .Y(n1202) ); AOI22X1TS U2360 ( .A0(n1265), .A1(Add_Subt_result[20]), .B0(DmP[32]), .B1( n1891), .Y(n1201) ); NAND2X2TS U2361 ( .A(n1202), .B(n1201), .Y(n1917) ); AOI22X1TS U2362 ( .A0(n2645), .A1(n1325), .B0(n2844), .B1(n1917), .Y(n1203) ); OAI221XLTS U2363 ( .A0(n1333), .A1(n1248), .B0(n1331), .B1(n1324), .C0(n1203), .Y(Barrel_Shifter_module_Mux_Array_Data_array[32]) ); NAND2X1TS U2364 ( .A(n1890), .B(n1325), .Y(n1206) ); NAND2X1TS U2365 ( .A(n2679), .B(n1271), .Y(n1205) ); NAND2X1TS U2366 ( .A(n1889), .B(n1329), .Y(n1204) ); NAND2X1TS U2367 ( .A(n2678), .B(n1917), .Y(n1210) ); INVX2TS U2368 ( .A(n1207), .Y(n2653) ); NAND2X1TS U2369 ( .A(n2653), .B(n1276), .Y(n1209) ); NAND2X1TS U2370 ( .A(n2680), .B(n1923), .Y(n1208) ); INVX2TS U2371 ( .A(n2669), .Y(n1211) ); BUFX3TS U2372 ( .A(n2706), .Y(n2711) ); NOR2X4TS U2373 ( .A(n1211), .B(n2711), .Y(n2779) ); BUFX3TS U2374 ( .A(n2779), .Y(n2703) ); NOR2X2TS U2375 ( .A(n1211), .B(n2726), .Y(n2648) ); BUFX3TS U2376 ( .A(n2648), .Y(n2701) ); NAND2X1TS U2377 ( .A(n1244), .B(Add_Subt_result[40]), .Y(n1213) ); INVX2TS U2378 ( .A(n2573), .Y(n1265) ); AOI22X1TS U2379 ( .A0(n2616), .A1(Add_Subt_result[14]), .B0(DmP[38]), .B1( n3023), .Y(n1212) ); NAND2X2TS U2380 ( .A(n1213), .B(n1212), .Y(n1284) ); AOI22X1TS U2381 ( .A0(n2703), .A1(n1275), .B0(n2701), .B1(n1284), .Y(n1214) ); OAI221XLTS U2382 ( .A0(n1333), .A1(n1286), .B0(n1331), .B1(n1229), .C0(n1214), .Y(Barrel_Shifter_module_Mux_Array_Data_array[33]) ); NAND2X1TS U2383 ( .A(n2666), .B(n1271), .Y(n1217) ); NAND2X1TS U2384 ( .A(n2653), .B(n1284), .Y(n1216) ); NAND2X1TS U2385 ( .A(n2667), .B(n1325), .Y(n1215) ); NAND2X1TS U2386 ( .A(n2666), .B(n1276), .Y(n1220) ); NAND2X1TS U2387 ( .A(n2679), .B(n1275), .Y(n1219) ); NAND2X1TS U2388 ( .A(n2667), .B(n1917), .Y(n1218) ); NAND2X1TS U2389 ( .A(n1244), .B(Add_Subt_result[41]), .Y(n1222) ); AOI22X1TS U2390 ( .A0(n2859), .A1(Add_Subt_result[13]), .B0(DmP[39]), .B1( n2736), .Y(n1221) ); NAND2X2TS U2391 ( .A(n1222), .B(n1221), .Y(n2702) ); AOI22X1TS U2392 ( .A0(n2703), .A1(n1329), .B0(n2701), .B1(n2702), .Y(n1223) ); OAI221XLTS U2393 ( .A0(n1333), .A1(n2705), .B0(n1331), .B1(n1332), .C0(n1223), .Y(Barrel_Shifter_module_Mux_Array_Data_array[34]) ); INVX2TS U2394 ( .A(n2766), .Y(n1907) ); AOI22X1TS U2395 ( .A0(n1265), .A1(Add_Subt_result[24]), .B0(n1891), .B1( DmP[28]), .Y(n1224) ); OAI2BB1X2TS U2396 ( .A0N(Add_Subt_result[30]), .A1N(n1907), .B0(n1224), .Y( n1916) ); AOI22X1TS U2397 ( .A0(n2744), .A1(Add_Subt_result[25]), .B0(n1891), .B1( DmP[27]), .Y(n1225) ); AOI22X1TS U2398 ( .A0(n2616), .A1(Add_Subt_result[23]), .B0(n1891), .B1( DmP[29]), .Y(n1227) ); OAI2BB1X1TS U2399 ( .A0N(Add_Subt_result[31]), .A1N(n2860), .B0(n1227), .Y( n1328) ); BUFX3TS U2400 ( .A(n2779), .Y(n2854) ); AOI22X1TS U2401 ( .A0(n2854), .A1(n1902), .B0(n2701), .B1(n1275), .Y(n1228) ); OAI221XLTS U2402 ( .A0(n1333), .A1(n1229), .B0(n1331), .B1(n1905), .C0(n1228), .Y(Barrel_Shifter_module_Mux_Array_Data_array[29]) ); CLKBUFX3TS U2403 ( .A(n1231), .Y(n1233) ); BUFX3TS U2404 ( .A(n1233), .Y(n3064) ); CLKBUFX3TS U2405 ( .A(n1231), .Y(n1230) ); BUFX3TS U2406 ( .A(n1230), .Y(n3082) ); BUFX3TS U2407 ( .A(n1233), .Y(n3093) ); CLKBUFX3TS U2408 ( .A(n1231), .Y(n1232) ); BUFX3TS U2409 ( .A(n1232), .Y(n3097) ); BUFX3TS U2410 ( .A(n1232), .Y(n3098) ); CLKBUFX3TS U2411 ( .A(n1231), .Y(n1235) ); BUFX3TS U2412 ( .A(n1235), .Y(n3068) ); BUFX3TS U2413 ( .A(n1231), .Y(n3067) ); BUFX3TS U2414 ( .A(n1230), .Y(n3084) ); BUFX3TS U2415 ( .A(n1233), .Y(n3073) ); BUFX3TS U2416 ( .A(n1231), .Y(n3066) ); BUFX3TS U2417 ( .A(n1230), .Y(n3083) ); BUFX3TS U2418 ( .A(n1230), .Y(n3065) ); CLKBUFX3TS U2419 ( .A(n1231), .Y(n1234) ); BUFX3TS U2420 ( .A(n1234), .Y(n3100) ); BUFX3TS U2421 ( .A(n1231), .Y(n3080) ); BUFX3TS U2422 ( .A(n1234), .Y(n3101) ); BUFX3TS U2423 ( .A(n1232), .Y(n3094) ); BUFX3TS U2424 ( .A(n1230), .Y(n3077) ); BUFX3TS U2425 ( .A(n1232), .Y(n3079) ); BUFX3TS U2426 ( .A(n1234), .Y(n3078) ); BUFX3TS U2427 ( .A(n1235), .Y(n3060) ); BUFX3TS U2428 ( .A(n1235), .Y(n3081) ); BUFX3TS U2429 ( .A(n1232), .Y(n3059) ); BUFX3TS U2430 ( .A(n1233), .Y(n3076) ); BUFX3TS U2431 ( .A(n1232), .Y(n3099) ); BUFX3TS U2432 ( .A(n1232), .Y(n3072) ); BUFX3TS U2433 ( .A(n1230), .Y(n3086) ); BUFX3TS U2434 ( .A(n1230), .Y(n3087) ); BUFX3TS U2435 ( .A(n1230), .Y(n3069) ); BUFX3TS U2436 ( .A(n1233), .Y(n3088) ); BUFX3TS U2437 ( .A(n1231), .Y(n3070) ); BUFX3TS U2438 ( .A(n1230), .Y(n3085) ); BUFX3TS U2439 ( .A(n1232), .Y(n3096) ); CLKBUFX3TS U2440 ( .A(n1234), .Y(n3102) ); BUFX3TS U2441 ( .A(n1231), .Y(n3071) ); BUFX3TS U2442 ( .A(n1232), .Y(n3095) ); BUFX3TS U2443 ( .A(n1235), .Y(n3074) ); BUFX3TS U2444 ( .A(n1233), .Y(n3091) ); BUFX3TS U2445 ( .A(n1233), .Y(n3089) ); BUFX3TS U2446 ( .A(n1233), .Y(n3092) ); BUFX3TS U2447 ( .A(n1235), .Y(n3108) ); BUFX3TS U2448 ( .A(n1235), .Y(n3061) ); BUFX3TS U2449 ( .A(n1234), .Y(n3104) ); BUFX3TS U2450 ( .A(n1234), .Y(n3105) ); BUFX3TS U2451 ( .A(n1235), .Y(n3107) ); BUFX3TS U2452 ( .A(n1233), .Y(n3090) ); BUFX3TS U2453 ( .A(n1235), .Y(n3106) ); BUFX3TS U2454 ( .A(n1234), .Y(n3075) ); BUFX3TS U2455 ( .A(n1235), .Y(n3062) ); BUFX3TS U2456 ( .A(n1234), .Y(n3103) ); BUFX3TS U2457 ( .A(n1234), .Y(n3063) ); CLKBUFX3TS U2458 ( .A(n1235), .Y(n3109) ); BUFX3TS U2459 ( .A(n1236), .Y(n2628) ); NAND2X1TS U2460 ( .A(n2628), .B(n2924), .Y( final_result_ieee_Module_Exp_S_mux[5]) ); NAND2X1TS U2461 ( .A(n2628), .B(n1729), .Y( final_result_ieee_Module_Exp_S_mux[3]) ); NOR2X2TS U2462 ( .A(n1238), .B(n1237), .Y(n873) ); NAND2X1TS U2463 ( .A(n1890), .B(n2702), .Y(n1243) ); NAND2X1TS U2464 ( .A(n2667), .B(n1284), .Y(n1242) ); NAND2X1TS U2465 ( .A(n1244), .B(Add_Subt_result[43]), .Y(n1240) ); AOI22X1TS U2466 ( .A0(n1909), .A1(Add_Subt_result[11]), .B0(DmP[41]), .B1( n2736), .Y(n1239) ); NAND2X1TS U2467 ( .A(n2669), .B(n2677), .Y(n1241) ); BUFX3TS U2468 ( .A(n2868), .Y(n2832) ); BUFX3TS U2469 ( .A(n2645), .Y(n2870) ); NAND2X1TS U2470 ( .A(n1244), .B(Add_Subt_result[42]), .Y(n1246) ); AOI22X1TS U2471 ( .A0(n2859), .A1(Add_Subt_result[12]), .B0(DmP[40]), .B1( n3023), .Y(n1245) ); NAND2X2TS U2472 ( .A(n1246), .B(n1245), .Y(n2696) ); AOI22X1TS U2473 ( .A0(n2832), .A1(n1325), .B0(n2870), .B1(n2696), .Y(n1247) ); OAI221XLTS U2474 ( .A0(n2708), .A1(n2693), .B0(n1331), .B1(n1248), .C0(n1247), .Y(Barrel_Shifter_module_Mux_Array_Data_array[36]) ); NAND2X1TS U2475 ( .A(n1651), .B(Add_Subt_result[48]), .Y(n1250) ); BUFX3TS U2476 ( .A(n2736), .Y(n2818) ); AOI22X1TS U2477 ( .A0(n2859), .A1(Add_Subt_result[6]), .B0(DmP[46]), .B1( n2818), .Y(n1249) ); NAND2X2TS U2478 ( .A(n1250), .B(n1249), .Y(n2687) ); NAND2X1TS U2479 ( .A(n1890), .B(n2687), .Y(n1257) ); NAND2X1TS U2480 ( .A(n1651), .B(Add_Subt_result[49]), .Y(n1252) ); AOI22X1TS U2481 ( .A0(n895), .A1(Add_Subt_result[5]), .B0(DmP[47]), .B1( n2818), .Y(n1251) ); NAND2X2TS U2482 ( .A(n1252), .B(n1251), .Y(n2684) ); NAND2X1TS U2483 ( .A(n2679), .B(n2684), .Y(n1256) ); NAND2X1TS U2484 ( .A(n1651), .B(Add_Subt_result[47]), .Y(n1254) ); AOI22X1TS U2485 ( .A0(n1909), .A1(Add_Subt_result[7]), .B0(DmP[45]), .B1( n2818), .Y(n1253) ); NAND2X1TS U2486 ( .A(n1254), .B(n1253), .Y(n2668) ); NAND2X1TS U2487 ( .A(n2667), .B(n2668), .Y(n1255) ); NAND2X1TS U2488 ( .A(n1651), .B(Add_Subt_result[44]), .Y(n1259) ); AOI22X1TS U2489 ( .A0(n2859), .A1(Add_Subt_result[10]), .B0(DmP[42]), .B1( n2818), .Y(n1258) ); NAND2X2TS U2490 ( .A(n1259), .B(n1258), .Y(n2688) ); NAND2X1TS U2491 ( .A(n2678), .B(n2688), .Y(n1264) ); NAND2X1TS U2492 ( .A(n1651), .B(Add_Subt_result[45]), .Y(n1261) ); AOI22X1TS U2493 ( .A0(n2744), .A1(Add_Subt_result[9]), .B0(DmP[43]), .B1( n2818), .Y(n1260) ); NAND2X2TS U2494 ( .A(n1261), .B(n1260), .Y(n2700) ); NAND2X1TS U2495 ( .A(n2653), .B(n2700), .Y(n1263) ); NAND2X1TS U2496 ( .A(n2680), .B(n2677), .Y(n1262) ); NAND2X1TS U2497 ( .A(n1651), .B(Add_Subt_result[46]), .Y(n1267) ); AOI22X1TS U2498 ( .A0(n2616), .A1(Add_Subt_result[8]), .B0(DmP[44]), .B1( n2818), .Y(n1266) ); NAND2X2TS U2499 ( .A(n1267), .B(n1266), .Y(n2695) ); NAND2X1TS U2500 ( .A(n1651), .B(Add_Subt_result[50]), .Y(n1269) ); INVX2TS U2501 ( .A(n2573), .Y(n2616) ); AOI22X1TS U2502 ( .A0(n2744), .A1(Add_Subt_result[4]), .B0(DmP[48]), .B1( n2818), .Y(n1268) ); NAND2X2TS U2503 ( .A(n1269), .B(n1268), .Y(n2673) ); AOI22X1TS U2504 ( .A0(n2703), .A1(n2695), .B0(n2701), .B1(n2673), .Y(n1270) ); OAI221XLTS U2505 ( .A0(n2708), .A1(n2651), .B0(n1558), .B1(n2699), .C0(n1270), .Y(Barrel_Shifter_module_Mux_Array_Data_array[43]) ); NAND2X1TS U2506 ( .A(n1890), .B(n1284), .Y(n1274) ); NAND2X1TS U2507 ( .A(n2679), .B(n2702), .Y(n1273) ); NAND2X1TS U2508 ( .A(n1889), .B(n1271), .Y(n1272) ); NAND2X1TS U2509 ( .A(n2678), .B(n1275), .Y(n1279) ); NAND2X1TS U2510 ( .A(n2653), .B(n1329), .Y(n1278) ); NAND2X1TS U2511 ( .A(n1889), .B(n1276), .Y(n1277) ); AOI22X1TS U2512 ( .A0(n2703), .A1(n1325), .B0(n2701), .B1(n2696), .Y(n1280) ); OAI221XLTS U2513 ( .A0(n2676), .A1(n2698), .B0(n1331), .B1(n1327), .C0(n1280), .Y(Barrel_Shifter_module_Mux_Array_Data_array[35]) ); NAND2X1TS U2514 ( .A(n2678), .B(n2696), .Y(n1283) ); NAND2X1TS U2515 ( .A(n2653), .B(n2677), .Y(n1282) ); NAND2X1TS U2516 ( .A(n2680), .B(n2702), .Y(n1281) ); AOI22X1TS U2517 ( .A0(n2703), .A1(n1284), .B0(n2701), .B1(n2688), .Y(n1285) ); OAI221XLTS U2518 ( .A0(n2708), .A1(n2690), .B0(n1331), .B1(n1286), .C0(n1285), .Y(Barrel_Shifter_module_Mux_Array_Data_array[37]) ); INVX2TS U2519 ( .A(n1849), .Y(n2030) ); NOR2X2TS U2520 ( .A(n919), .B(LZA_output[4]), .Y(n1866) ); INVX2TS U2521 ( .A(n1866), .Y(n1735) ); INVX2TS U2522 ( .A(n1694), .Y(n1986) ); NAND2X2TS U2523 ( .A(n1986), .B(n2627), .Y(n1868) ); NOR2X1TS U2524 ( .A(n2979), .B(n1729), .Y(n1288) ); NOR2X1TS U2525 ( .A(n2950), .B(n1730), .Y(n1287) ); AOI22X1TS U2526 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[76]), .A1( n1857), .B0(Barrel_Shifter_module_Mux_Array_Data_array[68]), .B1(n1027), .Y(n1292) ); NOR2X4TS U2527 ( .A(n2627), .B(n1729), .Y(n2123) ); AOI2BB2X1TS U2528 ( .B0(Barrel_Shifter_module_Mux_Array_Data_array[68]), .B1(n1758), .A0N(n1289), .A1N(n894), .Y(n1291) ); NOR2X4TS U2529 ( .A(n2919), .B(n881), .Y(n2122) ); AOI22X1TS U2530 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[92]), .A1( n2122), .B0(Barrel_Shifter_module_Mux_Array_Data_array[84]), .B1(n1035), .Y(n1290) ); AOI32X1TS U2531 ( .A0(n1292), .A1(n1291), .A2(n1290), .B0(n899), .B1(n1291), .Y(n1689) ); OAI21X1TS U2532 ( .A0(n2030), .A1(n1735), .B0(n1293), .Y(n1690) ); NOR2X1TS U2533 ( .A(n2841), .B(add_overflow_flag), .Y(n1294) ); NOR2X1TS U2534 ( .A(n2982), .B(n882), .Y(n1296) ); NOR2X1TS U2535 ( .A(n2954), .B(n1730), .Y(n1295) ); NAND2X1TS U2536 ( .A(n2620), .B(FSM_selector_C), .Y(n1298) ); BUFX3TS U2537 ( .A(n1299), .Y(n2137) ); NOR2X1TS U2538 ( .A(n894), .B(exp_oper_result[4]), .Y(n1691) ); NAND2X1TS U2539 ( .A(n2049), .B(n1691), .Y(n2135) ); OA21X2TS U2540 ( .A0(n2088), .A1(n973), .B0(n2135), .Y(n1885) ); INVX2TS U2541 ( .A(n2088), .Y(n2133) ); NAND2X1TS U2542 ( .A(n2133), .B(n897), .Y(n1300) ); OAI31X4TS U2543 ( .A0(n899), .A1(n2137), .A2(LZA_output[4]), .B0(n1300), .Y( n1879) ); NAND2X1TS U2544 ( .A(n891), .B( Barrel_Shifter_module_Mux_Array_Data_array[96]), .Y(n1302) ); NAND2X1TS U2545 ( .A(Barrel_Shifter_module_Mux_Array_Data_array[104]), .B( LZA_output[3]), .Y(n1301) ); NAND2X2TS U2546 ( .A(n1302), .B(n1301), .Y(n2007) ); NAND2X1TS U2547 ( .A(n1879), .B(n2007), .Y(n1306) ); NAND2X1TS U2548 ( .A(n2141), .B(FSM_selector_B[1]), .Y(n2003) ); INVX2TS U2549 ( .A(n2003), .Y(n1882) ); NAND2X2TS U2550 ( .A(n1025), .B(n2133), .Y(n2081) ); NAND2X2TS U2551 ( .A(n2081), .B(n1304), .Y(n1881) ); AOI21X1TS U2552 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[96]), .A1( n1882), .B0(n1881), .Y(n1305) ); INVX2TS U2553 ( .A(n1878), .Y(n2066) ); NOR2X1TS U2554 ( .A(n2978), .B(n882), .Y(n1309) ); NOR2X1TS U2555 ( .A(n2952), .B(exp_oper_result[3]), .Y(n1308) ); AOI22X1TS U2556 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[77]), .A1( n1857), .B0(Barrel_Shifter_module_Mux_Array_Data_array[69]), .B1(n1027), .Y(n1313) ); AOI2BB2X1TS U2557 ( .B0(Barrel_Shifter_module_Mux_Array_Data_array[69]), .B1(n1758), .A0N(n1310), .A1N(n894), .Y(n1312) ); AOI22X1TS U2558 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[93]), .A1( n2122), .B0(Barrel_Shifter_module_Mux_Array_Data_array[85]), .B1(n1035), .Y(n1311) ); AOI32X1TS U2559 ( .A0(n1313), .A1(n1312), .A2(n1311), .B0(n899), .B1(n1312), .Y(n1700) ); OAI21X1TS U2560 ( .A0(n2066), .A1(n1735), .B0(n1314), .Y(n1701) ); NOR2X1TS U2561 ( .A(n2977), .B(n882), .Y(n1316) ); NOR2X1TS U2562 ( .A(n2949), .B(n901), .Y(n1315) ); NOR2X2TS U2563 ( .A(n1316), .B(n1315), .Y(n2048) ); NAND2X1TS U2564 ( .A(n891), .B( Barrel_Shifter_module_Mux_Array_Data_array[95]), .Y(n1318) ); NAND2X1TS U2565 ( .A(Barrel_Shifter_module_Mux_Array_Data_array[103]), .B( LZA_output[3]), .Y(n1317) ); NAND2X2TS U2566 ( .A(n1318), .B(n1317), .Y(n2050) ); NAND2X1TS U2567 ( .A(n1879), .B(n2050), .Y(n1320) ); AOI21X1TS U2568 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[95]), .A1( n1882), .B0(n1881), .Y(n1319) ); AOI22X1TS U2569 ( .A0(n2616), .A1(Add_Subt_result[26]), .B0(n1891), .B1( DmP[26]), .Y(n1322) ); AOI22X1TS U2570 ( .A0(n2870), .A1(n1917), .B0(n2868), .B1(n1916), .Y(n1323) ); OAI221XLTS U2571 ( .A0(n2676), .A1(n1324), .B0(n1331), .B1(n1900), .C0(n1323), .Y(Barrel_Shifter_module_Mux_Array_Data_array[28]) ); BUFX3TS U2572 ( .A(n2648), .Y(n2781) ); AOI22X1TS U2573 ( .A0(n2781), .A1(n1325), .B0(n2779), .B1(n1917), .Y(n1326) ); OAI221XLTS U2574 ( .A0(n1333), .A1(n1327), .B0(n1331), .B1(n1921), .C0(n1326), .Y(Barrel_Shifter_module_Mux_Array_Data_array[31]) ); AOI222X1TS U2575 ( .A0(n1328), .A1(n2678), .B0(n1916), .B1(n2680), .C0(n1902), .C1(n2679), .Y(n1926) ); AOI22X1TS U2576 ( .A0(n2854), .A1(n1923), .B0(n2701), .B1(n1329), .Y(n1330) ); OAI221XLTS U2577 ( .A0(n1333), .A1(n1332), .B0(n1331), .B1(n1926), .C0(n1330), .Y(Barrel_Shifter_module_Mux_Array_Data_array[30]) ); NOR2X1TS U2578 ( .A(n1334), .B(n889), .Y(n2001) ); INVX2TS U2579 ( .A(n1035), .Y(n1337) ); AOI21X1TS U2580 ( .A0(n2122), .A1( Barrel_Shifter_module_Mux_Array_Data_array[94]), .B0(LZA_output[5]), .Y(n1336) ); AOI22X1TS U2581 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[70]), .A1( n1027), .B0(Barrel_Shifter_module_Mux_Array_Data_array[78]), .B1(n1857), .Y(n1335) ); AOI22X1TS U2582 ( .A0(n1986), .A1(n2002), .B0(n2001), .B1(n1988), .Y(n1340) ); NAND2X2TS U2583 ( .A(n893), .B(exp_oper_result[4]), .Y(n2074) ); AOI22X1TS U2584 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[70]), .A1( n1758), .B0(n886), .B1(n1988), .Y(n1338) ); AOI31X1TS U2585 ( .A0(n893), .A1( Barrel_Shifter_module_Mux_Array_Data_array[78]), .A2(n1860), .B0(n1339), .Y(n1991) ); OAI21X1TS U2586 ( .A0(n1340), .A1(n2957), .B0(n1991), .Y(n1996) ); NOR2X1TS U2587 ( .A(n2957), .B(n882), .Y(n1342) ); NOR2X1TS U2588 ( .A(n2956), .B(n1730), .Y(n1341) ); NOR2X2TS U2589 ( .A(n1342), .B(n1341), .Y(n2075) ); NAND2X1TS U2590 ( .A(n891), .B( Barrel_Shifter_module_Mux_Array_Data_array[94]), .Y(n1344) ); NAND2X1TS U2591 ( .A(Barrel_Shifter_module_Mux_Array_Data_array[102]), .B( LZA_output[3]), .Y(n1343) ); NAND2X2TS U2592 ( .A(n1344), .B(n1343), .Y(n2085) ); AOI22X1TS U2593 ( .A0(n1879), .A1(n2085), .B0(n1882), .B1( Barrel_Shifter_module_Mux_Array_Data_array[94]), .Y(n1346) ); INVX2TS U2594 ( .A(n1881), .Y(n1345) ); AOI21X1TS U2595 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[95]), .A1( n2143), .B0(n1349), .Y(n1352) ); NAND2X1TS U2596 ( .A(Barrel_Shifter_module_Mux_Array_Data_array[79]), .B( n1350), .Y(n1351) ); OAI211X1TS U2597 ( .A0(n2591), .A1(n908), .B0(n1352), .C0(n1351), .Y(n2116) ); OAI21XLTS U2598 ( .A0(FS_Module_state_reg[1]), .A1(add_overflow_flag), .B0( n2561), .Y(n1353) ); NAND3X2TS U2599 ( .A(n1354), .B(n922), .C(n2983), .Y(n860) ); NOR4X1TS U2600 ( .A(FS_Module_state_reg[0]), .B(n925), .C(n2983), .D(n922), .Y(ready) ); NOR3X2TS U2601 ( .A(FS_Module_state_reg[3]), .B(n925), .C(n2983), .Y( FSM_Add_Subt_Sgf_load) ); OR2X8TS U2602 ( .A(n2553), .B(n1980), .Y(n1984) ); NOR2BX1TS U2603 ( .AN(Sgf_normalized_result[1]), .B(n1973), .Y(n1355) ); XOR2X1TS U2604 ( .A(n1382), .B(n1355), .Y(n2539) ); NOR2X2TS U2605 ( .A(n2539), .B(n2538), .Y(n2547) ); XOR2X1TS U2606 ( .A(n1382), .B(n1356), .Y(n1362) ); NOR2X1TS U2607 ( .A(n1362), .B(n1361), .Y(n2541) ); NOR2X1TS U2608 ( .A(n2547), .B(n2541), .Y(n1364) ); NOR2BX1TS U2609 ( .AN(Sgf_normalized_result[0]), .B(n1973), .Y(n1357) ); XOR2X1TS U2610 ( .A(n1983), .B(n1357), .Y(n2548) ); INVX2TS U2611 ( .A(n2548), .Y(n1360) ); NOR2X1TS U2612 ( .A(n1983), .B(n1358), .Y(n2549) ); NAND2X1TS U2613 ( .A(n1983), .B(n1358), .Y(n1359) ); OAI21X1TS U2614 ( .A0(n1360), .A1(n2549), .B0(n1359), .Y(n2537) ); NAND2X1TS U2615 ( .A(n1362), .B(n1361), .Y(n2542) ); INVX2TS U2616 ( .A(n2542), .Y(n1363) ); AOI21X2TS U2617 ( .A0(n1364), .A1(n2537), .B0(n1363), .Y(n2513) ); NOR2BX1TS U2618 ( .AN(Sgf_normalized_result[3]), .B(n1980), .Y(n1365) ); XOR2X1TS U2619 ( .A(n1382), .B(n1365), .Y(n1370) ); NOR2X1TS U2620 ( .A(n1370), .B(n1369), .Y(n2526) ); NOR2BX1TS U2621 ( .AN(Sgf_normalized_result[4]), .B(n1980), .Y(n1366) ); XOR2X1TS U2622 ( .A(n1382), .B(n1366), .Y(n1372) ); NOR2X2TS U2623 ( .A(n1372), .B(n1371), .Y(n2528) ); NOR2BX1TS U2624 ( .AN(Sgf_normalized_result[5]), .B(n1964), .Y(n1367) ); XOR2X1TS U2625 ( .A(n1382), .B(n1367), .Y(n1374) ); NOR2X2TS U2626 ( .A(n1374), .B(n1373), .Y(n2521) ); NOR2BX1TS U2627 ( .AN(Sgf_normalized_result[6]), .B(n1933), .Y(n1368) ); XOR2X1TS U2628 ( .A(n1382), .B(n1368), .Y(n1376) ); NOR2X2TS U2629 ( .A(n1376), .B(n1375), .Y(n2516) ); NAND2X1TS U2630 ( .A(n1370), .B(n1369), .Y(n2533) ); NAND2X1TS U2631 ( .A(n1372), .B(n1371), .Y(n2529) ); OAI21X1TS U2632 ( .A0(n2528), .A1(n2533), .B0(n2529), .Y(n2514) ); NAND2X1TS U2633 ( .A(n1374), .B(n1373), .Y(n2522) ); NAND2X1TS U2634 ( .A(n1376), .B(n1375), .Y(n2517) ); AOI21X1TS U2635 ( .A0(n2514), .A1(n1378), .B0(n1377), .Y(n1379) ); NOR2BX1TS U2636 ( .AN(Sgf_normalized_result[7]), .B(n1461), .Y(n1381) ); XOR2X1TS U2637 ( .A(n1382), .B(n1381), .Y(n1387) ); NOR2X2TS U2638 ( .A(n1387), .B(n1386), .Y(n2508) ); NOR2BX1TS U2639 ( .AN(Sgf_normalized_result[8]), .B(n1461), .Y(n1383) ); XOR2X1TS U2640 ( .A(n1454), .B(n1383), .Y(n1389) ); NOR2X2TS U2641 ( .A(n1389), .B(n1388), .Y(n2503) ); NOR2BX1TS U2642 ( .AN(Sgf_normalized_result[9]), .B(n1461), .Y(n1384) ); XOR2X1TS U2643 ( .A(n1454), .B(n1384), .Y(n1391) ); NOR2BX1TS U2644 ( .AN(Sgf_normalized_result[10]), .B(n1461), .Y(n1385) ); XOR2X1TS U2645 ( .A(n1454), .B(n1385), .Y(n1393) ); NOR2X2TS U2646 ( .A(n1393), .B(n1392), .Y(n1412) ); NAND2X1TS U2647 ( .A(n1389), .B(n1388), .Y(n2504) ); OAI21X1TS U2648 ( .A0(n2503), .A1(n2509), .B0(n2504), .Y(n1407) ); NAND2X1TS U2649 ( .A(n1391), .B(n1390), .Y(n2499) ); NAND2X1TS U2650 ( .A(n1393), .B(n1392), .Y(n1413) ); OAI21X1TS U2651 ( .A0(n1412), .A1(n2499), .B0(n1413), .Y(n1394) ); OAI21X1TS U2652 ( .A0(n2512), .A1(n1439), .B0(n1447), .Y(n1417) ); NOR2BX1TS U2653 ( .AN(Sgf_normalized_result[11]), .B(n1980), .Y(n1396) ); XOR2X1TS U2654 ( .A(n1454), .B(n1396), .Y(n1398) ); INVX4TS U2655 ( .A(n2920), .Y(n1458) ); INVX2TS U2656 ( .A(n1420), .Y(n1418) ); NAND2X1TS U2657 ( .A(n1398), .B(n1397), .Y(n1422) ); INVX2TS U2658 ( .A(n1422), .Y(n1399) ); AOI21X1TS U2659 ( .A0(n1417), .A1(n1418), .B0(n1399), .Y(n1405) ); NOR2X2TS U2660 ( .A(n1402), .B(n1401), .Y(n1423) ); NAND2X1TS U2661 ( .A(n1402), .B(n1401), .Y(n1421) ); NAND2X1TS U2662 ( .A(n1403), .B(n1421), .Y(n1404) ); INVX2TS U2663 ( .A(n1406), .Y(n1409) ); INVX2TS U2664 ( .A(n1407), .Y(n1408) ); OAI21X1TS U2665 ( .A0(n2512), .A1(n1409), .B0(n1408), .Y(n2502) ); INVX2TS U2666 ( .A(n1410), .Y(n2500) ); INVX2TS U2667 ( .A(n2499), .Y(n1411) ); AOI21X1TS U2668 ( .A0(n2502), .A1(n2500), .B0(n1411), .Y(n1416) ); NAND2X1TS U2669 ( .A(n1414), .B(n1413), .Y(n1415) ); INVX2TS U2670 ( .A(n1417), .Y(n1426) ); NAND2X1TS U2671 ( .A(n1418), .B(n1422), .Y(n1419) ); INVX2TS U2672 ( .A(n1438), .Y(n1425) ); OAI21X1TS U2673 ( .A0(n1423), .A1(n1422), .B0(n1421), .Y(n1444) ); INVX2TS U2674 ( .A(n1444), .Y(n1424) ); OAI21X1TS U2675 ( .A0(n1426), .A1(n1425), .B0(n1424), .Y(n2498) ); NOR2BX1TS U2676 ( .AN(Sgf_normalized_result[13]), .B(n1461), .Y(n1427) ); XOR2X1TS U2677 ( .A(n1454), .B(n1427), .Y(n1429) ); INVX2TS U2678 ( .A(n1437), .Y(n2496) ); NAND2X1TS U2679 ( .A(n1429), .B(n1428), .Y(n2495) ); INVX2TS U2680 ( .A(n2495), .Y(n1430) ); AOI21X1TS U2681 ( .A0(n2498), .A1(n2496), .B0(n1430), .Y(n1436) ); NOR2BX1TS U2682 ( .AN(Sgf_normalized_result[14]), .B(n1461), .Y(n1431) ); XOR2X1TS U2683 ( .A(n1454), .B(n1431), .Y(n1433) ); NOR2X2TS U2684 ( .A(n1433), .B(n1432), .Y(n1441) ); INVX2TS U2685 ( .A(n1441), .Y(n1434) ); NAND2X1TS U2686 ( .A(n1433), .B(n1432), .Y(n1440) ); NAND2X1TS U2687 ( .A(n1434), .B(n1440), .Y(n1435) ); OAI21X1TS U2688 ( .A0(n1441), .A1(n2495), .B0(n1440), .Y(n1442) ); AOI21X1TS U2689 ( .A0(n1444), .A1(n1443), .B0(n1442), .Y(n1445) ); NOR2BX1TS U2690 ( .AN(Sgf_normalized_result[15]), .B(n1461), .Y(n1451) ); XOR2X1TS U2691 ( .A(n1454), .B(n1451), .Y(n1473) ); NOR2X1TS U2692 ( .A(n1473), .B(n1472), .Y(n2484) ); NOR2BX1TS U2693 ( .AN(Sgf_normalized_result[16]), .B(n1461), .Y(n1452) ); XOR2X1TS U2694 ( .A(n1454), .B(n1452), .Y(n1475) ); NOR2X2TS U2695 ( .A(n1475), .B(n1474), .Y(n2486) ); NOR2BX1TS U2696 ( .AN(Sgf_normalized_result[17]), .B(FSM_selector_D), .Y( n1453) ); XOR2X1TS U2697 ( .A(n1454), .B(n1453), .Y(n1477) ); NOR2X2TS U2698 ( .A(n1477), .B(n1476), .Y(n2479) ); NOR2BX1TS U2699 ( .AN(Sgf_normalized_result[18]), .B(FSM_selector_D), .Y( n1455) ); XOR2X1TS U2700 ( .A(n1467), .B(n1455), .Y(n1479) ); NOR2X2TS U2701 ( .A(n1479), .B(n1478), .Y(n2474) ); NOR2BX1TS U2702 ( .AN(Sgf_normalized_result[19]), .B(FSM_selector_D), .Y( n1456) ); XOR2X1TS U2703 ( .A(n1467), .B(n1456), .Y(n1483) ); NOR2X2TS U2704 ( .A(n1483), .B(n1482), .Y(n2467) ); NOR2BX1TS U2705 ( .AN(Sgf_normalized_result[20]), .B(FSM_selector_D), .Y( n1457) ); XOR2X1TS U2706 ( .A(n1467), .B(n1457), .Y(n1485) ); NOR2X2TS U2707 ( .A(n1485), .B(n1484), .Y(n2462) ); NOR2BX1TS U2708 ( .AN(Sgf_normalized_result[21]), .B(n1980), .Y(n1459) ); XOR2X1TS U2709 ( .A(n1467), .B(n1459), .Y(n1487) ); INVX4TS U2710 ( .A(n2920), .Y(n1471) ); NOR2X2TS U2711 ( .A(n1487), .B(n1486), .Y(n2456) ); NOR2BX1TS U2712 ( .AN(Sgf_normalized_result[22]), .B(FSM_selector_D), .Y( n1460) ); XOR2X1TS U2713 ( .A(n1467), .B(n1460), .Y(n1489) ); NOR2X2TS U2714 ( .A(n1489), .B(n1488), .Y(n2451) ); NOR2X2TS U2715 ( .A(n2445), .B(n1493), .Y(n2394) ); NOR2BX1TS U2716 ( .AN(Sgf_normalized_result[23]), .B(n1461), .Y(n1462) ); XOR2X1TS U2717 ( .A(n1467), .B(n1462), .Y(n1495) ); NOR2X2TS U2718 ( .A(n1495), .B(n1494), .Y(n2440) ); NOR2BX1TS U2719 ( .AN(Sgf_normalized_result[24]), .B(FSM_selector_D), .Y( n1463) ); XOR2X1TS U2720 ( .A(n1467), .B(n1463), .Y(n1497) ); NOR2X2TS U2721 ( .A(n1497), .B(n1496), .Y(n2435) ); NOR2BX1TS U2722 ( .AN(Sgf_normalized_result[25]), .B(FSM_selector_D), .Y( n1464) ); XOR2X1TS U2723 ( .A(n1467), .B(n1464), .Y(n1499) ); NOR2X2TS U2724 ( .A(n1499), .B(n1498), .Y(n2429) ); NOR2BX1TS U2725 ( .AN(Sgf_normalized_result[26]), .B(FSM_selector_D), .Y( n1465) ); XOR2X1TS U2726 ( .A(n1467), .B(n1465), .Y(n1501) ); NOR2X2TS U2727 ( .A(n1501), .B(n1500), .Y(n2424) ); NOR2BX1TS U2728 ( .AN(Sgf_normalized_result[27]), .B(n1931), .Y(n1466) ); XOR2X1TS U2729 ( .A(n1467), .B(n1466), .Y(n1505) ); NOR2X2TS U2730 ( .A(n1505), .B(n1504), .Y(n2417) ); NOR2BX1TS U2731 ( .AN(Sgf_normalized_result[28]), .B(n1931), .Y(n1468) ); XOR2X1TS U2732 ( .A(n1788), .B(n1468), .Y(n1507) ); NOR2X2TS U2733 ( .A(n1507), .B(n1506), .Y(n2412) ); NOR2BX1TS U2734 ( .AN(Sgf_normalized_result[29]), .B(n1931), .Y(n1469) ); XOR2X1TS U2735 ( .A(n1788), .B(n1469), .Y(n1509) ); NOR2X2TS U2736 ( .A(n1509), .B(n1508), .Y(n2406) ); NOR2BX1TS U2737 ( .AN(Sgf_normalized_result[30]), .B(n1931), .Y(n1470) ); XOR2X1TS U2738 ( .A(n1788), .B(n1470), .Y(n1511) ); NOR2X2TS U2739 ( .A(n1511), .B(n1510), .Y(n2401) ); NOR2X2TS U2740 ( .A(n2395), .B(n1515), .Y(n1517) ); NAND2X1TS U2741 ( .A(n1473), .B(n1472), .Y(n2491) ); NAND2X1TS U2742 ( .A(n1475), .B(n1474), .Y(n2487) ); OAI21X1TS U2743 ( .A0(n2486), .A1(n2491), .B0(n2487), .Y(n2472) ); NAND2X1TS U2744 ( .A(n1477), .B(n1476), .Y(n2480) ); NAND2X1TS U2745 ( .A(n1479), .B(n1478), .Y(n2475) ); OAI21X1TS U2746 ( .A0(n2474), .A1(n2480), .B0(n2475), .Y(n1480) ); AOI21X2TS U2747 ( .A0(n2472), .A1(n1481), .B0(n1480), .Y(n2446) ); NAND2X1TS U2748 ( .A(n1483), .B(n1482), .Y(n2468) ); NAND2X1TS U2749 ( .A(n1485), .B(n1484), .Y(n2463) ); OAI21X1TS U2750 ( .A0(n2462), .A1(n2468), .B0(n2463), .Y(n2449) ); NAND2X1TS U2751 ( .A(n1487), .B(n1486), .Y(n2457) ); NAND2X1TS U2752 ( .A(n1489), .B(n1488), .Y(n2452) ); AOI21X1TS U2753 ( .A0(n2449), .A1(n1491), .B0(n1490), .Y(n1492) ); NAND2X1TS U2754 ( .A(n1495), .B(n1494), .Y(n2441) ); NAND2X1TS U2755 ( .A(n1497), .B(n1496), .Y(n2436) ); OAI21X1TS U2756 ( .A0(n2435), .A1(n2441), .B0(n2436), .Y(n2422) ); NAND2X1TS U2757 ( .A(n1499), .B(n1498), .Y(n2430) ); NAND2X1TS U2758 ( .A(n1501), .B(n1500), .Y(n2425) ); AOI21X1TS U2759 ( .A0(n2422), .A1(n1503), .B0(n1502), .Y(n2396) ); NAND2X1TS U2760 ( .A(n1505), .B(n1504), .Y(n2418) ); NAND2X1TS U2761 ( .A(n1507), .B(n1506), .Y(n2413) ); OAI21X1TS U2762 ( .A0(n2412), .A1(n2418), .B0(n2413), .Y(n2399) ); NAND2X1TS U2763 ( .A(n1509), .B(n1508), .Y(n2407) ); NAND2X1TS U2764 ( .A(n1511), .B(n1510), .Y(n2402) ); OAI21X1TS U2765 ( .A0(n2401), .A1(n2407), .B0(n2402), .Y(n1512) ); AOI21X1TS U2766 ( .A0(n2399), .A1(n1513), .B0(n1512), .Y(n1514) ); OAI21X1TS U2767 ( .A0(n2396), .A1(n1515), .B0(n1514), .Y(n1516) ); AOI21X2TS U2768 ( .A0(n2393), .A1(n1517), .B0(n1516), .Y(n1518) ); OAI21X4TS U2769 ( .A0(n2392), .A1(n1519), .B0(n1518), .Y(n1950) ); NOR2BX1TS U2770 ( .AN(Sgf_normalized_result[31]), .B(n1931), .Y(n1520) ); XOR2X1TS U2771 ( .A(n1788), .B(n1520), .Y(n1525) ); NOR2X2TS U2772 ( .A(n1525), .B(n1524), .Y(n2387) ); NOR2BX1TS U2773 ( .AN(Sgf_normalized_result[32]), .B(n1931), .Y(n1521) ); XOR2X1TS U2774 ( .A(n1788), .B(n1521), .Y(n1527) ); NOR2X2TS U2775 ( .A(n1527), .B(n1526), .Y(n2382) ); NOR2BX1TS U2776 ( .AN(Sgf_normalized_result[33]), .B(n1931), .Y(n1522) ); XOR2X1TS U2777 ( .A(n1788), .B(n1522), .Y(n1529) ); NOR2BX1TS U2778 ( .AN(Sgf_normalized_result[34]), .B(FSM_selector_D), .Y( n1523) ); XOR2X1TS U2779 ( .A(n1788), .B(n1523), .Y(n1531) ); NOR2X2TS U2780 ( .A(n1531), .B(n1530), .Y(n1551) ); NAND2X1TS U2781 ( .A(n1527), .B(n1526), .Y(n2383) ); OAI21X1TS U2782 ( .A0(n2382), .A1(n2388), .B0(n2383), .Y(n1546) ); NAND2X1TS U2783 ( .A(n1529), .B(n1528), .Y(n2378) ); NAND2X1TS U2784 ( .A(n1531), .B(n1530), .Y(n1552) ); OAI21X1TS U2785 ( .A0(n1551), .A1(n2378), .B0(n1552), .Y(n1532) ); AOI21X2TS U2786 ( .A0(n1546), .A1(n1533), .B0(n1532), .Y(n1780) ); NOR2BX1TS U2787 ( .AN(Sgf_normalized_result[35]), .B(n1931), .Y(n1534) ); INVX2TS U2788 ( .A(n1671), .Y(n1562) ); INVX2TS U2789 ( .A(n1673), .Y(n1538) ); AOI21X1TS U2790 ( .A0(n1561), .A1(n1562), .B0(n1538), .Y(n1544) ); NOR2BX1TS U2791 ( .AN(Sgf_normalized_result[36]), .B(n1931), .Y(n1539) ); XOR2X1TS U2792 ( .A(n1788), .B(n1539), .Y(n1541) ); NOR2X2TS U2793 ( .A(n1541), .B(n1540), .Y(n1674) ); INVX2TS U2794 ( .A(n1674), .Y(n1542) ); NAND2X1TS U2795 ( .A(n1541), .B(n1540), .Y(n1672) ); NAND2X1TS U2796 ( .A(n1542), .B(n1672), .Y(n1543) ); INVX2TS U2797 ( .A(n1545), .Y(n1548) ); INVX2TS U2798 ( .A(n1546), .Y(n1547) ); OAI21X1TS U2799 ( .A0(n2391), .A1(n1548), .B0(n1547), .Y(n2381) ); INVX2TS U2800 ( .A(n1549), .Y(n2379) ); INVX2TS U2801 ( .A(n2378), .Y(n1550) ); AOI21X1TS U2802 ( .A0(n2381), .A1(n2379), .B0(n1550), .Y(n1555) ); INVX2TS U2803 ( .A(n1551), .Y(n1553) ); NAND2X1TS U2804 ( .A(n1553), .B(n1552), .Y(n1554) ); BUFX3TS U2805 ( .A(n2743), .Y(n2863) ); NAND2X1TS U2806 ( .A(n1651), .B(Add_Subt_result[53]), .Y(n1557) ); AOI22X1TS U2807 ( .A0(n2744), .A1(Add_Subt_result[1]), .B0(DmP[51]), .B1( n3023), .Y(n1556) ); NAND2X2TS U2808 ( .A(n1557), .B(n1556), .Y(n2657) ); BUFX3TS U2809 ( .A(n2757), .Y(n2839) ); OA22X2TS U2810 ( .A0(n2787), .A1(Add_Subt_result[54]), .B0( Add_Subt_result[0]), .B1(n2152), .Y(n2649) ); AOI22X1TS U2811 ( .A0(n2863), .A1(n2657), .B0(n2839), .B1(n2649), .Y(n1560) ); NOR2X2TS U2812 ( .A(n2726), .B(n2568), .Y(n1668) ); INVX2TS U2813 ( .A(n1668), .Y(n1559) ); NAND2X1TS U2814 ( .A(n1562), .B(n1673), .Y(n1563) ); INVX2TS U2815 ( .A(r_mode[1]), .Y(n1564) ); INVX2TS U2816 ( .A(r_mode[0]), .Y(n1565) ); INVX2TS U2817 ( .A(n2560), .Y(n1643) ); NOR2X1TS U2818 ( .A(n922), .B(FS_Module_state_reg[1]), .Y(n2551) ); NAND2X1TS U2819 ( .A(n2551), .B(n1568), .Y(n2559) ); NAND2BX1TS U2820 ( .AN(n2158), .B(FS_Module_state_reg[0]), .Y(n2883) ); NAND2X1TS U2821 ( .A(FS_Module_state_reg[1]), .B(n2561), .Y(n2619) ); OAI211X1TS U2822 ( .A0(n3023), .A1(n2883), .B0(n2884), .C0(n2619), .Y(n2558) ); NOR4BX1TS U2823 ( .AN(n1569), .B(n2558), .C(FSM_Add_Subt_Sgf_load), .D( FSM_Final_Result_load), .Y(n1642) ); OAI22X1TS U2824 ( .A0(n2933), .A1(intDY[1]), .B0(n887), .B1(intDY[62]), .Y( n1570) ); AOI221X1TS U2825 ( .A0(n2933), .A1(intDY[1]), .B0(intDY[62]), .B1(n887), .C0(n1570), .Y(n1571) ); AOI22X1TS U2826 ( .A0(n2892), .A1(intDY[5]), .B0(n2938), .B1(intDY[4]), .Y( n1572) ); AOI22X1TS U2827 ( .A0(n2966), .A1(intDY[3]), .B0(n2900), .B1(intDY[2]), .Y( n1573) ); OAI221XLTS U2828 ( .A0(n2966), .A1(intDY[3]), .B0(n2900), .B1(intDY[2]), .C0(n1573), .Y(n1582) ); OAI22X1TS U2829 ( .A0(n2959), .A1(intDY[8]), .B0(n2896), .B1(intDY[9]), .Y( n1574) ); AOI221X1TS U2830 ( .A0(n2959), .A1(intDY[8]), .B0(intDY[9]), .B1(n2896), .C0(n1574), .Y(n1580) ); OAI22X1TS U2831 ( .A0(n2932), .A1(intDY[6]), .B0(n2891), .B1(intDY[7]), .Y( n1575) ); AOI221X1TS U2832 ( .A0(n2932), .A1(intDY[6]), .B0(intDY[7]), .B1(n2891), .C0(n1575), .Y(n1579) ); OAI22X1TS U2833 ( .A0(n2936), .A1(intDY[12]), .B0(n2935), .B1(intDY[13]), .Y(n1576) ); AOI221X1TS U2834 ( .A0(n2936), .A1(intDY[12]), .B0(intDY[13]), .B1(n2935), .C0(n1576), .Y(n1578) ); OAI22X1TS U2835 ( .A0(n2887), .A1(intDY[10]), .B0(n2923), .B1(intDY[11]), .Y(n2191) ); AOI221X1TS U2836 ( .A0(n2887), .A1(intDY[10]), .B0(intDY[11]), .B1(n2923), .C0(n2191), .Y(n1577) ); NOR4X1TS U2837 ( .A(n1584), .B(n1582), .C(n1583), .D(n1581), .Y(n1640) ); AOI22X1TS U2838 ( .A0(n2965), .A1(intDY[26]), .B0(n2969), .B1(intDY[25]), .Y(n1585) ); AOI22X1TS U2839 ( .A0(n2898), .A1(intDY[24]), .B0(n2902), .B1(intDY[22]), .Y(n1586) ); OAI221XLTS U2840 ( .A0(n2898), .A1(intDY[24]), .B0(n2902), .B1(intDY[22]), .C0(n1586), .Y(n1591) ); AOI22X1TS U2841 ( .A0(n2899), .A1(intDY[30]), .B0(n2941), .B1(intDY[29]), .Y(n1587) ); AOI22X1TS U2842 ( .A0(n2940), .A1(intDY[28]), .B0(n2903), .B1(intDY[27]), .Y(n1588) ); OAI221XLTS U2843 ( .A0(n2940), .A1(intDY[28]), .B0(n2903), .B1(intDY[27]), .C0(n1588), .Y(n1589) ); NOR4X1TS U2844 ( .A(n1592), .B(n1591), .C(n1590), .D(n1589), .Y(n1639) ); AOI22X1TS U2845 ( .A0(n2964), .A1(intDY[17]), .B0(n2937), .B1(intDY[16]), .Y(n1593) ); AOI22X1TS U2846 ( .A0(n2967), .A1(intDY[15]), .B0(n2901), .B1(intDY[14]), .Y(n1594) ); OAI221XLTS U2847 ( .A0(n2967), .A1(intDY[15]), .B0(n2901), .B1(intDY[14]), .C0(n1594), .Y(n1599) ); AOI22X1TS U2848 ( .A0(n2939), .A1(intDY[21]), .B0(n2942), .B1(intDY[20]), .Y(n1595) ); AOI22X1TS U2849 ( .A0(n2904), .A1(intDY[19]), .B0(n2968), .B1(intDY[18]), .Y(n1596) ); OAI221XLTS U2850 ( .A0(n2904), .A1(intDY[19]), .B0(n2968), .B1(intDY[18]), .C0(n1596), .Y(n1597) ); NOR4X1TS U2851 ( .A(n1600), .B(n1599), .C(n1598), .D(n1597), .Y(n1638) ); OAI22X1TS U2852 ( .A0(n2928), .A1(intDY[41]), .B0(n2905), .B1(intDY[42]), .Y(n1601) ); AOI221X1TS U2853 ( .A0(n2928), .A1(intDY[41]), .B0(intDY[42]), .B1(n2905), .C0(n1601), .Y(n1608) ); OAI22X1TS U2854 ( .A0(n2897), .A1(intDY[39]), .B0(n2885), .B1(intDY[40]), .Y(n1602) ); AOI221X1TS U2855 ( .A0(n2897), .A1(intDY[39]), .B0(intDY[40]), .B1(n2885), .C0(n1602), .Y(n1607) ); OAI22X1TS U2856 ( .A0(n2945), .A1(intDY[45]), .B0(n2926), .B1(intDY[46]), .Y(n1603) ); AOI221X1TS U2857 ( .A0(n2945), .A1(intDY[45]), .B0(intDY[46]), .B1(n2926), .C0(n1603), .Y(n1606) ); OAI22X1TS U2858 ( .A0(n2944), .A1(intDY[43]), .B0(n2925), .B1(intDY[44]), .Y(n1604) ); AOI221X1TS U2859 ( .A0(n2944), .A1(intDY[43]), .B0(intDY[44]), .B1(n2925), .C0(n1604), .Y(n1605) ); OAI22X1TS U2860 ( .A0(n2962), .A1(intDY[33]), .B0(n2895), .B1(intDY[34]), .Y(n1609) ); AOI221X1TS U2861 ( .A0(n2962), .A1(intDY[33]), .B0(intDY[34]), .B1(n2895), .C0(n1609), .Y(n1616) ); OAI22X1TS U2862 ( .A0(n2961), .A1(intDY[31]), .B0(n2894), .B1(intDY[32]), .Y(n1610) ); AOI221X1TS U2863 ( .A0(n2961), .A1(intDY[31]), .B0(intDY[32]), .B1(n2894), .C0(n1610), .Y(n1615) ); OAI22X1TS U2864 ( .A0(n2934), .A1(intDY[37]), .B0(n2893), .B1(intDY[38]), .Y(n1611) ); AOI221X1TS U2865 ( .A0(n2934), .A1(intDY[37]), .B0(intDY[38]), .B1(n2893), .C0(n1611), .Y(n1614) ); OAI22X1TS U2866 ( .A0(n2963), .A1(intDY[35]), .B0(n2960), .B1(intDY[36]), .Y(n1612) ); AOI221X1TS U2867 ( .A0(n2963), .A1(intDY[35]), .B0(intDY[36]), .B1(n2960), .C0(n1612), .Y(n1613) ); OAI22X1TS U2868 ( .A0(n3058), .A1(intDY[57]), .B0(n3112), .B1(intDY[58]), .Y(n1617) ); AOI221X1TS U2869 ( .A0(n3058), .A1(intDY[57]), .B0(intDY[58]), .B1(n3112), .C0(n1617), .Y(n1624) ); OAI22X1TS U2870 ( .A0(n3111), .A1(intDY[55]), .B0(n2889), .B1(intDY[56]), .Y(n1618) ); AOI221X1TS U2871 ( .A0(n3111), .A1(intDY[55]), .B0(intDY[56]), .B1(n2889), .C0(n1618), .Y(n1623) ); OAI22X1TS U2872 ( .A0(n2930), .A1(intDX[23]), .B0(n888), .B1(intDY[61]), .Y( n1619) ); AOI221X1TS U2873 ( .A0(n2930), .A1(intDX[23]), .B0(intDY[61]), .B1(n888), .C0(n1619), .Y(n1622) ); OAI22X1TS U2874 ( .A0(n2908), .A1(intDY[59]), .B0(n2947), .B1(intDY[60]), .Y(n1620) ); AOI221X1TS U2875 ( .A0(n2908), .A1(intDY[59]), .B0(intDY[60]), .B1(n2947), .C0(n1620), .Y(n1621) ); OAI22X1TS U2876 ( .A0(n2946), .A1(intDY[49]), .B0(n2943), .B1(intDY[50]), .Y(n1625) ); AOI221X1TS U2877 ( .A0(n2946), .A1(intDY[49]), .B0(intDY[50]), .B1(n2943), .C0(n1625), .Y(n1632) ); OAI22X1TS U2878 ( .A0(n2888), .A1(intDY[47]), .B0(n2927), .B1(intDY[48]), .Y(n1626) ); AOI221X1TS U2879 ( .A0(n2888), .A1(intDY[47]), .B0(intDY[48]), .B1(n2927), .C0(n1626), .Y(n1631) ); OAI22X1TS U2880 ( .A0(n2948), .A1(intDY[53]), .B0(n2890), .B1(intDY[54]), .Y(n1627) ); AOI221X1TS U2881 ( .A0(n2948), .A1(intDY[53]), .B0(intDY[54]), .B1(n2890), .C0(n1627), .Y(n1630) ); OAI22X1TS U2882 ( .A0(n2909), .A1(intDY[51]), .B0(n2929), .B1(intDY[52]), .Y(n1628) ); AOI221X1TS U2883 ( .A0(n2909), .A1(intDY[51]), .B0(intDY[52]), .B1(n2929), .C0(n1628), .Y(n1629) ); NOR4X1TS U2884 ( .A(n1636), .B(n1635), .C(n1634), .D(n1633), .Y(n1637) ); NAND4X1TS U2885 ( .A(n1640), .B(n1639), .C(n1638), .D(n1637), .Y(n2554) ); NAND2X1TS U2886 ( .A(n1890), .B(n2657), .Y(n1649) ); NAND2X1TS U2887 ( .A(n1651), .B(Add_Subt_result[52]), .Y(n1645) ); AOI22X1TS U2888 ( .A0(n2744), .A1(Add_Subt_result[2]), .B0(DmP[50]), .B1( n3023), .Y(n1644) ); NAND2X2TS U2889 ( .A(n1645), .B(n1644), .Y(n2663) ); NAND2X1TS U2890 ( .A(n1889), .B(n2663), .Y(n1648) ); NAND2X1TS U2891 ( .A(n2669), .B(n1646), .Y(n1647) ); BUFX3TS U2892 ( .A(n2868), .Y(n2851) ); AOI21X1TS U2893 ( .A0(n2851), .A1(n2649), .B0(n1668), .Y(n1650) ); NAND2X1TS U2894 ( .A(n2678), .B(n2663), .Y(n1656) ); NAND2X1TS U2895 ( .A(n2653), .B(n2657), .Y(n1655) ); NAND2X1TS U2896 ( .A(n1651), .B(Add_Subt_result[51]), .Y(n1653) ); AOI22X1TS U2897 ( .A0(n1909), .A1(Add_Subt_result[3]), .B0(DmP[49]), .B1( n3023), .Y(n1652) ); NAND2X1TS U2898 ( .A(n1653), .B(n1652), .Y(n2641) ); NAND2X1TS U2899 ( .A(n1889), .B(n2641), .Y(n1654) ); AND3X2TS U2900 ( .A(n1656), .B(n1655), .C(n1654), .Y(n2652) ); BUFX3TS U2901 ( .A(n2779), .Y(n2833) ); AOI21X1TS U2902 ( .A0(n2833), .A1(n2649), .B0(n1668), .Y(n1657) ); NAND2X1TS U2903 ( .A(n2666), .B(n2673), .Y(n1660) ); NAND2X1TS U2904 ( .A(n2679), .B(n2641), .Y(n1659) ); NAND2X1TS U2905 ( .A(n2680), .B(n2684), .Y(n1658) ); AOI22X1TS U2906 ( .A0(n913), .A1(n2657), .B0(n1668), .B1(n1922), .Y(n1663) ); AOI22X1TS U2907 ( .A0(n909), .A1(n2649), .B0(n2833), .B1(n2663), .Y(n1662) ); NAND2X1TS U2908 ( .A(n2666), .B(n2641), .Y(n1666) ); NAND2X1TS U2909 ( .A(n2679), .B(n2663), .Y(n1665) ); NAND2X1TS U2910 ( .A(n2680), .B(n2673), .Y(n1664) ); AOI22X1TS U2911 ( .A0(n2703), .A1(n2657), .B0(n1668), .B1(n1667), .Y(n1670) ); NAND2X1TS U2912 ( .A(n912), .B(n2649), .Y(n1669) ); INVX2TS U2913 ( .A(n1771), .Y(n1676) ); INVX2TS U2914 ( .A(n1777), .Y(n1675) ); OAI21X2TS U2915 ( .A0(n1677), .A1(n1676), .B0(n1675), .Y(n2377) ); NOR2BX1TS U2916 ( .AN(Sgf_normalized_result[37]), .B(n1955), .Y(n1678) ); XOR2X1TS U2917 ( .A(n1952), .B(n1678), .Y(n1680) ); INVX2TS U2918 ( .A(n1770), .Y(n2375) ); NAND2X1TS U2919 ( .A(n1680), .B(n1679), .Y(n2374) ); INVX2TS U2920 ( .A(n2374), .Y(n1681) ); AOI21X1TS U2921 ( .A0(n2377), .A1(n2375), .B0(n1681), .Y(n1687) ); NOR2BX1TS U2922 ( .AN(Sgf_normalized_result[38]), .B(n1955), .Y(n1682) ); XOR2X1TS U2923 ( .A(n1952), .B(n1682), .Y(n1684) ); NOR2X2TS U2924 ( .A(n1684), .B(n1683), .Y(n1774) ); INVX2TS U2925 ( .A(n1774), .Y(n1685) ); NAND2X1TS U2926 ( .A(n1684), .B(n1683), .Y(n1773) ); NAND2X1TS U2927 ( .A(n1685), .B(n1773), .Y(n1686) ); INVX2TS U2928 ( .A(n919), .Y(n1869) ); AOI21X1TS U2929 ( .A0(n1869), .A1(n1849), .B0(n1689), .Y(n1699) ); NAND2X1TS U2930 ( .A(n1690), .B(n2049), .Y(n1698) ); NOR3X4TS U2931 ( .A(n899), .B(LZA_output[4]), .C(n2141), .Y(n1992) ); NAND2X2TS U2932 ( .A(n1691), .B(n906), .Y(n2087) ); NAND2X2TS U2933 ( .A(n2133), .B(n1986), .Y(n1764) ); OAI22X1TS U2934 ( .A0(n2132), .A1(n2922), .B0(n1694), .B1(n2627), .Y(n1695) ); AND2X2TS U2935 ( .A(n1695), .B(n2133), .Y(n1872) ); AOI211X1TS U2936 ( .A0(n1992), .A1(n2007), .B0(n1696), .C0(n1872), .Y(n1697) ); AOI21X1TS U2937 ( .A0(n1869), .A1(n1878), .B0(n1700), .Y(n1706) ); NAND2X1TS U2938 ( .A(n1701), .B(n2049), .Y(n1705) ); AOI211X1TS U2939 ( .A0(n1992), .A1(n2050), .B0(n1703), .C0(n1872), .Y(n1704) ); AOI22X1TS U2940 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[75]), .A1( n1857), .B0(Barrel_Shifter_module_Mux_Array_Data_array[67]), .B1(n1027), .Y(n1710) ); AOI2BB2X1TS U2941 ( .B0(Barrel_Shifter_module_Mux_Array_Data_array[67]), .B1(n1758), .A0N(n1707), .A1N(n894), .Y(n1709) ); AOI22X1TS U2942 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[91]), .A1( n2122), .B0(Barrel_Shifter_module_Mux_Array_Data_array[83]), .B1(n1035), .Y(n1708) ); AOI32X1TS U2943 ( .A0(n1710), .A1(n1709), .A2(n1708), .B0(n899), .B1(n1709), .Y(n1713) ); AOI21X1TS U2944 ( .A0(n1869), .A1(n1853), .B0(n1713), .Y(n1723) ); INVX2TS U2945 ( .A(n1853), .Y(n2039) ); NOR2X1TS U2946 ( .A(n2980), .B(n1729), .Y(n1712) ); NOR2X1TS U2947 ( .A(n2951), .B(exp_oper_result[3]), .Y(n1711) ); OAI21X1TS U2948 ( .A0(n2039), .A1(n1735), .B0(n1714), .Y(n1836) ); NAND2X1TS U2949 ( .A(n1836), .B(n918), .Y(n1722) ); NAND2X1TS U2950 ( .A(n891), .B( Barrel_Shifter_module_Mux_Array_Data_array[97]), .Y(n1716) ); NAND2X1TS U2951 ( .A(Barrel_Shifter_module_Mux_Array_Data_array[105]), .B( LZA_output[3]), .Y(n1715) ); NAND2X2TS U2952 ( .A(n1716), .B(n1715), .Y(n2018) ); NOR2X1TS U2953 ( .A(n2981), .B(n1729), .Y(n1718) ); NOR2X1TS U2954 ( .A(n2953), .B(n901), .Y(n1717) ); AOI211X1TS U2955 ( .A0(n1992), .A1(n2018), .B0(n1720), .C0(n1872), .Y(n1721) ); CLKMX2X2TS U2956 ( .A(Barrel_Shifter_module_Mux_Array_Data_array[98]), .B( Barrel_Shifter_module_Mux_Array_Data_array[106]), .S0(LZA_output[3]), .Y(n1839) ); AOI22X1TS U2957 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[74]), .A1( n1857), .B0(Barrel_Shifter_module_Mux_Array_Data_array[66]), .B1(n1027), .Y(n1728) ); AOI222X1TS U2958 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[82]), .A1( n1861), .B0(Barrel_Shifter_module_Mux_Array_Data_array[74]), .B1(n1860), .C0(Barrel_Shifter_module_Mux_Array_Data_array[90]), .C1(n2123), .Y(n1725) ); AOI2BB2X1TS U2959 ( .B0(Barrel_Shifter_module_Mux_Array_Data_array[66]), .B1(n1758), .A0N(n1725), .A1N(n1034), .Y(n1727) ); AOI22X1TS U2960 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[82]), .A1( n1035), .B0(Barrel_Shifter_module_Mux_Array_Data_array[90]), .B1(n2122), .Y(n1726) ); AOI32X1TS U2961 ( .A0(n1728), .A1(n1727), .A2(n1726), .B0(n899), .B1(n1727), .Y(n1733) ); AOI21X1TS U2962 ( .A0(n1869), .A1(n1839), .B0(n1733), .Y(n1741) ); INVX2TS U2963 ( .A(n1839), .Y(n1736) ); NOR2X1TS U2964 ( .A(n2976), .B(n1729), .Y(n1732) ); NOR2X1TS U2965 ( .A(n2955), .B(n901), .Y(n1731) ); NOR2X2TS U2966 ( .A(n1732), .B(n1731), .Y(n1843) ); OAI21X1TS U2967 ( .A0(n1736), .A1(n1735), .B0(n1734), .Y(n1840) ); NAND2X1TS U2968 ( .A(n1840), .B(n918), .Y(n1740) ); AOI21X1TS U2969 ( .A0(n1764), .A1(n2087), .B0(n1843), .Y(n1737) ); NOR3X1TS U2970 ( .A(n1738), .B(n1872), .C(n1737), .Y(n1739) ); INVX2TS U2971 ( .A(n2081), .Y(n1743) ); OAI22X1TS U2972 ( .A0(n2074), .A1(n1843), .B0(n3021), .B1(n2144), .Y(n1742) ); AOI211X1TS U2973 ( .A0(n2077), .A1(n1839), .B0(n1743), .C0(n1742), .Y(n1744) ); AOI22X1TS U2974 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[73]), .A1( n1857), .B0(Barrel_Shifter_module_Mux_Array_Data_array[65]), .B1(n1027), .Y(n1749) ); AOI2BB2X1TS U2975 ( .B0(Barrel_Shifter_module_Mux_Array_Data_array[65]), .B1(n1758), .A0N(n1746), .A1N(n1034), .Y(n1748) ); AOI22X1TS U2976 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[81]), .A1( n1035), .B0(Barrel_Shifter_module_Mux_Array_Data_array[89]), .B1(n2122), .Y(n1747) ); AOI32X1TS U2977 ( .A0(n1749), .A1(n1748), .A2(n1747), .B0(n899), .B1(n1748), .Y(n1750) ); AOI21X1TS U2978 ( .A0(n1869), .A1(n2018), .B0(n1750), .Y(n1756) ); AOI21X1TS U2979 ( .A0(n1866), .A1(n2018), .B0(n1750), .Y(n1751) ); OAI21X1TS U2980 ( .A0(n2017), .A1(n1868), .B0(n1751), .Y(n1854) ); NAND2X1TS U2981 ( .A(n1854), .B(n918), .Y(n1755) ); AOI211X1TS U2982 ( .A0(n1992), .A1(n1853), .B0(n1753), .C0(n1872), .Y(n1754) ); AOI22X1TS U2983 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[72]), .A1( n1857), .B0(Barrel_Shifter_module_Mux_Array_Data_array[64]), .B1(n1027), .Y(n1761) ); AOI2BB2X1TS U2984 ( .B0(Barrel_Shifter_module_Mux_Array_Data_array[64]), .B1(n1758), .A0N(n1757), .A1N(n894), .Y(n1760) ); AOI22X1TS U2985 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[80]), .A1( n1035), .B0(Barrel_Shifter_module_Mux_Array_Data_array[88]), .B1(n2122), .Y(n1759) ); AOI32X1TS U2986 ( .A0(n1761), .A1(n1760), .A2(n1759), .B0(n899), .B1(n1760), .Y(n1762) ); AOI21X1TS U2987 ( .A0(n1869), .A1(n2007), .B0(n1762), .Y(n1769) ); AOI21X1TS U2988 ( .A0(n1866), .A1(n2007), .B0(n1762), .Y(n1763) ); OAI21X1TS U2989 ( .A0(n2005), .A1(n1868), .B0(n1763), .Y(n1850) ); NAND2X1TS U2990 ( .A(n1850), .B(n918), .Y(n1768) ); AOI211X1TS U2991 ( .A0(n1992), .A1(n1849), .B0(n1766), .C0(n1872), .Y(n1767) ); NOR2X2TS U2992 ( .A(n1772), .B(n1779), .Y(n1930) ); INVX2TS U2993 ( .A(n1930), .Y(n1782) ); OAI21X1TS U2994 ( .A0(n1774), .A1(n2374), .B0(n1773), .Y(n1775) ); AOI21X1TS U2995 ( .A0(n1777), .A1(n1776), .B0(n1775), .Y(n1778) ); OAI21X2TS U2996 ( .A0(n1780), .A1(n1779), .B0(n1778), .Y(n1945) ); INVX2TS U2997 ( .A(n1945), .Y(n1781) ); NOR2BX1TS U2998 ( .AN(Sgf_normalized_result[39]), .B(n1955), .Y(n1783) ); NOR2X1TS U2999 ( .A(n1790), .B(n1789), .Y(n2362) ); NOR2BX1TS U3000 ( .AN(Sgf_normalized_result[40]), .B(n1955), .Y(n1784) ); XOR2X1TS U3001 ( .A(n1952), .B(n1784), .Y(n1792) ); NOR2X2TS U3002 ( .A(n1792), .B(n1791), .Y(n2365) ); NOR2BX1TS U3003 ( .AN(Sgf_normalized_result[41]), .B(n1955), .Y(n1785) ); XOR2X1TS U3004 ( .A(n1952), .B(n1785), .Y(n1794) ); NOR2X1TS U3005 ( .A(n1794), .B(n1793), .Y(n1813) ); NOR2BX1TS U3006 ( .AN(Sgf_normalized_result[42]), .B(n1955), .Y(n1787) ); XOR2X1TS U3007 ( .A(n1788), .B(n1787), .Y(n1796) ); NOR2X2TS U3008 ( .A(n1796), .B(n1795), .Y(n1815) ); NAND2X1TS U3009 ( .A(n1790), .B(n1789), .Y(n2370) ); NAND2X1TS U3010 ( .A(n1792), .B(n1791), .Y(n2366) ); OAI21X1TS U3011 ( .A0(n2365), .A1(n2370), .B0(n2366), .Y(n1810) ); NAND2X1TS U3012 ( .A(n1794), .B(n1793), .Y(n2358) ); NAND2X1TS U3013 ( .A(n1796), .B(n1795), .Y(n1816) ); OAI21X1TS U3014 ( .A0(n1815), .A1(n2358), .B0(n1816), .Y(n1797) ); OAI21X2TS U3015 ( .A0(n2373), .A1(n1929), .B0(n1942), .Y(n1833) ); NOR2BX1TS U3016 ( .AN(Sgf_normalized_result[43]), .B(n1955), .Y(n1799) ); XOR2X1TS U3017 ( .A(n1952), .B(n1799), .Y(n1801) ); INVX2TS U3018 ( .A(n1927), .Y(n1834) ); NAND2X1TS U3019 ( .A(n1801), .B(n1800), .Y(n1935) ); INVX2TS U3020 ( .A(n1935), .Y(n1802) ); AOI21X1TS U3021 ( .A0(n1833), .A1(n1834), .B0(n1802), .Y(n1808) ); NOR2BX1TS