module_content
stringlengths 18
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module's undeclared outputs)
reg [31:0] out;
// End of automatics
`ifdef verilator
`define dontOptimize $c1("1")
`else
`define dontOptimize 1'b1
`endif
always @(posedge clk) begin
out <= in;
if (`dontOptimize) if (`dontOptimize) if (`dontOptimize) if (`dontOptimize)
if (`dontOptimize) if (`dontOptimize) if (`dontOptimize) if (`dontOptimize)
if (`dontOptimize) if (`dontOptimize) if (`dontOptimize) if (`dontOptimize)
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if (`dontOptimize) if (`dontOptimize) if (`dontOptimize) if (`dontOptimize)
if (`dontOptimize) if (`dontOptimize) if (`dontOptimize) if (`dontOptimize)
if (`dontOptimize) if (`dontOptimize) if (`dontOptimize) if (`dontOptimize)
if (`dontOptimize) if (`dontOptimize) if (`dontOptimize) if (`dontOptimize)
if (`dontOptimize) if (`dontOptimize) if (`dontOptimize) if (`dontOptimize)
if (`dontOptimize) if (`dontOptimize) if (`dontOptimize) if (`dontOptimize)
if (`dontOptimize) if (`dontOptimize) if (`dontOptimize) if (`dontOptimize)
if (`dontOptimize) if (`dontOptimize) if (`dontOptimize) if (`dontOptimize)
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if (`dontOptimize) if (`dontOptimize) if (`dontOptimize) if (`dontOptimize)
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if (`dontOptimize) if (`dontOptimize) if (`dontOptimize) if (`dontOptimize)
if (`dontOptimize) if (`dontOptimize) if (`dontOptimize) if (`dontOptimize)
if (`dontOptimize) if (`dontOptimize) if (`dontOptimize) if (`dontOptimize)
if (`dontOptimize) if (`dontOptimize) if (`dontOptimize) if (`dontOptimize)
if (`dontOptimize) if (`dontOptimize) if (`dontOptimize) if (`dontOptimize)
if (`dontOptimize) if (`dontOptimize) if (`dontOptimize) if (`dontOptimize)
if (`dontOptimize) if (`dontOptimize) if (`dontOptimize) if (`dontOptimize)
if (`dontOptimize) if (`dontOptimize) if (`dontOptimize) if (`dontOptimize)
if (`dontOptimize) if (`dontOptimize) if (`dontOptimize) if (`dontOptimize)
if (in[0])
out <= ~in;
end
endmodule
|
module t (/*AUTOARG*/
// Inputs
clk
);
input clk;
reg [15:0] l;
reg [49:0] q;
reg [79:0] w;
reg [4:0] lc;
reg lo;
reg l0;
reg [5:0] qc;
reg qo;
reg q0;
reg [6:0] wc;
reg wo;
reg w0;
always @* begin
lc = $countones(l);
lo = $onehot(l);
l0 = $onehot0(l);
wc = $countones(w);
wo = $onehot(w);
w0 = $onehot0(w);
qc = $countones(q);
qo = $onehot(q);
q0 = $onehot0(q);
end
integer cyc; initial cyc=1;
integer cyc_com;
always_comb begin
cyc_com = cyc;
end
integer cyc_d1;
always_ff @ (posedge clk) begin
cyc_d1 <= cyc_com;
end
always @ (posedge clk) begin
if (cyc!=0) begin
cyc <= cyc + 1;
//$write("%d %x %d %x %x %x %d %x %x %x %d %x %x\n",
// cyc, l, lc, lo, l0, q,qc,qo,q0, w,wc,wo,w0);
if (cyc_com != cyc_com) $stop;
if (cyc_d1 != cyc-1) $stop;
if (cyc==0) begin
// Constification check
if ($countones(32'b11001011101) != 7) $stop;
if ($countones(32'b0) != 0) $stop;
if ($isunknown(32'b11101x11111) != 1) $stop;
if ($isunknown(32'b11101011111) != 0) $stop;
if ($isunknown(32'b10zzzzzzzzz) != 0) $stop;
if ($bits(0) != 32'd32) $stop;
if ($bits(lc) != 5) $stop;
if ($onehot(32'b00000001000000) != 1'b1) $stop;
if ($onehot(32'b00001001000000) != 1'b0) $stop;
if ($onehot(32'b0) != 1'b0) $stop;
if ($onehot0(32'b00000001000000) != 1'b1) $stop;
if ($onehot0(32'b00001001000000) != 1'b0) $stop;
if ($onehot0(32'b0) != 1'b1) $stop;
end
if (cyc==1) begin
l <= 16'b0;
q <= 50'h0;
w <= 80'h0;
end
if (cyc==2) begin
l <= ~16'b0;
q <= ~50'h0;
w <= ~80'h0;
//
if ({lc,lo,l0} != {5'd0,1'b0,1'b1}) $stop;
if ({qc,qo,q0} != {6'd0,1'b0,1'b1}) $stop;
if ({wc,wo,w0} != {7'd0,1'b0,1'b1}) $stop;
end
if (cyc==3) begin
l <= 16'b0010110010110111;
q <= 50'h01_1111_0001;
w <= 80'h0100_0000_0f00_00f0_0000;
//
if ({lc,lo,l0} != {5'd16,1'b0,1'b0}) $stop;
if ({qc,qo,q0} != {6'd50,1'b0,1'b0}) $stop;
if ({wc,wo,w0} != {7'd80,1'b0,1'b0}) $stop;
end
if (cyc==4) begin
l <= 16'b0000010000000000;
q <= 50'h1_0000_0000;
w <= 80'h010_00000000_00000000;
//
if ({lc,lo,l0} != {5'd9,1'b0,1'b0}) $stop;
if ({qc,qo,q0} != {6'd6,1'b0,1'b0}) $stop;
if ({wc,wo,w0} != {7'd9,1'b0,1'b0}) $stop;
end
if (cyc==5) begin
l <= 16'b0000000100000000;
q <= 50'h8000_0000_0000;
w <= 80'h10_00000000_00000000;
//
if ({lc,lo,l0} != {5'd1,1'b1,1'b1}) $stop;
if ({qc,qo,q0} != {6'd1,1'b1,1'b1}) $stop;
if ({wc,wo,w0} != {7'd1,1'b1,1'b1}) $stop;
end
if (cyc==6) begin
l <= 16'b0000100100000000;
q <= 50'h01_00000100;
w <= 80'h01_00000100_00000000;
//
if ({lc,lo,l0} != {5'd1,1'b1,1'b1}) $stop;
if ({qc,qo,q0} != {6'd1,1'b1,1'b1}) $stop;
if ({wc,wo,w0} != {7'd1,1'b1,1'b1}) $stop;
end
if (cyc==7) begin
//
if ({lc,lo,l0} != {5'd2,1'b0,1'b0}) $stop;
if ({qc,qo,q0} != {6'd2,1'b0,1'b0}) $stop;
if ({wc,wo,w0} != {7'd2,1'b0,1'b0}) $stop;
end
if (cyc==8) begin
end
if (cyc==9) begin
$write("*-* All Finished *-*\n");
$finish;
end
end
end
final begin
$write("Goodbye world, at cycle %0d\n", cyc);
end
endmodule
|
module t (/*AUTOARG*/
// Inputs
clk
);
input clk;
integer cyc; initial cyc=1;
// Life analysis checks
reg [15:0] life;
// Ding case
reg [7:0] din;
reg [15:0] fixin;
always @* begin
fixin = {din[7:0],din[7:0]};
case (din[1:0])
2'b00: begin
fixin = {fixin[14:0], 1'b1};
if (cyc==101) $display("Prevent ?: optimization a");
end
2'b01: begin
fixin = {fixin[13:0], 2'b11};
if (cyc==101) $display("Prevent ?: optimization b");
end
2'b10: begin
fixin = {fixin[12:0], 3'b111};
if (cyc==101) $display("Prevent ?: optimization c");
end
2'b11: begin
fixin = {fixin[11:0], 4'b1111};
if (cyc==101) $display("Prevent ?: optimization d");
end
endcase
end
always @ (posedge clk) begin
if (cyc!=0) begin
cyc<=cyc+1;
if (cyc==1) begin
life = 16'h8000; // Dropped
life = 16'h0010; // Used below
if (life != 16'h0010) $stop;
//
life = 16'h0020; // Used below
if ($time < 10000)
if (life != 16'h0020) $stop;
//
life = 16'h8000; // Dropped
if ($time > 100000) begin