U3022 ( .AN(Sgf_normalized_result[44]), .B(n1955), .Y(n1803) ); XOR2X1TS U3023 ( .A(n1952), .B(n1803), .Y(n1805) ); NOR2X2TS U3024 ( .A(n1805), .B(n1804), .Y(n1936) ); INVX2TS U3025 ( .A(n1936), .Y(n1806) ); NAND2X1TS U3026 ( .A(n1805), .B(n1804), .Y(n1934) ); NAND2X1TS U3027 ( .A(n1806), .B(n1934), .Y(n1807) ); INVX2TS U3028 ( .A(n1809), .Y(n1812) ); INVX2TS U3029 ( .A(n1810), .Y(n1811) ); INVX2TS U3030 ( .A(n1813), .Y(n2359) ); INVX2TS U3031 ( .A(n2358), .Y(n1814) ); AOI21X1TS U3032 ( .A0(n2361), .A1(n2359), .B0(n1814), .Y(n1819) ); INVX2TS U3033 ( .A(n1815), .Y(n1817) ); NAND2X1TS U3034 ( .A(n1817), .B(n1816), .Y(n1818) ); AOI22X1TS U3035 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[70]), .A1( n1857), .B0(n1027), .B1(Barrel_Shifter_module_Mux_Array_Data_array[62]), .Y(n1821) ); AOI22X1TS U3036 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[86]), .A1( n2122), .B0(n1035), .B1(Barrel_Shifter_module_Mux_Array_Data_array[78]), .Y(n1820) ); AOI21X1TS U3037 ( .A0(n1821), .A1(n1820), .B0(n899), .Y(n1825) ); AOI22X1TS U3038 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[70]), .A1( n1860), .B0(n2002), .B1(Barrel_Shifter_module_Mux_Array_Data_array[62]), .Y(n1823) ); AOI22X1TS U3039 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[86]), .A1( n2123), .B0(Barrel_Shifter_module_Mux_Array_Data_array[78]), .B1(n1861), .Y(n1822) ); AOI21X1TS U3040 ( .A0(n1823), .A1(n1822), .B0(n1034), .Y(n1824) ); AOI211X1TS U3041 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[62]), .A1( FSM_selector_B[1]), .B0(n1825), .C0(n1824), .Y(n1829) ); INVX2TS U3042 ( .A(n1868), .Y(n1826) ); INVX2TS U3043 ( .A(n2075), .Y(n2083) ); AOI22X1TS U3044 ( .A0(n1826), .A1(n2083), .B0(n1866), .B1(n2085), .Y(n1827) ); INVX2TS U3045 ( .A(n1844), .Y(n1831) ); AOI22X1TS U3046 ( .A0(n1869), .A1(n2085), .B0(n2083), .B1(n1986), .Y(n1828) ); AOI21X1TS U3047 ( .A0(n1829), .A1(n1828), .B0(n2088), .Y(n1830) ); AOI211X1TS U3048 ( .A0(n906), .A1(n1831), .B0(n1830), .C0(n1872), .Y(n1832) ); INVX2TS U3049 ( .A(n1833), .Y(n2353) ); NAND2X1TS U3050 ( .A(n1834), .B(n1935), .Y(n1835) ); AOI22X1TS U3051 ( .A0(n2058), .A1(n1836), .B0(n1879), .B1(n2018), .Y(n1838) ); AOI21X1TS U3052 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[97]), .A1( n1882), .B0(n1881), .Y(n1837) ); AOI22X1TS U3053 ( .A0(n2058), .A1(n1840), .B0(n1879), .B1(n1839), .Y(n1842) ); AOI21X1TS U3054 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[98]), .A1( n1882), .B0(n1881), .Y(n1841) ); OAI22X1TS U3055 ( .A0(n1845), .A1(n2141), .B0(n2137), .B1(n1844), .Y(n1848) ); AOI22X1TS U3056 ( .A0(n2058), .A1(n1850), .B0(n1879), .B1(n1849), .Y(n1852) ); AOI21X1TS U3057 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[100]), .A1( n1882), .B0(n1881), .Y(n1851) ); AOI22X1TS U3058 ( .A0(n906), .A1(n1854), .B0(n1879), .B1(n1853), .Y(n1856) ); AOI21X1TS U3059 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[99]), .A1( n1882), .B0(n1881), .Y(n1855) ); AOI22X1TS U3060 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[71]), .A1( n1857), .B0(Barrel_Shifter_module_Mux_Array_Data_array[63]), .B1(n890), .Y(n1859) ); AOI22X1TS U3061 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[79]), .A1( n1035), .B0(Barrel_Shifter_module_Mux_Array_Data_array[87]), .B1(n2122), .Y(n1858) ); AOI21X1TS U3062 ( .A0(n1859), .A1(n1858), .B0(n898), .Y(n1865) ); AOI22X1TS U3063 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[71]), .A1( n1860), .B0(Barrel_Shifter_module_Mux_Array_Data_array[63]), .B1(n2002), .Y(n1863) ); AOI22X1TS U3064 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[79]), .A1( n1861), .B0(Barrel_Shifter_module_Mux_Array_Data_array[87]), .B1(n2123), .Y(n1862) ); AOI21X1TS U3065 ( .A0(n1863), .A1(n1862), .B0(n1034), .Y(n1864) ); NAND2X1TS U3066 ( .A(n1866), .B(n2050), .Y(n1867) ); OAI211X1TS U3067 ( .A0(n2048), .A1(n1868), .B0(n1871), .C0(n1867), .Y(n1880) ); INVX2TS U3068 ( .A(n2048), .Y(n2051) ); AOI22X1TS U3069 ( .A0(n1869), .A1(n2050), .B0(n2051), .B1(n1986), .Y(n1870) ); AOI21X1TS U3070 ( .A0(n1871), .A1(n1870), .B0(n920), .Y(n1876) ); INVX2TS U3071 ( .A(n1872), .Y(n1874) ); AOI22X1TS U3072 ( .A0(n1992), .A1(n1878), .B0(n907), .B1( Barrel_Shifter_module_Mux_Array_Data_array[101]), .Y(n1873) ); AOI211X1TS U3073 ( .A0(n1880), .A1(n2049), .B0(n1876), .C0(n1875), .Y(n1877) ); INVX2TS U3074 ( .A(n1877), .Y(n3117) ); AOI22X1TS U3075 ( .A0(n2058), .A1(n1880), .B0(n1879), .B1(n1878), .Y(n1884) ); AOI21X1TS U3076 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[101]), .A1( n1882), .B0(n1881), .Y(n1883) ); BUFX3TS U3077 ( .A(n2736), .Y(n2764) ); AOI22X1TS U3078 ( .A0(n2859), .A1(Add_Subt_result[30]), .B0(n2764), .B1( DmP[22]), .Y(n1886) ); OAI2BB1X2TS U3079 ( .A0N(Add_Subt_result[24]), .A1N(n1907), .B0(n1886), .Y( n2738) ); AOI22X1TS U3080 ( .A0(n2744), .A1(Add_Subt_result[31]), .B0(n2764), .B1( DmP[21]), .Y(n1887) ); OAI2BB1X2TS U3081 ( .A0N(Add_Subt_result[23]), .A1N(n1907), .B0(n1887), .Y( n2746) ); AOI22X1TS U3082 ( .A0(n895), .A1(Add_Subt_result[29]), .B0(n1891), .B1( DmP[23]), .Y(n1888) ); OAI2BB1X2TS U3083 ( .A0N(Add_Subt_result[25]), .A1N(n1907), .B0(n1888), .Y( n2731) ); AOI222X1TS U3084 ( .A0(n2738), .A1(n2666), .B0(n2746), .B1(n2667), .C0(n2731), .C1(n2679), .Y(n1915) ); BUFX3TS U3085 ( .A(n2779), .Y(n2872) ); AOI22X1TS U3086 ( .A0(n1909), .A1(Add_Subt_result[28]), .B0(n1891), .B1( DmP[24]), .Y(n1892) ); OAI2BB1X2TS U3087 ( .A0N(Add_Subt_result[26]), .A1N(n1907), .B0(n1892), .Y( n2717) ); AOI22X1TS U3088 ( .A0(n2870), .A1(n2710), .B0(n2872), .B1(n2717), .Y(n1894) ); NOR2X1TS U3089 ( .A(n1922), .B(n2719), .Y(n1918) ); AOI22X1TS U3090 ( .A0(n2781), .A1(n1916), .B0(n1918), .B1(n2711), .Y(n1893) ); BUFX3TS U3091 ( .A(n2743), .Y(n2850) ); BUFX3TS U3092 ( .A(n2757), .Y(n2865) ); AOI22X1TS U3093 ( .A0(n2850), .A1(n2738), .B0(n2865), .B1(n2731), .Y(n1899) ); NAND2X1TS U3094 ( .A(n2708), .B(n1922), .Y(n1901) ); AOI22X1TS U3095 ( .A0(n2850), .A1(n2731), .B0(n2865), .B1(n2717), .Y(n1904) ); AOI22X1TS U3096 ( .A0(n896), .A1(Add_Subt_result[33]), .B0(n2764), .B1( DmP[19]), .Y(n1906) ); OAI2BB1X2TS U3097 ( .A0N(Add_Subt_result[21]), .A1N(n1907), .B0(n1906), .Y( n2759) ); AOI22X1TS U3098 ( .A0(n895), .A1(Add_Subt_result[34]), .B0(n2764), .B1( DmP[18]), .Y(n1908) ); OAI2BB1X2TS U3099 ( .A0N(Add_Subt_result[20]), .A1N(n2806), .B0(n1908), .Y( n2767) ); AOI22X1TS U3100 ( .A0(n2851), .A1(n2759), .B0(n2865), .B1(n2767), .Y(n1914) ); AOI22X1TS U3101 ( .A0(n1265), .A1(Add_Subt_result[32]), .B0(n2764), .B1( DmP[20]), .Y(n1910) ); OAI21X4TS U3102 ( .A0(n2787), .A1(n2975), .B0(n1910), .Y(n2752) ); AOI22X1TS U3103 ( .A0(n2616), .A1(Add_Subt_result[35]), .B0(DmP[17]), .B1( n2736), .Y(n1911) ); OAI2BB1X2TS U3104 ( .A0N(Add_Subt_result[19]), .A1N(n2806), .B0(n1911), .Y( n2773) ); BUFX3TS U3105 ( .A(n2648), .Y(n2874) ); AOI21X1TS U3106 ( .A0(n2779), .A1(n2752), .B0(n1912), .Y(n1913) ); AOI22X1TS U3107 ( .A0(n2851), .A1(n2710), .B0(n2779), .B1(n1916), .Y(n1920) ); AOI22X1TS U3108 ( .A0(n2676), .A1(n1918), .B0(n2781), .B1(n1917), .Y(n1919) ); AOI22X1TS U3109 ( .A0(n2851), .A1(n2709), .B0(n2872), .B1(n2710), .Y(n1925) ); NOR2X1TS U3110 ( .A(n1922), .B(n2724), .Y(n2712) ); AOI22X1TS U3111 ( .A0(n2708), .A1(n2712), .B0(n2781), .B1(n1923), .Y(n1924) ); NOR2BX1TS U3112 ( .AN(Sgf_normalized_result[45]), .B(n1955), .Y(n1928) ); XOR2X1TS U3113 ( .A(n1952), .B(n1928), .Y(n1938) ); NOR2X2TS U3114 ( .A(n1929), .B(n1941), .Y(n1944) ); NOR2BX1TS U3115 ( .AN(Sgf_normalized_result[46]), .B(n1931), .Y(n1932) ); XOR2X1TS U3116 ( .A(n1952), .B(n1932), .Y(n1947) ); NOR2X2TS U3117 ( .A(n1947), .B(n1946), .Y(n2344) ); NOR2X2TS U3118 ( .A(n2343), .B(n2344), .Y(n1949) ); OAI21X1TS U3119 ( .A0(n1936), .A1(n1935), .B0(n1934), .Y(n2350) ); NAND2X1TS U3120 ( .A(n1938), .B(n1937), .Y(n2354) ); INVX2TS U3121 ( .A(n2354), .Y(n1939) ); AOI21X1TS U3122 ( .A0(n2350), .A1(n2355), .B0(n1939), .Y(n1940) ); OAI21X1TS U3123 ( .A0(n1942), .A1(n1941), .B0(n1940), .Y(n1943) ); AOI21X2TS U3124 ( .A0(n1945), .A1(n1944), .B0(n1943), .Y(n2342) ); NAND2X1TS U3125 ( .A(n1947), .B(n1946), .Y(n2345) ); OAI21X2TS U3126 ( .A0(n2342), .A1(n2344), .B0(n2345), .Y(n1948) ); AOI21X4TS U3127 ( .A0(n1950), .A1(n1949), .B0(n1948), .Y(n2341) ); NOR2BX1TS U3128 ( .AN(Sgf_normalized_result[47]), .B(n1981), .Y(n1951) ); XOR2X1TS U3129 ( .A(n1952), .B(n1951), .Y(n1954) ); NOR2X1TS U3130 ( .A(n1954), .B(n1953), .Y(n2337) ); NAND2X1TS U3131 ( .A(n1954), .B(n1953), .Y(n2338) ); OAI21X4TS U3132 ( .A0(n2341), .A1(n2337), .B0(n2338), .Y(n2336) ); NOR2BX1TS U3133 ( .AN(Sgf_normalized_result[48]), .B(n1955), .Y(n1956) ); XOR2X1TS U3134 ( .A(n1983), .B(n1956), .Y(n1958) ); NAND2X1TS U3135 ( .A(n1958), .B(n1957), .Y(n2333) ); INVX2TS U3136 ( .A(n2333), .Y(n1959) ); AOI21X4TS U3137 ( .A0(n2336), .A1(n2334), .B0(n1959), .Y(n2332) ); NOR2BX1TS U3138 ( .AN(Sgf_normalized_result[49]), .B(n1981), .Y(n1960) ); XOR2X1TS U3139 ( .A(n1983), .B(n1960), .Y(n1962) ); NOR2X1TS U3140 ( .A(n1962), .B(n1961), .Y(n2328) ); NAND2X1TS U3141 ( .A(n1962), .B(n1961), .Y(n2329) ); OAI21X4TS U3142 ( .A0(n2332), .A1(n2328), .B0(n2329), .Y(n2327) ); NOR2BX1TS U3143 ( .AN(Sgf_normalized_result[50]), .B(n1981), .Y(n1963) ); XOR2X1TS U3144 ( .A(n1983), .B(n1963), .Y(n1966) ); NAND2X1TS U3145 ( .A(n1966), .B(n1965), .Y(n2324) ); INVX2TS U3146 ( .A(n2324), .Y(n1967) ); AOI21X4TS U3147 ( .A0(n2327), .A1(n2325), .B0(n1967), .Y(n2323) ); NOR2BX1TS U3148 ( .AN(Sgf_normalized_result[51]), .B(n1981), .Y(n1968) ); XOR2X1TS U3149 ( .A(n1983), .B(n1968), .Y(n1971) ); NOR2X1TS U3150 ( .A(n1971), .B(n1970), .Y(n2319) ); NAND2X1TS U3151 ( .A(n1971), .B(n1970), .Y(n2320) ); OAI21X4TS U3152 ( .A0(n2323), .A1(n2319), .B0(n2320), .Y(n2318) ); NOR2BX1TS U3153 ( .AN(Sgf_normalized_result[52]), .B(n1981), .Y(n1972) ); XOR2X1TS U3154 ( .A(n1983), .B(n1972), .Y(n1975) ); NAND2X1TS U3155 ( .A(n1975), .B(n1974), .Y(n2315) ); INVX2TS U3156 ( .A(n2315), .Y(n1976) ); AOI21X4TS U3157 ( .A0(n2318), .A1(n2316), .B0(n1976), .Y(n2314) ); NOR2BX1TS U3158 ( .AN(Sgf_normalized_result[53]), .B(n1981), .Y(n1977) ); XOR2X1TS U3159 ( .A(n1983), .B(n1977), .Y(n1979) ); NOR2X1TS U3160 ( .A(n1979), .B(n1978), .Y(n2310) ); NAND2X1TS U3161 ( .A(n1979), .B(n1978), .Y(n2311) ); NOR2BX1TS U3162 ( .AN(Sgf_normalized_result[54]), .B(n1981), .Y(n1982) ); XOR2X1TS U3163 ( .A(n1983), .B(n1982), .Y(n2305) ); AOI22X1TS U3164 ( .A0(n1992), .A1(n2085), .B0( Barrel_Shifter_module_Mux_Array_Data_array[94]), .B1(n1692), .Y(n1993) ); AOI211X1TS U3165 ( .A0(n2049), .A1(n1996), .B0(n1995), .C0(n1994), .Y(n1997) ); INVX2TS U3166 ( .A(n1997), .Y(n3131) ); AOI22X2TS U3167 ( .A0(n893), .A1(n2002), .B0(n886), .B1(n1027), .Y(n2044) ); OAI22X1TS U3168 ( .A0(n2027), .A1(n2074), .B0(n2044), .B1(n2971), .Y(n1998) ); AOI21X1TS U3169 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[92]), .A1( n2072), .B0(n1998), .Y(n2034) ); INVX2TS U3170 ( .A(n2044), .Y(n2071) ); AOI22X1TS U3171 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[80]), .A1( n2071), .B0(Barrel_Shifter_module_Mux_Array_Data_array[88]), .B1(n2072), .Y(n2000) ); NAND2X1TS U3172 ( .A(n2077), .B(n2007), .Y(n1999) ); NAND2X1TS U3173 ( .A(n2025), .B(n918), .Y(n2013) ); AOI21X1TS U3174 ( .A0(n2002), .A1(n2129), .B0(n2001), .Y(n2004) ); OAI21X4TS U3175 ( .A0(n2004), .A1(n2088), .B0(n2003), .Y(n2092) ); OAI2BB1X1TS U3176 ( .A0N(n1692), .A1N( Barrel_Shifter_module_Mux_Array_Data_array[84]), .B0(n2081), .Y(n2011) ); INVX2TS U3177 ( .A(n2005), .Y(n2008) ); INVX2TS U3178 ( .A(n2006), .Y(n2082) ); INVX2TS U3179 ( .A(n2132), .Y(n2084) ); NAND2X1TS U3180 ( .A(n2077), .B(n906), .Y(n2052) ); OAI22X1TS U3181 ( .A0(n2009), .A1(n2088), .B0(n2030), .B1(n2052), .Y(n2010) ); AOI211X1TS U3182 ( .A0(n2092), .A1( Barrel_Shifter_module_Mux_Array_Data_array[80]), .B0(n2011), .C0(n2010), .Y(n2012) ); OAI22X1TS U3183 ( .A0(n2036), .A1(n2074), .B0(n2044), .B1(n2970), .Y(n2014) ); AOI21X1TS U3184 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[91]), .A1( n2072), .B0(n2014), .Y(n2043) ); AOI22X1TS U3185 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[81]), .A1( n2071), .B0(Barrel_Shifter_module_Mux_Array_Data_array[89]), .B1(n2072), .Y(n2016) ); NAND2X1TS U3186 ( .A(n2077), .B(n2018), .Y(n2015) ); NAND2X1TS U3187 ( .A(n2035), .B(n2049), .Y(n2024) ); OAI2BB1X1TS U3188 ( .A0N(n1692), .A1N( Barrel_Shifter_module_Mux_Array_Data_array[83]), .B0(n2081), .Y(n2022) ); INVX2TS U3189 ( .A(n2017), .Y(n2019) ); OAI22X1TS U3190 ( .A0(n2020), .A1(n2088), .B0(n2039), .B1(n2052), .Y(n2021) ); AOI211X1TS U3191 ( .A0(n2092), .A1( Barrel_Shifter_module_Mux_Array_Data_array[81]), .B0(n2022), .C0(n2021), .Y(n2023) ); NAND2X1TS U3192 ( .A(n2025), .B(n2058), .Y(n2033) ); INVX2TS U3193 ( .A(n2086), .Y(n2026) ); NOR2X2TS U3194 ( .A(n2026), .B(n2088), .Y(n2063) ); NAND2X1TS U3195 ( .A(n2133), .B(n2082), .Y(n2061) ); AOI21X1TS U3196 ( .A0(n2063), .A1( Barrel_Shifter_module_Mux_Array_Data_array[92]), .B0(n2028), .Y(n2029) ); AOI21X1TS U3197 ( .A0(n2092), .A1( Barrel_Shifter_module_Mux_Array_Data_array[84]), .B0(n2031), .Y(n2032) ); NAND2X1TS U3198 ( .A(n2035), .B(n2058), .Y(n2042) ); AOI21X1TS U3199 ( .A0(n2063), .A1( Barrel_Shifter_module_Mux_Array_Data_array[91]), .B0(n2037), .Y(n2038) ); AOI21X1TS U3200 ( .A0(n2092), .A1( Barrel_Shifter_module_Mux_Array_Data_array[83]), .B0(n2040), .Y(n2041) ); OAI22X1TS U3201 ( .A0(n2060), .A1(n2074), .B0(n2044), .B1(n2972), .Y(n2045) ); AOI21X1TS U3202 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[93]), .A1( n2072), .B0(n2045), .Y(n2070) ); AOI22X1TS U3203 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[79]), .A1( n2071), .B0(Barrel_Shifter_module_Mux_Array_Data_array[87]), .B1(n2072), .Y(n2047) ); NAND2X1TS U3204 ( .A(n2077), .B(n2050), .Y(n2046) ); OAI211X1TS U3205 ( .A0(n2048), .A1(n2074), .B0(n2047), .C0(n2046), .Y(n2059) ); NAND2X1TS U3206 ( .A(n2059), .B(n2049), .Y(n2057) ); OAI2BB1X1TS U3207 ( .A0N(n907), .A1N( Barrel_Shifter_module_Mux_Array_Data_array[85]), .B0(n2081), .Y(n2055) ); OAI22X1TS U3208 ( .A0(n2053), .A1(n2088), .B0(n2066), .B1(n2052), .Y(n2054) ); NAND2X1TS U3209 ( .A(n2059), .B(n906), .Y(n2069) ); OAI2BB2XLTS U3210 ( .B0(n2061), .B1(n2060), .A0N(n907), .A1N( Barrel_Shifter_module_Mux_Array_Data_array[79]), .Y(n2062) ); AOI21X1TS U3211 ( .A0(n2063), .A1( Barrel_Shifter_module_Mux_Array_Data_array[93]), .B0(n2062), .Y(n2064) ); AOI21X1TS U3212 ( .A0(n2092), .A1( Barrel_Shifter_module_Mux_Array_Data_array[85]), .B0(n2067), .Y(n2068) ); AOI22X1TS U3213 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[86]), .A1( n2072), .B0(Barrel_Shifter_module_Mux_Array_Data_array[78]), .B1(n2071), .Y(n2073) ); AOI21X1TS U3214 ( .A0(n2077), .A1(n2085), .B0(n2076), .Y(n2142) ); OAI22X1TS U3215 ( .A0(n2078), .A1(n2956), .B0(n889), .B1(n2886), .Y(n2121) ); NOR2X1TS U3216 ( .A(n2914), .B(n2886), .Y(n2127) ); AOI211X1TS U3217 ( .A0(n2121), .A1(n886), .B0(n2127), .C0(n2080), .Y(n2138) ); OAI22X1TS U3218 ( .A0(n2089), .A1(n920), .B0(n2136), .B1(n2087), .Y(n2090) ); INVX2TS U3219 ( .A(n2597), .Y(n2096) ); OAI2BB2XLTS U3220 ( .B0(n2144), .B1(n3053), .A0N(n2143), .A1N( Barrel_Shifter_module_Mux_Array_Data_array[98]), .Y(n2094) ); AOI211X1TS U3221 ( .A0(n2096), .A1(n2126), .B0(n2095), .C0(n2094), .Y(n2582) ); INVX2TS U3222 ( .A(n2118), .Y(n2150) ); NAND2X1TS U3223 ( .A(n2580), .B(n2150), .Y(n2097) ); INVX2TS U3224 ( .A(n2615), .Y(n2100) ); OAI2BB2XLTS U3225 ( .B0(n2144), .B1(n2971), .A0N(n2143), .A1N( Barrel_Shifter_module_Mux_Array_Data_array[100]), .Y(n2098) ); AOI211X1TS U3226 ( .A0(n2100), .A1(n1025), .B0(n2099), .C0(n2098), .Y(n2576) ); NAND2X1TS U3227 ( .A(n2574), .B(n2150), .Y(n2101) ); INVX2TS U3228 ( .A(n2600), .Y(n2104) ); OAI2BB2XLTS U3229 ( .B0(n2144), .B1(n2970), .A0N(n2143), .A1N( Barrel_Shifter_module_Mux_Array_Data_array[99]), .Y(n2102) ); AOI211X1TS U3230 ( .A0(n2104), .A1(n1025), .B0(n2103), .C0(n2102), .Y(n2579) ); NAND2X1TS U3231 ( .A(n2577), .B(n2150), .Y(n2105) ); INVX2TS U3232 ( .A(n2593), .Y(n2108) ); OAI2BB2XLTS U3233 ( .B0(n2144), .B1(n2974), .A0N(n2143), .A1N( Barrel_Shifter_module_Mux_Array_Data_array[96]), .Y(n2106) ); AOI211X1TS U3234 ( .A0(n2108), .A1(n1025), .B0(n2107), .C0(n2106), .Y(n2589) ); NAND2X1TS U3235 ( .A(n2587), .B(n2150), .Y(n2109) ); INVX2TS U3236 ( .A(n2595), .Y(n2112) ); OAI2BB2XLTS U3237 ( .B0(n2144), .B1(n2973), .A0N(n2143), .A1N( Barrel_Shifter_module_Mux_Array_Data_array[97]), .Y(n2110) ); AOI211X1TS U3238 ( .A0(n2112), .A1(n2126), .B0(n2111), .C0(n2110), .Y(n2586) ); NAND2X1TS U3239 ( .A(n2584), .B(n2150), .Y(n2113) ); INVX2TS U3240 ( .A(n2115), .Y(n2119) ); NAND2X1TS U3241 ( .A(n2116), .B(n2842), .Y(n2117) ); AOI21X1TS U3242 ( .A0(exp_oper_result[4]), .A1( Barrel_Shifter_module_Mux_Array_Data_array[102]), .B0(n2123), .Y(n2124) ); OAI211XLTS U3243 ( .A0(n2132), .A1(n2957), .B0(n2131), .C0(n2130), .Y(n2134) ); AOI22X1TS U3244 ( .A0(n2134), .A1(n2133), .B0( Barrel_Shifter_module_Mux_Array_Data_array[78]), .B1(n1692), .Y(n2140) ); OA22X1TS U3245 ( .A0(n2138), .A1(n2137), .B0(n2136), .B1(n2135), .Y(n2139) ); OAI2BB2XLTS U3246 ( .B0(n2144), .B1(n2972), .A0N(n2143), .A1N( Barrel_Shifter_module_Mux_Array_Data_array[101]), .Y(n2145) ); AOI21X1TS U3247 ( .A0(Barrel_Shifter_module_Mux_Array_Data_array[77]), .A1( n904), .B0(n2145), .Y(n2147) ); AOI21X1TS U3248 ( .A0(n905), .A1( Barrel_Shifter_module_Mux_Array_Data_array[93]), .B0(n2148), .Y(n2571) ); NAND2X1TS U3249 ( .A(n2570), .B(n2150), .Y(n2151) ); AND4X1TS U3250 ( .A(Exp_Operation_Module_Data_S[3]), .B( Exp_Operation_Module_Data_S[2]), .C(Exp_Operation_Module_Data_S[1]), .D(Exp_Operation_Module_Data_S[0]), .Y(n2153) ); AND4X1TS U3251 ( .A(Exp_Operation_Module_Data_S[6]), .B( Exp_Operation_Module_Data_S[5]), .C(Exp_Operation_Module_Data_S[4]), .D(n2153), .Y(n2154) ); AOI21X1TS U3252 ( .A0(n2983), .A1(FS_Module_state_reg[1]), .B0(n2906), .Y( n2157) ); AOI21X1TS U3253 ( .A0(n2158), .A1(n2906), .B0(n2157), .Y( FSM_exp_operation_load_diff) ); OAI22X1TS U3254 ( .A0(n3111), .A1(intDY[55]), .B0(intDY[54]), .B1(n2890), .Y(n2279) ); AOI211X1TS U3255 ( .A0(intDX[52]), .A1(n3042), .B0(n2159), .C0(n2279), .Y( n2281) ); NOR2BX1TS U3256 ( .AN(intDX[56]), .B(intDY[56]), .Y(n2160) ); NOR2X1TS U3257 ( .A(n3058), .B(intDY[57]), .Y(n2233) ); NAND2X1TS U3258 ( .A(n3045), .B(intDX[61]), .Y(n2239) ); OAI211X1TS U3259 ( .A0(intDY[60]), .A1(n2947), .B0(n2243), .C0(n2239), .Y( n2245) ); OAI21X1TS U3260 ( .A0(intDY[58]), .A1(n3112), .B0(n2235), .Y(n2237) ); NOR4X2TS U3261 ( .A(n2160), .B(n2233), .C(n2245), .D(n2237), .Y(n2290) ); NOR2X1TS U3262 ( .A(n2946), .B(intDY[49]), .Y(n2282) ); OAI21X1TS U3263 ( .A0(intDY[50]), .A1(n2943), .B0(n2284), .Y(n2288) ); AOI211X1TS U3264 ( .A0(intDX[48]), .A1(n3032), .B0(n2282), .C0(n2288), .Y( n2161) ); NOR2BX1TS U3265 ( .AN(intDX[39]), .B(intDY[39]), .Y(n2273) ); AOI21X1TS U3266 ( .A0(intDX[38]), .A1(n3051), .B0(n2273), .Y(n2272) ); NOR2X1TS U3267 ( .A(n2945), .B(intDY[45]), .Y(n2247) ); OAI21X1TS U3268 ( .A0(intDY[46]), .A1(n2926), .B0(n2246), .Y(n2256) ); AOI211X2TS U3269 ( .A0(intDX[44]), .A1(n3031), .B0(n2247), .C0(n2256), .Y( n2254) ); OA22X1TS U3270 ( .A0(n2905), .A1(intDY[42]), .B0(n2944), .B1(intDY[43]), .Y( n2252) ); NAND4X1TS U3271 ( .A(n2254), .B(n2252), .C(n2163), .D(n2162), .Y(n2296) ); OA22X1TS U3272 ( .A0(n2895), .A1(intDY[34]), .B0(n2963), .B1(intDY[35]), .Y( n2267) ); OAI2BB2XLTS U3273 ( .B0(intDX[28]), .B1(n2166), .A0N(intDY[29]), .A1N(n2941), .Y(n2175) ); OAI21X1TS U3274 ( .A0(intDY[26]), .A1(n2965), .B0(n2169), .Y(n2228) ); NOR2X1TS U3275 ( .A(n2969), .B(intDY[25]), .Y(n2225) ); AOI22X1TS U3276 ( .A0(n2168), .A1(intDY[24]), .B0(intDY[25]), .B1(n2969), .Y(n2171) ); AOI32X1TS U3277 ( .A0(n2965), .A1(n2169), .A2(intDY[26]), .B0(intDY[27]), .B1(n2903), .Y(n2170) ); OAI32X1TS U3278 ( .A0(n2228), .A1(n2227), .A2(n2171), .B0(n2170), .B1(n2227), .Y(n2174) ); OAI2BB2XLTS U3279 ( .B0(intDX[30]), .B1(n2172), .A0N(intDY[31]), .A1N(n2961), .Y(n2173) ); OAI2BB1X1TS U3280 ( .A0N(n3048), .A1N(intDX[5]), .B0(intDY[4]), .Y(n2179) ); OAI22X1TS U3281 ( .A0(intDX[4]), .A1(n2179), .B0(n3048), .B1(intDX[5]), .Y( n2190) ); OAI2BB1X1TS U3282 ( .A0N(n3046), .A1N(intDX[7]), .B0(intDY[6]), .Y(n2180) ); OAI22X1TS U3283 ( .A0(intDX[6]), .A1(n2180), .B0(n3046), .B1(intDX[7]), .Y( n2189) ); OAI211X1TS U3284 ( .A0(n2966), .A1(intDY[3]), .B0(n2183), .C0(n2182), .Y( n2186) ); AOI222X1TS U3285 ( .A0(intDX[4]), .A1(n923), .B0(intDX[5]), .B1(n3048), .C0( n2186), .C1(n2185), .Y(n2188) ); AOI22X1TS U3286 ( .A0(intDX[7]), .A1(n3046), .B0(intDX[6]), .B1(n2910), .Y( n2187) ); OAI32X1TS U3287 ( .A0(n2190), .A1(n2189), .A2(n2188), .B0(n2187), .B1(n2189), .Y(n2208) ); INVX2TS U3288 ( .A(n2191), .Y(n2198) ); OAI2BB2XLTS U3289 ( .B0(intDX[12]), .B1(n2192), .A0N(intDY[13]), .A1N(n2935), .Y(n2204) ); AOI22X1TS U3290 ( .A0(intDY[11]), .A1(n2923), .B0(intDY[10]), .B1(n2194), .Y(n2200) ); AOI21X1TS U3291 ( .A0(n2197), .A1(n2196), .B0(n2209), .Y(n2199) ); OAI2BB2XLTS U3292 ( .B0(intDX[14]), .B1(n2201), .A0N(intDY[15]), .A1N(n2967), .Y(n2202) ); AOI211X1TS U3293 ( .A0(n2205), .A1(n2204), .B0(n2203), .C0(n2202), .Y(n2206) ); OAI31X1TS U3294 ( .A0(n2209), .A1(n2208), .A2(n2207), .B0(n2206), .Y(n2211) ); NOR2X1TS U3295 ( .A(n2964), .B(intDY[17]), .Y(n2213) ); OAI21X1TS U3296 ( .A0(intDY[18]), .A1(n2968), .B0(n2215), .Y(n2219) ); AOI211X1TS U3297 ( .A0(intDX[16]), .A1(n3006), .B0(n2213), .C0(n2219), .Y( n2210) ); OAI2BB2XLTS U3298 ( .B0(intDX[20]), .B1(n2212), .A0N(intDY[21]), .A1N(n2939), .Y(n2223) ); AOI22X1TS U3299 ( .A0(n2214), .A1(intDY[16]), .B0(intDY[17]), .B1(n2964), .Y(n2217) ); AOI32X1TS U3300 ( .A0(n2968), .A1(n2215), .A2(intDY[18]), .B0(intDY[19]), .B1(n2904), .Y(n2216) ); OAI32X1TS U3301 ( .A0(n2219), .A1(n2218), .A2(n2217), .B0(n2216), .B1(n2218), .Y(n2222) ); OAI2BB2XLTS U3302 ( .B0(intDX[22]), .B1(n2220), .A0N(intDY[23]), .A1N(n3050), .Y(n2221) ); AOI211X1TS U3303 ( .A0(n2224), .A1(n2223), .B0(n2222), .C0(n2221), .Y(n2230) ); NOR2BX1TS U3304 ( .AN(intDX[24]), .B(intDY[24]), .Y(n2226) ); OR4X2TS U3305 ( .A(n2228), .B(n2227), .C(n2226), .D(n2225), .Y(n2229) ); AOI32X1TS U3306 ( .A0(n2232), .A1(n2231), .A2(n2230), .B0(n2229), .B1(n2232), .Y(n2301) ); AOI22X1TS U3307 ( .A0(intDY[57]), .A1(n3058), .B0(intDY[56]), .B1(n2234), .Y(n2238) ); AOI32X1TS U3308 ( .A0(n3112), .A1(n2235), .A2(intDY[58]), .B0(intDY[59]), .B1(n2908), .Y(n2236) ); OA21XLTS U3309 ( .A0(n2238), .A1(n2237), .B0(n2236), .Y(n2244) ); NOR2BX1TS U3310 ( .AN(n2246), .B(intDX[46]), .Y(n2260) ); AOI22X1TS U3311 ( .A0(intDY[45]), .A1(n2945), .B0(intDY[44]), .B1(n2248), .Y(n2257) ); OAI2BB2XLTS U3312 ( .B0(intDX[40]), .B1(n2249), .A0N(intDY[41]), .A1N(n2928), .Y(n2253) ); OAI2BB2XLTS U3313 ( .B0(intDX[42]), .B1(n2250), .A0N(intDY[43]), .A1N(n2944), .Y(n2251) ); AOI32X1TS U3314 ( .A0(n2254), .A1(n2253), .A2(n2252), .B0(n2251), .B1(n2254), .Y(n2255) ); NOR2BX1TS U3315 ( .AN(intDY[47]), .B(intDX[47]), .Y(n2258) ); AOI211X1TS U3316 ( .A0(intDY[46]), .A1(n2260), .B0(n2259), .C0(n2258), .Y( n2297) ); OAI2BB2XLTS U3317 ( .B0(intDX[32]), .B1(n2264), .A0N(intDY[33]), .A1N(n2962), .Y(n2268) ); OAI2BB2XLTS U3318 ( .B0(intDX[34]), .B1(n2265), .A0N(intDY[35]), .A1N(n2963), .Y(n2266) ); AOI32X1TS U3319 ( .A0(n2269), .A1(n2268), .A2(n2267), .B0(n2266), .B1(n2269), .Y(n2270) ); NOR2BX1TS U3320 ( .AN(intDY[39]), .B(intDX[39]), .Y(n2276) ); NOR3X1TS U3321 ( .A(n3051), .B(n2273), .C(intDX[38]), .Y(n2275) ); INVX2TS U3322 ( .A(n2298), .Y(n2274) ); OAI31X1TS U3323 ( .A0(n2277), .A1(n2276), .A2(n2275), .B0(n2274), .Y(n2295) ); AOI22X1TS U3324 ( .A0(intDY[49]), .A1(n2946), .B0(intDY[48]), .B1(n2283), .Y(n2286) ); AOI32X1TS U3325 ( .A0(n2943), .A1(n2284), .A2(intDY[50]), .B0(intDY[51]), .B1(n2909), .Y(n2285) ); OAI32X1TS U3326 ( .A0(n2288), .A1(n2287), .A2(n2286), .B0(n2285), .B1(n2287), .Y(n2292) ); OAI2BB2XLTS U3327 ( .B0(intDX[54]), .B1(n2289), .A0N(intDY[55]), .A1N(n3111), .Y(n2291) ); OAI31X1TS U3328 ( .A0(n2293), .A1(n2292), .A2(n2291), .B0(n2290), .Y(n2294) ); INVX4TS U3329 ( .A(n2634), .Y(n2639) ); AOI21X1TS U3330 ( .A0(n2639), .A1(n2554), .B0(intDX[63]), .Y(n2304) ); OAI2BB2XLTS U3331 ( .B0(n2304), .B1(n3110), .A0N(intDX[63]), .A1N(n2569), .Y(n3113) ); XNOR2X1TS U3332 ( .A(add_subt), .B(Data_Y[63]), .Y(n3057) ); INVX2TS U3333 ( .A(n2305), .Y(n2306) ); NAND2X1TS U3334 ( .A(n2307), .B(n2306), .Y(n2308) ); XNOR2X1TS U3335 ( .A(n2309), .B(n2308), .Y(Add_Subt_Sgf_module_S_to_D[54]) ); INVX2TS U3336 ( .A(n2310), .Y(n2312) ); NAND2X1TS U3337 ( .A(n2312), .B(n2311), .Y(n2313) ); NAND2X1TS U3338 ( .A(n2316), .B(n2315), .Y(n2317) ); XNOR2X1TS U3339 ( .A(n2318), .B(n2317), .Y(Add_Subt_Sgf_module_S_to_D[52]) ); INVX2TS U3340 ( .A(n2319), .Y(n2321) ); NAND2X1TS U3341 ( .A(n2321), .B(n2320), .Y(n2322) ); NAND2X1TS U3342 ( .A(n2325), .B(n2324), .Y(n2326) ); XNOR2X1TS U3343 ( .A(n2327), .B(n2326), .Y(Add_Subt_Sgf_module_S_to_D[50]) ); INVX2TS U3344 ( .A(n2328), .Y(n2330) ); NAND2X1TS U3345 ( .A(n2330), .B(n2329), .Y(n2331) ); NAND2X1TS U3346 ( .A(n2334), .B(n2333), .Y(n2335) ); XNOR2X1TS U3347 ( .A(n2336), .B(n2335), .Y(Add_Subt_Sgf_module_S_to_D[48]) ); INVX2TS U3348 ( .A(n2337), .Y(n2339) ); NAND2X1TS U3349 ( .A(n2339), .B(n2338), .Y(n2340) ); INVX2TS U3350 ( .A(n2344), .Y(n2346) ); NAND2X1TS U3351 ( .A(n2346), .B(n2345), .Y(n2347) ); XNOR2X1TS U3352 ( .A(n2348), .B(n2347), .Y(Add_Subt_Sgf_module_S_to_D[46]) ); INVX2TS U3353 ( .A(n2349), .Y(n2352) ); INVX2TS U3354 ( .A(n2350), .Y(n2351) ); NAND2X1TS U3355 ( .A(n2355), .B(n2354), .Y(n2356) ); XNOR2X1TS U3356 ( .A(n2357), .B(n2356), .Y(Add_Subt_Sgf_module_S_to_D[45]) ); NAND2X1TS U3357 ( .A(n2359), .B(n2358), .Y(n2360) ); XNOR2X1TS U3358 ( .A(n2361), .B(n2360), .Y(Add_Subt_Sgf_module_S_to_D[41]) ); INVX2TS U3359 ( .A(n2362), .Y(n2371) ); INVX2TS U3360 ( .A(n2370), .Y(n2363) ); AOI21X1TS U3361 ( .A0(n2364), .A1(n2371), .B0(n2363), .Y(n2369) ); INVX2TS U3362 ( .A(n2365), .Y(n2367) ); NAND2X1TS U3363 ( .A(n2367), .B(n2366), .Y(n2368) ); NAND2X1TS U3364 ( .A(n2371), .B(n2370), .Y(n2372) ); NAND2X1TS U3365 ( .A(n2375), .B(n2374), .Y(n2376) ); XNOR2X1TS U3366 ( .A(n2377), .B(n2376), .Y(Add_Subt_Sgf_module_S_to_D[37]) ); NAND2X1TS U3367 ( .A(n2379), .B(n2378), .Y(n2380) ); XNOR2X1TS U3368 ( .A(n2381), .B(n2380), .Y(Add_Subt_Sgf_module_S_to_D[33]) ); INVX2TS U3369 ( .A(n2382), .Y(n2384) ); NAND2X1TS U3370 ( .A(n2384), .B(n2383), .Y(n2385) ); XNOR2X1TS U3371 ( .A(n2386), .B(n2385), .Y(Add_Subt_Sgf_module_S_to_D[32]) ); INVX2TS U3372 ( .A(n2387), .Y(n2389) ); NAND2X1TS U3373 ( .A(n2389), .B(n2388), .Y(n2390) ); INVX2TS U3374 ( .A(n2395), .Y(n2398) ); INVX2TS U3375 ( .A(n2396), .Y(n2397) ); AOI21X2TS U3376 ( .A0(n2444), .A1(n2398), .B0(n2397), .Y(n2411) ); INVX2TS U3377 ( .A(n2411), .Y(n2421) ); AOI21X2TS U3378 ( .A0(n2421), .A1(n2400), .B0(n2399), .Y(n2410) ); INVX2TS U3379 ( .A(n2401), .Y(n2403) ); NAND2X1TS U3380 ( .A(n2403), .B(n2402), .Y(n2404) ); XNOR2X1TS U3381 ( .A(n2405), .B(n2404), .Y(Add_Subt_Sgf_module_S_to_D[30]) ); INVX2TS U3382 ( .A(n2406), .Y(n2408) ); NAND2X1TS U3383 ( .A(n2408), .B(n2407), .Y(n2409) ); INVX2TS U3384 ( .A(n2412), .Y(n2414) ); NAND2X1TS U3385 ( .A(n2414), .B(n2413), .Y(n2415) ); XNOR2X1TS U3386 ( .A(n2416), .B(n2415), .Y(Add_Subt_Sgf_module_S_to_D[28]) ); INVX2TS U3387 ( .A(n2417), .Y(n2419) ); NAND2X1TS U3388 ( .A(n2419), .B(n2418), .Y(n2420) ); XNOR2X1TS U3389 ( .A(n2421), .B(n2420), .Y(Add_Subt_Sgf_module_S_to_D[27]) ); AOI21X1TS U3390 ( .A0(n2444), .A1(n2423), .B0(n2422), .Y(n2433) ); INVX2TS U3391 ( .A(n2424), .Y(n2426) ); NAND2X1TS U3392 ( .A(n2426), .B(n2425), .Y(n2427) ); XNOR2X1TS U3393 ( .A(n2428), .B(n2427), .Y(Add_Subt_Sgf_module_S_to_D[26]) ); INVX2TS U3394 ( .A(n2429), .Y(n2431) ); NAND2X1TS U3395 ( .A(n2431), .B(n2430), .Y(n2432) ); INVX2TS U3396 ( .A(n2435), .Y(n2437) ); NAND2X1TS U3397 ( .A(n2437), .B(n2436), .Y(n2438) ); XNOR2X1TS U3398 ( .A(n2439), .B(n2438), .Y(Add_Subt_Sgf_module_S_to_D[24]) ); INVX2TS U3399 ( .A(n2440), .Y(n2442) ); NAND2X1TS U3400 ( .A(n2442), .B(n2441), .Y(n2443) ); XNOR2X1TS U3401 ( .A(n2444), .B(n2443), .Y(Add_Subt_Sgf_module_S_to_D[23]) ); INVX2TS U3402 ( .A(n2445), .Y(n2448) ); INVX2TS U3403 ( .A(n2446), .Y(n2447) ); INVX2TS U3404 ( .A(n2461), .Y(n2471) ); AOI21X1TS U3405 ( .A0(n2471), .A1(n2450), .B0(n2449), .Y(n2460) ); INVX2TS U3406 ( .A(n2451), .Y(n2453) ); NAND2X1TS U3407 ( .A(n2453), .B(n2452), .Y(n2454) ); XNOR2X1TS U3408 ( .A(n2455), .B(n2454), .Y(Add_Subt_Sgf_module_S_to_D[22]) ); INVX2TS U3409 ( .A(n2456), .Y(n2458) ); NAND2X1TS U3410 ( .A(n2458), .B(n2457), .Y(n2459) ); INVX2TS U3411 ( .A(n2462), .Y(n2464) ); NAND2X1TS U3412 ( .A(n2464), .B(n2463), .Y(n2465) ); XNOR2X1TS U3413 ( .A(n2466), .B(n2465), .Y(Add_Subt_Sgf_module_S_to_D[20]) ); INVX2TS U3414 ( .A(n2467), .Y(n2469) ); NAND2X1TS U3415 ( .A(n2469), .B(n2468), .Y(n2470) ); XNOR2X1TS U3416 ( .A(n2471), .B(n2470), .Y(Add_Subt_Sgf_module_S_to_D[19]) ); AOI21X1TS U3417 ( .A0(n2494), .A1(n2473), .B0(n2472), .Y(n2483) ); INVX2TS U3418 ( .A(n2474), .Y(n2476) ); NAND2X1TS U3419 ( .A(n2476), .B(n2475), .Y(n2477) ); XNOR2X1TS U3420 ( .A(n2478), .B(n2477), .Y(Add_Subt_Sgf_module_S_to_D[18]) ); INVX2TS U3421 ( .A(n2479), .Y(n2481) ); NAND2X1TS U3422 ( .A(n2481), .B(n2480), .Y(n2482) ); INVX2TS U3423 ( .A(n2484), .Y(n2492) ); INVX2TS U3424 ( .A(n2491), .Y(n2485) ); AOI21X1TS U3425 ( .A0(n2494), .A1(n2492), .B0(n2485), .Y(n2490) ); INVX2TS U3426 ( .A(n2486), .Y(n2488) ); NAND2X1TS U3427 ( .A(n2488), .B(n2487), .Y(n2489) ); NAND2X1TS U3428 ( .A(n2492), .B(n2491), .Y(n2493) ); XNOR2X1TS U3429 ( .A(n2494), .B(n2493), .Y(Add_Subt_Sgf_module_S_to_D[15]) ); NAND2X1TS U3430 ( .A(n2496), .B(n2495), .Y(n2497) ); XNOR2X1TS U3431 ( .A(n2498), .B(n2497), .Y(Add_Subt_Sgf_module_S_to_D[13]) ); NAND2X1TS U3432 ( .A(n2500), .B(n2499), .Y(n2501) ); XNOR2X1TS U3433 ( .A(n2502), .B(n2501), .Y(Add_Subt_Sgf_module_S_to_D[9]) ); INVX2TS U3434 ( .A(n2503), .Y(n2505) ); NAND2X1TS U3435 ( .A(n2505), .B(n2504), .Y(n2506) ); XNOR2X1TS U3436 ( .A(n2507), .B(n2506), .Y(Add_Subt_Sgf_module_S_to_D[8]) ); INVX2TS U3437 ( .A(n2508), .Y(n2510) ); NAND2X1TS U3438 ( .A(n2510), .B(n2509), .Y(n2511) ); INVX2TS U3439 ( .A(n2513), .Y(n2536) ); AOI21X1TS U3440 ( .A0(n2536), .A1(n2515), .B0(n2514), .Y(n2525) ); INVX2TS U3441 ( .A(n2516), .Y(n2518) ); NAND2X1TS U3442 ( .A(n2518), .B(n2517), .Y(n2519) ); XNOR2X1TS U3443 ( .A(n2520), .B(n2519), .Y(Add_Subt_Sgf_module_S_to_D[6]) ); INVX2TS U3444 ( .A(n2521), .Y(n2523) ); NAND2X1TS U3445 ( .A(n2523), .B(n2522), .Y(n2524) ); INVX2TS U3446 ( .A(n2526), .Y(n2534) ); INVX2TS U3447 ( .A(n2533), .Y(n2527) ); AOI21X1TS U3448 ( .A0(n2536), .A1(n2534), .B0(n2527), .Y(n2532) ); INVX2TS U3449 ( .A(n2528), .Y(n2530) ); NAND2X1TS U3450 ( .A(n2530), .B(n2529), .Y(n2531) ); NAND2X1TS U3451 ( .A(n2534), .B(n2533), .Y(n2535) ); XNOR2X1TS U3452 ( .A(n2536), .B(n2535), .Y(Add_Subt_Sgf_module_S_to_D[3]) ); INVX2TS U3453 ( .A(n2537), .Y(n2546) ); NAND2X1TS U3454 ( .A(n2539), .B(n2538), .Y(n2540) ); INVX2TS U3455 ( .A(n2541), .Y(n2543) ); NAND2X1TS U3456 ( .A(n2543), .B(n2542), .Y(n2544) ); XNOR2X1TS U3457 ( .A(n2545), .B(n2544), .Y(Add_Subt_Sgf_module_S_to_D[2]) ); XNOR2X1TS U3458 ( .A(n2549), .B(n2548), .Y(Add_Subt_Sgf_module_S_to_D[0]) ); INVX2TS U3459 ( .A(n2550), .Y(n2552) ); NOR2X1TS U3460 ( .A(FSM_selector_C), .B(n2883), .Y(n2618) ); OR4X2TS U3461 ( .A(n2552), .B(n2551), .C(n2618), .D( FSM_exp_operation_load_diff), .Y(FS_Module_state_next[2]) ); NAND2X1TS U3462 ( .A(n2906), .B(n2555), .Y(n2556) ); NAND2X1TS U3463 ( .A(n2623), .B(n2920), .Y(n866) ); MXI2X1TS U3464 ( .A(n2909), .B(n3033), .S0(n2562), .Y( Oper_Start_in_module_intM[51]) ); MXI2X1TS U3465 ( .A(n2943), .B(n3030), .S0(n2563), .Y( Oper_Start_in_module_intM[50]) ); MXI2X1TS U3466 ( .A(n2946), .B(n3029), .S0(n2564), .Y( Oper_Start_in_module_intM[49]) ); MXI2X1TS U3467 ( .A(n2927), .B(n3032), .S0(n2563), .Y( Oper_Start_in_module_intM[48]) ); MXI2X1TS U3468 ( .A(n2888), .B(n3036), .S0(n2563), .Y( Oper_Start_in_module_intM[47]) ); MXI2X1TS U3469 ( .A(n2926), .B(n3027), .S0(n2563), .Y( Oper_Start_in_module_intM[46]) ); MXI2X1TS U3470 ( .A(n2945), .B(n3028), .S0(n2638), .Y( Oper_Start_in_module_intM[45]) ); MXI2X1TS U3471 ( .A(n2925), .B(n3031), .S0(n2563), .Y( Oper_Start_in_module_intM[44]) ); OAI2BB1X1TS U3472 ( .A0N(FSM_Add_Subt_Sgf_load), .A1N(n2906), .B0(n3023), .Y(n867) ); MXI2X1TS U3473 ( .A(n2917), .B(add_overflow_flag), .S0(n2561), .Y(n865) ); MXI2X1TS U3474 ( .A(n887), .B(n3044), .S0(n2638), .Y( Oper_Start_in_module_intM[62]) ); BUFX3TS U3475 ( .A(n2563), .Y(n2564) ); MXI2X1TS U3476 ( .A(n888), .B(n3045), .S0(n2564), .Y( Oper_Start_in_module_intM[61]) ); BUFX3TS U3477 ( .A(n2563), .Y(n2562) ); MXI2X1TS U3478 ( .A(n2947), .B(n3038), .S0(n2562), .Y( Oper_Start_in_module_intM[60]) ); MXI2X1TS U3479 ( .A(n2908), .B(n3043), .S0(n2563), .Y( Oper_Start_in_module_intM[59]) ); MXI2X1TS U3480 ( .A(n3112), .B(n3040), .S0(n2562), .Y( Oper_Start_in_module_intM[58]) ); MXI2X1TS U3481 ( .A(n3058), .B(n3037), .S0(n2564), .Y( Oper_Start_in_module_intM[57]) ); MXI2X1TS U3482 ( .A(n2889), .B(n3041), .S0(n2562), .Y( Oper_Start_in_module_intM[56]) ); MXI2X1TS U3483 ( .A(n3111), .B(n3019), .S0(n2564), .Y( Oper_Start_in_module_intM[55]) ); MXI2X1TS U3484 ( .A(n2890), .B(n3039), .S0(n2562), .Y( Oper_Start_in_module_intM[54]) ); MXI2X1TS U3485 ( .A(n2948), .B(n3018), .S0(n2564), .Y( Oper_Start_in_module_intM[53]) ); MXI2X1TS U3486 ( .A(n2929), .B(n3042), .S0(n2562), .Y( Oper_Start_in_module_intM[52]) ); BUFX3TS U3487 ( .A(n2563), .Y(n2566) ); MXI2X1TS U3488 ( .A(n3044), .B(n887), .S0(n2566), .Y( Oper_Start_in_module_intm[62]) ); BUFX3TS U3489 ( .A(n2563), .Y(n2565) ); MXI2X1TS U3490 ( .A(n3045), .B(n888), .S0(n2565), .Y( Oper_Start_in_module_intm[61]) ); MXI2X1TS U3491 ( .A(n3038), .B(n2947), .S0(n2566), .Y( Oper_Start_in_module_intm[60]) ); MXI2X1TS U3492 ( .A(n3043), .B(n2908), .S0(n2565), .Y( Oper_Start_in_module_intm[59]) ); MXI2X1TS U3493 ( .A(n3040), .B(n3112), .S0(n2564), .Y( Oper_Start_in_module_intm[58]) ); MXI2X1TS U3494 ( .A(n3037), .B(n3058), .S0(n2565), .Y( Oper_Start_in_module_intm[57]) ); MXI2X1TS U3495 ( .A(n3041), .B(n2889), .S0(n2566), .Y( Oper_Start_in_module_intm[56]) ); MXI2X1TS U3496 ( .A(n3019), .B(n3111), .S0(n2565), .Y( Oper_Start_in_module_intm[55]) ); MXI2X1TS U3497 ( .A(n3039), .B(n2890), .S0(n2566), .Y( Oper_Start_in_module_intm[54]) ); MXI2X1TS U3498 ( .A(n3018), .B(n2948), .S0(n2565), .Y( Oper_Start_in_module_intm[53]) ); MXI2X1TS U3499 ( .A(n3042), .B(n2929), .S0(n2566), .Y( Oper_Start_in_module_intm[52]) ); INVX2TS U3500 ( .A(n2649), .Y(n2567) ); MXI2X1TS U3501 ( .A(n2568), .B(n2567), .S0(n2863), .Y( Barrel_Shifter_module_Mux_Array_Data_array[54]) ); MXI2X1TS U3502 ( .A(n2944), .B(n3016), .S0(n2639), .Y( Oper_Start_in_module_intM[43]) ); MXI2X1TS U3503 ( .A(n2905), .B(n3034), .S0(n2639), .Y( Oper_Start_in_module_intM[42]) ); MXI2X1TS U3504 ( .A(n2928), .B(n3017), .S0(n2639), .Y( Oper_Start_in_module_intM[41]) ); MXI2X1TS U3505 ( .A(n2885), .B(n3035), .S0(n2639), .Y( Oper_Start_in_module_intM[40]) ); INVX2TS U3506 ( .A(n2570), .Y(n2572) ); OAI22X1TS U3507 ( .A0(n2572), .A1(n916), .B0(n2859), .B1(n2571), .Y( Barrel_Shifter_module_Data_Reg[22]) ); INVX2TS U3508 ( .A(n2573), .Y(n2859) ); INVX2TS U3509 ( .A(n2574), .Y(n2575) ); OAI22X1TS U3510 ( .A0(n2576), .A1(n2616), .B0(n2575), .B1(n916), .Y( Barrel_Shifter_module_Data_Reg[21]) ); INVX2TS U3511 ( .A(n2577), .Y(n2578) ); OAI22X1TS U3512 ( .A0(n2579), .A1(n1265), .B0(n2578), .B1(n916), .Y( Barrel_Shifter_module_Data_Reg[20]) ); INVX2TS U3513 ( .A(n2580), .Y(n2581) ); OAI22X1TS U3514 ( .A0(n2582), .A1(n2744), .B0(n2581), .B1(n916), .Y( Barrel_Shifter_module_Data_Reg[19]) ); INVX2TS U3515 ( .A(n2584), .Y(n2585) ); OAI22X1TS U3516 ( .A0(n2586), .A1(n896), .B0(n2585), .B1(n916), .Y( Barrel_Shifter_module_Data_Reg[18]) ); INVX2TS U3517 ( .A(n2587), .Y(n2588) ); OAI22X1TS U3518 ( .A0(n2589), .A1(n1265), .B0(n2588), .B1(n916), .Y( Barrel_Shifter_module_Data_Reg[17]) ); OAI22X1TS U3519 ( .A0(n2592), .A1(n896), .B0(n2591), .B1(n916), .Y( Barrel_Shifter_module_Data_Reg[6]) ); OAI22X1TS U3520 ( .A0(n2594), .A1(n895), .B0(n2593), .B1(n915), .Y( Barrel_Shifter_module_Data_Reg[5]) ); OAI22X1TS U3521 ( .A0(n2596), .A1(n895), .B0(n2595), .B1(n915), .Y( Barrel_Shifter_module_Data_Reg[4]) ); OAI22X1TS U3522 ( .A0(n2598), .A1(n2616), .B0(n2597), .B1(n915), .Y( Barrel_Shifter_module_Data_Reg[3]) ); OAI22X1TS U3523 ( .A0(n2601), .A1(n896), .B0(n2600), .B1(n915), .Y( Barrel_Shifter_module_Data_Reg[2]) ); OAI22X1TS U3524 ( .A0(n2603), .A1(n1909), .B0(n915), .B1(n2602), .Y( Barrel_Shifter_module_Data_Reg[0]) ); OAI21XLTS U3525 ( .A0(Add_Subt_result[2]), .A1(n2605), .B0(n2604), .Y(n2609) ); OAI21XLTS U3526 ( .A0(Add_Subt_result[14]), .A1(n2607), .B0(n2606), .Y(n2608) ); OAI22X1TS U3527 ( .A0(n2617), .A1(n2744), .B0(n2615), .B1(n916), .Y( Barrel_Shifter_module_Data_Reg[1]) ); NOR3BX1TS U3528 ( .AN(n2619), .B(n2618), .C(FSM_Final_Result_load), .Y(n2622) ); AOI211X1TS U3529 ( .A0(FS_Module_state_reg[0]), .A1(FSM_Add_Subt_Sgf_load), .B0(n873), .C0(n871), .Y(n2621) ); CLKBUFX2TS U3530 ( .A(n1236), .Y(n2880) ); BUFX3TS U3531 ( .A(n2880), .Y(n2625) ); BUFX3TS U3532 ( .A(n2880), .Y(n2879) ); BUFX3TS U3533 ( .A(n2880), .Y(n2624) ); BUFX3TS U3534 ( .A(n1236), .Y(n2626) ); NAND2X1TS U3535 ( .A(n2628), .B(n2627), .Y( final_result_ieee_Module_Exp_S_mux[4]) ); AOI21X1TS U3536 ( .A0(n2911), .A1(n3056), .B0(overflow_flag), .Y( final_result_ieee_Module_Sign_S_mux) ); AOI22X1TS U3537 ( .A0(n2634), .A1(n2907), .B0(n2958), .B1(n2633), .Y( Oper_Start_in_module_intm[0]) ); AOI22X1TS U3538 ( .A0(n2632), .A1(n3049), .B0(n2933), .B1(n2639), .Y( Oper_Start_in_module_intm[1]) ); AOI22X1TS U3539 ( .A0(n2632), .A1(n3015), .B0(n2900), .B1(n2639), .Y( Oper_Start_in_module_intm[2]) ); AOI22X1TS U3540 ( .A0(n2634), .A1(n2984), .B0(n2966), .B1(n2639), .Y( Oper_Start_in_module_intm[3]) ); AOI22X1TS U3541 ( .A0(n2632), .A1(n923), .B0(n2938), .B1(n2639), .Y( Oper_Start_in_module_intm[4]) ); BUFX3TS U3542 ( .A(n2632), .Y(n2630) ); AOI22X1TS U3543 ( .A0(n2630), .A1(n3048), .B0(n2892), .B1(n2629), .Y( Oper_Start_in_module_intm[5]) ); AOI22X1TS U3544 ( .A0(n2630), .A1(n2910), .B0(n2932), .B1(n2629), .Y( Oper_Start_in_module_intm[6]) ); AOI22X1TS U3545 ( .A0(n2630), .A1(n3046), .B0(n2891), .B1(n2629), .Y( Oper_Start_in_module_intm[7]) ); AOI22X1TS U3546 ( .A0(n2630), .A1(n2993), .B0(n2959), .B1(n2629), .Y( Oper_Start_in_module_intm[8]) ); AOI22X1TS U3547 ( .A0(n2630), .A1(n3009), .B0(n2896), .B1(n2629), .Y( Oper_Start_in_module_intm[9]) ); AOI22X1TS U3548 ( .A0(n2630), .A1(n3047), .B0(n2887), .B1(n2629), .Y( Oper_Start_in_module_intm[10]) ); AOI22X1TS U3549 ( .A0(n2630), .A1(n2995), .B0(n2923), .B1(n2629), .Y( Oper_Start_in_module_intm[11]) ); AOI22X1TS U3550 ( .A0(n2630), .A1(n2992), .B0(n2936), .B1(n2629), .Y( Oper_Start_in_module_intm[12]) ); AOI22X1TS U3551 ( .A0(n2630), .A1(n2988), .B0(n2935), .B1(n2629), .Y( Oper_Start_in_module_intm[13]) ); AOI22X1TS U3552 ( .A0(n2630), .A1(n3012), .B0(n2901), .B1(n2629), .Y( Oper_Start_in_module_intm[14]) ); BUFX3TS U3553 ( .A(n2632), .Y(n2631) ); AOI22X1TS U3554 ( .A0(n2631), .A1(n2989), .B0(n2967), .B1(n2566), .Y( Oper_Start_in_module_intm[15]) ); AOI22X1TS U3555 ( .A0(n2631), .A1(n3006), .B0(n2937), .B1(n2564), .Y( Oper_Start_in_module_intm[16]) ); AOI22X1TS U3556 ( .A0(n2631), .A1(n3002), .B0(n2964), .B1(n2565), .Y( Oper_Start_in_module_intm[17]) ); AOI22X1TS U3557 ( .A0(n2631), .A1(n3001), .B0(n2968), .B1(n2566), .Y( Oper_Start_in_module_intm[18]) ); AOI22X1TS U3558 ( .A0(n2631), .A1(n3011), .B0(n2904), .B1(n2565), .Y( Oper_Start_in_module_intm[19]) ); AOI22X1TS U3559 ( .A0(n2631), .A1(n3000), .B0(n2942), .B1(n2564), .Y( Oper_Start_in_module_intm[20]) ); AOI22X1TS U3560 ( .A0(n2631), .A1(n2990), .B0(n2939), .B1(n2562), .Y( Oper_Start_in_module_intm[21]) ); AOI22X1TS U3561 ( .A0(n2631), .A1(n3013), .B0(n2902), .B1(n2566), .Y( Oper_Start_in_module_intm[22]) ); AOI22X1TS U3562 ( .A0(n2631), .A1(n2930), .B0(n3050), .B1(n2562), .Y( Oper_Start_in_module_intm[23]) ); AOI22X1TS U3563 ( .A0(n2631), .A1(n3003), .B0(n2898), .B1(n2565), .Y( Oper_Start_in_module_intm[24]) ); BUFX3TS U3564 ( .A(n2632), .Y(n2640) ); AOI22X1TS U3565 ( .A0(n2640), .A1(n3005), .B0(n2969), .B1(n2633), .Y( Oper_Start_in_module_intm[25]) ); AOI22X1TS U3566 ( .A0(n2640), .A1(n2998), .B0(n2965), .B1(n2633), .Y( Oper_Start_in_module_intm[26]) ); AOI22X1TS U3567 ( .A0(n2640), .A1(n3014), .B0(n2903), .B1(n2633), .Y( Oper_Start_in_module_intm[27]) ); AOI22X1TS U3568 ( .A0(n2640), .A1(n2997), .B0(n2940), .B1(n2633), .Y( Oper_Start_in_module_intm[28]) ); AOI22X1TS U3569 ( .A0(n2640), .A1(n2991), .B0(n2941), .B1(n2633), .Y( Oper_Start_in_module_intm[29]) ); AOI22X1TS U3570 ( .A0(n2640), .A1(n3010), .B0(n2899), .B1(n2633), .Y( Oper_Start_in_module_intm[30]) ); AOI22X1TS U3571 ( .A0(n2640), .A1(n2986), .B0(n2961), .B1(n2633), .Y( Oper_Start_in_module_intm[31]) ); AOI22X1TS U3572 ( .A0(n2640), .A1(n3007), .B0(n2894), .B1(n2633), .Y( Oper_Start_in_module_intm[32]) ); AOI22X1TS U3573 ( .A0(n2640), .A1(n2985), .B0(n2962), .B1(n2633), .Y( Oper_Start_in_module_intm[33]) ); BUFX3TS U3574 ( .A(n2634), .Y(n2636) ); AOI22X1TS U3575 ( .A0(n2636), .A1(n3004), .B0(n2895), .B1(n2635), .Y( Oper_Start_in_module_intm[34]) ); AOI22X1TS U3576 ( .A0(n2636), .A1(n2987), .B0(n2963), .B1(n2635), .Y( Oper_Start_in_module_intm[35]) ); AOI22X1TS U3577 ( .A0(n2636), .A1(n2994), .B0(n2960), .B1(n2635), .Y( Oper_Start_in_module_intm[36]) ); AOI22X1TS U3578 ( .A0(n2636), .A1(n924), .B0(n2934), .B1(n2635), .Y( Oper_Start_in_module_intm[37]) ); AOI22X1TS U3579 ( .A0(n2636), .A1(n3051), .B0(n2893), .B1(n2635), .Y( Oper_Start_in_module_intm[38]) ); AOI22X1TS U3580 ( .A0(n2636), .A1(n3008), .B0(n2897), .B1(n2635), .Y( Oper_Start_in_module_intm[39]) ); AOI22X1TS U3581 ( .A0(n2636), .A1(n3035), .B0(n2885), .B1(n2635), .Y( Oper_Start_in_module_intm[40]) ); AOI22X1TS U3582 ( .A0(n2636), .A1(n3017), .B0(n2928), .B1(n2635), .Y( Oper_Start_in_module_intm[41]) ); AOI22X1TS U3583 ( .A0(n2636), .A1(n3034), .B0(n2905), .B1(n2635), .Y( Oper_Start_in_module_intm[42]) ); AOI22X1TS U3584 ( .A0(n2636), .A1(n3016), .B0(n2944), .B1(n2635), .Y( Oper_Start_in_module_intm[43]) ); INVX2TS U3585 ( .A(n2637), .Y(n2638) ); AOI22X1TS U3586 ( .A0(n2569), .A1(n3031), .B0(n2925), .B1(n2638), .Y( Oper_Start_in_module_intm[44]) ); AOI22X1TS U3587 ( .A0(n2637), .A1(n3028), .B0(n2945), .B1(n2638), .Y( Oper_Start_in_module_intm[45]) ); AOI22X1TS U3588 ( .A0(n2637), .A1(n3027), .B0(n2926), .B1(n2638), .Y( Oper_Start_in_module_intm[46]) ); AOI22X1TS U3589 ( .A0(n2637), .A1(n3036), .B0(n2888), .B1(n2638), .Y( Oper_Start_in_module_intm[47]) ); AOI22X1TS U3590 ( .A0(n2637), .A1(n3032), .B0(n2927), .B1(n2638), .Y( Oper_Start_in_module_intm[48]) ); AOI22X1TS U3591 ( .A0(n2303), .A1(n3029), .B0(n2946), .B1(n2638), .Y( Oper_Start_in_module_intm[49]) ); AOI22X1TS U3592 ( .A0(n2637), .A1(n3030), .B0(n2943), .B1(n2638), .Y( Oper_Start_in_module_intm[50]) ); AOI22X1TS U3593 ( .A0(n2640), .A1(n3033), .B0(n2909), .B1(n2639), .Y( Oper_Start_in_module_intm[51]) ); NAND2X1TS U3594 ( .A(n2678), .B(n2684), .Y(n2644) ); NAND2X1TS U3595 ( .A(n2680), .B(n2687), .Y(n2643) ); NAND2X1TS U3596 ( .A(n2669), .B(n2641), .Y(n2642) ); BUFX3TS U3597 ( .A(n2645), .Y(n2840) ); AOI22X1TS U3598 ( .A0(n2649), .A1(n2840), .B0(n2851), .B1(n2673), .Y(n2646) ); OAI221XLTS U3599 ( .A0(n2676), .A1(n2647), .B0(n2711), .B1(n2675), .C0(n2646), .Y(Barrel_Shifter_module_Mux_Array_Data_array[48]) ); BUFX3TS U3600 ( .A(n2648), .Y(n2853) ); AOI22X1TS U3601 ( .A0(n2649), .A1(n2853), .B0(n2833), .B1(n2673), .Y(n2650) ); OAI221XLTS U3602 ( .A0(n2676), .A1(n2652), .B0(n1558), .B1(n2651), .C0(n2650), .Y(Barrel_Shifter_module_Mux_Array_Data_array[47]) ); NAND2X1TS U3603 ( .A(n2666), .B(n2668), .Y(n2656) ); NAND2X1TS U3604 ( .A(n2653), .B(n2687), .Y(n2655) ); NAND2X1TS U3605 ( .A(n2667), .B(n2695), .Y(n2654) ); AOI22X1TS U3606 ( .A0(n2703), .A1(n2684), .B0(n2853), .B1(n2657), .Y(n2658) ); OAI221XLTS U3607 ( .A0(n2676), .A1(n2659), .B0(n1558), .B1(n2686), .C0(n2658), .Y(Barrel_Shifter_module_Mux_Array_Data_array[46]) ); NAND2X1TS U3608 ( .A(n1890), .B(n2695), .Y(n2662) ); NAND2X1TS U3609 ( .A(n2679), .B(n2668), .Y(n2661) ); NAND2X1TS U3610 ( .A(n1889), .B(n2700), .Y(n2660) ); AOI22X1TS U3611 ( .A0(n2833), .A1(n2687), .B0(n2781), .B1(n2663), .Y(n2664) ); OAI221XLTS U3612 ( .A0(n2676), .A1(n2665), .B0(n2711), .B1(n2691), .C0(n2664), .Y(Barrel_Shifter_module_Mux_Array_Data_array[45]) ); NAND2X1TS U3613 ( .A(n2666), .B(n2700), .Y(n2672) ); NAND2X1TS U3614 ( .A(n1889), .B(n2688), .Y(n2671) ); NAND2X1TS U3615 ( .A(n2669), .B(n2668), .Y(n2670) ); AOI22X1TS U3616 ( .A0(n2832), .A1(n2695), .B0(n2870), .B1(n2673), .Y(n2674) ); OAI221XLTS U3617 ( .A0(n2676), .A1(n2675), .B0(n1558), .B1(n2694), .C0(n2674), .Y(Barrel_Shifter_module_Mux_Array_Data_array[44]) ); NAND2X1TS U3618 ( .A(n2666), .B(n2677), .Y(n2683) ); NAND2X1TS U3619 ( .A(n2679), .B(n2688), .Y(n2682) ); NAND2X1TS U3620 ( .A(n2667), .B(n2696), .Y(n2681) ); AOI22X1TS U3621 ( .A0(n2703), .A1(n2700), .B0(n2701), .B1(n2684), .Y(n2685) ); OAI221XLTS U3622 ( .A0(n2708), .A1(n2686), .B0(n2706), .B1(n2707), .C0(n2685), .Y(Barrel_Shifter_module_Mux_Array_Data_array[42]) ); AOI22X1TS U3623 ( .A0(n2833), .A1(n2688), .B0(n2781), .B1(n2687), .Y(n2689) ); OAI221XLTS U3624 ( .A0(n2708), .A1(n2691), .B0(n2706), .B1(n2690), .C0(n2689), .Y(Barrel_Shifter_module_Mux_Array_Data_array[41]) ); AOI22X1TS U3625 ( .A0(n2832), .A1(n2696), .B0(n2870), .B1(n2695), .Y(n2692) ); OAI221XLTS U3626 ( .A0(n2708), .A1(n2694), .B0(n2706), .B1(n2693), .C0(n2692), .Y(Barrel_Shifter_module_Mux_Array_Data_array[40]) ); AOI22X1TS U3627 ( .A0(n2703), .A1(n2696), .B0(n2701), .B1(n2695), .Y(n2697) ); OAI221XLTS U3628 ( .A0(n2708), .A1(n2699), .B0(n2706), .B1(n2698), .C0(n2697), .Y(Barrel_Shifter_module_Mux_Array_Data_array[39]) ); AOI22X1TS U3629 ( .A0(n2703), .A1(n2702), .B0(n2701), .B1(n2700), .Y(n2704) ); OAI221XLTS U3630 ( .A0(n2708), .A1(n2707), .B0(n2706), .B1(n2705), .C0(n2704), .Y(Barrel_Shifter_module_Mux_Array_Data_array[38]) ); AOI22X1TS U3631 ( .A0(n2870), .A1(n2709), .B0(n2865), .B1(n2746), .Y(n2716) ); AOI22X1TS U3632 ( .A0(n2833), .A1(n2731), .B0(n2850), .B1(n2752), .Y(n2715) ); AOI22X1TS U3633 ( .A0(n2851), .A1(n2738), .B0(n2781), .B1(n2710), .Y(n2714) ); NAND2X1TS U3634 ( .A(n2712), .B(n2711), .Y(n2713) ); AOI22X1TS U3635 ( .A0(n2865), .A1(n2752), .B0(n909), .B1(n2717), .Y(n2718) ); OAI31X1TS U3636 ( .A0(n2726), .A1(n2725), .A2(n2719), .B0(n2718), .Y(n2722) ); AOI22X1TS U3637 ( .A0(n2833), .A1(n2738), .B0(n2850), .B1(n2759), .Y(n2721) ); AOI22X1TS U3638 ( .A0(n2851), .A1(n2746), .B0(n913), .B1(n2731), .Y(n2720) ); AOI22X1TS U3639 ( .A0(n2851), .A1(n2752), .B0(n2850), .B1(n2767), .Y(n2723) ); AOI22X1TS U3640 ( .A0(n914), .A1(n2738), .B0(n910), .B1(n2731), .Y(n2728) ); AOI22X1TS U3641 ( .A0(n2833), .A1(n2746), .B0(n2865), .B1(n2759), .Y(n2727) ); AOI22X1TS U3642 ( .A0(n914), .A1(n2752), .B0(n911), .B1(n2746), .Y(n2735) ); AOI22X1TS U3643 ( .A0(n2840), .A1(n2738), .B0(n2839), .B1(n2773), .Y(n2734) ); AOI22X1TS U3644 ( .A0(n896), .A1(Add_Subt_result[36]), .B0(n2764), .B1( DmP[16]), .Y(n2730) ); OAI2BB1X2TS U3645 ( .A0N(Add_Subt_result[18]), .A1N(n2806), .B0(n2730), .Y( n2780) ); AOI22X1TS U3646 ( .A0(n2844), .A1(n2767), .B0(n2850), .B1(n2780), .Y(n2733) ); AOI22X1TS U3647 ( .A0(n2874), .A1(n2731), .B0(n2872), .B1(n2759), .Y(n2732) ); AOI22X1TS U3648 ( .A0(n913), .A1(n2759), .B0(n910), .B1(n2752), .Y(n2742) ); AOI22X1TS U3649 ( .A0(n2870), .A1(n2746), .B0(n2865), .B1(n2780), .Y(n2741) ); AOI22X1TS U3650 ( .A0(n2744), .A1(Add_Subt_result[37]), .B0(DmP[15]), .B1( n2736), .Y(n2737) ); OAI2BB1X2TS U3651 ( .A0N(Add_Subt_result[17]), .A1N(n2806), .B0(n2737), .Y( n2788) ); AOI22X1TS U3652 ( .A0(n2832), .A1(n2773), .B0(n2863), .B1(n2788), .Y(n2740) ); AOI22X1TS U3653 ( .A0(n2781), .A1(n2738), .B0(n2872), .B1(n2767), .Y(n2739) ); AOI22X1TS U3654 ( .A0(n914), .A1(n2767), .B0(n911), .B1(n2759), .Y(n2750) ); AOI22X1TS U3655 ( .A0(n2840), .A1(n2752), .B0(n2839), .B1(n2788), .Y(n2749) ); AOI22X1TS U3656 ( .A0(n896), .A1(Add_Subt_result[38]), .B0(n2764), .B1( DmP[14]), .Y(n2745) ); OAI2BB1X2TS U3657 ( .A0N(Add_Subt_result[16]), .A1N(n2806), .B0(n2745), .Y( n2794) ); AOI22X1TS U3658 ( .A0(n2844), .A1(n2780), .B0(n2743), .B1(n2794), .Y(n2748) ); AOI22X1TS U3659 ( .A0(n2854), .A1(n2773), .B0(n2853), .B1(n2746), .Y(n2747) ); AOI22X1TS U3660 ( .A0(n913), .A1(n2773), .B0(n910), .B1(n2767), .Y(n2756) ); AOI22X1TS U3661 ( .A0(n2870), .A1(n2759), .B0(n2865), .B1(n2794), .Y(n2755) ); AOI22X1TS U3662 ( .A0(n2859), .A1(Add_Subt_result[39]), .B0(n2764), .B1( DmP[13]), .Y(n2751) ); OAI21X4TS U3663 ( .A0(n2787), .A1(n2999), .B0(n2751), .Y(n2800) ); AOI22X1TS U3664 ( .A0(n2832), .A1(n2788), .B0(n2863), .B1(n2800), .Y(n2754) ); AOI22X1TS U3665 ( .A0(n2874), .A1(n2752), .B0(n2872), .B1(n2780), .Y(n2753) ); AOI22X1TS U3666 ( .A0(n913), .A1(n2780), .B0(n910), .B1(n2773), .Y(n2763) ); AOI22X1TS U3667 ( .A0(n2870), .A1(n2767), .B0(n2757), .B1(n2800), .Y(n2762) ); AOI22X1TS U3668 ( .A0(n2616), .A1(Add_Subt_result[40]), .B0(n2764), .B1( DmP[12]), .Y(n2758) ); OAI2BB1X2TS U3669 ( .A0N(Add_Subt_result[14]), .A1N(n2806), .B0(n2758), .Y( n2807) ); AOI22X1TS U3670 ( .A0(n2844), .A1(n2794), .B0(n2743), .B1(n2807), .Y(n2761) ); AOI22X1TS U3671 ( .A0(n2854), .A1(n2788), .B0(n2853), .B1(n2759), .Y(n2760) ); AOI22X1TS U3672 ( .A0(n914), .A1(n2788), .B0(n911), .B1(n2780), .Y(n2771) ); AOI22X1TS U3673 ( .A0(n2840), .A1(n2773), .B0(n2839), .B1(n2807), .Y(n2770) ); AOI22X1TS U3674 ( .A0(n1265), .A1(Add_Subt_result[41]), .B0(n2764), .B1( DmP[11]), .Y(n2765) ); OAI21X4TS U3675 ( .A0(n2766), .A1(n3026), .B0(n2765), .Y(n2813) ); AOI22X1TS U3676 ( .A0(n2844), .A1(n2800), .B0(n2743), .B1(n2813), .Y(n2769) ); AOI22X1TS U3677 ( .A0(n2874), .A1(n2767), .B0(n2872), .B1(n2794), .Y(n2768) ); AOI22X1TS U3678 ( .A0(n913), .A1(n2794), .B0(n910), .B1(n2788), .Y(n2777) ); AOI22X1TS U3679 ( .A0(n2645), .A1(n2780), .B0(n2757), .B1(n2813), .Y(n2776) ); AOI22X1TS U3680 ( .A0(n2616), .A1(Add_Subt_result[42]), .B0(n2841), .B1( DmP[10]), .Y(n2772) ); OAI2BB1X2TS U3681 ( .A0N(Add_Subt_result[12]), .A1N(n2806), .B0(n2772), .Y( n2820) ); AOI22X1TS U3682 ( .A0(n2844), .A1(n2807), .B0(n2743), .B1(n2820), .Y(n2775) ); AOI22X1TS U3683 ( .A0(n2854), .A1(n2800), .B0(n2853), .B1(n2773), .Y(n2774) ); AOI22X1TS U3684 ( .A0(n913), .A1(n2800), .B0(n910), .B1(n2794), .Y(n2785) ); AOI22X1TS U3685 ( .A0(n2840), .A1(n2788), .B0(n2839), .B1(n2820), .Y(n2784) ); AOI22X1TS U3686 ( .A0(n1909), .A1(Add_Subt_result[43]), .B0(n2841), .B1( DmP[9]), .Y(n2778) ); OAI21X4TS U3687 ( .A0(n2787), .A1(n3020), .B0(n2778), .Y(n2826) ); AOI22X1TS U3688 ( .A0(n2844), .A1(n2813), .B0(n2743), .B1(n2826), .Y(n2783) ); AOI22X1TS U3689 ( .A0(n2781), .A1(n2780), .B0(n2779), .B1(n2807), .Y(n2782) ); AOI22X1TS U3690 ( .A0(n914), .A1(n2807), .B0(n911), .B1(n2800), .Y(n2792) ); AOI22X1TS U3691 ( .A0(n2645), .A1(n2794), .B0(n2757), .B1(n2826), .Y(n2791) ); AOI22X1TS U3692 ( .A0(n896), .A1(Add_Subt_result[44]), .B0(n2841), .B1( DmP[8]), .Y(n2786) ); OAI21X4TS U3693 ( .A0(n2787), .A1(n2996), .B0(n2786), .Y(n2834) ); AOI22X1TS U3694 ( .A0(n2844), .A1(n2820), .B0(n2743), .B1(n2834), .Y(n2790) ); AOI22X1TS U3695 ( .A0(n2854), .A1(n2813), .B0(n2853), .B1(n2788), .Y(n2789) ); AOI22X1TS U3696 ( .A0(n914), .A1(n2813), .B0(n910), .B1(n2807), .Y(n2798) ); AOI22X1TS U3697 ( .A0(n2645), .A1(n2800), .B0(n2757), .B1(n2834), .Y(n2797) ); AOI22X1TS U3698 ( .A0(n2859), .A1(Add_Subt_result[45]), .B0(DmP[7]), .B1( n2818), .Y(n2793) ); OAI2BB1X2TS U3699 ( .A0N(Add_Subt_result[9]), .A1N(n2806), .B0(n2793), .Y( n2845) ); AOI22X1TS U3700 ( .A0(n2832), .A1(n2826), .B0(n2863), .B1(n2845), .Y(n2796) ); AOI22X1TS U3701 ( .A0(n2874), .A1(n2794), .B0(n2872), .B1(n2820), .Y(n2795) ); AOI22X1TS U3702 ( .A0(n914), .A1(n2820), .B0(n911), .B1(n2813), .Y(n2804) ); AOI22X1TS U3703 ( .A0(n2840), .A1(n2807), .B0(n2839), .B1(n2845), .Y(n2803) ); AOI22X1TS U3704 ( .A0(n2842), .A1(Add_Subt_result[46]), .B0(DmP[6]), .B1( n2818), .Y(n2799) ); OAI2BB1X2TS U3705 ( .A0N(Add_Subt_result[8]), .A1N(n2806), .B0(n2799), .Y( n2852) ); AOI22X1TS U3706 ( .A0(n2832), .A1(n2834), .B0(n2863), .B1(n2852), .Y(n2802) ); AOI22X1TS U3707 ( .A0(n2874), .A1(n2800), .B0(n2872), .B1(n2826), .Y(n2801) ); AOI22X1TS U3708 ( .A0(n913), .A1(n2826), .B0(n911), .B1(n2820), .Y(n2811) ); AOI22X1TS U3709 ( .A0(n2840), .A1(n2813), .B0(n2839), .B1(n2852), .Y(n2810) ); AOI22X1TS U3710 ( .A0(n2842), .A1(Add_Subt_result[47]), .B0(n2841), .B1( DmP[5]), .Y(n2805) ); OAI2BB1X2TS U3711 ( .A0N(Add_Subt_result[7]), .A1N(n2806), .B0(n2805), .Y( n2873) ); AOI22X1TS U3712 ( .A0(n2832), .A1(n2845), .B0(n2863), .B1(n2873), .Y(n2809) ); AOI22X1TS U3713 ( .A0(n2874), .A1(n2807), .B0(n2833), .B1(n2834), .Y(n2808) ); AOI22X1TS U3714 ( .A0(n914), .A1(n2834), .B0(n911), .B1(n2826), .Y(n2817) ); AOI22X1TS U3715 ( .A0(n2645), .A1(n2820), .B0(n2757), .B1(n2873), .Y(n2816) ); AOI22X1TS U3716 ( .A0(n2842), .A1(Add_Subt_result[48]), .B0(n2841), .B1( DmP[4]), .Y(n2812) ); OAI2BB1X2TS U3717 ( .A0N(Add_Subt_result[6]), .A1N(n2860), .B0(n2812), .Y( n2869) ); AOI22X1TS U3718 ( .A0(n2832), .A1(n2852), .B0(n2863), .B1(n2869), .Y(n2815) ); AOI22X1TS U3719 ( .A0(n2854), .A1(n2845), .B0(n2853), .B1(n2813), .Y(n2814) ); AOI22X1TS U3720 ( .A0(n912), .A1(n2845), .B0(n909), .B1(n2834), .Y(n2824) ); AOI22X1TS U3721 ( .A0(n2645), .A1(n2826), .B0(n2757), .B1(n2869), .Y(n2823) ); AOI22X1TS U3722 ( .A0(n2842), .A1(Add_Subt_result[49]), .B0(DmP[3]), .B1( n2818), .Y(n2819) ); OAI2BB1X2TS U3723 ( .A0N(Add_Subt_result[5]), .A1N(n2860), .B0(n2819), .Y( n2861) ); AOI22X1TS U3724 ( .A0(n2851), .A1(n2873), .B0(n2863), .B1(n2861), .Y(n2822) ); AOI22X1TS U3725 ( .A0(n2854), .A1(n2852), .B0(n2853), .B1(n2820), .Y(n2821) ); AOI22X1TS U3726 ( .A0(n912), .A1(n2852), .B0(n909), .B1(n2845), .Y(n2830) ); AOI22X1TS U3727 ( .A0(n2840), .A1(n2834), .B0(n2839), .B1(n2861), .Y(n2829) ); AOI22X1TS U3728 ( .A0(n2842), .A1(Add_Subt_result[50]), .B0(n2841), .B1( DmP[2]), .Y(n2825) ); OAI2BB1X2TS U3729 ( .A0N(Add_Subt_result[4]), .A1N(n2860), .B0(n2825), .Y( n2866) ); AOI22X1TS U3730 ( .A0(n2844), .A1(n2869), .B0(n2743), .B1(n2866), .Y(n2828) ); AOI22X1TS U3731 ( .A0(n2874), .A1(n2826), .B0(n2872), .B1(n2873), .Y(n2827) ); AOI22X1TS U3732 ( .A0(n912), .A1(n2873), .B0(n909), .B1(n2852), .Y(n2838) ); AOI22X1TS U3733 ( .A0(n2840), .A1(n2845), .B0(n2839), .B1(n2866), .Y(n2837) ); AOI22X1TS U3734 ( .A0(n2842), .A1(Add_Subt_result[51]), .B0(n2841), .B1( DmP[1]), .Y(n2831) ); OAI2BB1X1TS U3735 ( .A0N(Add_Subt_result[3]), .A1N(n2860), .B0(n2831), .Y( n2871) ); AOI22X1TS U3736 ( .A0(n2832), .A1(n2861), .B0(n2850), .B1(n2871), .Y(n2836) ); AOI22X1TS U3737 ( .A0(n2874), .A1(n2834), .B0(n2833), .B1(n2869), .Y(n2835) ); AOI22X1TS U3738 ( .A0(n912), .A1(n2869), .B0(n909), .B1(n2873), .Y(n2849) ); AOI22X1TS U3739 ( .A0(n2840), .A1(n2852), .B0(n2839), .B1(n2871), .Y(n2848) ); AOI22X1TS U3740 ( .A0(n2842), .A1(Add_Subt_result[52]), .B0(n2841), .B1( DmP[0]), .Y(n2843) ); OAI2BB1X1TS U3741 ( .A0N(Add_Subt_result[2]), .A1N(n2860), .B0(n2843), .Y( n2867) ); AOI22X1TS U3742 ( .A0(n2844), .A1(n2866), .B0(n2850), .B1(n2867), .Y(n2847) ); AOI22X1TS U3743 ( .A0(n2854), .A1(n2861), .B0(n2853), .B1(n2845), .Y(n2846) ); AOI22X1TS U3744 ( .A0(n912), .A1(n2861), .B0(n910), .B1(n2869), .Y(n2858) ); AOI22X1TS U3745 ( .A0(n2645), .A1(n2873), .B0(n2865), .B1(n2867), .Y(n2857) ); AOI22X1TS U3746 ( .A0(n2851), .A1(n2871), .B0(n2850), .B1(n2864), .Y(n2856) ); AOI22X1TS U3747 ( .A0(n2854), .A1(n2866), .B0(n2853), .B1(n2852), .Y(n2855) ); AOI22X1TS U3748 ( .A0(n2863), .A1(n2862), .B0(n911), .B1(n2861), .Y(n2878) ); AOI22X1TS U3749 ( .A0(n912), .A1(n2866), .B0(n2865), .B1(n2864), .Y(n2877) ); AOI22X1TS U3750 ( .A0(n2870), .A1(n2869), .B0(n2868), .B1(n2867), .Y(n2876) ); AOI22X1TS U3751 ( .A0(n2874), .A1(n2873), .B0(n2872), .B1(n2871), .Y(n2875) ); CLKBUFX2TS U3752 ( .A(n2880), .Y(n2881) ); INVX2TS U3754 ( .A(ack_FSM), .Y(n2882) ); NAND2X1TS U3755 ( .A(n2884), .B(n2883), .Y(FSM_barrel_shifter_load) ); initial $sdf_annotate("FPU_Add_Subtract_Function_ASIC_fpu_syn_constraints_clk10.tcl_GATED_syn.sdf"); endmodule

module header // Internal signals // // Generated Signal List // wire bidi_pad_di; wire bidi_pad_do; wire bidi_pad_en; wire ext0_pad_di; wire ext1_pad_do; wire ext2_pad_do; wire vec_in_0_pad_di; wire vec_in_1_pad_di; wire vec_in_2_pad_di; wire vec_in_3_pad_di; wire vec_in_4_pad_di; wire vec_in_5_pad_di; wire vec_in_6_pad_di; wire vec_in_7_pad_di; wire vec_out_0_pad_do; wire vec_out_1_pad_do; wire vec_out_2_pad_do; wire vec_out_3_pad_do; // // End of Generated Signal List // // %COMPILER_OPTS% // // Generated Signal Assignments // // // Generated Instances and Port Mappings // // Generated Instance Port Map for lp_bs_i1 lp_bs lp_bs_i1 ( // LP bs .bidi_pad_di(bidi_pad_di), // from EXTERNALPAD <-> Iocell connect (IO) .bidi_pad_do(bidi_pad_do), // to EXTERNALPAD <-> Iocell connect (IO) .bidi_pad_en(bidi_pad_en), // to EXTERNALPAD <-> Iocell connect (IO) .ext0_pad_di(ext0_pad_di), // from EXTERNALPAD <-> Iocell connect (IO) .ext1_pad_do(ext1_pad_do), // from bluePAD <-> Iocell connect (IO) .ext2_pad_do(ext2_pad_do), // from bluePAD <-> Iocell connect (IO) .vec_in_0_pad_di(vec_in_0_pad_di), // testPAD <-> Iocell connect (IO) .vec_in_1_pad_di(vec_in_1_pad_di), // testPAD <-> Iocell connect (IO) .vec_in_2_pad_di(vec_in_2_pad_di), // testPAD <-> Iocell connect (IO) .vec_in_3_pad_di(vec_in_3_pad_di), // testPAD <-> Iocell connect (IO) .vec_in_4_pad_di(vec_in_4_pad_di), // testPAD <-> Iocell connect (IO) .vec_in_5_pad_di(vec_in_5_pad_di), // testPAD <-> Iocell connect (IO) .vec_in_6_pad_di(vec_in_6_pad_di), // testPAD <-> Iocell connect (IO) .vec_in_7_pad_di(vec_in_7_pad_di), // testPAD <-> Iocell connect (IO) .vec_out_0_pad_do(vec_out_0_pad_do), // testPAD <-> Iocell connect (IO) .vec_out_1_pad_do(vec_out_1_pad_do), // testPAD <-> Iocell connect (IO) .vec_out_2_pad_do(vec_out_2_pad_do), // testPAD <-> Iocell connect (IO) .vec_out_3_pad_do(vec_out_3_pad_do) // testPAD <-> Iocell connect (IO) ); // End of Generated Instance Port Map for lp_bs_i1 // Generated Instance Port Map for lp_padframe_i1 lp_padframe lp_padframe_i1 ( // LP padframe .bidi(bidi), // PAD <-> Iocell connect (IO) .bidi_pad_di(bidi_pad_di), // from EXTERNALPAD <-> Iocell connect (IO) .bidi_pad_do(bidi_pad_do), // to EXTERNALPAD <-> Iocell connect (IO) .bidi_pad_en(bidi_pad_en), // to EXTERNALPAD <-> Iocell connect (IO) .ext0(ext0), // PAD <-> Iocell connect (IO) .ext0_pad_di(ext0_pad_di), // from EXTERNALPAD <-> Iocell connect (IO) .ext1(ext1), // PAD <-> Iocell connect (IO) .ext1_pad_do(ext1_pad_do), // from bluePAD <-> Iocell connect (IO) .ext2(ext2), // PAD <-> Iocell connect (IO) .ext2_pad_do(ext2_pad_do), // from bluePAD <-> Iocell connect (IO) .vec_in_0(vec_in_0), // PAD <-> Iocell connect (IO) .vec_in_0_pad_di(vec_in_0_pad_di), // testPAD <-> Iocell connect (IO) .vec_in_1(vec_in_1), // PAD <-> Iocell connect (IO) .vec_in_1_pad_di(vec_in_1_pad_di), // testPAD <-> Iocell connect (IO) .vec_in_2(vec_in_2), // PAD <-> Iocell connect (IO) .vec_in_2_pad_di(vec_in_2_pad_di), // testPAD <-> Iocell connect (IO) .vec_in_3(vec_in_3), // PAD <-> Iocell connect (IO) .vec_in_3_pad_di(vec_in_3_pad_di), // testPAD <-> Iocell connect (IO) .vec_in_4(vec_in_4), // PAD <-> Iocell connect (IO) .vec_in_4_pad_di(vec_in_4_pad_di), // testPAD <-> Iocell connect (IO) .vec_in_5(vec_in_5), // PAD <-> Iocell connect (IO) .vec_in_5_pad_di(vec_in_5_pad_di), // testPAD <-> Iocell connect (IO) .vec_in_6(vec_in_6), // PAD <-> Iocell connect (IO) .vec_in_6_pad_di(vec_in_6_pad_di), // testPAD <-> Iocell connect (IO) .vec_in_7(vec_in_7), // PAD <-> Iocell connect (IO) .vec_in_7_pad_di(vec_in_7_pad_di), // testPAD <-> Iocell connect (IO) .vec_out_0(vec_out_0), // PAD <-> Iocell connect (IO) .vec_out_0_pad_do(vec_out_0_pad_do), // testPAD <-> Iocell connect (IO) .vec_out_1(vec_out_1), // PAD <-> Iocell connect (IO) .vec_out_1_pad_do(vec_out_1_pad_do), // testPAD <-> Iocell connect (IO) .vec_out_2(vec_out_2), // PAD <-> Iocell connect (IO) .vec_out_2_pad_do(vec_out_2_pad_do), // testPAD <-> Iocell connect (IO) .vec_out_3(vec_out_3), // PAD <-> Iocell connect (IO) .vec_out_3_pad_do(vec_out_3_pad_do) // testPAD <-> Iocell connect (IO) ); // End of Generated Instance Port Map for lp_padframe_i1 endmodule

module alu_testbench (); reg [15:0] A, B; reg [4:0] Op; reg Swap; wire [15:0] Q; wire Carry, Zero, Sign; BitsliceALU DUT (A, B, Op, Q, Flags); task test_vector; input [4:0] testOp; input [15:0] testA, testB; input [15:0] expectQ; input expectCarry, expectZero, expectMinus1; begin $display($time, "M=%b, S=%h, Cn=%b, A = %h, B = %h", testOp, testSwap, testA, testB); A = testA; B = testB; Op = testOp; Swap = testSwap; #10 if ( (Q==expectQ) && (Carry==expectCarry) && (Zero==expectZero) && (Minus1==expectMinus1) ) $display($time, " passed."); else begin if (Q != expectQ) $display($time, " ... FAILED with Q = %h", Q); if (Carry != expectCarry) $display($time, " ... FAILED with Carry = %h", Carry); if (Zero != expectZero) $display($time, " ... FAILED with Zero = %h", Zero); if (Minus1 != expectMinus1) $display($time, " ... FAILED with Minus1 = %h", Minus1); end end endtask initial begin $display($time, " ##### Testing addition... #####"); // MSSSS AAAA BBBB QQQQ C Z M1 #10 test_vector(5'b01001,1'b1,16'h4444,16'h2345,16'h8967,1'b0,1'b0,1'b0); #10 test_vector(5'b01001,1'b0,16'hf00f,16'hc7c8,16'hb7d7,1'b1,1'b0,1'b0); #10 test_vector(5'b01001,1'b1,16'h3cc3,16'h7cc7,16'h8ab9,1'b0,1'b0,1'b0); #10 test_vector(5'b01001,1'b0,16'hff00,16'h0100,16'h0000,1'b1,1'b1,1'b0); #10 test_vector(5'b01001,1'b1,16'h0000,16'h0000,16'h0000,1'b0,1'b1,1'b0); #10 test_vector(5'b01001,1'b0,16'h7777,16'h8888,16'hffff,1'b0,1'b0,1'b1); end endmodule

module sky130_fd_sc_ls__o32a ( X , A1, A2, A3, B1, B2 ); // Module ports output X ; input A1; input A2; input A3; input B1; input B2; // Module supplies supply1 VPWR; supply0 VGND; supply1 VPB ; supply0 VNB ; // Local signals wire or0_out ; wire or1_out ; wire and0_out_X; // Name Output Other arguments or or0 (or0_out , A2, A1, A3 ); or or1 (or1_out , B2, B1 ); and and0 (and0_out_X, or0_out, or1_out); buf buf0 (X , and0_out_X ); endmodule

module fpu_div_exp_dp ( inq_in1, inq_in2, d1stg_step, d234stg_fdiv, div_expadd1_in1_dbl, div_expadd1_in1_sng, div_expadd1_in2_exp_in2_dbl, div_expadd1_in2_exp_in2_sng, d3stg_fdiv, d4stg_fdiv, div_shl_cnt, div_exp1_expadd1, div_exp1_0835, div_exp1_0118, div_exp1_zero, div_exp1_load, div_expadd2_in1_exp_out, d5stg_fdiva, d5stg_fdivd, d5stg_fdivs, d6stg_fdiv, d7stg_fdiv, div_expadd2_no_decr_inv, div_expadd2_cin, div_exp_out_expadd2, div_exp_out_expadd22_inv, div_exp_out_of, d7stg_to_0_inv, d7stg_fdivd, div_exp_out_exp_out, d7stg_rndup_inv, div_frac_add_52_inv, div_exp_out_load, fdiv_clken_l, rclk, div_exp1, div_expadd2_12, div_exp_out, div_exp_outa, se, si, so ); input [62:52] inq_in1; // request operand 1 to op pipes input [62:52] inq_in2; // request operand 2 to op pipes input d1stg_step; // divide pipe load input d234stg_fdiv; // select line to div_expadd1 input div_expadd1_in1_dbl; // select line to div_expadd1 input div_expadd1_in1_sng; // select line to div_expadd1 input div_expadd1_in2_exp_in2_dbl; // select line to div_expadd1 input div_expadd1_in2_exp_in2_sng; //select line to div_expadd1 input d3stg_fdiv; // divide operation- divide stage 3 input d4stg_fdiv; // divide operation- divide stage 4 input [5:0] div_shl_cnt; // divide left shift amount input div_exp1_expadd1; // select line to div_exp1 input div_exp1_0835; // select line to div_exp1 input div_exp1_0118; // select line to div_exp1 input div_exp1_zero; // select line to div_exp1 input div_exp1_load; // load enable to div_exp1 input div_expadd2_in1_exp_out; // select line to div_expadd2 input d5stg_fdiva; // divide operation- divide stage 5 input d5stg_fdivd; // divide double- divide stage 5 input d5stg_fdivs; // divide single- divide stage 5 input d6stg_fdiv; // divide operation- divide stage 6 input d7stg_fdiv; // divide operation- divide stage 7 input div_expadd2_no_decr_inv; // no exponent decrement input div_expadd2_cin; // carry in to 2nd exponent adder input div_exp_out_expadd2; // select line to div_exp_out input div_exp_out_expadd22_inv; // select line to div_exp_out input div_exp_out_of; // overflow to exponent output input d7stg_to_0_inv; // result to infinity on overflow input d7stg_fdivd; // divide double- divide stage 7 input div_exp_out_exp_out; // select line to div_exp_out input d7stg_rndup_inv; // no rounding increment input div_frac_add_52_inv; // div_frac_add bit[52] inverted input div_exp_out_load; // load enable to div_exp_out input fdiv_clken_l; // div pipe clk enable - asserted low input rclk; // global clock output [12:0] div_exp1; // divide exponent- intermediate value output div_expadd2_12; // divide exponent- 2nd adder output output [12:0] div_exp_out; // divide exponent output output [10:0] div_exp_outa; // divide exponent output- buffered copy input se; // scan_enable input si; // scan in output so; // scan out wire [10:0] div_exp_in1; wire [10:0] div_exp_in2; wire [12:0] div_expadd1_in1; wire [12:0] div_expadd1_in2; wire [12:0] div_expadd1; wire [12:0] div_exp1_in; wire [12:0] div_exp1; wire [12:0] div_expadd2_in1; wire [12:0] div_expadd2_in2; wire [12:0] div_expadd2; wire div_expadd2_12; wire [12:0] div_exp_out_in; wire [12:0] div_exp_out; wire [10:0] div_exp_outa; wire se_l; assign se_l = ~se; clken_buf ckbuf_div_exp_dp ( .clk(clk), .rclk(rclk), .enb_l(fdiv_clken_l), .tmb_l(se_l) ); /////////////////////////////////////////////////////////////////////////////// // // Divide exponent inputs. // /////////////////////////////////////////////////////////////////////////////// dffe #(11) i_div_exp_in1 ( .din (inq_in1[62:52]), .en (d1stg_step), .clk (clk), .q (div_exp_in1[10:0]), .se (se), .si (), .so () ); dffe #(11) i_div_exp_in2 ( .din (inq_in2[62:52]), .en (d1stg_step), .clk (clk), .q (div_exp_in2[10:0]), .se (se), .si (), .so () ); /////////////////////////////////////////////////////////////////////////////// // // Divide exponent adder in the front end of the divide pipe. // /////////////////////////////////////////////////////////////////////////////// assign div_expadd1_in1[12:0]= ({13{d234stg_fdiv}} & div_exp1[12:0]) | ({13{div_expadd1_in1_dbl}} & {2'b0, div_exp_in1[10:0]}) | ({13{div_expadd1_in1_sng}} & {5'b0, div_exp_in1[10:3]}); assign div_expadd1_in2[12:0]= ({13{div_expadd1_in1_dbl}} & 13'h0436) | ({13{div_expadd1_in1_sng}} & 13'h0099) | ({13{div_expadd1_in2_exp_in2_dbl}} & (~{2'b0, div_exp_in2[10:0]})) | ({13{div_expadd1_in2_exp_in2_sng}} & (~{5'b0, div_exp_in2[10:3]})) | ({13{d3stg_fdiv}} & (~{7'b0, div_shl_cnt[5:0]})) | ({13{d4stg_fdiv}} & {7'b0, div_shl_cnt[5:0]}); assign div_expadd1[12:0]= (div_expadd1_in1[12:0] + div_expadd1_in2[12:0]); assign div_exp1_in[12:0]= ({13{div_exp1_expadd1}} & div_expadd1[12:0]) | ({13{div_exp1_0835}} & 13'h0835) | ({13{div_exp1_0118}} & 13'h0118) | ({13{div_exp1_zero}} & 13'h0000); dffe #(13) i_div_exp1 ( .din (div_exp1_in[12:0]), .en (div_exp1_load), .clk (clk), .q (div_exp1[12:0]), .se (se), .si (), .so () ); /////////////////////////////////////////////////////////////////////////////// // // Divide exponent adder in the back end of the divide pipe. // /////////////////////////////////////////////////////////////////////////////// assign div_expadd2_in1[12:0]= ({13{div_expadd2_in1_exp_out}} & div_exp_out[12:0]) | ({13{d5stg_fdiva}} & div_exp1[12:0]); assign div_expadd2_in2[12:0]= ({13{d5stg_fdiva}} & {7'h7f, d5stg_fdivs, 1'b0, d5stg_fdivd, d5stg_fdivs, 1'b1, d5stg_fdivs}) | ({13{d6stg_fdiv}} & {13{div_expadd2_no_decr_inv}}) | ({13{d7stg_fdiv}} & 13'h0000); assign div_expadd2[12:0]= (div_expadd2_in1[12:0] + div_expadd2_in2[12:0] + {12'b0, div_expadd2_cin}); assign div_expadd2_12 = div_expadd2[12]; assign div_exp_out_in[12:0]= ({13{(div_exp_out_expadd2 && (!(div_frac_add_52_inv && div_exp_out_expadd22_inv)))}} & div_expadd2[12:0]) | ({13{div_exp_out_of}} & {2'b00, {3{d7stg_fdivd}}, 7'h7f, d7stg_to_0_inv}) | ({13{(div_exp_out_exp_out && (div_frac_add_52_inv || d7stg_rndup_inv))}} & div_exp_out[12:0]); dffe #(13) i_div_exp_out ( .din (div_exp_out_in[12:0]), .en (div_exp_out_load), .clk (clk), .q (div_exp_out[12:0]), .se (se), .si (), .so () ); assign div_exp_outa[10:0]= div_exp_out[10:0]; endmodule