if ($time != 0) $stop; // Prevent conversion to ?:
life = 16'h1030;
end
else
life = 16'h0030;
if (life != 16'h0030) $stop;
//
life = 16'h0040; // Not dropped, no else below
if ($time > 100000)
life = 16'h1040;
if (life != 16'h0040) $stop;
//
life = 16'h8000; // Dropped
if ($time > 100000) begin
life = 16'h1050;
if (life != 0) $stop; // Ignored, as set is first
end
else begin
if ($time > 100010)
life = 16'h1050;
else life = 16'h0050;
end
if (life != 16'h0050) $stop;
end
if (cyc==2) begin
din <= 8'haa;
end
if (cyc==3) begin
din <= 8'hfb;
if (fixin != 16'h5557) $stop;
end
if (cyc==4) begin
din <= 8'h5c;
if (fixin != 16'hbfbf) $stop;
end
if (cyc==5) begin
din <= 8'hed;
if (fixin != 16'hb8b9) $stop;
end
if (cyc==6) begin
if (fixin != 16'hb7b7) $stop;
end
if (cyc==9) begin
$write("*-* All Finished *-*\n");
$finish;
end
end
end
endmodule
|
module t (clk);
// verilator lint_off WIDTH
parameter WIDTH = 16; // Must be a power of 2
parameter WIDTH_LOG2 = 4; // set to log2(WIDTH)
parameter USE_BS = 1; // set to 1 for enable
input clk;
function [`VECTOR_RANGE] func_tree_left;
input [`VECTOR_RANGE] x; // x[width-1:0] is the input vector
reg [`VECTOR_RANGE] flip;
begin
flip = 'd0;
func_tree_left = flip;
end
endfunction
reg [WIDTH-1:0] a; // value to be shifted
reg [WIDTH-1:0] tree_left;
always @(a) begin : barrel_shift
tree_left = func_tree_left (a);
end // barrel_shift
integer cyc; initial cyc=1;
always @ (posedge clk) begin
if (cyc!=0) begin
cyc <= cyc + 1;
if (cyc==1) begin
a = 5;
end
if (cyc==2) begin
$display ("%x\n",tree_left);
//if (tree_left != 'd15) $stop;
$write("*-* All Finished *-*\n");
$finish;
end
end
end
endmodule
|
module t (clk);
// verilator lint_off WIDTH
parameter WIDTH = 16; // Must be a power of 2
parameter WIDTH_LOG2 = 4; // set to log2(WIDTH)
parameter USE_BS = 1; // set to 1 for enable
input clk;
function [`VECTOR_RANGE] func_tree_left;
input [`VECTOR_RANGE] x; // x[width-1:0] is the input vector
reg [`VECTOR_RANGE] flip;
begin
flip = 'd0;
func_tree_left = flip;
end
endfunction
reg [WIDTH-1:0] a; // value to be shifted
reg [WIDTH-1:0] tree_left;
always @(a) begin : barrel_shift
tree_left = func_tree_left (a);
end // barrel_shift
integer cyc; initial cyc=1;
always @ (posedge clk) begin
if (cyc!=0) begin
cyc <= cyc + 1;
if (cyc==1) begin
a = 5;
end
if (cyc==2) begin
$display ("%x\n",tree_left);
//if (tree_left != 'd15) $stop;
$write("*-* All Finished *-*\n");
$finish;
end
end
end
endmodule
|
module's undeclared outputs)
reg [9:0] outa;
// End of automatics
// =============================
// Created from perl
// for $i (0..1023) { printf "\t10'h%03x: begin outa = 10'h%03x; outb = 2'b%02b; outc = 1'b%d; end\n", $i, rand(1024),rand(4),rand(2); };
always @(/*AS*/index) begin
case (index[7:0])
`ifdef VERILATOR // Harder test
8'h00: begin outa = $c("0"); end // Makes whole table non-optimizable
`else
8'h00: begin outa = 10'h0; end
`endif
8'h01: begin outa = 10'h318; end
8'h02: begin outa = 10'h29f; end
8'h03: begin outa = 10'h392; end
8'h04: begin outa = 10'h1ef; end
8'h05: begin outa = 10'h06c; end
8'h06: begin outa = 10'h29f; end
8'h07: begin outa = 10'h29a; end
8'h08: begin outa = 10'h3ce; end
8'h09: begin outa = 10'h37c; end
8'h0a: begin outa = 10'h058; end
8'h0b: begin outa = 10'h3b2; end
8'h0c: begin outa = 10'h36f; end
8'h0d: begin outa = 10'h2c5; end
8'h0e: begin outa = 10'h23a; end
8'h0f: begin outa = 10'h222; end
8'h10: begin outa = 10'h328; end
8'h11: begin outa = 10'h3c3; end
8'h12: begin outa = 10'h12c; end
8'h13: begin outa = 10'h1d0; end
8'h14: begin outa = 10'h3ff; end
8'h15: begin outa = 10'h115; end
8'h16: begin outa = 10'h3ba; end
8'h17: begin outa = 10'h3ba; end
8'h18: begin outa = 10'h10d; end
8'h19: begin outa = 10'h13b; end
8'h1a: begin outa = 10'h0a0; end
8'h1b: begin outa = 10'h264; end
8'h1c: begin outa = 10'h3a2; end
8'h1d: begin outa = 10'h07c; end
8'h1e: begin outa = 10'h291; end
8'h1f: begin outa = 10'h1d1; end
8'h20: begin outa = 10'h354; end
8'h21: begin outa = 10'h0c0; end
8'h22: begin outa = 10'h191; end
8'h23: begin outa = 10'h379; end
8'h24: begin outa = 10'h073; end
8'h25: begin outa = 10'h2fd; end
8'h26: begin outa = 10'h2e0; end
8'h27: begin outa = 10'h337; end
8'h28: begin outa = 10'h2c7; end
8'h29: begin outa = 10'h19e; end
8'h2a: begin outa = 10'h107; end
8'h2b: begin outa = 10'h06a; end
8'h2c: begin outa = 10'h1c7; end
8'h2d: begin outa = 10'h107; end
8'h2e: begin outa = 10'h0cf; end
8'h2f: begin outa = 10'h009; end
8'h30: begin outa = 10'h09d; end
8'h31: begin outa = 10'h28e; end
8'h32: begin outa = 10'h010; end
8'h33: begin outa = 10'h1e0; end
8'h34: begin outa = 10'h079; end
8'h35: begin outa = 10'h13e; end
8'h36: begin outa = 10'h282; end
8'h37: begin outa = 10'h21c; end
8'h38: begin outa = 10'h148; end
8'h39: begin outa = 10'h3c0; end
8'h3a: begin outa = 10'h176; end
8'h3b: begin outa = 10'h3fc; end
8'h3c: begin outa = 10'h295; end
8'h3d: begin outa = 10'h113; end
8'h3e: begin outa = 10'h354; end
8'h3f: begin outa = 10'h0db; end
8'h40: begin outa = 10'h238; end
8'h41: begin outa = 10'h12b; end
8'h42: begin outa = 10'h1dc; end
8'h43: begin outa = 10'h137; end
8'h44: begin outa = 10'h1e2; end
8'h45: begin outa = 10'h3d5; end
8'h46: begin outa = 10'h30c; end
8'h47: begin outa = 10'h298; end
8'h48: begin outa = 10'h080; end
8'h49: begin outa = 10'h35a; end
8'h4a: begin outa = 10'h01b; end
8'h4b: begin outa = 10'h0a3; end
8'h4c: begin outa = 10'h0b3; end
8'h4d: begin outa = 10'h17a; end
8'h4e: begin outa = 10'h3ae; end
8'h4f: begin outa = 10'h078; end
8'h50: begin outa = 10'h322; end
8'h51: begin outa = 10'h213; end
8'h52: begin outa = 10'h11a; end
8'h53: begin outa = 10'h1a7; end
8'h54: begin outa = 10'h35a; end
8'h55: begin outa = 10'h233; end
8'h56: begin outa = 10'h01d; end
8'h57: begin outa = 10'h2d5; end
8'h58: begin outa = 10'h1a0; end
8'h59: begin outa = 10'h3d0; end
8'h5a: begin outa = 10'h181; end
8'h5b: begin outa = 10'h219; end
8'h5c: begin outa = 10'h26a; end
8'h5d: begin outa = 10'h050; end
8'h5e: begin outa = 10'h189; end
8'h5f: begin outa = 10'h1eb; end
8'h60: begin outa = 10'h224; end
8'h61: begin outa = 10'h2fe; end
8'h62: begin outa = 10'h0ae; end
8'h63: begin outa = 10'h1cd; end
8'h64: begin outa = 10'h273; end
8'h65: begin outa = 10'h268; end
8'h66: begin outa = 10'h111; end
8'h67: begin outa = 10'h1f9; end
8'h68: begin outa = 10'h232; end
8'h69: begin outa = 10'h255; end
8'h6a: begin outa = 10'h34c; end
8'h6b: begin outa = 10'h049; end
8'h6c: begin outa = 10'h197; end
8'h6d: begin outa = 10'h0fe; end
8'h6e: begin outa = 10'h253; end
8'h6f: begin outa = 10'h2de; end
8'h70: begin outa = 10'h13b; end
8'h71: begin outa = 10'h040; end
8'h72: begin outa = 10'h0b4; end
8'h73: begin outa = 10'h233; end
8'h74: begin outa = 10'h198; end
8'h75: begin outa = 10'h018; end
8'h76: begin outa = 10'h2f7; end
8'h77: begin outa = 10'h134; end
8'h78: begin outa = 10'h1ca; end
8'h79: begin outa = 10'h286; end
8'h7a: begin outa = 10'h0e6; end
8'h7b: begin outa = 10'h064; end
8'h7c: begin outa = 10'h257; end
8'h7d: begin outa = 10'h31a; end
8'h7e: begin outa = 10'h247; end
8'h7f: begin outa = 10'h299; end
8'h80: begin outa = 10'h02c; end
8'h81: begin outa = 10'h2bb; end
8'h82: begin outa = 10'h180; end
8'h83: begin outa = 10'h245; end
8'h84: begin outa = 10'h0da; end
8'h85: begin outa = 10'h367; end
8'h86: begin outa = 10'h304; end
8'h87: begin outa = 10'h38b; end
8'h88: begin outa = 10'h09f; end
8'h89: begin outa = 10'h1f0; end
8'h8a: begin outa = 10'h281; end
8'h8b: begin outa = 10'h019; end
8'h8c: begin outa = 10'h1f2; end
8'h8d: begin outa = 10'h0b1; end
8'h8e: begin outa = 10'h058; end
8'h8f: begin outa = 10'h39b; end
8'h90: begin outa = 10'h2ec; end
8'h91: begin outa = 10'h250; end
8'h92: begin outa = 10'h3f4; end
8'h93: begin outa = 10'h057; end
8'h94: begin outa = 10'h18f; end
8'h95: begin outa = 10'h105; end
8'h96: begin outa = 10'h1ae; end
8'h97: begin outa = 10'h04e; end
8'h98: begin outa = 10'h240; end
8'h99: begin outa = 10'h3e4; end
8'h9a: begin outa = 10'h3c6; end
8'h9b: begin outa = 10'h109; end
8'h9c: begin outa = 10'h073; end
8'h9d: begin outa = 10'h19f; end
8'h9e: begin outa = 10'h3b8; end
8'h9f: begin outa = 10'h00e; end
8'ha0: begin outa = 10'h1b3; end
8'ha1: begin outa = 10'h2bd; end
8'ha2: begin outa = 10'h324; end
8'ha3: begin outa = 10'h343; end
8'ha4: begin outa = 10'h1c9; end
8'ha5: begin outa = 10'h185; end
8'ha6: begin outa = 10'h37a; end
8'ha7: begin outa = 10'h0e0; end
8'ha8: begin outa = 10'h0a3; end
8'ha9: begin outa = 10'h019; end
8'haa: begin outa = 10'h099; end
8'hab: begin outa = 10'h376; end
8'hac: begin outa = 10'h077; end
8'had: begin outa = 10'h2b1; end
8'hae: begin outa = 10'h27f; end
8'haf: begin outa = 10'h265; end
8'hb0: begin outa = 10'h156; end
8'hb1: begin outa = 10'h1ce; end
8'hb2: begin outa = 10'h008; end
8'hb3: begin outa = 10'h12e; end
8'hb4: begin outa = 10'h199; end
8'hb5: begin outa = 10'h330; end
8'hb6: begin outa = 10'h1ab; end
8'hb7: begin outa = 10'h3bd; end
8'hb8: begin outa = 10'h0ca; end
8'hb9: begin outa = 10'h367; end
8'hba: begin outa = 10'h334; end
8'hbb: begin outa = 10'h040; end
8'hbc: begin outa = 10'h1a7; end
8'hbd: begin outa = 10'h036; end
8'hbe: begin outa = 10'h223; end
8'hbf: begin outa = 10'h075; end
8'hc0: begin outa = 10'h3c4; end
8'hc1: begin outa = 10'h2cc; end
8'hc2: begin outa = 10'h123; end
8'hc3: begin outa = 10'h3fd; end
8'hc4: begin outa = 10'h11e; end
8'hc5: begin outa = 10'h27c; end
8'hc6: begin outa = 10'h1e2; end
8'hc7: begin outa = 10'h377; end
8'hc8: begin outa = 10'h33a; end
8'hc9: begin outa = 10'h32d; end
8'hca: begin outa = 10'h014; end
8'hcb: begin outa = 10'h332; end
8'hcc: begin outa = 10'h359; end
8'hcd: begin outa = 10'h0a4; end
8'hce: begin outa = 10'h348; end
8'hcf: begin outa = 10'h04b; end
8'hd0: begin outa = 10'h147; end
8'hd1: begin outa = 10'h026; end
8'hd2: begin outa = 10'h103; end
8'hd3: begin outa = 10'h106; end
8'hd4: begin outa = 10'h35a; end
8'hd5: begin outa = 10'h254; end
8'hd6: begin outa = 10'h0cd; end
8'hd7: begin outa = 10'h17c; end
8'hd8: begin outa = 10'h37e; end
8'hd9: begin outa = 10'h0a9; end
8'hda: begin outa = 10'h0fe; end
8'hdb: begin outa = 10'h3c0; end
8'hdc: begin outa = 10'h1d9; end
8'hdd: begin outa = 10'h10e; end
8'hde: begin outa = 10'h394; end
8'hdf: begin outa = 10'h316; end
8'he0: begin outa = 10'h05b; end
8'he1: begin outa = 10'h126; end
8'he2: begin outa = 10'h369; end
8'he3: begin outa = 10'h291; end
8'he4: begin outa = 10'h2ca; end
8'he5: begin outa = 10'h25b; end
8'he6: begin outa = 10'h106; end
8'he7: begin outa = 10'h172; end
8'he8: begin outa = 10'h2f7; end
8'he9: begin outa = 10'h2d3; end
8'hea: begin outa = 10'h182; end
8'heb: begin outa = 10'h327; end
8'hec: begin outa = 10'h1d0; end
8'hed: begin outa = 10'h204; end
8'hee: begin outa = 10'h11f; end
8'hef: begin outa = 10'h365; end
8'hf0: begin outa = 10'h2c2; end
8'hf1: begin outa = 10'h2b5; end
8'hf2: begin outa = 10'h1f8; end
8'hf3: begin outa = 10'h2a7; end
8'hf4: begin outa = 10'h1be; end
8'hf5: begin outa = 10'h25e; end
8'hf6: begin outa = 10'h032; end
8'hf7: begin outa = 10'h2ef; end
8'hf8: begin outa = 10'h02f; end
8'hf9: begin outa = 10'h201; end
8'hfa: begin outa = 10'h054; end
8'hfb: begin outa = 10'h013; end
8'hfc: begin outa = 10'h249; end
8'hfd: begin outa = 10'h09a; end
8'hfe: begin outa = 10'h012; end
8'hff: begin outa = 10'h114; end
endcase
end
endmodule
|
module's undeclared outputs)
reg [9:0] outa;
// End of automatics
// =============================
// Created from perl
// for $i (0..1023) { printf "\t10'h%03x: begin outa = 10'h%03x; outb = 2'b%02b; outc = 1'b%d; end\n", $i, rand(1024),rand(4),rand(2); };
always @(/*AS*/index) begin
case (index[7:0])
`ifdef VERILATOR // Harder test
8'h00: begin outa = $c("0"); end // Makes whole table non-optimizable
`else
8'h00: begin outa = 10'h0; end