module axi_spi_test; // Inputs reg clk_i; reg reset_n_i; reg awvalid_i; reg [27:0] awaddr_i; reg awprot_i; reg wvalid_i; reg [31:0] wdata_i; reg [3:0] wstrb_i; reg bready_i; reg arvalid_i; reg [27:0] araddr_i; reg [2:0] arprot_i; reg rready_i; reg spi_miso_i; // Outputs wire awready_o; wire wready_o; wire bvalid_o; wire [1:0] bresp_o; wire arready_o; wire rvalid_o; wire [31:0] rdata_o; wire [1:0] rresp_o; wire [3:0] spi_ssel_o; wire spi_sck_o; wire spi_mosi_o; // Instantiate the Unit Under Test (UUT) axi_spi_if uut ( .clk_i(clk_i), .reset_n_i(reset_n_i), .awvalid_i(awvalid_i), .awready_o(awready_o), .awaddr_i(awaddr_i), .awprot_i(awprot_i), .wvalid_i(wvalid_i), .wready_o(wready_o), .wdata_i(wdata_i), .wstrb_i(wstrb_i), .bvalid_o(bvalid_o), .bready_i(bready_i), .bresp_o(bresp_o), .arvalid_i(arvalid_i), .arready_o(arready_o), .araddr_i(araddr_i), .arprot_i(arprot_i), .rvalid_o(rvalid_o), .rready_i(rready_i), .rdata_o(rdata_o), .rresp_o(rresp_o), .spi_ssel_o(spi_ssel_o), .spi_sck_o(spi_sck_o), .spi_mosi_o(spi_mosi_o), .spi_miso_i(spi_miso_i) ); initial begin // Initialize Inputs clk_i = 0; reset_n_i = 0; awvalid_i = 0; awaddr_i = 0; awprot_i = 0; wvalid_i = 0; wdata_i = 0; wstrb_i = 0; bready_i = 0; arvalid_i = 0; araddr_i = 0; arprot_i = 0; rready_i = 0; spi_miso_i = 0; // Wait 100 ns for global reset to finish #100; // Add stimulus here reset_n_i = 1; spi_miso_i = 1; /* reg_control_i = 32'h0000_0602; reg_trans_ctrl_i = 32'h0000_0002; */ wdata_i = 32'h0000_0602; awaddr_i = 0; awvalid_i = 1; wvalid_i = 1; wait(awready_o && wready_o); @(posedge clk_i) #1; awvalid_i = 0; wvalid_i = 0; #1000; wdata_i = 32'h0000_0002; awaddr_i = 1; awvalid_i = 1; wvalid_i = 1; wait(awready_o && wready_o); @(posedge clk_i) #1; awvalid_i = 0; wvalid_i = 0; #100; wdata_i = 32'h0000_0073; awaddr_i = 3; awvalid_i = 1; wvalid_i = 1; wait(awready_o && wready_o); @(posedge clk_i) #1; awvalid_i = 0; wvalid_i = 0; #100; wdata_i = 32'h0000_0073; awaddr_i = 4; awvalid_i = 1; wvalid_i = 1; wait(awready_o && wready_o); @(posedge clk_i) #1; awvalid_i = 0; wvalid_i = 0; #100; end always #5 clk_i = ~clk_i; endmodule

module sky130_fd_sc_lp__or4b ( X , A , B , C , D_N ); // Module ports output X ; input A ; input B ; input C ; input D_N; // Module supplies supply1 VPWR; supply0 VGND; supply1 VPB ; supply0 VNB ; // Local signals wire not0_out ; wire or0_out_X; // Name Output Other arguments not not0 (not0_out , D_N ); or or0 (or0_out_X, not0_out, C, B, A); buf buf0 (X , or0_out_X ); endmodule

module sky130_fd_sc_lp__or3 ( X , A , B , C , VPWR, VGND, VPB , VNB ); // Module ports output X ; input A ; input B ; input C ; input VPWR; input VGND; input VPB ; input VNB ; // Local signals wire or0_out_X ; wire pwrgood_pp0_out_X; // Name Output Other arguments or or0 (or0_out_X , B, A, C ); sky130_fd_sc_lp__udp_pwrgood_pp$PG pwrgood_pp0 (pwrgood_pp0_out_X, or0_out_X, VPWR, VGND); buf buf0 (X , pwrgood_pp0_out_X ); endmodule

module sky130_fd_sc_hdll__isobufsrc ( X , SLEEP, A , VPWR , VGND , VPB , VNB ); // Module ports output X ; input SLEEP; input A ; input VPWR ; input VGND ; input VPB ; input VNB ; // Local signals wire not0_out ; wire and0_out_X ; wire pwrgood_pp0_out_X; // Name Output Other arguments not not0 (not0_out , SLEEP ); and and0 (and0_out_X , not0_out, A ); sky130_fd_sc_hdll__udp_pwrgood_pp$PG$S pwrgood_pp0 (pwrgood_pp0_out_X, and0_out_X, VPWR, VGND, SLEEP); buf buf0 (X , pwrgood_pp0_out_X ); endmodule

module instantiated with wrong parameters"); $stop; end instantiated_with_wrong_parameters_error_see_comment_above s2f_width_check ( .error(1'b1) ); end endgenerate spw_babasu_hps_0_fpga_interfaces fpga_interfaces ( .h2f_rst_n (h2f_rst_n), // h2f_reset.reset_n .h2f_axi_clk (h2f_axi_clk), // h2f_axi_clock.clk .h2f_AWID (h2f_AWID), // h2f_axi_master.awid .h2f_AWADDR (h2f_AWADDR), // .awaddr .h2f_AWLEN (h2f_AWLEN), // .awlen .h2f_AWSIZE (h2f_AWSIZE), // .awsize .h2f_AWBURST (h2f_AWBURST), // .awburst .h2f_AWLOCK (h2f_AWLOCK), // .awlock .h2f_AWCACHE (h2f_AWCACHE), // .awcache .h2f_AWPROT (h2f_AWPROT), // .awprot .h2f_AWVALID (h2f_AWVALID), // .awvalid .h2f_AWREADY (h2f_AWREADY), // .awready .h2f_WID (h2f_WID), // .wid .h2f_WDATA (h2f_WDATA), // .wdata .h2f_WSTRB (h2f_WSTRB), // .wstrb .h2f_WLAST (h2f_WLAST), // .wlast .h2f_WVALID (h2f_WVALID), // .wvalid .h2f_WREADY (h2f_WREADY), // .wready .h2f_BID (h2f_BID), // .bid .h2f_BRESP (h2f_BRESP), // .bresp .h2f_BVALID (h2f_BVALID), // .bvalid .h2f_BREADY (h2f_BREADY), // .bready .h2f_ARID (h2f_ARID), // .arid .h2f_ARADDR (h2f_ARADDR), // .araddr .h2f_ARLEN (h2f_ARLEN), // .arlen .h2f_ARSIZE (h2f_ARSIZE), // .arsize .h2f_ARBURST (h2f_ARBURST), // .arburst .h2f_ARLOCK (h2f_ARLOCK), // .arlock .h2f_ARCACHE (h2f_ARCACHE), // .arcache .h2f_ARPROT (h2f_ARPROT), // .arprot .h2f_ARVALID (h2f_ARVALID), // .arvalid .h2f_ARREADY (h2f_ARREADY), // .arready .h2f_RID (h2f_RID), // .rid .h2f_RDATA (h2f_RDATA), // .rdata .h2f_RRESP (h2f_RRESP), // .rresp .h2f_RLAST (h2f_RLAST), // .rlast .h2f_RVALID (h2f_RVALID), // .rvalid .h2f_RREADY (h2f_RREADY) // .rready ); spw_babasu_hps_0_hps_io hps_io ( .mem_a (mem_a), // memory.mem_a .mem_ba (mem_ba), // .mem_ba .mem_ck (mem_ck), // .mem_ck .mem_ck_n (mem_ck_n), // .mem_ck_n .mem_cke (mem_cke), // .mem_cke .mem_cs_n (mem_cs_n), // .mem_cs_n .mem_ras_n (mem_ras_n), // .mem_ras_n .mem_cas_n (mem_cas_n), // .mem_cas_n .mem_we_n (mem_we_n), // .mem_we_n .mem_reset_n (mem_reset_n), // .mem_reset_n .mem_dq (mem_dq), // .mem_dq .mem_dqs (mem_dqs), // .mem_dqs .mem_dqs_n (mem_dqs_n), // .mem_dqs_n .mem_odt (mem_odt), // .mem_odt .mem_dm (mem_dm), // .mem_dm .oct_rzqin (oct_rzqin) // .oct_rzqin ); endmodule

module ramcart( clka, wea, addra, dina, douta, clkb, web, addrb, dinb, doutb ); input clka; input [0 : 0] wea; input [14 : 0] addra; input [7 : 0] dina; output [7 : 0] douta; input clkb; input [0 : 0] web; input [12 : 0] addrb; input [31 : 0] dinb; output [31 : 0] doutb; // synthesis translate_off BLK_MEM_GEN_V7_3 #( .C_ADDRA_WIDTH(15), .C_ADDRB_WIDTH(13), .C_ALGORITHM(1), .C_AXI_ID_WIDTH(4), .C_AXI_SLAVE_TYPE(0), .C_AXI_TYPE(1), .C_BYTE_SIZE(9), .C_COMMON_CLK(0), .C_DEFAULT_DATA("0"), .C_DISABLE_WARN_BHV_COLL(0), .C_DISABLE_WARN_BHV_RANGE(0), .C_ENABLE_32BIT_ADDRESS(0), .C_FAMILY("spartan6"), .C_HAS_AXI_ID(0), .C_HAS_ENA(0), .C_HAS_ENB(0), .C_HAS_INJECTERR(0), .C_HAS_MEM_OUTPUT_REGS_A(0), .C_HAS_MEM_OUTPUT_REGS_B(0), .C_HAS_MUX_OUTPUT_REGS_A(0), .C_HAS_MUX_OUTPUT_REGS_B(0), .C_HAS_REGCEA(0), .C_HAS_REGCEB(0), .C_HAS_RSTA(0), .C_HAS_RSTB(0), .C_HAS_SOFTECC_INPUT_REGS_A(0), .C_HAS_SOFTECC_OUTPUT_REGS_B(0), .C_INIT_FILE("BlankString"), .C_INIT_FILE_NAME("ramcart.mif"), .C_INITA_VAL("0"), .C_INITB_VAL("0"), .C_INTERFACE_TYPE(0), .C_LOAD_INIT_FILE(1), .C_MEM_TYPE(2), .C_MUX_PIPELINE_STAGES(0), .C_PRIM_TYPE(1), .C_READ_DEPTH_A(32768), .C_READ_DEPTH_B(8192), .C_READ_WIDTH_A(8), .C_READ_WIDTH_B(32), .C_RST_PRIORITY_A("CE"), .C_RST_PRIORITY_B("CE"), .C_RST_TYPE("SYNC"), .C_RSTRAM_A(0), .C_RSTRAM_B(0), .C_SIM_COLLISION_CHECK("ALL"), .C_USE_BRAM_BLOCK(0), .C_USE_BYTE_WEA(0), .C_USE_BYTE_WEB(0), .C_USE_DEFAULT_DATA(0), .C_USE_ECC(0), .C_USE_SOFTECC(0), .C_WEA_WIDTH(1), .C_WEB_WIDTH(1), .C_WRITE_DEPTH_A(32768), .C_WRITE_DEPTH_B(8192), .C_WRITE_MODE_A("WRITE_FIRST"), .C_WRITE_MODE_B("WRITE_FIRST"), .C_WRITE_WIDTH_A(8), .C_WRITE_WIDTH_B(32), .C_XDEVICEFAMILY("spartan6") ) inst ( .CLKA(clka), .WEA(wea), .ADDRA(addra), .DINA(dina), .DOUTA(douta), .CLKB(clkb), .WEB(web), .ADDRB(addrb), .DINB(dinb), .DOUTB(doutb), .RSTA(), .ENA(), .REGCEA(), .RSTB(), .ENB(), .REGCEB(), .INJECTSBITERR(), .INJECTDBITERR(), .SBITERR(), .DBITERR(), .RDADDRECC(), .S_ACLK(), .S_ARESETN(), .S_AXI_AWID(), .S_AXI_AWADDR(), .S_AXI_AWLEN(), .S_AXI_AWSIZE(), .S_AXI_AWBURST(), .S_AXI_AWVALID(), .S_AXI_AWREADY(), .S_AXI_WDATA(), .S_AXI_WSTRB(), .S_AXI_WLAST(), .S_AXI_WVALID(), .S_AXI_WREADY(), .S_AXI_BID(), .S_AXI_BRESP(), .S_AXI_BVALID(), .S_AXI_BREADY(), .S_AXI_ARID(), .S_AXI_ARADDR(), .S_AXI_ARLEN(), .S_AXI_ARSIZE(), .S_AXI_ARBURST(), .S_AXI_ARVALID(), .S_AXI_ARREADY(), .S_AXI_RID(), .S_AXI_RDATA(), .S_AXI_RRESP(), .S_AXI_RLAST(), .S_AXI_RVALID(), .S_AXI_RREADY(), .S_AXI_INJECTSBITERR(), .S_AXI_INJECTDBITERR(), .S_AXI_SBITERR(), .S_AXI_DBITERR(), .S_AXI_RDADDRECC() ); // synthesis translate_on endmodule

module cpu(input clk, output [31:0] alu_output, data, nxt_pc); reg [31:0] pc; wire [31:0] readData1, readData2, b; wire regDest0, regDst1, regWrite, aluSrc, zero, memToReg0, memToReg1; wire memRead, memWrite, branch, branch_ne, s_branch, jump; wire [31:0] sExtended, alu_output, memData, writeData, j_addr, mux3_output, mux4_output; wire [3:0] alu_ctrl; wire [2:0] alu_op; wire [4:0] writeReg; wire [31:0] fa1_output, ex_shifted, pc_4; initial pc <= 32'd0; im i_mem(.clk(clk), .data(data), .addr(pc)); mux5bit_4to1 mux0(.i0(data[20:16]), .i1(data[15:11]), .i2(5'd31), .s({regDst1, regDst0}), .z(writeReg)); reg_file rf(.readReg1(data[25:21]), .readReg2(data[20:16]), .writeReg(writeReg), .clk(clk), .regWrite(regWrite), .readData1(readData1), .readData2(readData2), .writeData(writeData)); sign_extend se(.a(data[15:0]), .b(sExtended)); mux32bit_2to1 mux1(.i0(readData2), .i1(sExtended), .s(aluSrc), .z(b)); alu main_alu(.op(alu_ctrl), .a(readData1), .b(b), .z(alu_output), .zero(zero)); alu_control ac (.funct(data[5:0]), .alu_op(alu_op), .aluctrl(alu_ctrl)); control c(.op(data[31:26]), .alu_op(alu_op), .regDst0(regDst0), .regDst1(regDst1), .aluSrc(aluSrc), .memToReg0(memToReg0), .memToReg1(memToReg1), .regWrite(regWrite), .memRead(memRead), .memWrite(memWrite), .branch(branch), .branch_ne(branch_ne), .jump(jump)); dm mem(.clk(clk), .addr(alu_output), .writeData(readData2), .memWrite(memWrite), .memRead(memRead), .readData(memData)); mux32bit_4to1 mux2(.i0(alu_output), .i1(memData), .i2(pc_4), .s({memToReg1, memToReg0}), .z(writeData)); shift_left_2 sll2(.a(sExtended), .b(ex_shifted)); //alu fa1(.op(4'd2), .a(pc_4), .b(ex_shifted), .z(fa1_output)); alu fa1(.op(4'd2), .a(pc_4), .b(sExtended), .z(fa1_output)); wire int0, int1; and (int0, branch, zero); and (int1, branch_ne, ~zero); or (s_branch, int0, int1); wire jr; and and1(jr , ~data[5], ~data[4], data[3], ~data[2], ~data[1], ~data[0] , ~data[26], ~data[27],~data[28], ~data[29], ~data[30], ~data[31] ); //always @(*) jr = ~data[26] & ~data[27] & data[28] & ~data[29] & ~data[30] & ~data[31]; jump_addr ja(.inst(data[25:0]), .pc_4(pc_4[31:28]), .j_addr(j_addr)); //mux32bit_2to1 mux3(.i0(pc_4), .i1(fa1_output), .s(s_branch), .z(nxt_pc)); mux32bit_2to1_2 mux3(.i0(pc_4), .i1(fa1_output), .s(s_branch), .z(mux3_output)); mux32bit_2to1_2 mux4(.i0(mux3_output), .i1(j_addr), .s(jump), .z(mux4_output)); mux32bit_2to1_2 mux5(.i1(readData1), .i0(mux4_output), .z(nxt_pc), .s(jr)); //mux32bit_2to1 mux4(.i1(j_addr), .i0(mux3_output), .z(nxt_pc), .s(jump)); alu fa2(.op(4'd2), .a(pc), .b(32'd1), .z(pc_4)); always @(posedge clk) begin pc <= nxt_pc; end endmodule

module or1200_top( openRISC_pc, // System clk_i, rst_i, pic_ints_i, clmode_i, // Instruction WISHBONE INTERFACE iwb_clk_i, iwb_rst_i, iwb_ack_i, iwb_err_i, iwb_rty_i, iwb_dat_i, iwb_cyc_o, iwb_adr_o, iwb_stb_o, iwb_we_o, iwb_sel_o, iwb_dat_o, `ifdef OR1200_WB_CAB iwb_cab_o, `endif `ifdef OR1200_WB_B3 iwb_cti_o, iwb_bte_o, `endif // Data WISHBONE INTERFACE dwb_clk_i, dwb_rst_i, dwb_ack_i, dwb_err_i, dwb_rty_i, dwb_dat_i, dwb_cyc_o, dwb_adr_o, dwb_stb_o, dwb_we_o, dwb_sel_o, dwb_dat_o, `ifdef OR1200_WB_CAB dwb_cab_o, `endif `ifdef OR1200_WB_B3 dwb_cti_o, dwb_bte_o, `endif // External Debug Interface dbg_stall_i, dbg_ewt_i, dbg_lss_o, dbg_is_o, dbg_wp_o, dbg_bp_o, dbg_stb_i, dbg_we_i, dbg_adr_i, dbg_dat_i, dbg_dat_o, dbg_ack_o, `ifdef OR1200_BIST // RAM BIST mbist_si_i, mbist_so_o, mbist_ctrl_i, `endif // Power Management pm_cpustall_i, pm_clksd_o, pm_dc_gate_o, pm_ic_gate_o, pm_dmmu_gate_o, pm_immu_gate_o, pm_tt_gate_o, pm_cpu_gate_o, pm_wakeup_o, pm_lvolt_o ); parameter dw = `OR1200_OPERAND_WIDTH; parameter aw = `OR1200_OPERAND_WIDTH; parameter ppic_ints = `OR1200_PIC_INTS; // // I/O // // // System // output [31:0] openRISC_pc; input clk_i; input rst_i; input [1:0] clmode_i; // 00 WB=RISC, 01 WB=RISC/2, 10 N/A, 11 WB=RISC/4 input [ppic_ints-1:0] pic_ints_i; // // Instruction WISHBONE interface // input iwb_clk_i; // clock input input iwb_rst_i; // reset input input iwb_ack_i; // normal termination input iwb_err_i; // termination w/ error input iwb_rty_i; // termination w/ retry input [dw-1:0] iwb_dat_i; // input data bus output iwb_cyc_o; // cycle valid output output [aw-1:0] iwb_adr_o; // address bus outputs output iwb_stb_o; // strobe output output iwb_we_o; // indicates write transfer output [3:0] iwb_sel_o; // byte select outputs output [dw-1:0] iwb_dat_o; // output data bus `ifdef OR1200_WB_CAB output iwb_cab_o; // indicates consecutive address burst `endif `ifdef OR1200_WB_B3 output [2:0] iwb_cti_o; // cycle type identifier output [1:0] iwb_bte_o; // burst type extension `endif // // Data WISHBONE interface // input dwb_clk_i; // clock input input dwb_rst_i; // reset input input dwb_ack_i; // normal termination input dwb_err_i; // termination w/ error input dwb_rty_i; // termination w/ retry input [dw-1:0] dwb_dat_i; // input data bus output dwb_cyc_o; // cycle valid output output [aw-1:0] dwb_adr_o; // address bus outputs output dwb_stb_o; // strobe output output dwb_we_o; // indicates write transfer output [3:0] dwb_sel_o; // byte select outputs output [dw-1:0] dwb_dat_o; // output data bus `ifdef OR1200_WB_CAB output dwb_cab_o; // indicates consecutive address burst `endif `ifdef OR1200_WB_B3 output [2:0] dwb_cti_o; // cycle type identifier output [1:0] dwb_bte_o; // burst type extension `endif // // External Debug Interface // input dbg_stall_i; // External Stall Input input dbg_ewt_i; // External Watchpoint Trigger Input output [3:0] dbg_lss_o; // External Load/Store Unit Status output [1:0] dbg_is_o; // External Insn Fetch Status output [10:0] dbg_wp_o; // Watchpoints Outputs output dbg_bp_o; // Breakpoint Output input dbg_stb_i; // External Address/Data Strobe input dbg_we_i; // External Write Enable input [aw-1:0] dbg_adr_i; // External Address Input input [dw-1:0] dbg_dat_i; // External Data Input output [dw-1:0] dbg_dat_o; // External Data Output output dbg_ack_o; // External Data Acknowledge (not WB compatible) `ifdef OR1200_BIST // // RAM BIST // input mbist_si_i; input [`OR1200_MBIST_CTRL_WIDTH - 1:0] mbist_ctrl_i; output mbist_so_o; `endif // // Power Management // input pm_cpustall_i; output [3:0] pm_clksd_o; output pm_dc_gate_o; output pm_ic_gate_o; output pm_dmmu_gate_o; output pm_immu_gate_o; output pm_tt_gate_o; output pm_cpu_gate_o; output pm_wakeup_o; output pm_lvolt_o; // // Internal wires and regs // // // DC to SB // wire [dw-1:0] dcsb_dat_dc; wire [aw-1:0] dcsb_adr_dc; wire dcsb_cyc_dc; wire dcsb_stb_dc; wire dcsb_we_dc; wire [3:0] dcsb_sel_dc; wire dcsb_cab_dc; wire [dw-1:0] dcsb_dat_sb; wire dcsb_ack_sb; wire dcsb_err_sb; // // SB to BIU // wire [dw-1:0] sbbiu_dat_sb; wire [aw-1:0] sbbiu_adr_sb; wire sbbiu_cyc_sb; wire sbbiu_stb_sb; wire sbbiu_we_sb; wire [3:0] sbbiu_sel_sb; wire sbbiu_cab_sb; wire [dw-1:0] sbbiu_dat_biu; wire sbbiu_ack_biu; wire sbbiu_err_biu; // // IC to BIU // wire [dw-1:0] icbiu_dat_ic; wire [aw-1:0] icbiu_adr_ic; wire icbiu_cyc_ic; wire icbiu_stb_ic; wire icbiu_we_ic; wire [3:0] icbiu_sel_ic; wire [3:0] icbiu_tag_ic; wire icbiu_cab_ic; wire [dw-1:0] icbiu_dat_biu; wire icbiu_ack_biu; wire icbiu_err_biu; wire [3:0] icbiu_tag_biu; // // CPU's SPR access to various RISC units (shared wires) // wire supv; wire [aw-1:0] spr_addr; wire [dw-1:0] spr_dat_cpu; wire [31:0] spr_cs; wire spr_we; // // DMMU and CPU // wire dmmu_en; wire [31:0] spr_dat_dmmu; // // DMMU and QMEM // wire qmemdmmu_err_qmem; wire [3:0] qmemdmmu_tag_qmem; wire [aw-1:0] qmemdmmu_adr_dmmu; wire qmemdmmu_cycstb_dmmu; wire qmemdmmu_ci_dmmu; // // CPU and data memory subsystem // wire dc_en; wire [31:0] dcpu_adr_cpu; wire dcpu_cycstb_cpu; wire dcpu_we_cpu; wire [3:0] dcpu_sel_cpu; wire [3:0] dcpu_tag_cpu; wire [31:0] dcpu_dat_cpu; wire [31:0] dcpu_dat_qmem; wire dcpu_ack_qmem; wire dcpu_rty_qmem; wire dcpu_err_dmmu; wire [3:0] dcpu_tag_dmmu; // // IMMU and CPU // wire immu_en; wire [31:0] spr_dat_immu; // // CPU and insn memory subsystem // wire ic_en; wire [31:0] icpu_adr_cpu; wire icpu_cycstb_cpu; wire [3:0] icpu_sel_cpu; wire [3:0] icpu_tag_cpu; wire [31:0] icpu_dat_qmem; wire icpu_ack_qmem; wire [31:0] icpu_adr_immu; wire icpu_err_immu; wire [3:0] icpu_tag_immu; wire icpu_rty_immu; // // IMMU and QMEM // wire [aw-1:0] qmemimmu_adr_immu; wire qmemimmu_rty_qmem; wire qmemimmu_err_qmem; wire [3:0] qmemimmu_tag_qmem; wire qmemimmu_cycstb_immu; wire qmemimmu_ci_immu; // // QMEM and IC // wire [aw-1:0] icqmem_adr_qmem; wire icqmem_rty_ic; wire icqmem_err_ic; wire [3:0] icqmem_tag_ic; wire icqmem_cycstb_qmem; wire icqmem_ci_qmem; wire [31:0] icqmem_dat_ic; wire icqmem_ack_ic; // // QMEM and DC // wire [aw-1:0] dcqmem_adr_qmem; wire dcqmem_rty_dc; wire dcqmem_err_dc; wire [3:0] dcqmem_tag_dc; wire dcqmem_cycstb_qmem; wire dcqmem_ci_qmem; wire [31:0] dcqmem_dat_dc; wire [31:0] dcqmem_dat_qmem; wire dcqmem_we_qmem; wire [3:0] dcqmem_sel_qmem; wire dcqmem_ack_dc; // // Connection between CPU and PIC // wire [dw-1:0] spr_dat_pic; wire pic_wakeup; wire sig_int; // // Connection between CPU and PM // wire [dw-1:0] spr_dat_pm; // // CPU and TT // wire [dw-1:0] spr_dat_tt; wire sig_tick; // // Debug port and caches/MMUs // wire [dw-1:0] spr_dat_du; wire du_stall; wire [dw-1:0] du_addr; wire [dw-1:0] du_dat_du; wire du_read; wire du_write; wire [12:0] du_except; wire [`OR1200_DU_DSR_WIDTH-1:0] du_dsr; wire [dw-1:0] du_dat_cpu; wire du_hwbkpt; wire ex_freeze; wire [31:0] ex_insn; wire [31:0] id_pc; wire [`OR1200_BRANCHOP_WIDTH-1:0] branch_op; wire [31:0] spr_dat_npc; wire [31:0] rf_dataw; `ifdef OR1200_BIST // // RAM BIST // wire mbist_immu_so; wire mbist_ic_so; wire mbist_dmmu_so; wire mbist_dc_so; wire mbist_qmem_so; wire mbist_immu_si = mbist_si_i; wire mbist_ic_si = mbist_immu_so; wire mbist_qmem_si = mbist_ic_so; wire mbist_dmmu_si = mbist_qmem_so; wire mbist_dc_si = mbist_dmmu_so; assign mbist_so_o = mbist_dc_so; `endif wire [3:0] icqmem_sel_qmem; wire [3:0] icqmem_tag_qmem; wire [3:0] dcqmem_tag_qmem; // // Instantiation of Instruction WISHBONE BIU // or1200_iwb_biu iwb_biu( // RISC clk, rst and clock control .clk(clk_i), .rst(rst_i), .clmode(clmode_i), // WISHBONE interface .wb_clk_i(iwb_clk_i), .wb_rst_i(iwb_rst_i), .wb_ack_i(iwb_ack_i), .wb_err_i(iwb_err_i), .wb_rty_i(iwb_rty_i), .wb_dat_i(iwb_dat_i), .wb_cyc_o(iwb_cyc_o), .wb_adr_o(iwb_adr_o), .wb_stb_o(iwb_stb_o), .wb_we_o(iwb_we_o), .wb_sel_o(iwb_sel_o), .wb_dat_o(iwb_dat_o), `ifdef OR1200_WB_CAB .wb_cab_o(iwb_cab_o), `endif `ifdef OR1200_WB_B3 .wb_cti_o(iwb_cti_o), .wb_bte_o(iwb_bte_o), `endif // Internal RISC bus .biu_dat_i(icbiu_dat_ic), .biu_adr_i(icbiu_adr_ic), .biu_cyc_i(icbiu_cyc_ic), .biu_stb_i(icbiu_stb_ic), .biu_we_i(icbiu_we_ic), .biu_sel_i(icbiu_sel_ic), .biu_cab_i(icbiu_cab_ic), .biu_dat_o(icbiu_dat_biu), .biu_ack_o(icbiu_ack_biu), .biu_err_o(icbiu_err_biu) ); // // Instantiation of Data WISHBONE BIU // or1200_wb_biu dwb_biu( // RISC clk, rst and clock control .clk(clk_i), .rst(rst_i), .clmode(clmode_i), // WISHBONE interface .wb_clk_i(dwb_clk_i), .wb_rst_i(dwb_rst_i), .wb_ack_i(dwb_ack_i), .wb_err_i(dwb_err_i), .wb_rty_i(dwb_rty_i), .wb_dat_i(dwb_dat_i), .wb_cyc_o(dwb_cyc_o), .wb_adr_o(dwb_adr_o), .wb_stb_o(dwb_stb_o), .wb_we_o(dwb_we_o), .wb_sel_o(dwb_sel_o), .wb_dat_o(dwb_dat_o), `ifdef OR1200_WB_CAB .wb_cab_o(dwb_cab_o), `endif `ifdef OR1200_WB_B3 .wb_cti_o(dwb_cti_o), .wb_bte_o(dwb_bte_o), `endif // Internal RISC bus .biu_dat_i(sbbiu_dat_sb), .biu_adr_i(sbbiu_adr_sb), .biu_cyc_i(sbbiu_cyc_sb), .biu_stb_i(sbbiu_stb_sb), .biu_we_i(sbbiu_we_sb), .biu_sel_i(sbbiu_sel_sb), .biu_cab_i(sbbiu_cab_sb), .biu_dat_o(sbbiu_dat_biu), .biu_ack_o(sbbiu_ack_biu), .biu_err_o(sbbiu_err_biu) ); // // Instantiation of IMMU // or1200_immu_top or1200_immu_top( // Rst and clk .clk(clk_i), .rst(rst_i), `ifdef