`endif
8'h01: begin outa = 10'h318; end
8'h02: begin outa = 10'h29f; end
8'h03: begin outa = 10'h392; end
8'h04: begin outa = 10'h1ef; end
8'h05: begin outa = 10'h06c; end
8'h06: begin outa = 10'h29f; end
8'h07: begin outa = 10'h29a; end
8'h08: begin outa = 10'h3ce; end
8'h09: begin outa = 10'h37c; end
8'h0a: begin outa = 10'h058; end
8'h0b: begin outa = 10'h3b2; end
8'h0c: begin outa = 10'h36f; end
8'h0d: begin outa = 10'h2c5; end
8'h0e: begin outa = 10'h23a; end
8'h0f: begin outa = 10'h222; end
8'h10: begin outa = 10'h328; end
8'h11: begin outa = 10'h3c3; end
8'h12: begin outa = 10'h12c; end
8'h13: begin outa = 10'h1d0; end
8'h14: begin outa = 10'h3ff; end
8'h15: begin outa = 10'h115; end
8'h16: begin outa = 10'h3ba; end
8'h17: begin outa = 10'h3ba; end
8'h18: begin outa = 10'h10d; end
8'h19: begin outa = 10'h13b; end
8'h1a: begin outa = 10'h0a0; end
8'h1b: begin outa = 10'h264; end
8'h1c: begin outa = 10'h3a2; end
8'h1d: begin outa = 10'h07c; end
8'h1e: begin outa = 10'h291; end
8'h1f: begin outa = 10'h1d1; end
8'h20: begin outa = 10'h354; end
8'h21: begin outa = 10'h0c0; end
8'h22: begin outa = 10'h191; end
8'h23: begin outa = 10'h379; end
8'h24: begin outa = 10'h073; end
8'h25: begin outa = 10'h2fd; end
8'h26: begin outa = 10'h2e0; end
8'h27: begin outa = 10'h337; end
8'h28: begin outa = 10'h2c7; end
8'h29: begin outa = 10'h19e; end
8'h2a: begin outa = 10'h107; end
8'h2b: begin outa = 10'h06a; end
8'h2c: begin outa = 10'h1c7; end
8'h2d: begin outa = 10'h107; end
8'h2e: begin outa = 10'h0cf; end
8'h2f: begin outa = 10'h009; end
8'h30: begin outa = 10'h09d; end
8'h31: begin outa = 10'h28e; end
8'h32: begin outa = 10'h010; end
8'h33: begin outa = 10'h1e0; end
8'h34: begin outa = 10'h079; end
8'h35: begin outa = 10'h13e; end
8'h36: begin outa = 10'h282; end
8'h37: begin outa = 10'h21c; end
8'h38: begin outa = 10'h148; end
8'h39: begin outa = 10'h3c0; end
8'h3a: begin outa = 10'h176; end
8'h3b: begin outa = 10'h3fc; end
8'h3c: begin outa = 10'h295; end
8'h3d: begin outa = 10'h113; end
8'h3e: begin outa = 10'h354; end
8'h3f: begin outa = 10'h0db; end
8'h40: begin outa = 10'h238; end
8'h41: begin outa = 10'h12b; end
8'h42: begin outa = 10'h1dc; end
8'h43: begin outa = 10'h137; end
8'h44: begin outa = 10'h1e2; end
8'h45: begin outa = 10'h3d5; end
8'h46: begin outa = 10'h30c; end
8'h47: begin outa = 10'h298; end
8'h48: begin outa = 10'h080; end
8'h49: begin outa = 10'h35a; end
8'h4a: begin outa = 10'h01b; end
8'h4b: begin outa = 10'h0a3; end
8'h4c: begin outa = 10'h0b3; end
8'h4d: begin outa = 10'h17a; end
8'h4e: begin outa = 10'h3ae; end
8'h4f: begin outa = 10'h078; end
8'h50: begin outa = 10'h322; end
8'h51: begin outa = 10'h213; end
8'h52: begin outa = 10'h11a; end
8'h53: begin outa = 10'h1a7; end
8'h54: begin outa = 10'h35a; end
8'h55: begin outa = 10'h233; end
8'h56: begin outa = 10'h01d; end
8'h57: begin outa = 10'h2d5; end
8'h58: begin outa = 10'h1a0; end
8'h59: begin outa = 10'h3d0; end
8'h5a: begin outa = 10'h181; end
8'h5b: begin outa = 10'h219; end
8'h5c: begin outa = 10'h26a; end
8'h5d: begin outa = 10'h050; end
8'h5e: begin outa = 10'h189; end
8'h5f: begin outa = 10'h1eb; end
8'h60: begin outa = 10'h224; end
8'h61: begin outa = 10'h2fe; end
8'h62: begin outa = 10'h0ae; end
8'h63: begin outa = 10'h1cd; end
8'h64: begin outa = 10'h273; end
8'h65: begin outa = 10'h268; end
8'h66: begin outa = 10'h111; end
8'h67: begin outa = 10'h1f9; end
8'h68: begin outa = 10'h232; end
8'h69: begin outa = 10'h255; end
8'h6a: begin outa = 10'h34c; end
8'h6b: begin outa = 10'h049; end
8'h6c: begin outa = 10'h197; end
8'h6d: begin outa = 10'h0fe; end
8'h6e: begin outa = 10'h253; end
8'h6f: begin outa = 10'h2de; end
8'h70: begin outa = 10'h13b; end
8'h71: begin outa = 10'h040; end
8'h72: begin outa = 10'h0b4; end
8'h73: begin outa = 10'h233; end
8'h74: begin outa = 10'h198; end
8'h75: begin outa = 10'h018; end
8'h76: begin outa = 10'h2f7; end
8'h77: begin outa = 10'h134; end
8'h78: begin outa = 10'h1ca; end
8'h79: begin outa = 10'h286; end
8'h7a: begin outa = 10'h0e6; end
8'h7b: begin outa = 10'h064; end
8'h7c: begin outa = 10'h257; end
8'h7d: begin outa = 10'h31a; end
8'h7e: begin outa = 10'h247; end
8'h7f: begin outa = 10'h299; end
8'h80: begin outa = 10'h02c; end
8'h81: begin outa = 10'h2bb; end
8'h82: begin outa = 10'h180; end
8'h83: begin outa = 10'h245; end
8'h84: begin outa = 10'h0da; end
8'h85: begin outa = 10'h367; end
8'h86: begin outa = 10'h304; end
8'h87: begin outa = 10'h38b; end
8'h88: begin outa = 10'h09f; end
8'h89: begin outa = 10'h1f0; end
8'h8a: begin outa = 10'h281; end
8'h8b: begin outa = 10'h019; end
8'h8c: begin outa = 10'h1f2; end
8'h8d: begin outa = 10'h0b1; end
8'h8e: begin outa = 10'h058; end
8'h8f: begin outa = 10'h39b; end
8'h90: begin outa = 10'h2ec; end
8'h91: begin outa = 10'h250; end
8'h92: begin outa = 10'h3f4; end
8'h93: begin outa = 10'h057; end
8'h94: begin outa = 10'h18f; end
8'h95: begin outa = 10'h105; end
8'h96: begin outa = 10'h1ae; end
8'h97: begin outa = 10'h04e; end
8'h98: begin outa = 10'h240; end
8'h99: begin outa = 10'h3e4; end
8'h9a: begin outa = 10'h3c6; end
8'h9b: begin outa = 10'h109; end
8'h9c: begin outa = 10'h073; end
8'h9d: begin outa = 10'h19f; end
8'h9e: begin outa = 10'h3b8; end
8'h9f: begin outa = 10'h00e; end
8'ha0: begin outa = 10'h1b3; end
8'ha1: begin outa = 10'h2bd; end
8'ha2: begin outa = 10'h324; end
8'ha3: begin outa = 10'h343; end
8'ha4: begin outa = 10'h1c9; end
8'ha5: begin outa = 10'h185; end
8'ha6: begin outa = 10'h37a; end
8'ha7: begin outa = 10'h0e0; end
8'ha8: begin outa = 10'h0a3; end
8'ha9: begin outa = 10'h019; end
8'haa: begin outa = 10'h099; end
8'hab: begin outa = 10'h376; end
8'hac: begin outa = 10'h077; end
8'had: begin outa = 10'h2b1; end
8'hae: begin outa = 10'h27f; end
8'haf: begin outa = 10'h265; end
8'hb0: begin outa = 10'h156; end
8'hb1: begin outa = 10'h1ce; end
8'hb2: begin outa = 10'h008; end
8'hb3: begin outa = 10'h12e; end
8'hb4: begin outa = 10'h199; end
8'hb5: begin outa = 10'h330; end
8'hb6: begin outa = 10'h1ab; end
8'hb7: begin outa = 10'h3bd; end
8'hb8: begin outa = 10'h0ca; end
8'hb9: begin outa = 10'h367; end
8'hba: begin outa = 10'h334; end
8'hbb: begin outa = 10'h040; end
8'hbc: begin outa = 10'h1a7; end
8'hbd: begin outa = 10'h036; end
8'hbe: begin outa = 10'h223; end
8'hbf: begin outa = 10'h075; end
8'hc0: begin outa = 10'h3c4; end
8'hc1: begin outa = 10'h2cc; end
8'hc2: begin outa = 10'h123; end
8'hc3: begin outa = 10'h3fd; end
8'hc4: begin outa = 10'h11e; end
8'hc5: begin outa = 10'h27c; end
8'hc6: begin outa = 10'h1e2; end
8'hc7: begin outa = 10'h377; end
8'hc8: begin outa = 10'h33a; end
8'hc9: begin outa = 10'h32d; end
8'hca: begin outa = 10'h014; end
8'hcb: begin outa = 10'h332; end
8'hcc: begin outa = 10'h359; end
8'hcd: begin outa = 10'h0a4; end
8'hce: begin outa = 10'h348; end
8'hcf: begin outa = 10'h04b; end
8'hd0: begin outa = 10'h147; end
8'hd1: begin outa = 10'h026; end
8'hd2: begin outa = 10'h103; end
8'hd3: begin outa = 10'h106; end
8'hd4: begin outa = 10'h35a; end
8'hd5: begin outa = 10'h254; end
8'hd6: begin outa = 10'h0cd; end
8'hd7: begin outa = 10'h17c; end
8'hd8: begin outa = 10'h37e; end
8'hd9: begin outa = 10'h0a9; end
8'hda: begin outa = 10'h0fe; end
8'hdb: begin outa = 10'h3c0; end
8'hdc: begin outa = 10'h1d9; end
8'hdd: begin outa = 10'h10e; end
8'hde: begin outa = 10'h394; end
8'hdf: begin outa = 10'h316; end
8'he0: begin outa = 10'h05b; end
8'he1: begin outa = 10'h126; end
8'he2: begin outa = 10'h369; end
8'he3: begin outa = 10'h291; end
8'he4: begin outa = 10'h2ca; end
8'he5: begin outa = 10'h25b; end
8'he6: begin outa = 10'h106; end
8'he7: begin outa = 10'h172; end
8'he8: begin outa = 10'h2f7; end
8'he9: begin outa = 10'h2d3; end
8'hea: begin outa = 10'h182; end
8'heb: begin outa = 10'h327; end
8'hec: begin outa = 10'h1d0; end
8'hed: begin outa = 10'h204; end
8'hee: begin outa = 10'h11f; end
8'hef: begin outa = 10'h365; end
8'hf0: begin outa = 10'h2c2; end
8'hf1: begin outa = 10'h2b5; end
8'hf2: begin outa = 10'h1f8; end
8'hf3: begin outa = 10'h2a7; end
8'hf4: begin outa = 10'h1be; end
8'hf5: begin outa = 10'h25e; end
8'hf6: begin outa = 10'h032; end
8'hf7: begin outa = 10'h2ef; end
8'hf8: begin outa = 10'h02f; end
8'hf9: begin outa = 10'h201; end
8'hfa: begin outa = 10'h054; end
8'hfb: begin outa = 10'h013; end
8'hfc: begin outa = 10'h249; end
8'hfd: begin outa = 10'h09a; end
8'hfe: begin outa = 10'h012; end
8'hff: begin outa = 10'h114; end
endcase
end
endmodule
|
module's undeclared outputs)
reg [9:0] outa;
// End of automatics
// =============================
// Created from perl
// for $i (0..1023) { printf "\t10'h%03x: begin outa = 10'h%03x; outb = 2'b%02b; outc = 1'b%d; end\n", $i, rand(1024),rand(4),rand(2); };
always @(/*AS*/index) begin
case (index[7:0])
`ifdef VERILATOR // Harder test
8'h00: begin outa = $c("0"); end // Makes whole table non-optimizable
`else
8'h00: begin outa = 10'h0; end
`endif
8'h01: begin outa = 10'h318; end
8'h02: begin outa = 10'h29f; end
8'h03: begin outa = 10'h392; end
8'h04: begin outa = 10'h1ef; end
8'h05: begin outa = 10'h06c; end
8'h06: begin outa = 10'h29f; end
8'h07: begin outa = 10'h29a; end
8'h08: begin outa = 10'h3ce; end
8'h09: begin outa = 10'h37c; end
8'h0a: begin outa = 10'h058; end
8'h0b: begin outa = 10'h3b2; end
8'h0c: begin outa = 10'h36f; end
8'h0d: begin outa = 10'h2c5; end
8'h0e: begin outa = 10'h23a; end
8'h0f: begin outa = 10'h222; end
8'h10: begin outa = 10'h328; end
8'h11: begin outa = 10'h3c3; end
8'h12: begin outa = 10'h12c; end
8'h13: begin outa = 10'h1d0; end
8'h14: begin outa = 10'h3ff; end
8'h15: begin outa = 10'h115; end
8'h16: begin outa = 10'h3ba; end
8'h17: begin outa = 10'h3ba; end
8'h18: begin outa = 10'h10d; end
8'h19: begin outa = 10'h13b; end
8'h1a: begin outa = 10'h0a0; end
8'h1b: begin outa = 10'h264; end
8'h1c: begin outa = 10'h3a2; end
8'h1d: begin outa = 10'h07c; end
8'h1e: begin outa = 10'h291; end
8'h1f: begin outa = 10'h1d1; end
8'h20: begin outa = 10'h354; end
8'h21: begin outa = 10'h0c0; end
8'h22: begin outa = 10'h191; end
8'h23: begin outa = 10'h379; end
8'h24: begin outa = 10'h073; end
8'h25: begin outa = 10'h2fd; end
8'h26: begin outa = 10'h2e0; end
8'h27: begin outa = 10'h337; end
8'h28: begin outa = 10'h2c7; end
8'h29: begin outa = 10'h19e; end
8'h2a: begin outa = 10'h107; end
8'h2b: begin outa = 10'h06a; end
8'h2c: begin outa = 10'h1c7; end
8'h2d: begin outa = 10'h107; end
8'h2e: begin outa = 10'h0cf; end
8'h2f: begin outa = 10'h009; end
8'h30: begin outa = 10'h09d; end
8'h31: begin outa = 10'h28e; end
8'h32: begin outa = 10'h010; end
8'h33: begin outa = 10'h1e0; end
8'h34: begin outa = 10'h079; end
8'h35: begin outa = 10'h13e; end
8'h36: begin outa = 10'h282; end
8'h37: begin outa = 10'h21c; end
8'h38: begin outa = 10'h148; end
8'h39: begin outa = 10'h3c0; end
8'h3a: begin outa = 10'h176; end
8'h3b: begin outa = 10'h3fc; end
8'h3c: begin outa = 10'h295; end
8'h3d: begin outa = 10'h113; end
8'h3e: begin outa = 10'h354; end
8'h3f: begin outa = 10'h0db; end
8'h40: begin outa = 10'h238; end
8'h41: begin outa = 10'h12b; end
8'h42: begin outa = 10'h1dc; end
8'h43: begin outa = 10'h137; end
8'h44: begin outa = 10'h1e2; end
8'h45: begin outa = 10'h3d5; end
8'h46: begin outa = 10'h30c; end
8'h47: begin outa = 10'h298; end
8'h48: begin outa = 10'h080; end
8'h49: begin outa = 10'h35a; end
8'h4a: begin outa = 10'h01b; end
8'h4b: begin outa = 10'h0a3; end
8'h4c: begin outa = 10'h0b3; end
8'h4d: begin outa = 10'h17a; end
8'h4e: begin outa = 10'h3ae; end
8'h4f: begin outa = 10'h078; end
8'h50: begin outa = 10'h322; end
8'h51: begin outa = 10'h213; end
8'h52: begin outa = 10'h11a; end
8'h53: begin outa = 10'h1a7; end
8'h54: begin outa = 10'h35a; end
8'h55: begin outa = 10'h233; end
8'h56: begin outa = 10'h01d; end
8'h57: begin outa = 10'h2d5; end