OR1200_BIST // RAM BIST .mbist_si_i(mbist_immu_si), .mbist_so_o(mbist_immu_so), .mbist_ctrl_i(mbist_ctrl_i), `endif // CPU and IMMU .ic_en(ic_en), .immu_en(immu_en), .supv(supv), .icpu_adr_i(icpu_adr_cpu), .icpu_cycstb_i(icpu_cycstb_cpu), .icpu_adr_o(icpu_adr_immu), .icpu_tag_o(icpu_tag_immu), .icpu_rty_o(icpu_rty_immu), .icpu_err_o(icpu_err_immu), // SPR access .spr_cs(spr_cs[`OR1200_SPR_GROUP_IMMU]), .spr_write(spr_we), .spr_addr(spr_addr), .spr_dat_i(spr_dat_cpu), .spr_dat_o(spr_dat_immu), // QMEM and IMMU .qmemimmu_rty_i(qmemimmu_rty_qmem), .qmemimmu_err_i(qmemimmu_err_qmem), .qmemimmu_tag_i(qmemimmu_tag_qmem), .qmemimmu_adr_o(qmemimmu_adr_immu), .qmemimmu_cycstb_o(qmemimmu_cycstb_immu), .qmemimmu_ci_o(qmemimmu_ci_immu) ); // // Instantiation of Instruction Cache // or1200_ic_top or1200_ic_top( .clk(clk_i), .rst(rst_i), `ifdef OR1200_BIST // RAM BIST .mbist_si_i(mbist_ic_si), .mbist_so_o(mbist_ic_so), .mbist_ctrl_i(mbist_ctrl_i), `endif // IC and QMEM .ic_en(ic_en), .icqmem_adr_i(icqmem_adr_qmem), .icqmem_cycstb_i(icqmem_cycstb_qmem), .icqmem_ci_i(icqmem_ci_qmem), .icqmem_sel_i(icqmem_sel_qmem), .icqmem_tag_i(icqmem_tag_qmem), .icqmem_dat_o(icqmem_dat_ic), .icqmem_ack_o(icqmem_ack_ic), .icqmem_rty_o(icqmem_rty_ic), .icqmem_err_o(icqmem_err_ic), .icqmem_tag_o(icqmem_tag_ic), // SPR access .spr_cs(spr_cs[`OR1200_SPR_GROUP_IC]), .spr_write(spr_we), .spr_dat_i(spr_dat_cpu), // IC and BIU .icbiu_dat_o(icbiu_dat_ic), .icbiu_adr_o(icbiu_adr_ic), .icbiu_cyc_o(icbiu_cyc_ic), .icbiu_stb_o(icbiu_stb_ic), .icbiu_we_o(icbiu_we_ic), .icbiu_sel_o(icbiu_sel_ic), .icbiu_cab_o(icbiu_cab_ic), .icbiu_dat_i(icbiu_dat_biu), .icbiu_ack_i(icbiu_ack_biu), .icbiu_err_i(icbiu_err_biu) ); // // Instantiation of Instruction Cache // or1200_cpu or1200_cpu( .clk(clk_i), .rst(rst_i), // Connection QMEM and IFETCHER inside CPU .ic_en(ic_en), .icpu_adr_o(icpu_adr_cpu), .icpu_cycstb_o(icpu_cycstb_cpu), .icpu_sel_o(icpu_sel_cpu), .icpu_tag_o(icpu_tag_cpu), .icpu_dat_i(icpu_dat_qmem), .icpu_ack_i(icpu_ack_qmem), .icpu_rty_i(icpu_rty_immu), .icpu_adr_i(icpu_adr_immu), .icpu_err_i(icpu_err_immu), .icpu_tag_i(icpu_tag_immu), // Connection CPU to external Debug port .ex_freeze(ex_freeze), .ex_insn(ex_insn), .id_pc(id_pc), .branch_op(branch_op), .du_stall(du_stall), .du_addr(du_addr), .du_dat_du(du_dat_du), .du_read(du_read), .du_write(du_write), .du_dsr(du_dsr), .du_except(du_except), .du_dat_cpu(du_dat_cpu), .du_hwbkpt(du_hwbkpt), .rf_dataw(rf_dataw), // Connection IMMU and CPU internally .immu_en(immu_en), // Connection QMEM and CPU .dc_en(dc_en), .dcpu_adr_o(dcpu_adr_cpu), .dcpu_cycstb_o(dcpu_cycstb_cpu), .dcpu_we_o(dcpu_we_cpu), .dcpu_sel_o(dcpu_sel_cpu), .dcpu_tag_o(dcpu_tag_cpu), .dcpu_dat_o(dcpu_dat_cpu), .dcpu_dat_i(dcpu_dat_qmem), .dcpu_ack_i(dcpu_ack_qmem), .dcpu_rty_i(dcpu_rty_qmem), .dcpu_err_i(dcpu_err_dmmu), .dcpu_tag_i(dcpu_tag_dmmu), // Connection DMMU and CPU internally .dmmu_en(dmmu_en), // Connection PIC and CPU's EXCEPT .sig_int(sig_int), .sig_tick(sig_tick), // SPRs .supv(supv), .spr_addr(spr_addr), .spr_dat_cpu(spr_dat_cpu), .spr_dat_pic(spr_dat_pic), .spr_dat_tt(spr_dat_tt), .spr_dat_pm(spr_dat_pm), .spr_dat_dmmu(spr_dat_dmmu), .spr_dat_immu(spr_dat_immu), .spr_dat_du(spr_dat_du), .spr_dat_npc(spr_dat_npc), .spr_cs(spr_cs), .spr_we(spr_we) ); // // Instantiation of DMMU // or1200_dmmu_top or1200_dmmu_top( // Rst and clk .clk(clk_i), .rst(rst_i), `ifdef OR1200_BIST // RAM BIST .mbist_si_i(mbist_dmmu_si), .mbist_so_o(mbist_dmmu_so), .mbist_ctrl_i(mbist_ctrl_i), `endif // CPU i/f .dc_en(dc_en), .dmmu_en(dmmu_en), .supv(supv), .dcpu_adr_i(dcpu_adr_cpu), .dcpu_cycstb_i(dcpu_cycstb_cpu), .dcpu_we_i(dcpu_we_cpu), .dcpu_tag_o(dcpu_tag_dmmu), .dcpu_err_o(dcpu_err_dmmu), // SPR access .spr_cs(spr_cs[`OR1200_SPR_GROUP_DMMU]), .spr_write(spr_we), .spr_addr(spr_addr), .spr_dat_i(spr_dat_cpu), .spr_dat_o(spr_dat_dmmu), // QMEM and DMMU .qmemdmmu_err_i(qmemdmmu_err_qmem), .qmemdmmu_tag_i(qmemdmmu_tag_qmem), .qmemdmmu_adr_o(qmemdmmu_adr_dmmu), .qmemdmmu_cycstb_o(qmemdmmu_cycstb_dmmu), .qmemdmmu_ci_o(qmemdmmu_ci_dmmu) ); // // Instantiation of Data Cache // or1200_dc_top or1200_dc_top( .clk(clk_i), .rst(rst_i), `ifdef OR1200_BIST // RAM BIST .mbist_si_i(mbist_dc_si), .mbist_so_o(mbist_dc_so), .mbist_ctrl_i(mbist_ctrl_i), `endif // DC and QMEM .dc_en(dc_en), .dcqmem_adr_i(dcqmem_adr_qmem), .dcqmem_cycstb_i(dcqmem_cycstb_qmem), .dcqmem_ci_i(dcqmem_ci_qmem), .dcqmem_we_i(dcqmem_we_qmem), .dcqmem_sel_i(dcqmem_sel_qmem), .dcqmem_tag_i(dcqmem_tag_qmem), .dcqmem_dat_i(dcqmem_dat_qmem), .dcqmem_dat_o(dcqmem_dat_dc), .dcqmem_ack_o(dcqmem_ack_dc), .dcqmem_rty_o(dcqmem_rty_dc), .dcqmem_err_o(dcqmem_err_dc), .dcqmem_tag_o(dcqmem_tag_dc), // SPR access .spr_cs(spr_cs[`OR1200_SPR_GROUP_DC]), .spr_write(spr_we), .spr_dat_i(spr_dat_cpu), // DC and BIU .dcsb_dat_o(dcsb_dat_dc), .dcsb_adr_o(dcsb_adr_dc), .dcsb_cyc_o(dcsb_cyc_dc), .dcsb_stb_o(dcsb_stb_dc), .dcsb_we_o(dcsb_we_dc), .dcsb_sel_o(dcsb_sel_dc), .dcsb_cab_o(dcsb_cab_dc), .dcsb_dat_i(dcsb_dat_sb), .dcsb_ack_i(dcsb_ack_sb), .dcsb_err_i(dcsb_err_sb) ); // // Instantiation of embedded memory - qmem // or1200_qmem_top or1200_qmem_top( .clk(clk_i), .rst(rst_i), `ifdef OR1200_BIST // RAM BIST .mbist_si_i(mbist_qmem_si), .mbist_so_o(mbist_qmem_so), .mbist_ctrl_i(mbist_ctrl_i), `endif // QMEM and CPU/IMMU .qmemimmu_adr_i(qmemimmu_adr_immu), .qmemimmu_cycstb_i(qmemimmu_cycstb_immu), .qmemimmu_ci_i(qmemimmu_ci_immu), .qmemicpu_sel_i(icpu_sel_cpu), .qmemicpu_tag_i(icpu_tag_cpu), .qmemicpu_dat_o(icpu_dat_qmem), .qmemicpu_ack_o(icpu_ack_qmem), .qmemimmu_rty_o(qmemimmu_rty_qmem), .qmemimmu_err_o(qmemimmu_err_qmem), .qmemimmu_tag_o(qmemimmu_tag_qmem), // QMEM and IC .icqmem_adr_o(icqmem_adr_qmem), .icqmem_cycstb_o(icqmem_cycstb_qmem), .icqmem_ci_o(icqmem_ci_qmem), .icqmem_sel_o(icqmem_sel_qmem), .icqmem_tag_o(icqmem_tag_qmem), .icqmem_dat_i(icqmem_dat_ic), .icqmem_ack_i(icqmem_ack_ic), .icqmem_rty_i(icqmem_rty_ic), .icqmem_err_i(icqmem_err_ic), .icqmem_tag_i(icqmem_tag_ic), // QMEM and CPU/DMMU .qmemdmmu_adr_i(qmemdmmu_adr_dmmu), .qmemdmmu_cycstb_i(qmemdmmu_cycstb_dmmu), .qmemdmmu_ci_i(qmemdmmu_ci_dmmu), .qmemdcpu_we_i(dcpu_we_cpu), .qmemdcpu_sel_i(dcpu_sel_cpu), .qmemdcpu_tag_i(dcpu_tag_cpu), .qmemdcpu_dat_i(dcpu_dat_cpu), .qmemdcpu_dat_o(dcpu_dat_qmem), .qmemdcpu_ack_o(dcpu_ack_qmem), .qmemdcpu_rty_o(dcpu_rty_qmem), .qmemdmmu_err_o(qmemdmmu_err_qmem), .qmemdmmu_tag_o(qmemdmmu_tag_qmem), // QMEM and DC .dcqmem_adr_o(dcqmem_adr_qmem), .dcqmem_cycstb_o(dcqmem_cycstb_qmem), .dcqmem_ci_o(dcqmem_ci_qmem), .dcqmem_we_o(dcqmem_we_qmem), .dcqmem_sel_o(dcqmem_sel_qmem), .dcqmem_tag_o(dcqmem_tag_qmem), .dcqmem_dat_o(dcqmem_dat_qmem), .dcqmem_dat_i(dcqmem_dat_dc), .dcqmem_ack_i(dcqmem_ack_dc), .dcqmem_rty_i(dcqmem_rty_dc), .dcqmem_err_i(dcqmem_err_dc), .dcqmem_tag_i(dcqmem_tag_dc) ); // // Instantiation of Store Buffer // or1200_sb or1200_sb( // RISC clock, reset .clk(clk_i), .rst(rst_i), // Internal RISC bus (DC<->SB) .dcsb_dat_i(dcsb_dat_dc), .dcsb_adr_i(dcsb_adr_dc), .dcsb_cyc_i(dcsb_cyc_dc), .dcsb_stb_i(dcsb_stb_dc), .dcsb_we_i(dcsb_we_dc), .dcsb_sel_i(dcsb_sel_dc), .dcsb_cab_i(dcsb_cab_dc), .dcsb_dat_o(dcsb_dat_sb), .dcsb_ack_o(dcsb_ack_sb), .dcsb_err_o(dcsb_err_sb), // SB and BIU .sbbiu_dat_o(sbbiu_dat_sb), .sbbiu_adr_o(sbbiu_adr_sb), .sbbiu_cyc_o(sbbiu_cyc_sb), .sbbiu_stb_o(sbbiu_stb_sb), .sbbiu_we_o(sbbiu_we_sb), .sbbiu_sel_o(sbbiu_sel_sb), .sbbiu_cab_o(sbbiu_cab_sb), .sbbiu_dat_i(sbbiu_dat_biu), .sbbiu_ack_i(sbbiu_ack_biu), .sbbiu_err_i(sbbiu_err_biu) ); // // Instantiation of Debug Unit // or1200_du or1200_du( // RISC Internal Interface .clk(clk_i), .rst(rst_i), .dcpu_cycstb_i(dcpu_cycstb_cpu), .dcpu_we_i(dcpu_we_cpu), .dcpu_adr_i(dcpu_adr_cpu), .dcpu_dat_lsu(dcpu_dat_cpu), .dcpu_dat_dc(dcpu_dat_qmem), .icpu_cycstb_i(icpu_cycstb_cpu), .ex_freeze(ex_freeze), .branch_op(branch_op), .ex_insn(ex_insn), .id_pc(id_pc), .du_dsr(du_dsr), // For Trace buffer .spr_dat_npc(spr_dat_npc), .rf_dataw(rf_dataw), // DU's access to SPR unit .du_stall(du_stall), .du_addr(du_addr), .du_dat_i(du_dat_cpu), .du_dat_o(du_dat_du), .du_read(du_read), .du_write(du_write), .du_except(du_except), .du_hwbkpt(du_hwbkpt), // Access to DU's SPRs .spr_cs(spr_cs[`OR1200_SPR_GROUP_DU]), .spr_write(spr_we), .spr_addr(spr_addr), .spr_dat_i(spr_dat_cpu), .spr_dat_o(spr_dat_du), // External Debug Interface .dbg_stall_i(dbg_stall_i), .dbg_ewt_i(dbg_ewt_i), .dbg_lss_o(dbg_lss_o), .dbg_is_o(dbg_is_o), .dbg_wp_o(dbg_wp_o), .dbg_bp_o(dbg_bp_o), .dbg_stb_i(dbg_stb_i), .dbg_we_i(dbg_we_i), .dbg_adr_i(dbg_adr_i), .dbg_dat_i(dbg_dat_i), .dbg_dat_o(dbg_dat_o), .dbg_ack_o(dbg_ack_o) ); // // Programmable interrupt controller // or1200_pic or1200_pic( // RISC Internal Interface .clk(clk_i), .rst(rst_i), .spr_cs(spr_cs[`OR1200_SPR_GROUP_PIC]), .spr_write(spr_we), .spr_addr(spr_addr), .spr_dat_i(spr_dat_cpu), .spr_dat_o(spr_dat_pic), .pic_wakeup(pic_wakeup), .intr(sig_int), // PIC Interface .pic_int(pic_ints_i) ); // // Instantiation of Tick timer // or1200_tt or1200_tt( // RISC Internal Interface .clk(clk_i), .rst(rst_i), .du_stall(du_stall), .spr_cs(spr_cs[`OR1200_SPR_GROUP_TT]), .spr_write(spr_we), .spr_addr(spr_addr), .spr_dat_i(spr_dat_cpu), .spr_dat_o(spr_dat_tt), .intr(sig_tick) ); // // Instantiation of Power Management // or1200_pm or1200_pm( // RISC Internal Interface .clk(clk_i), .rst(rst_i), .pic_wakeup(pic_wakeup), .spr_write(spr_we), .spr_addr(spr_addr), .spr_dat_i(spr_dat_cpu), .spr_dat_o(spr_dat_pm), // Power Management Interface .pm_cpustall(pm_cpustall_i), .pm_clksd(pm_clksd_o), .pm_dc_gate(pm_dc_gate_o), .pm_ic_gate(pm_ic_gate_o), .pm_dmmu_gate(pm_dmmu_gate_o), .pm_immu_gate(pm_immu_gate_o), .pm_tt_gate(pm_tt_gate_o), .pm_cpu_gate(pm_cpu_gate_o), .pm_wakeup(pm_wakeup_o), .pm_lvolt(pm_lvolt_o) ); assign openRISC_pc = id_pc; endmodule

module scbuf_evict (/*AUTOARG*/ // Outputs so, scbuf_dram_wr_data_r5_pb, scbuf_dram_data_vld_r5_pb, scbuf_dram_data_mecc_r5_pb, scbuf_sctag_ev_uerr_r5_pb, scbuf_sctag_ev_cerr_r5_pb, sctag_scbuf_wbrd_en_r1_v1, sctag_scbuf_wbrd_en_r1_v2, sctag_scbuf_wbrd_en_r1_v3, sctag_scbuf_wbrd_en_r1_v4, sctag_scbuf_wbrd_wl_r1_v1, sctag_scbuf_wbrd_wl_r1_v2, sctag_scbuf_wbrd_wl_r1_v3, sctag_scbuf_wbrd_wl_r1_v4, sctag_scbuf_wbwr_wen_c8_v1, sctag_scbuf_wbwr_wen_c8_v2, sctag_scbuf_wbwr_wen_c8_v3, sctag_scbuf_wbwr_wen_c8_v4, sctag_scbuf_wbwr_wl_c8_v1, sctag_scbuf_wbwr_wl_c8_v2, sctag_scbuf_wbwr_wl_c8_v3, sctag_scbuf_wbwr_wl_c8_v4, sctag_scbuf_rdma_rden_r1_v1, sctag_scbuf_rdma_rden_r1_v2, sctag_scbuf_rdma_rden_r1_v3, sctag_scbuf_rdma_rden_r1_v4, sctag_scbuf_rdma_rdwl_r1_v1, sctag_scbuf_rdma_rdwl_r1_v2, sctag_scbuf_rdma_rdwl_r1_v3, sctag_scbuf_rdma_rdwl_r1_v4, sctag_scbuf_rdma_wren_s3, sctag_scbuf_rdma_wren_s3_v4, sctag_scbuf_rdma_wren_s3_v3, sctag_scbuf_rdma_wren_s3_v2, sctag_scbuf_rdma_wren_s3_v1, sctag_scbuf_rdma_wrwl_s3_v1, sctag_scbuf_rdma_wrwl_s3_v2, sctag_scbuf_rdma_wrwl_s3_v3, sctag_scbuf_rdma_wrwl_s3_v4, rdma_array_din, // Inputs rclk, arst_l, grst_l, se, sehold, si, sctag_scbuf_wbrd_en_r0, wb_array_dout, sctag_scbuf_evict_en_r0, sctag_scbuf_ev_dword_r0, sctag_scbuf_rdma_rden_r0, rdma_array_dout, sctag_scbuf_wbrd_wl_r0, sctag_scbuf_wbwr_wen_c6, sctag_scbuf_wbwr_wl_c6, sctag_scbuf_rdma_rdwl_r0, sctag_scbuf_rdma_wren_s2, sctag_scbuf_rdma_wrwl_s2, jbi_sctag_req, jbi_scbuf_ecc ) ; // Inputs input rclk; input arst_l; input grst_l; input se, sehold, si; input sctag_scbuf_wbrd_en_r0; input [623:0] wb_array_dout; input sctag_scbuf_evict_en_r0; input [2:0] sctag_scbuf_ev_dword_r0; input sctag_scbuf_rdma_rden_r0; input [623:0] rdma_array_dout; input [2:0] sctag_scbuf_wbrd_wl_r0; input sctag_scbuf_wbwr_wen_c6; input [2:0] sctag_scbuf_wbwr_wl_c6; input [1:0] sctag_scbuf_rdma_rdwl_r0; input [15:0] sctag_scbuf_rdma_wren_s2; input [1:0] sctag_scbuf_rdma_wrwl_s2; input [31:0] jbi_sctag_req ; input [6:0] jbi_scbuf_ecc ; // Outputs output so; output [63:0] scbuf_dram_wr_data_r5_pb; output scbuf_dram_data_vld_r5_pb; output scbuf_dram_data_mecc_r5_pb; output scbuf_sctag_ev_uerr_r5_pb; output scbuf_sctag_ev_cerr_r5_pb; output sctag_scbuf_wbrd_en_r1_v1; output sctag_scbuf_wbrd_en_r1_v2; output sctag_scbuf_wbrd_en_r1_v3; output sctag_scbuf_wbrd_en_r1_v4; output [2:0] sctag_scbuf_wbrd_wl_r1_v1; output [2:0] sctag_scbuf_wbrd_wl_r1_v2; output [2:0] sctag_scbuf_wbrd_wl_r1_v3; output [2:0] sctag_scbuf_wbrd_wl_r1_v4; output sctag_scbuf_wbwr_wen_c8_v1; output sctag_scbuf_wbwr_wen_c8_v2; output sctag_scbuf_wbwr_wen_c8_v3; output sctag_scbuf_wbwr_wen_c8_v4; output [2:0] sctag_scbuf_wbwr_wl_c8_v1; output [2:0] sctag_scbuf_wbwr_wl_c8_v2; output [2:0] sctag_scbuf_wbwr_wl_c8_v3; output [2:0] sctag_scbuf_wbwr_wl_c8_v4; output sctag_scbuf_rdma_rden_r1_v1; output sctag_scbuf_rdma_rden_r1_v2; output sctag_scbuf_rdma_rden_r1_v3; output sctag_scbuf_rdma_rden_r1_v4; output [1:0] sctag_scbuf_rdma_rdwl_r1_v1; output [1:0] sctag_scbuf_rdma_rdwl_r1_v2; output [1:0] sctag_scbuf_rdma_rdwl_r1_v3; output [1:0] sctag_scbuf_rdma_rdwl_r1_v4; output [15:0] sctag_scbuf_rdma_wren_s3; output sctag_scbuf_rdma_wren_s3_v4 ; output sctag_scbuf_rdma_wren_s3_v3 ; output sctag_scbuf_rdma_wren_s3_v2 ; output sctag_scbuf_rdma_wren_s3_v1 ; output [1:0] sctag_scbuf_rdma_wrwl_s3_v1; output [1:0] sctag_scbuf_rdma_wrwl_s3_v2; output [1:0] sctag_scbuf_rdma_wrwl_s3_v3; output [1:0] sctag_scbuf_rdma_wrwl_s3_v4; output [623:0] rdma_array_din ; //////////////////////////////////////////////////////////////////////////////// wire sctag_scbuf_wbrd_en_r2; wire sctag_scbuf_rdma_rden_r1; wire sctag_scbuf_rdma_rden_r2; wire wb_or_rdma_rden_r2; wire [623:0] wb_rdma_mux_out; wire [623:0] wb_array_dout_r3; wire [ 77:0] wb_array_dout_r4; wire [ 63:0] wb_array_dout_r5; wire [ 2:0] sctag_scbuf_ev_dword_r1; wire [ 2:0] sctag_scbuf_ev_dword_r2; wire [ 2:0] sctag_scbuf_ev_dword_r3; wire sel_in0; wire sel_in1; wire sel_in2; wire sel_in3; wire [155:0] wb_array_dout_r3_4t1; wire [ 77:0] wb_array_dout_r3_8t1; wire [ 63:0] wb_array_dout_ecc_r4; wire [ 5:0] check0_r4; wire [ 5:0] check1_r4; wire evict_uncorr_err_r4; wire evict_corr_err_r4; wire sctag_scbuf_wbwr_wen_c7; wire [ 2:0] sctag_scbuf_wbwr_wl_c7; wire [38:0] jbi_sctag_req_ecc_s2 ; wire [38:0] jbi_sctag_req_ecc_s3; wire [2:0] sctag_scbuf_wbrd_wl_r1; wire sctag_scbuf_wbwr_wen_c8; wire [2:0] sctag_scbuf_wbwr_wl_c8; wire [1:0] sctag_scbuf_rdma_rdwl_r1; wire [1:0] sctag_scbuf_rdma_wrwl_s3; wire sctag_scbuf_evict_en_r3; wire evict_uncorr_err_unqual_r4; wire error_qual_in; wire error_qual; dffrl_async #(1) reset_flop (.q (dbb_rst_l), .clk (rclk), .rst_l (arst_l), .din (grst_l), .se (se), .si(), .so()); //////////////////////////////////////////////////////////////////////////////// // Data arriving from jbus is flopped and fanned out to 624 bits here. //////////////////////////////////////////////////////////////////////////////// assign jbi_sctag_req_ecc_s2 = {jbi_sctag_req[31:0], jbi_scbuf_ecc[6:0]} ; dff_s #(39) ff_jbi_sctag_req_ecc_s3 (.din(jbi_sctag_req_ecc_s2[38:0]), .clk(rclk), .q(jbi_sctag_req_ecc_s3[38:0]), .se(1'b0), .si(), .so()); assign rdma_array_din = {16{jbi_sctag_req_ecc_s3[38:0]}} ; //////////////////////////////////////////////////////////////////////////////// dff_s #(1) ff_sctag_scbuf_wbwr_wen_c7 (.q (sctag_scbuf_wbwr_wen_c7), .din (sctag_scbuf_wbwr_wen_c6), .clk (rclk), .se (1'b0), .si (), .so ()) ; dff_s #(1) ff_sctag_scbuf_wbwr_wen_c8 (.q (sctag_scbuf_wbwr_wen_c8), .din (sctag_scbuf_wbwr_wen_c7), .clk (rclk), .se (1'b0), .si (), .so ()) ; assign sctag_scbuf_wbwr_wen_c8_v1 = sctag_scbuf_wbwr_wen_c8 ; assign sctag_scbuf_wbwr_wen_c8_v2 = sctag_scbuf_wbwr_wen_c8 ; assign sctag_scbuf_wbwr_wen_c8_v3 = sctag_scbuf_wbwr_wen_c8 ; assign sctag_scbuf_wbwr_wen_c8_v4 = sctag_scbuf_wbwr_wen_c8 ; dff_s #(3) ff_sctag_scbuf_wbwr_wl_c7 (.q (sctag_scbuf_wbwr_wl_c7[2:0]), .din (sctag_scbuf_wbwr_wl_c6[2:0]), .clk (rclk), .se (1'b0), .si (), .so ()) ; dff_s #(3) ff_sctag_scbuf_wbwr_wl_c8 (.q (sctag_scbuf_wbwr_wl_c8[2:0]), .din (sctag_scbuf_wbwr_wl_c7[2:0]), .clk (rclk), .se (1'b0), .si (), .so ()) ; assign sctag_scbuf_wbwr_wl_c8_v1[2:0] = sctag_scbuf_wbwr_wl_c8[2:0] ; assign sctag_scbuf_wbwr_wl_c8_v2[2:0] = sctag_scbuf_wbwr_wl_c8[2:0] ; assign sctag_scbuf_wbwr_wl_c8_v3[2:0] = sctag_scbuf_wbwr_wl_c8[2:0] ; assign sctag_scbuf_wbwr_wl_c8_v4[2:0] = sctag_scbuf_wbwr_wl_c8[2:0] ; dff_s #(3) ff_sctag_scbuf_wbrd_wl_r1 (.q (sctag_scbuf_wbrd_wl_r1[2:0]), .din (sctag_scbuf_wbrd_wl_r0[2:0]), .clk (rclk), .se (1'b0), .si (), .so ()) ; assign sctag_scbuf_wbrd_wl_r1_v1[2:0] = sctag_scbuf_wbrd_wl_r1[2:0] ; assign sctag_scbuf_wbrd_wl_r1_v2[2:0] = sctag_scbuf_wbrd_wl_r1[2:0] ; assign sctag_scbuf_wbrd_wl_r1_v3[2:0] = sctag_scbuf_wbrd_wl_r1[2:0] ; assign sctag_scbuf_wbrd_wl_r1_v4[2:0] = sctag_scbuf_wbrd_wl_r1[2:0] ; dff_s #(2) ff_sctag_scbuf_rdma_rdwl_r1 (.q (sctag_scbuf_rdma_rdwl_r1[1:0]), .din (sctag_scbuf_rdma_rdwl_r0[1:0]), .clk (rclk), .se (1'b0), .si (), .so ()) ; assign sctag_scbuf_rdma_rdwl_r1_v1[1:0] = sctag_scbuf_rdma_rdwl_r1[1:0] ; assign sctag_scbuf_rdma_rdwl_r1_v2[1:0] = sctag_scbuf_rdma_rdwl_r1[1:0] ; assign sctag_scbuf_rdma_rdwl_r1_v3[1:0] = sctag_scbuf_rdma_rdwl_r1[1:0] ; assign sctag_scbuf_rdma_rdwl_r1_v4[1:0] = sctag_scbuf_rdma_rdwl_r1[1:0] ; dff_s #(16) ff_sctag_scbuf_rdma_wren_s3 (.q (sctag_scbuf_rdma_wren_s3[15:0]), .din (sctag_scbuf_rdma_wren_s2[15:0]), .clk (rclk), .se (1'b0), .si (), .so ()) ; assign sctag_scbuf_rdma_wren_s3_v4 = (sctag_scbuf_rdma_wren_s3[6] | sctag_scbuf_rdma_wren_s3[4] | sctag_scbuf_rdma_wren_s3[2] | sctag_scbuf_rdma_wren_s3[0]) ; assign sctag_scbuf_rdma_wren_s3_v3 = (sctag_scbuf_rdma_wren_s3[7] | sctag_scbuf_rdma_wren_s3[5] | sctag_scbuf_rdma_wren_s3[3] | sctag_scbuf_rdma_wren_s3[1]) ; assign sctag_scbuf_rdma_wren_s3_v2 = (sctag_scbuf_rdma_wren_s3[14] | sctag_scbuf_rdma_wren_s3[12] | sctag_scbuf_rdma_wren_s3[10] | sctag_scbuf_rdma_wren_s3[8]) ; assign sctag_scbuf_rdma_wren_s3_v1 = (sctag_scbuf_rdma_wren_s3[15] | sctag_scbuf_rdma_wren_s3[13] | sctag_scbuf_rdma_wren_s3[11] | sctag_scbuf_rdma_wren_s3[9]) ; dff_s #(2) ff_sctag_scbuf_rdma_wrwl_s3 (.q (sctag_scbuf_rdma_wrwl_s3[1:0]), .din (sctag_scbuf_rdma_wrwl_s2[1:0]), .clk (rclk), .se (1'b0), .si (), .so ()) ; assign sctag_scbuf_rdma_wrwl_s3_v1[1:0] = sctag_scbuf_rdma_wrwl_s3[1:0] ; assign sctag_scbuf_rdma_wrwl_s3_v2[1:0] = sctag_scbuf_rdma_wrwl_s3[1:0] ; assign sctag_scbuf_rdma_wrwl_s3_v3[1:0] = sctag_scbuf_rdma_wrwl_s3[1:0] ; assign sctag_scbuf_rdma_wrwl_s3_v4[1:0] = sctag_scbuf_rdma_wrwl_s3[1:0] ; //////////////////////////////////////////////////////////////////////////////// dff_s #(1) ff_sctag_scbuf_wbrd_en_r1 (.q (sctag_scbuf_wbrd_en_r1), .din (sctag_scbuf_wbrd_en_r0), .clk (rclk), .se (1'b0), .si (), .so ()) ; assign sctag_scbuf_wbrd_en_r1_v1 = sctag_scbuf_wbrd_en_r1 ; assign sctag_scbuf_wbrd_en_r1_v2 = sctag_scbuf_wbrd_en_r1 ; assign sctag_scbuf_wbrd_en_r1_v3 = sctag_scbuf_wbrd_en_r1 ; assign sctag_scbuf_wbrd_en_r1_v4 = sctag_scbuf_wbrd_en_r1 ; mux2ds #(1) mux_wbrd_en_r1_in (.dout (sctag_scbuf_wbrd_en_r1_in), .in0 (sctag_scbuf_wbrd_en_r1), .sel0 (~sehold), .in1 (sctag_scbuf_wbrd_en_r2), .sel1 (sehold)) ; dff_s #(1) ff_sctag_scbuf_wbrd_en_r2 (.q (sctag_scbuf_wbrd_en_r2), .din (sctag_scbuf_wbrd_en_r1_in), .clk (rclk), .se (1'b0), .si (), .so ()) ; dff_s #(1) ff_sctag_scbuf_rdma_rden_r1 (.q (sctag_scbuf_rdma_rden_r1), .din (sctag_scbuf_rdma_rden_r0), .clk (rclk), .se (1'b0), .si (), .so ()) ; assign sctag_scbuf_rdma_rden_r1_v1 = sctag_scbuf_rdma_rden_r1 ; assign sctag_scbuf_rdma_rden_r1_v2 = sctag_scbuf_rdma_rden_r1 ; assign sctag_scbuf_rdma_rden_r1_v3 = sctag_scbuf_rdma_rden_r1 ; assign sctag_scbuf_rdma_rden_r1_v4 = sctag_scbuf_rdma_rden_r1 ; dff_s #(1) ff_sctag_scbuf_rdma_rden_r2 (.q (sctag_scbuf_rdma_rden_r2), .din (sctag_scbuf_rdma_rden_r1), .clk (rclk), .se (1'b0), .si (), .so ()) ; dff_s #(1) ff_sctag_scbuf_rdma_rden_r3 (.q (sctag_scbuf_rdma_rden_r3), .din (sctag_scbuf_rdma_rden_r2), .clk (rclk), .se (1'b0), .si (), .so ()) ; assign error_qual_in = sctag_scbuf_rdma_rden_r3 | (error_qual & sctag_scbuf_evict_en_r3) ; dffrl_s #(1) ff_array_rd_ptr (.q (error_qual), .din (error_qual_in), .clk (rclk), .rst_l (dbb_rst_l), .se (se), .si (), .so ()) ; assign wb_or_rdma_rden_r2 = (sctag_scbuf_wbrd_en_r2 | sctag_scbuf_rdma_rden_r2) | sehold ; clken_buf clk_buf_r2 (.clk(en_clk_r2), .rclk(rclk), .enb_l(~wb_or_rdma_rden_r2), .tmb_l(~se)); clken_buf clk_buf_r3 (.clk(en_clk_r3), .rclk(rclk), .enb_l(~sctag_scbuf_evict_en_r3), .tmb_l(~se)); mux2ds #(624) mux_wb_rdma_mux_out (.dout (wb_rdma_mux_out[623:0]), .in0 (wb_array_dout[623:0]), .sel0 (sctag_scbuf_wbrd_en_r2), .in1 (rdma_array_dout[623:0]), .sel1 (~sctag_scbuf_wbrd_en_r2)) ; dff_s #(624) ff_wb_array_dout_r3 (.q (wb_array_dout_r3[623:0]), .din (wb_rdma_mux_out[623:0]), .clk (en_clk_r2), .se (1'b0), .si (), .so ()) ; //////////////////////////////////////////////////////////////////////////////// dff_s #(1) ff_sctag_scbuf_evict_en_r1 (.q (sctag_scbuf_evict_en_r1), .din (sctag_scbuf_evict_en_r0), .clk (rclk), .se (1'b0), .si (), .so ()) ; dff_s #(1) ff_sctag_scbuf_evict_en_r2 (.q (sctag_scbuf_evict_en_r2), .din (sctag_scbuf_evict_en_r1), .clk (rclk), .se (1'b0), .si (), .so ()) ; dff_s #(1) ff_sctag_scbuf_evict_en_r3 (.q (sctag_scbuf_evict_en_r3), .din (sctag_scbuf_evict_en_r2), .clk (rclk), .se (1'b0), .si (), .so ()) ; dff_s #(1) ff_sctag_scbuf_evict_en_r4 (.q (sctag_scbuf_evict_en_r4), .din (sctag_scbuf_evict_en_r3), .clk (rclk), .se (1'b0), .si (), .so ()) ; dff_s #(1) ff_sctag_scbuf_evict_en_r5 (.q (sctag_scbuf_evict_en_r5), .din (sctag_scbuf_evict_en_r4), .clk (rclk), .se (1'b0), .si (), .so ()) ; dff_s #(3) ff_ev_dword_r1 (.q (sctag_scbuf_ev_dword_r1[2:0]), .din (sctag_scbuf_ev_dword_r0[2:0]), .clk (rclk), .se (1'b0), .si (), .so ()) ; dff_s #(3) ff_ev_dword_r2 (.q (sctag_scbuf_ev_dword_r2[2:0]), .din (sctag_scbuf_ev_dword_r1[2:0]), .clk (rclk), .se (1'b0), .si (), .so ()) ; dff_s #(3) ff_ev_dword_r3 (.q (sctag_scbuf_ev_dword_r3[2:0]), .din (sctag_scbuf_ev_dword_r2[2:0]), .clk (rclk), .se (1'b0), .si (), .so ()) ; assign sel_in0 = (sctag_scbuf_ev_dword_r3[1:0] == 2'b00) ; assign sel_in1 = (sctag_scbuf_ev_dword_r3[1:0] == 2'b01) ; assign sel_in2 = (sctag_scbuf_ev_dword_r3[1:0] == 2'b10) ; assign sel_in3 = ~(sel_in0 | sel_in1 | sel_in2) ; mux4ds #(78) mux_wb_array_dout_1 (.dout (wb_array_dout_r3_4t1[77:0]), .in0 (wb_array_dout_r3[ 77: 0]), .sel0 (sel_in3), .in1 (wb_array_dout_r3[155: 78]), .sel1 (sel_in2), .in2 (wb_array_dout_r3[233:156]), .sel2 (sel_in1), .in3 (wb_array_dout_r3[311:234]), .sel3 (sel_in0)) ; mux4ds #(78) mux_wb_array_dout_2 (.dout (wb_array_dout_r3_4t1[155:78]), .in0 (wb_array_dout_r3[389:312]), .sel0 (sel_in3), .in1 (wb_array_dout_r3[467:390]), .sel1 (sel_in2), .in2 (wb_array_dout_r3[545:468]), .sel2 (sel_in1), .in3 (wb_array_dout_r3[623:546]), .sel3 (sel_in0)) ; mux2ds #(78) mux_wb_array_dout_8t1 (.dout (wb_array_dout_r3_8t1[77:0]), .in0 (wb_array_dout_r3_4t1[ 77: 0]), .sel0 (sctag_scbuf_ev_dword_r3[2]), .in1 (wb_array_dout_r3_4t1[155:78]), .sel1 (~sctag_scbuf_ev_dword_r3[2])) ; dff_s #(78) ff_wb_array_dout_r4 (.q (wb_array_dout_r4[77:0]), .din (wb_array_dout_r3_8t1[77:0]), .clk (en_clk_r3), .se (1'b0), .si (), .so ()) ; //////////////////////////////////////////////////////////////////////////////// zzecc_sctag_ecc39 u_ecctree_39b_1 (.dout (wb_array_dout_ecc_r4[31:0]), .cflag (check0_r4[5:0]), .pflag (parity0_r4), .parity (wb_array_dout_r4[6:0]), .din (wb_array_dout_r4[38:7])) ; zzecc_sctag_ecc39 u_ecctree_39b_2 (.dout (wb_array_dout_ecc_r4[63:32]), .cflag (check1_r4[5:0]), .pflag (parity1_r4), .parity (wb_array_dout_r4[45:39]), .din (wb_array_dout_r4[77:46])) ; assign evict_uncorr_err_r4 = (sctag_scbuf_evict_en_r4 & !error_qual) & (((|check0_r4[5:0]) & ~parity0_r4) | ((|check1_r4[5:0]) & ~parity1_r4)) ; assign evict_uncorr_err_unqual_r4 = sctag_scbuf_evict_en_r4 & (((|check0_r4[5:0]) & ~parity0_r4) | ((|check1_r4[5:0]) & ~parity1_r4)) ; assign evict_corr_err_r4 = (sctag_scbuf_evict_en_r4 & !error_qual) & (parity0_r4 | parity1_r4) ; dff_s #(64) ff_wb_array_dout_r5 (.q (wb_array_dout_r5[63:0]), .din (wb_array_dout_ecc_r4[63:0]), .clk (rclk), .se (1'b0), .si (), .so ()) ; dff_s #(1) ff_evict_uncorr_err_r5 (.q (evict_uncorr_err_r5), .din (evict_uncorr_err_r4), .clk (rclk), .se (1'b0), .si (), .so ()) ; dff_s #(1) ff_evict_uncorr_err_unqual_r5 (.q (evict_uncorr_err_unqual_r5), .din (evict_uncorr_err_unqual_r4), .clk (rclk), .se (1'b0), .si (), .so ()) ; dff_s #(1) ff_evict_corr_err_r5 (.q (evict_corr_err_r5), .din (evict_corr_err_r4), .clk (rclk), .se (1'b0), .si (), .so ()) ; //////////////////////////////////////////////////////////////////////////////// assign scbuf_dram_wr_data_r5_pb = wb_array_dout_r5[63:0] ; assign scbuf_dram_data_vld_r5_pb = sctag_scbuf_evict_en_r5 ; assign scbuf_dram_data_mecc_r5_pb = evict_uncorr_err_unqual_r5 ; assign scbuf_sctag_ev_uerr_r5_pb = evict_uncorr_err_r5 ; assign scbuf_sctag_ev_cerr_r5_pb = evict_corr_err_r5 ; //////////////////////////////////////////////////////////////////////////////// endmodule