8'h58: begin outa = 10'h1a0; end
8'h59: begin outa = 10'h3d0; end
8'h5a: begin outa = 10'h181; end
8'h5b: begin outa = 10'h219; end
8'h5c: begin outa = 10'h26a; end
8'h5d: begin outa = 10'h050; end
8'h5e: begin outa = 10'h189; end
8'h5f: begin outa = 10'h1eb; end
8'h60: begin outa = 10'h224; end
8'h61: begin outa = 10'h2fe; end
8'h62: begin outa = 10'h0ae; end
8'h63: begin outa = 10'h1cd; end
8'h64: begin outa = 10'h273; end
8'h65: begin outa = 10'h268; end
8'h66: begin outa = 10'h111; end
8'h67: begin outa = 10'h1f9; end
8'h68: begin outa = 10'h232; end
8'h69: begin outa = 10'h255; end
8'h6a: begin outa = 10'h34c; end
8'h6b: begin outa = 10'h049; end
8'h6c: begin outa = 10'h197; end
8'h6d: begin outa = 10'h0fe; end
8'h6e: begin outa = 10'h253; end
8'h6f: begin outa = 10'h2de; end
8'h70: begin outa = 10'h13b; end
8'h71: begin outa = 10'h040; end
8'h72: begin outa = 10'h0b4; end
8'h73: begin outa = 10'h233; end
8'h74: begin outa = 10'h198; end
8'h75: begin outa = 10'h018; end
8'h76: begin outa = 10'h2f7; end
8'h77: begin outa = 10'h134; end
8'h78: begin outa = 10'h1ca; end
8'h79: begin outa = 10'h286; end
8'h7a: begin outa = 10'h0e6; end
8'h7b: begin outa = 10'h064; end
8'h7c: begin outa = 10'h257; end
8'h7d: begin outa = 10'h31a; end
8'h7e: begin outa = 10'h247; end
8'h7f: begin outa = 10'h299; end
8'h80: begin outa = 10'h02c; end
8'h81: begin outa = 10'h2bb; end
8'h82: begin outa = 10'h180; end
8'h83: begin outa = 10'h245; end
8'h84: begin outa = 10'h0da; end
8'h85: begin outa = 10'h367; end
8'h86: begin outa = 10'h304; end
8'h87: begin outa = 10'h38b; end
8'h88: begin outa = 10'h09f; end
8'h89: begin outa = 10'h1f0; end
8'h8a: begin outa = 10'h281; end
8'h8b: begin outa = 10'h019; end
8'h8c: begin outa = 10'h1f2; end
8'h8d: begin outa = 10'h0b1; end
8'h8e: begin outa = 10'h058; end
8'h8f: begin outa = 10'h39b; end
8'h90: begin outa = 10'h2ec; end
8'h91: begin outa = 10'h250; end
8'h92: begin outa = 10'h3f4; end
8'h93: begin outa = 10'h057; end
8'h94: begin outa = 10'h18f; end
8'h95: begin outa = 10'h105; end
8'h96: begin outa = 10'h1ae; end
8'h97: begin outa = 10'h04e; end
8'h98: begin outa = 10'h240; end
8'h99: begin outa = 10'h3e4; end
8'h9a: begin outa = 10'h3c6; end
8'h9b: begin outa = 10'h109; end
8'h9c: begin outa = 10'h073; end
8'h9d: begin outa = 10'h19f; end
8'h9e: begin outa = 10'h3b8; end
8'h9f: begin outa = 10'h00e; end
8'ha0: begin outa = 10'h1b3; end
8'ha1: begin outa = 10'h2bd; end
8'ha2: begin outa = 10'h324; end
8'ha3: begin outa = 10'h343; end
8'ha4: begin outa = 10'h1c9; end
8'ha5: begin outa = 10'h185; end
8'ha6: begin outa = 10'h37a; end
8'ha7: begin outa = 10'h0e0; end
8'ha8: begin outa = 10'h0a3; end
8'ha9: begin outa = 10'h019; end
8'haa: begin outa = 10'h099; end
8'hab: begin outa = 10'h376; end
8'hac: begin outa = 10'h077; end
8'had: begin outa = 10'h2b1; end
8'hae: begin outa = 10'h27f; end
8'haf: begin outa = 10'h265; end
8'hb0: begin outa = 10'h156; end
8'hb1: begin outa = 10'h1ce; end
8'hb2: begin outa = 10'h008; end
8'hb3: begin outa = 10'h12e; end
8'hb4: begin outa = 10'h199; end
8'hb5: begin outa = 10'h330; end
8'hb6: begin outa = 10'h1ab; end
8'hb7: begin outa = 10'h3bd; end
8'hb8: begin outa = 10'h0ca; end
8'hb9: begin outa = 10'h367; end
8'hba: begin outa = 10'h334; end
8'hbb: begin outa = 10'h040; end
8'hbc: begin outa = 10'h1a7; end
8'hbd: begin outa = 10'h036; end
8'hbe: begin outa = 10'h223; end
8'hbf: begin outa = 10'h075; end
8'hc0: begin outa = 10'h3c4; end
8'hc1: begin outa = 10'h2cc; end
8'hc2: begin outa = 10'h123; end
8'hc3: begin outa = 10'h3fd; end
8'hc4: begin outa = 10'h11e; end
8'hc5: begin outa = 10'h27c; end
8'hc6: begin outa = 10'h1e2; end
8'hc7: begin outa = 10'h377; end
8'hc8: begin outa = 10'h33a; end
8'hc9: begin outa = 10'h32d; end
8'hca: begin outa = 10'h014; end
8'hcb: begin outa = 10'h332; end
8'hcc: begin outa = 10'h359; end
8'hcd: begin outa = 10'h0a4; end
8'hce: begin outa = 10'h348; end
8'hcf: begin outa = 10'h04b; end
8'hd0: begin outa = 10'h147; end
8'hd1: begin outa = 10'h026; end
8'hd2: begin outa = 10'h103; end
8'hd3: begin outa = 10'h106; end
8'hd4: begin outa = 10'h35a; end
8'hd5: begin outa = 10'h254; end
8'hd6: begin outa = 10'h0cd; end
8'hd7: begin outa = 10'h17c; end
8'hd8: begin outa = 10'h37e; end
8'hd9: begin outa = 10'h0a9; end
8'hda: begin outa = 10'h0fe; end
8'hdb: begin outa = 10'h3c0; end
8'hdc: begin outa = 10'h1d9; end
8'hdd: begin outa = 10'h10e; end
8'hde: begin outa = 10'h394; end
8'hdf: begin outa = 10'h316; end
8'he0: begin outa = 10'h05b; end
8'he1: begin outa = 10'h126; end
8'he2: begin outa = 10'h369; end
8'he3: begin outa = 10'h291; end
8'he4: begin outa = 10'h2ca; end
8'he5: begin outa = 10'h25b; end
8'he6: begin outa = 10'h106; end
8'he7: begin outa = 10'h172; end
8'he8: begin outa = 10'h2f7; end
8'he9: begin outa = 10'h2d3; end
8'hea: begin outa = 10'h182; end
8'heb: begin outa = 10'h327; end
8'hec: begin outa = 10'h1d0; end
8'hed: begin outa = 10'h204; end
8'hee: begin outa = 10'h11f; end
8'hef: begin outa = 10'h365; end
8'hf0: begin outa = 10'h2c2; end
8'hf1: begin outa = 10'h2b5; end
8'hf2: begin outa = 10'h1f8; end
8'hf3: begin outa = 10'h2a7; end
8'hf4: begin outa = 10'h1be; end
8'hf5: begin outa = 10'h25e; end
8'hf6: begin outa = 10'h032; end
8'hf7: begin outa = 10'h2ef; end
8'hf8: begin outa = 10'h02f; end
8'hf9: begin outa = 10'h201; end
8'hfa: begin outa = 10'h054; end
8'hfb: begin outa = 10'h013; end
8'hfc: begin outa = 10'h249; end
8'hfd: begin outa = 10'h09a; end
8'hfe: begin outa = 10'h012; end
8'hff: begin outa = 10'h114; end
endcase
end
endmodule
|
module t (/*AUTOARG*/
// Inputs
clk
);
input clk;
integer cyc; initial cyc=1;
reg signed [64+15:0] data;
integer i;
integer b;
reg signed [64+15:0] srs;
always @ (posedge clk) begin
if (cyc!=0) begin
cyc <= cyc + 1;
if (cyc==2) begin
data <= 80'h0;
data[75] <= 1'b1;
data[10] <= 1'b1;
end
if (cyc==3) begin