module gsu( input clkin, input [7:0] DI, output [7:0] DO, input [23:0] ADDR, input CS, input reg_we_rising, input [7:0] ROM_BUS_DI, output [23:0] ROM_BUS_ADDR, output ROM_BUS_RRQ, input ROM_BUS_RDY, input [7:0] RAM_BUS_DI, input [7:0] RAM_BUS_DO, output [18:0] RAM_BUS_ADDR, output RAM_BUS_RRQ, output RAM_BUS_WRQ, input RAM_BUS_RDY, output gsu_active, output ron, output ran ); wire mmio_enable = CS & !ADDR[22] & (ADDR[15:12] == 4'b0011) & (ADDR[15:0] < 16'h3040); wire MMIO_WR_EN = mmio_enable & reg_we_rising; reg [7:0] MMIO_DOr; wire [7:0] MMIO_DO; assign MMIO_DO = MMIO_DOr; wire cache_enable = CS & !ADDR[22] & (ADDR[15:12] == 4'b0011) & (ADDR[9] ^ ADDR[8]) & (ADDR[15:0] < 16'h3300); wire CACHE_WR_EN = cache_enable & reg_we_rising; reg [7:0] CACHE_DOr; wire [7:0] CACHE_DO; assign CACHE_DO = CACHE_DOr; assign DO = mmio_enable ? MMIO_DO : cache_enable ? CACHE_DO : 8'h00; reg [15:0] regs [15:0]; // General purpose registers R0~R15 parameter RAP = 4'd14, PC = 4'd15 ; // Status/flag register flags reg [15:0] sfr; wire z = sfr[1]; // Zero wire cy = sfr[2]; // Carry wire s = sfr[3]; // Sign wire ov = sfr[4]; // Overflow wire g = sfr[5]; // Go wire r = sfr[6]; // Reading ROM using R14 wire alt1 = sfr[8]; // Mode flag for next insn wire alt2 = sfr[9]; // Mode flag for next insn wire il = sfr[10]; // Immediate lower wire ih = sfr[11]; // Immediate higher wire b = sfr[12]; // Instruction executed with WITH wire irq = sfr[15]; // Interrupt parameter Z = 4'd1, CY = 4'd2, S = 4'd3, OV = 4'd4, G = 4'd5, R = 4'd6, ALT1 = 4'd8, ALT2 = 4'd9, IL = 4'd10, IH = 4'd11, B = 4'd12, IRQ = 4'd15 ; reg [7:0] pbr; // Program bank register reg [7:0] rombr; // Game Pak ROM bank register reg rambr; // Game Pak RAM bank register reg [15:0] cbr; // Cache base register. [3:0] are always 0. // TODO: why not make the register only 12 bits wide? reg [7:0] scbr; // Screen base register reg [5:0] scmr; // Screen mode register reg [7:0] colr; // Color register reg [4:0] por; // Plot option register reg bramr; // Back-up RAM register reg [7:0] vcr; // Version code register reg [7:0] cfgr; // Config register reg clsr; // Clock select register reg [7:0] pipeline; reg [3:0] src_reg; reg [15:0] src_reg_reg; reg [3:0] dst_reg; reg [3:0] dst1; reg [15:0] dst1_reg; reg dst1_reg_assigned; initial dst1_reg_assigned = 1'b0; /* reg [3:0] dst2; reg [15:0] dst2_reg; reg dst2_reg_assigned; initial dst2_reg_assigned = 1'b0; */ reg [16:0] res17; /* ROM/RAM bus access flags */ assign ron = scmr[4]; assign ran = scmr[3]; /* Cache RAM and cache flags */ reg [31:0] cache_flags; initial cache_flags = 32'h00000000; wire [7:0] cache_outa; wire [7:0] cache_in; wire [8:0] cache_addra; wire cache_we; wire [7:0] cache_byte; wire [7:0] cache_outb; wire [8:0] cache_addrb; gsu_cache cache ( .douta(cache_outa), .dina(cache_in), .addra(cache_addra), .wea(cache_we), .doutb(cache_outb), .addrb(cache_addrb), .clk(clkin) ); wire [8:0] RESOLVED_CACHE_ADDR = (ADDR[9:0] + cbr) & 9'h1ff; wire [8:0] RESOLVED_CACHE_PC = (regs[PC][9:0] + cbr) & 9'h1ff; assign cache_addrb = RESOLVED_CACHE_ADDR; assign cache_byte = cache_outa; /* Cache flag of byte in cache pointed to by the program counter */ wire cache_flag = cache_flags[RESOLVED_CACHE_PC[8:4]]; /* Bytes of the current instruction */ reg [7:0] curr_inst [2:0]; reg [2:0] curr_inst_valid; reg [2:0] curr_inst_fetches; /* Byte in pipeline */ reg [7:0] pipeline_byte; /* Immediate parts of current instruction */ wire [3:0] imm = cache_byte[3:0]; reg [3:0] immr4; reg [7:0] immr8 [1:0]; /* For plotting, two pixel caches. */ reg[7:0] primary_pcache [7:0]; reg[7:0] primary_pcache_flags; reg[7:0] secondary_pcache [7:0]; reg[7:0] secondary_pcache_flags; reg fetch_cached_insn; reg[7:0] state; parameter STATE_IDLE = 8'b00000001; parameter STATE_CPU1 = 8'b00000010; parameter STATE_CPU2 = 8'b00000100; parameter STATE_CPU3 = 8'b00001000; parameter STATE_CPU4 = 8'b00010000; parameter OP_ALT1 = 8'b00111101; parameter OP_ALT2 = 8'b00111110; parameter OP_ALT3 = 8'b00111111; parameter OP_FROM = 8'b1011xxxx; parameter OP_TO = 8'b0001xxxx; parameter OP_ADX = 8'b0101xxxx; parameter OP_BEQ = 8'b00001001; parameter OP_NOP = 8'b00000001; parameter OP_IWT = 8'b1111xxxx; // Also LM, SM reg [7:0] curr_op; initial begin: initial_blk reg [4:0] i; state = STATE_IDLE; for (i = 5'h0; i <= PC; i = i + 5'h1) begin regs[i] = 16'h0000; end curr_op = OP_NOP; curr_inst[0] = OP_NOP; curr_inst[1] = 8'b0; curr_inst[2] = 8'b0; for (i = 2'h0; i < 2'h3; i = i + 2'h1) begin curr_inst_valid[i] = 1'b0; end pipeline_byte = OP_NOP; end reg [2:0] gsu_busy; parameter BUSY_CACHE = 2'b00; parameter BUSY_CACHE_SCPU = 2'b01; parameter BUSY_CPU = 2'b10; //assign gsu_busy_out = gsu_busy; assign gsu_active = |gsu_busy; reg [7:0] scpu_di_r; initial scpu_di_r = 8'h00; reg [8:0] gsu_cache_addra; initial gsu_cache_addra = 9'h000; reg [8:0] scpu_cache_addra; initial scpu_cache_addra = 9'h000; reg gsu_cache_we; initial gsu_cache_we = 1'b0; reg scpu_cache_we; initial scpu_cache_we = 1'b0; assign cache_in = gsu_busy[BUSY_CACHE] ? ROM_BUS_DI : gsu_busy[BUSY_CACHE_SCPU] ? scpu_di_r : 8'h00; assign cache_addra = gsu_busy[BUSY_CACHE] ? gsu_cache_addra : gsu_busy[BUSY_CACHE_SCPU] ? scpu_cache_addra : RESOLVED_CACHE_PC; assign cache_we = gsu_busy[BUSY_CACHE] ? gsu_cache_we : gsu_busy[BUSY_CACHE_SCPU] ? scpu_cache_we : 1'b0; reg [23:0] CACHE_SRC_ADDRr; wire [22:0] MAPPED_CACHE_ROM_ADDR = (~|CACHE_SRC_ADDRr[23:22] & CACHE_SRC_ADDRr[15]) ? /* Bank 0x00-0x3f, Offset 8000-ffff */ ({3'b000, CACHE_SRC_ADDRr[21:16], CACHE_SRC_ADDRr[14:0]}) : /* Bank 0x40-0x5f, Offset 0000-ffff */ ({3'b000, CACHE_SRC_ADDRr[20:0]}); reg CACHE_ROM_BUS_RRQr; initial CACHE_ROM_BUS_RRQr = 1'b0; /* CPU ROM bus access related flags and registers */ reg cpu_rom_bus_rq; reg [7:0] cpu_rombusdata; reg [23:0] cpu_rombusaddr; assign MAPPED_CPU_ROM_ADDR = (~|cpu_rombusaddr[23:22] & cpu_rombusaddr[15]) ? /* Bank 0x00-0x3f, Offset 8000-ffff */ ({3'b000, cpu_rombusaddr[21:16], cpu_rombusaddr[14:0]}) : /* Bank 0x40-0x5f, Offset 0000-ffff */ ({3'b000, cpu_rombusaddr[20:0]}); assign ROM_BUS_RRQ = CACHE_ROM_BUS_RRQr | cpu_rom_bus_rq; assign ROM_BUS_ADDR = gsu_busy[BUSY_CACHE] ? MAPPED_CACHE_ROM_ADDR : MAPPED_CPU_ROM_ADDR; reg [4:0] CACHE_ST; parameter ST_CACHE_IDLE = 5'b00001; parameter ST_CACHE_START = 5'b00010; parameter ST_CACHE_WAIT = 5'b00100; parameter ST_CACHE_ADDR = 5'b01000; parameter ST_CACHE_END = 5'b10000; initial CACHE_ST = ST_CACHE_IDLE; reg CACHE_TRIG_ENr; reg CACHE_TRIG_EN2r; reg cpu_cache_en; initial begin CACHE_TRIG_ENr = 1'b0; CACHE_TRIG_EN2r = 1'b0; cpu_cache_en = 1'b0; end always @(posedge clkin) CACHE_TRIG_EN2r <= CACHE_TRIG_ENr; wire CACHE_TRIG_EN = CACHE_TRIG_EN2r; /* FSM for writing to cache. There are two paths: 1) Filling a non-resident cache block from ROM through internal operation - Source address: program counter - Address in cache: (cache base + program counter) & 0x1f0 - Total bytes read and written: 16 2) Writing to the cache from the S-CPU - Source data: wire DI from main.v - Address in cache: (cache base + ADDR[9:0]) & 0x1ff - Total bytes read and written: 1 Filling non-resident cache blocks has priority. */ reg [3:0] cache_count; initial cache_count = 4'b0; always @(posedge clkin) begin case(CACHE_ST) ST_CACHE_IDLE: begin if(CACHE_TRIG_EN & ~cache_flags[RESOLVED_CACHE_PC[8:4] /* XXX */]) begin CACHE_ST <= ST_CACHE_START; gsu_busy[BUSY_CACHE] <= 1'b1; end else if(cpu_cache_en & ~cache_flags[RESOLVED_CACHE_PC[8:4] /* XXX */]) begin CACHE_ST <= ST_CACHE_START; gsu_busy[BUSY_CACHE] <= 1'b1; end else if (CACHE_WR_EN) begin CACHE_ST <= ST_CACHE_START; gsu_busy[BUSY_CACHE_SCPU] <= 1'b1; end else CACHE_ST <= ST_CACHE_IDLE; end ST_CACHE_START: begin if (gsu_busy[BUSY_CACHE]) begin CACHE_ST <= ST_CACHE_WAIT; CACHE_SRC_ADDRr <= regs[PC] /* XXX */; gsu_cache_addra <= {RESOLVED_CACHE_PC[8:4], 4'h0} /* XXX */; cache_count <= 4'b0; CACHE_ROM_BUS_RRQr <= 1'b1; end else if (gsu_busy[BUSY_CACHE_SCPU]) begin CACHE_ST <= ST_CACHE_WAIT; scpu_cache_addra <= RESOLVED_CACHE_ADDR; scpu_di_r <= DI; end else CACHE_ST <= ST_CACHE_IDLE; end ST_CACHE_WAIT: begin if (gsu_busy[BUSY_CACHE]) begin CACHE_ROM_BUS_RRQr <= 1'b0; if(~CACHE_ROM_BUS_RRQr & ROM_BUS_RDY) begin CACHE_ST <= ST_CACHE_ADDR; gsu_cache_we <= 1'b1; end else CACHE_ST <= ST_CACHE_WAIT; end else if (gsu_busy[BUSY_CACHE_SCPU]) begin CACHE_ST <= ST_CACHE_ADDR; scpu_cache_we <= 1'b1; end else CACHE_ST <= ST_CACHE_IDLE; end ST_CACHE_ADDR: begin if (gsu_busy[BUSY_CACHE]) begin gsu_cache_we <= 1'b0; CACHE_SRC_ADDRr <= CACHE_SRC_ADDRr + 1; cache_count <= cache_count + 1; gsu_cache_addra <= (gsu_cache_addra + 10'b1) & 9'h1ff; if (cache_count == 4'hf) begin // Set the cache flag, as the last byte in the cache block was written cache_flags[gsu_cache_addra[8:4]] <= 1'b1; gsu_busy[BUSY_CACHE] <= 1'b0; CACHE_ST <= ST_CACHE_IDLE; end else begin CACHE_ROM_BUS_RRQr <= 1'b1; CACHE_ST <= ST_CACHE_WAIT; end end else if (gsu_busy[BUSY_CACHE_SCPU]) begin CACHE_ST <= ST_CACHE_IDLE; gsu_busy[BUSY_CACHE_SCPU] <= 1'b0; scpu_cache_we <= 1'b0; // Set the cache flag if the last byte in the cache block was written if (&scpu_cache_addra[3:0]) begin cache_flags[scpu_cache_addra[8:4]] <= 1'b1; end // the write will have hit the cache by the next cycle end else CACHE_ST <= ST_CACHE_IDLE; end endcase end reg [3:0] PIPELINE_ST; parameter ST_PIPELINE_IDLE = 4'b0001; parameter ST_PIPELINE_START = 4'b0010; parameter ST_PIPELINE_WAIT = 4'b0100; parameter ST_PIPELINE_END = 4'b1000; initial PIPELINE_ST = ST_PIPELINE_IDLE; reg [3:0] pipeline_delay; reg pipeline_cache_wait; initial pipeline_cache_wait = 0; /* Process to read instructions from either the cache or the gamepak ROM. */ // XXX: take into account interaction with cache write operations always @(posedge clkin) begin case (PIPELINE_ST) ST_PIPELINE_IDLE: begin PIPELINE_ST <= ST_PIPELINE_IDLE; if (sfr[G]) begin PIPELINE_ST <= ST_PIPELINE_START; end end ST_PIPELINE_START: begin PIPELINE_ST <= ST_PIPELINE_START; CACHE_TRIG_ENr <= 1'b0; if ((cbr[15:4] == regs[PC][15:4]) & cache_flags[RESOLVED_CACHE_PC[8:4]]) begin PIPELINE_ST <= ST_PIPELINE_END; pipeline_cache_wait <= 1'b0; pipeline_byte <= cache_outa; pipeline_delay <= 3; // XXX end else if (cbr[15:4] == regs[PC][15:4]) begin // Pull the block into cache. Then the branch above takes over. if (~pipeline_cache_wait) begin CACHE_TRIG_ENr <= 1'b1; pipeline_cache_wait <= 1'b1; end end else begin // Read the block from gamepak ROM PIPELINE_ST <= ST_PIPELINE_WAIT; cpu_rom_bus_rq <= 1'b1; cpu_rombusaddr <= {pbr, regs[PC]}; end end ST_PIPELINE_WAIT: begin PIPELINE_ST <= ST_PIPELINE_WAIT; cpu_rom_bus_rq <= 1'b0; if (~cpu_rom_bus_rq & ROM_BUS_RDY) begin // XXX: what if cache and this are reading at the same time? PIPELINE_ST <= ST_PIPELINE_END; pipeline_byte <= ROM_BUS_DI; pipeline_delay <= 3; // XXX end end ST_PIPELINE_END: begin PIPELINE_ST <= ST_PIPELINE_END; pipeline_delay <= pipeline_delay - 1; if (pipeline_delay == 0) PIPELINE_ST <= sfr[G] ? ST_PIPELINE_START : ST_PIPELINE_IDLE; end endcase end // XXX: somehow move pipeline byte to current instruction when necessary always @(posedge clkin) begin case (state) STATE_IDLE: begin state <= STATE_IDLE; if (MMIO_WR_EN) begin casex (ADDR[9:0]) /* GPRs R0~R15 For some reason, unless these are written this way, the code either fails to synthesize or fails timing constraints on clkin */ 10'h000: regs[0] <= {regs[0][15:8], DI}; 10'h001: regs[0] <= {DI, regs[0][7:0]}; 10'h002: regs[1] <= {regs[1][15:8], DI}; 10'h003: regs[1] <= {DI, regs[1][7:0]}; 10'h004: regs[2] <= {regs[2][15:8], DI}; 10'h005: regs[2] <= {DI, regs[2][7:0]}; 10'h006: regs[3] <= {regs[3][15:8], DI}; 10'h007: regs[3] <= {DI, regs[3][7:0]}; 10'h008: regs[4] <= {regs[4][15:8], DI}; 10'h009: regs[4] <= {DI, regs[4][7:0]}; 10'h00a: regs[5] <= {regs[5][15:8], DI}; 10'h00b: regs[5] <= {DI, regs[5][7:0]}; 10'h00c: regs[6] <= {regs[6][15:8], DI}; 10'h00d: regs[6] <= {DI, regs[6][7:0]}; 10'h00e: regs[7] <= {regs[7][15:8], DI}; 10'h00f: regs[7] <= {DI, regs[7][7:0]}; 10'h010: regs[8] <= {regs[8][15:8], DI}; 10'h011: regs[8] <= {DI, regs[8][7:0]}; 10'h012: regs[9] <= {regs[9][15:8], DI}; 10'h013: regs[9] <= {DI, regs[9][7:0]}; 10'h014: regs[10] <= {regs[10][15:8], DI}; 10'h015: regs[10] <= {DI, regs[10][7:0]}; 10'h016: regs[11] <= {regs[11][15:8], DI}; 10'h017: regs[11] <= {DI, regs[11][7:0]}; 10'h018: regs[12] <= {regs[12][15:8], DI}; 10'h019: regs[12] <= {DI, regs[12][7:0]}; 10'h01a: regs[13] <= {regs[13][15:8], DI}; 10'h01b: regs[13] <= {DI, regs[13][7:0]}; 10'h01c: begin regs[14] <= {regs[14][15:8], DI}; // TODO: should update ROM buffer end 10'h01d: begin regs[14] <= {DI, regs[14][7:0]}; // TODO: should update ROM buffer end 10'h01e: regs[15] <= {regs[15][15:8], DI}; 10'h01f: begin regs[15] <= {DI, regs[15][7:0]}; sfr[G] <= 1'b1; state <= STATE_CPU1; end // Status flag register 10'h030: begin sfr[7:0] <= {1'b0, DI[6:1], 1'b0}; if (DI[G]) begin state <= STATE_CPU1; end end 10'h031: sfr[15:8] <= {DI[7], 2'b00, DI[4:0]}; //10'h032: Unused // Back-up RAM register 10'h033: bramr <= DI[0]; // Program bank register 10'h034: pbr <= DI; // Game Pak ROM bank register: read only //10'h036: rombr <= DI; // Config register: 10'h037: cfgr <= {DI[7], 1'b0, DI[5], 5'b00000}; // Screen base register 10'h038: scbr <= DI; // Clock select register 10'h039: clsr <= DI[0]; // Screen mode register 10'h03a: scmr <= DI[5:0]; // Version code register: read only //10'h03b: vcr <= DI; // Game Pak RAM bank register: read only //10'h03c: rambr <= DI[0]; //10'h03d: Unused // Cache base register: read only //10'h03e: cbr[7:0] <= {DI[7:4], 4'b0000}; //10'h03f: cbr[15:8] <= DI; // Color register: no access from SNES CPU // Plot option register: no access from SNES CPU endcase end end STATE_CPU1: begin state <= STATE_CPU2; src_reg_reg <= regs[src_reg]; if (curr_inst_valid[0]) begin // First, read first byte of instruction from cache curr_op <= curr_inst[0]; casex (cache_byte) OP_ALT1: begin sfr[ALT1] <= 1'b1; sfr[ALT2] <= 1'b0; regs[PC] <= regs[PC] + 16'h1; end OP_ALT2: begin sfr[ALT1] <= 1'b0; sfr[ALT2] <= 1'b1; regs[PC] <= regs[PC] + 16'h1; end OP_ALT3: begin sfr[ALT1] <= 1'b1; sfr[ALT2] <= 1'b1; regs[PC] <= regs[PC] + 16'h1; end OP_FROM: begin if (~b) src_reg <= imm; else begin dst1 <= dst_reg; dst1_reg <= regs[imm]; dst1_reg_assigned <= 1'b1; if (dst_reg != PC) begin regs[PC] <= regs[PC] + 16'h1; end // XXX: need to reset regs end end OP_TO: begin if (~b) dst_reg <= imm; else begin dst1 <= imm; dst1_reg <= regs[src_reg]; dst1_reg_assigned <= 1'b1; if (imm != PC) begin regs[PC] <= regs[PC] + 16'h1; end // XXX: need to reset regs end end OP_IWT: begin immr4 <= imm; regs[PC] <= regs[PC] + 16'h1; end OP_NOP: begin // Just reset regs. sfr[B] <= 1'b0; sfr[ALT1] <= 1'b0; sfr[ALT2] <= 1'b0; src_reg <= 4'h0; dst_reg <= 4'h0; regs[PC] <= regs[PC] + 16'h1; end endcase end end STATE_CPU2: begin state <= STATE_CPU3; // Wait until the second byte of the instruction is in the cache if (cache_flag) begin casex (curr_op) OP_ADX: begin if (!alt1 && !alt2) begin // ADD Rn res17 <= src_reg_reg + regs[imm]; end else if (alt1 && !alt2) begin // ADC Rn res17 <= src_reg_reg + regs[imm] + cy; end else if (!alt1 && alt2) begin // ADD #n res17 <= src_reg_reg + imm; end else /* if (alt1 && alt2) */ begin // ADC #n res17 <= src_reg_reg + imm + cy; end end OP_BEQ: begin: op_beq_blk /* reg signed [7:0] tmp; tmp = pipeline; regs[PC] <= regs[PC] + 16'h1; //pipeline = 8'b1; // XXX: NOP for now. Should read. //fetch_next_cached_insn; if (z) begin // XXX this is ugly! regs[PC] <= $unsigned($signed(regs[PC]) + tmp); end */ end OP_IWT: begin immr8[0] <= cache_byte; regs[PC] <= regs[PC] + 16'h1; end endcase end end STATE_CPU3: begin state <= STATE_CPU4; // Wait until the third byte of the instruction is in the cache if (cache_flag) begin casex (curr_op) OP_ADX: begin // Set flags sfr[OV] <= (~(src_reg_reg ^ (alt2 ? regs[imm] : imm)) & ((alt2 ? regs[imm] : imm) ^ res17) & 16'h8000) != 0; sfr[S] <= (res17 & 16'h8000) != 0; sfr[CY] <= res17 >= 17'h10000; sfr[Z] <= (res17 & 16'hffff) == 0; // Write the result dst1 <= dst_reg; dst1_reg <= res17; dst1_reg_assigned <= 1'b1; // Increment program counter if it was not set above if (dst_reg != PC) begin regs[PC] <= regs[PC] + 16'h1; end end OP_IWT: begin regs[immr4] <= {immr8[0], cache_byte}; if (immr4 != PC) begin regs[PC] <= regs[PC] + 16'h1; end end endcase end end STATE_CPU4: begin state <= sfr[G] ? STATE_CPU1 : STATE_IDLE; casex (curr_op) OP_ADX, OP_IWT: begin // Register reset sfr[B] <= 1'b0; sfr[ALT1] <= 1'b0; sfr[ALT2] <= 1'b0; src_reg <= 4'h0; dst_reg <= 4'h0; end endcase // Move results to destination GPRs. if (dst1_reg_assigned) begin regs[dst1] <= dst1_reg; dst1_reg_assigned <= 1'b0; end end endcase end /* MMIO read process */ always @(posedge clkin) begin casex (ADDR[9:0]) /* GPRs R0~R15 */ 10'b00000xxxx0: MMIO_DOr <= regs[ADDR[4:1]][7:0]; 10'b00000xxxx1: MMIO_DOr <= regs[ADDR[4:1]][15:8]; // Status flag register 10'h030: MMIO_DOr <= sfr[7:0]; 10'h031: MMIO_DOr <= sfr[15:8]; // TODO: should reset IRQ flag //10'h032: Unused // Back-up RAM register: write only //10'h033: MMIO_DOr <= {7'b0000000, bramr}; // Program bank register 10'h034: MMIO_DOr <= pbr; // Game Pak ROM bank register 10'h036: MMIO_DOr <= rombr; // Config register: write only //10'h037: MMIO_DOr <= cfgr; // Screen base register: write only //10'h038: MMIO_DOr <= scbr; // Clock select register: write only //10'h039: MMIO_DOr <= {7'b0000000, clsr}; // Screen mode register: write only //10'h03a: MMIO_DOr <= {2'b00, scmr}; // Version code register 10'h03b: MMIO_DOr <= vcr; // Game Pak RAM bank register 10'h03c: MMIO_DOr <= {7'b0000000, rambr}; //10'h03d: Unused // Cache base register 10'h03e: MMIO_DOr <= {cbr[7:4], 4'b0000}; 10'h03f: MMIO_DOr <= cbr[15:8]; // Color register: no access from SNES CPU // Plot option register: no access from SNES CPU default: MMIO_DOr <= 8'hff; endcase end /* // For some reason, enabling this makes timing constraints start to fail!? always @(posedge clkin) begin casex (ADDR[9:0]) // Cache RAM 10'h1xx, 10'h2xx: CACHE_DOr <= cache_outb; endcase end */ /* State machine for reading the gamepak ROM to CPU */ reg[2:0] ROMBUSRD_STATE; parameter ST_ROMBUSRD_IDLE = 3'b001; parameter ST_ROMBUSRD_WAIT = 3'b010; parameter ST_ROMBUSRD_END = 3'b100; initial ROMBUSRD_STATE = ST_ROMBUSRD_IDLE; /* This is just cpu_rom_bus_rq delayed by one cycle. */ reg cpu_rom_bus_rq2; always @(posedge clkin) cpu_rom_bus_rq2 <= cpu_rom_bus_rq; /* This is just CACHE_ROM_BUS_RRQr delayed by one cycle. */ reg cache_rom_bus_rq2; always @(posedge clkin) cache_rom_bus_rq2 <= CACHE_ROM_BUS_RRQr; always @(posedge clkin) begin case(ROMBUSRD_STATE) ST_ROMBUSRD_IDLE: begin if(cpu_rom_bus_rq2 | cache_rom_bus_rq2) begin ROMBUSRD_STATE <= ST_ROMBUSRD_WAIT; end end ST_ROMBUSRD_WAIT: begin if(ROM_BUS_RDY) ROMBUSRD_STATE <= ST_ROMBUSRD_END; else ROMBUSRD_STATE <= ST_ROMBUSRD_WAIT; end ST_ROMBUSRD_END: begin /* if(~cpu_rombusaddr[22]) cpu_rombusdata <= ROM_BUS_DI; else cpu_rombusdata <= 8'h00; */ cpu_rombusdata <= ROM_BUS_DI; /* XXX: Should we have a transition out of this state? Note that the CX4 core has no such transition. */ ROMBUSRD_STATE <= ST_ROMBUSRD_IDLE; end endcase end endmodule