for (i=0; i<85; i=i+1) begin
srs = data>>>i;
//$write (" %x >>> %d == %x\n",data,i,srs);
for (b=0; b<80; b=b+1) begin
if (srs[b] != (b==(75-i) || b==(10-i))) $stop;
end
end
end
if (cyc==10) begin
data <= 80'h0;
data[79] <= 1'b1;
data[10] <= 1'b1;
end
if (cyc==12) begin
for (i=0; i<85; i=i+1) begin
srs = data>>>i;
//$write (" %x >>> %d == %x\n",data,i,srs);
for (b=0; b<80; b=b+1) begin
if (srs[b] != (b>=(79-i) || b==(10-i))) $stop;
end
end
end
if (cyc==20) begin
$write("*-* All Finished *-*\n");
$finish;
end
end
end
endmodule
|
module t (/*AUTOARG*/
// Inputs
clk
);
input clk;
integer cyc; initial cyc=1;
reg signed [64+15:0] data;
integer i;
integer b;
reg signed [64+15:0] srs;
always @ (posedge clk) begin
if (cyc!=0) begin
cyc <= cyc + 1;
if (cyc==2) begin
data <= 80'h0;
data[75] <= 1'b1;
data[10] <= 1'b1;
end
if (cyc==3) begin
for (i=0; i<85; i=i+1) begin
srs = data>>>i;
//$write (" %x >>> %d == %x\n",data,i,srs);
for (b=0; b<80; b=b+1) begin
if (srs[b] != (b==(75-i) || b==(10-i))) $stop;
end
end
end
if (cyc==10) begin
data <= 80'h0;
data[79] <= 1'b1;
data[10] <= 1'b1;
end
if (cyc==12) begin
for (i=0; i<85; i=i+1) begin
srs = data>>>i;
//$write (" %x >>> %d == %x\n",data,i,srs);
for (b=0; b<80; b=b+1) begin
if (srs[b] != (b>=(79-i) || b==(10-i))) $stop;
end
end
end
if (cyc==20) begin
$write("*-* All Finished *-*\n");
$finish;
end
end
end
endmodule
|
module outputs)
wire [31:0] out; // From test of Test.v
// End of automatics
Test test (/*AUTOINST*/
// Outputs
.out (out[31:0]),
// Inputs
.in (in[31:0]));
// Aggregate outputs into a single result vector
wire [63:0] result = {32'h0, out};
// Test loop
always @ (posedge clk) begin
`ifdef TEST_VERBOSE
$write("[%0t] cyc==%0d crc=%x result=%x\n",$time, cyc, crc, result);
`endif
cyc <= cyc + 1;
crc <= {crc[62:0], crc[63]^crc[2]^crc[0]};
sum <= result ^ {sum[62:0],sum[63]^sum[2]^sum[0]};
if (cyc==0) begin
// Setup
crc <= 64'h5aef0c8d_d70a4497;
sum <= 64'h0;
end
else if (cyc<10) begin
sum <= 64'h0;
end
else if (cyc<90) begin
end
else if (cyc==99) begin
$write("[%0t] cyc==%0d crc=%x sum=%x\n",$time, cyc, crc, sum);
if (crc !== 64'hc77bb9b3784ea091) $stop;
// What checksum will we end up with (above print should match)
`define EXPECTED_SUM 64'h3e3a62edb61f8c7f
if (sum !== `EXPECTED_SUM) $stop;
$write("*-* All Finished *-*\n");
$finish;
end
end
endmodule
|
module Test (/*AUTOARG*/
// Outputs
out,
// Inputs
in
);
input [31:0] in;
output [31:0] out;
genvar i;
generate
for (i=0; i<16; i=i+1) begin : gblk
assign out[i*2+1:i*2] = in[(30-i*2)+1:(30-i*2)];
end
endgenerate
endmodule
|
module t (/*AUTOARG*/
// Inputs
clk
);
input clk;
integer cyc; initial cyc=1;
reg [127:0] i;
wire [127:0] q1;
wire [127:0] q32;
wire [127:0] q64;
wire [63:0] q64_low;
assign q1 = {
i[24*4], i[25*4], i[26*4], i[27*4], i[28*4], i[29*4], i[30*4], i[31*4],
i[16*4], i[17*4], i[18*4], i[19*4], i[20*4], i[21*4], i[22*4], i[23*4],
i[8*4], i[9*4], i[10*4], i[11*4], i[12*4], i[13*4], i[14*4], i[15*4],
i[0*4], i[1*4], i[2*4], i[3*4], i[4*4], i[5*4], i[6*4], i[7*4],
i[24*4+1], i[25*4+1], i[26*4+1], i[27*4+1], i[28*4+1], i[29*4+1], i[30*4+1], i[31*4+1],
i[16*4+1], i[17*4+1], i[18*4+1], i[19*4+1], i[20*4+1], i[21*4+1], i[22*4+1], i[23*4+1],
i[8*4+1], i[9*4+1], i[10*4+1], i[11*4+1], i[12*4+1], i[13*4+1], i[14*4+1], i[15*4+1],
i[0*4+1], i[1*4+1], i[2*4+1], i[3*4+1], i[4*4+1], i[5*4+1], i[6*4+1], i[7*4+1],
i[24*4+2], i[25*4+2], i[26*4+2], i[27*4+2], i[28*4+2], i[29*4+2], i[30*4+2], i[31*4+2],
i[16*4+2], i[17*4+2], i[18*4+2], i[19*4+2], i[20*4+2], i[21*4+2], i[22*4+2], i[23*4+2],
i[8*4+2], i[9*4+2], i[10*4+2], i[11*4+2], i[12*4+2], i[13*4+2], i[14*4+2], i[15*4+2],
i[0*4+2], i[1*4+2], i[2*4+2], i[3*4+2], i[4*4+2], i[5*4+2], i[6*4+2], i[7*4+2],
i[24*4+3], i[25*4+3], i[26*4+3], i[27*4+3], i[28*4+3], i[29*4+3], i[30*4+3], i[31*4+3],
i[16*4+3], i[17*4+3], i[18*4+3], i[19*4+3], i[20*4+3], i[21*4+3], i[22*4+3], i[23*4+3],
i[8*4+3], i[9*4+3], i[10*4+3], i[11*4+3], i[12*4+3], i[13*4+3], i[14*4+3], i[15*4+3],
i[0*4+3], i[1*4+3], i[2*4+3], i[3*4+3], i[4*4+3], i[5*4+3], i[6*4+3], i[7*4+3]};
assign q64[127:64] = {
i[24*4], i[25*4], i[26*4], i[27*4], i[28*4], i[29*4], i[30*4], i[31*4],
i[16*4], i[17*4], i[18*4], i[19*4], i[20*4], i[21*4], i[22*4], i[23*4],
i[8*4], i[9*4], i[10*4], i[11*4], i[12*4], i[13*4], i[14*4], i[15*4],
i[0*4], i[1*4], i[2*4], i[3*4], i[4*4], i[5*4], i[6*4], i[7*4],
i[24*4+1], i[25*4+1], i[26*4+1], i[27*4+1], i[28*4+1], i[29*4+1], i[30*4+1], i[31*4+1],
i[16*4+1], i[17*4+1], i[18*4+1], i[19*4+1], i[20*4+1], i[21*4+1], i[22*4+1], i[23*4+1],
i[8*4+1], i[9*4+1], i[10*4+1], i[11*4+1], i[12*4+1], i[13*4+1], i[14*4+1], i[15*4+1],
i[0*4+1], i[1*4+1], i[2*4+1], i[3*4+1], i[4*4+1], i[5*4+1], i[6*4+1], i[7*4+1]};
assign q64[63:0] = {
i[24*4+2], i[25*4+2], i[26*4+2], i[27*4+2], i[28*4+2], i[29*4+2], i[30*4+2], i[31*4+2],
i[16*4+2], i[17*4+2], i[18*4+2], i[19*4+2], i[20*4+2], i[21*4+2], i[22*4+2], i[23*4+2],
i[8*4+2], i[9*4+2], i[10*4+2], i[11*4+2], i[12*4+2], i[13*4+2], i[14*4+2], i[15*4+2],
i[0*4+2], i[1*4+2], i[2*4+2], i[3*4+2], i[4*4+2], i[5*4+2], i[6*4+2], i[7*4+2],
i[24*4+3], i[25*4+3], i[26*4+3], i[27*4+3], i[28*4+3], i[29*4+3], i[30*4+3], i[31*4+3],
i[16*4+3], i[17*4+3], i[18*4+3], i[19*4+3], i[20*4+3], i[21*4+3], i[22*4+3], i[23*4+3],
i[8*4+3], i[9*4+3], i[10*4+3], i[11*4+3], i[12*4+3], i[13*4+3], i[14*4+3], i[15*4+3],
i[0*4+3], i[1*4+3], i[2*4+3], i[3*4+3], i[4*4+3], i[5*4+3], i[6*4+3], i[7*4+3]};
assign q64_low = {
i[24*4+2], i[25*4+2], i[26*4+2], i[27*4+2], i[28*4+2], i[29*4+2], i[30*4+2], i[31*4+2],
i[16*4+2], i[17*4+2], i[18*4+2], i[19*4+2], i[20*4+2], i[21*4+2], i[22*4+2], i[23*4+2],
i[8*4+2], i[9*4+2], i[10*4+2], i[11*4+2], i[12*4+2], i[13*4+2], i[14*4+2], i[15*4+2],
i[0*4+2], i[1*4+2], i[2*4+2], i[3*4+2], i[4*4+2], i[5*4+2], i[6*4+2], i[7*4+2],
i[24*4+3], i[25*4+3], i[26*4+3], i[27*4+3], i[28*4+3], i[29*4+3], i[30*4+3], i[31*4+3],
i[16*4+3], i[17*4+3], i[18*4+3], i[19*4+3], i[20*4+3], i[21*4+3], i[22*4+3], i[23*4+3],
i[8*4+3], i[9*4+3], i[10*4+3], i[11*4+3], i[12*4+3], i[13*4+3], i[14*4+3], i[15*4+3],
i[0*4+3], i[1*4+3], i[2*4+3], i[3*4+3], i[4*4+3], i[5*4+3], i[6*4+3], i[7*4+3]};
assign q32[127:96] = {
i[24*4], i[25*4], i[26*4], i[27*4], i[28*4], i[29*4], i[30*4], i[31*4],
i[16*4], i[17*4], i[18*4], i[19*4], i[20*4], i[21*4], i[22*4], i[23*4],
i[8*4], i[9*4], i[10*4], i[11*4], i[12*4], i[13*4], i[14*4], i[15*4],
i[0*4], i[1*4], i[2*4], i[3*4], i[4*4], i[5*4], i[6*4], i[7*4]};
assign q32[95:64] = {
i[24*4+1], i[25*4+1], i[26*4+1], i[27*4+1], i[28*4+1], i[29*4+1], i[30*4+1], i[31*4+1],
i[16*4+1], i[17*4+1], i[18*4+1], i[19*4+1], i[20*4+1], i[21*4+1], i[22*4+1], i[23*4+1],
i[8*4+1], i[9*4+1], i[10*4+1], i[11*4+1], i[12*4+1], i[13*4+1], i[14*4+1], i[15*4+1],
i[0*4+1], i[1*4+1], i[2*4+1], i[3*4+1], i[4*4+1], i[5*4+1], i[6*4+1], i[7*4+1]};
assign q32[63:32] = {
i[24*4+2], i[25*4+2], i[26*4+2], i[27*4+2], i[28*4+2], i[29*4+2], i[30*4+2], i[31*4+2],
i[16*4+2], i[17*4+2], i[18*4+2], i[19*4+2], i[20*4+2], i[21*4+2], i[22*4+2], i[23*4+2],
i[8*4+2], i[9*4+2], i[10*4+2], i[11*4+2], i[12*4+2], i[13*4+2], i[14*4+2], i[15*4+2],
i[0*4+2], i[1*4+2], i[2*4+2], i[3*4+2], i[4*4+2], i[5*4+2], i[6*4+2], i[7*4+2]};
assign q32[31:0] = {
i[24*4+3], i[25*4+3], i[26*4+3], i[27*4+3], i[28*4+3], i[29*4+3], i[30*4+3], i[31*4+3],
i[16*4+3], i[17*4+3], i[18*4+3], i[19*4+3], i[20*4+3], i[21*4+3], i[22*4+3], i[23*4+3],
i[8*4+3], i[9*4+3], i[10*4+3], i[11*4+3], i[12*4+3], i[13*4+3], i[14*4+3], i[15*4+3],
i[0*4+3], i[1*4+3], i[2*4+3], i[3*4+3], i[4*4+3], i[5*4+3], i[6*4+3], i[7*4+3]};
always @ (posedge clk) begin
if (cyc!=0) begin
cyc <= cyc + 1;
`ifdef TEST_VERBOSE
$write("%x %x\n", q1, i);
`endif
if (cyc==1) begin
i <= 128'hed388e646c843d35de489bab2413d770;
end
if (cyc==2) begin
i <= 128'h0e17c88f3d5fe51a982646c8e2bd68c3;
if (q1 != 128'h06f0b17c6551e269e3ab07723b26fb10) $stop;
if (q1 != q32) $stop;
if (q1 != q64) $stop;
if (q1[63:0] != q64_low) $stop;
end
if (cyc==3) begin
i <= 128'he236ddfddddbdad20a48e039c9f395b8;
if (q1 != 128'h8c6f018c8a992c979a3e7859f29ac36d) $stop;
if (q1 != q32) $stop;
if (q1 != q64) $stop;
if (q1[63:0] != q64_low) $stop;
end
if (cyc==4) begin
i <= 128'h45e0eb7642b148537491f3da147e7f26;
if (q1 != 128'hf45fc07e4fa8524cf9571425f17f9ad7) $stop;
if (q1 != q32) $stop;
if (q1 != q64) $stop;
if (q1[63:0] != q64_low) $stop;
end
if (cyc==9) begin
$write("*-* All Finished *-*\n");
$finish;
end
end
end
endmodule
|
module t (clk);
input clk;
reg [7:0] crc;
wire [61:59] ah = crc[5:3];
wire [61:59] bh = ~crc[4:2];
wire [41:2] al = {crc,crc,crc,crc,crc};
wire [41:2] bl = ~{crc[6:0],crc[6:0],crc[6:0],crc[6:0],crc[6:0],crc[6:2]};
reg sel;
wire [61:28] q = ( sel
? func(ah, al)
: func(bh, bl));
function [61:28] func;
input [61:59] inh;
input [41:2] inl;
reg [42:28] func_mid;
reg carry;
begin
carry = &inl[27:2];
func_mid = {1'b0,inl[41:28]} + {14'b0, carry};
func[61:59] = inh + {2'b0, func_mid[42]};
func[58:42] = {17{func_mid[41]}};
func[41:28] = func_mid[41:28];
end
endfunction
integer cyc; initial cyc=1;
always @ (posedge clk) begin
//$write("%d %x\n", cyc, q);
if (cyc!=0) begin
cyc <= cyc + 1;
sel <= ~sel;
crc <= {crc[6:0], ~^ {crc[7],crc[5],crc[4],crc[3]}};
if (cyc==1) begin
sel <= 1'b1;
crc <= 8'h12;
end
if (cyc==2) if (q!=34'h100000484) $stop;
if (cyc==3) if (q!=34'h37fffeddb) $stop;
if (cyc==4) if (q!=34'h080001212) $stop;
if (cyc==5) if (q!=34'h1fffff7ef) $stop;
if (cyc==6) if (q!=34'h200000848) $stop;
if (cyc==7) if (q!=34'h380001ebd) $stop;
if (cyc==8) if (q!=34'h07fffe161) $stop;
if (cyc==9) begin
$write("*-* All Finished *-*\n");
$finish;
end
end
end
endmodule
|
module t (/*AUTOARG*/
// Inputs
clk
);
input clk;
reg [7:0] cyc; initial cyc=0;
reg [31:0] in;
wire [31:0] out;
t_extend_class_v sub (.in(in), .out(out));
always @ (posedge clk) begin
cyc <= cyc+8'd1;
if (cyc == 8'd1) begin
in <= 32'h10;
end
if (cyc == 8'd2) begin
if (out != 32'h11) $stop;
end
if (cyc == 8'd9) begin
$write("*-* All Finished *-*\n");
$finish;
end
end
endmodule
|
module t_extend_class_v (/*AUTOARG*/
// Outputs
out,
// Inputs
in
);
input [31:0] in;
output [31:0] out;
always @* begin
// When "in" changes, call my method
out = $c("m_myobjp->my_math(",in,")");
end
`systemc_header
#include "t_extend_class_c.h" // Header for contained object
`systemc_interface
t_extend_class_c* m_myobjp; // Pointer to object we are embedding
`systemc_ctor
m_myobjp = new t_extend_class_c(); // Construct contained object
`systemc_dtor
delete m_myobjp; // Destruct contained object
`verilog
endmodule
|
module t (/*AUTOARG*/
// Inputs
clk
);
input clk;
reg [7:0] cyc; initial cyc=0;
reg [31:0] in;
wire [31:0] out;
t_extend_class_v sub (.in(in), .out(out));
always @ (posedge clk) begin
cyc <= cyc+8'd1;
if (cyc == 8'd1) begin
in <= 32'h10;
end
if (cyc == 8'd2) begin
if (out != 32'h11) $stop;
end
if (cyc == 8'd9) begin
$write("*-* All Finished *-*\n");
$finish;
end
end
endmodule
|
module t_extend_class_v (/*AUTOARG*/
// Outputs
out,
// Inputs
in
);
input [31:0] in;
output [31:0] out;
always @* begin
// When "in" changes, call my method
out = $c("m_myobjp->my_math(",in,")");
end
`systemc_header
#include "t_extend_class_c.h" // Header for contained object
`systemc_interface
t_extend_class_c* m_myobjp; // Pointer to object we are embedding
`systemc_ctor
m_myobjp = new t_extend_class_c(); // Construct contained object
`systemc_dtor
delete m_myobjp; // Destruct contained object
`verilog
endmodule
|
module t (/*AUTOARG*/
// Inputs
clk
);
input clk;
reg [7:0] cyc; initial cyc=0;
reg [31:0] in;
wire [31:0] out;
t_extend_class_v sub (.in(in), .out(out));
always @ (posedge clk) begin
cyc <= cyc+8'd1;
if (cyc == 8'd1) begin
in <= 32'h10;
end
if (cyc == 8'd2) begin
if (out != 32'h11) $stop;
end
if (cyc == 8'd9) begin
$write("*-* All Finished *-*\n");
$finish;
end
end
endmodule
|
module t_extend_class_v (/*AUTOARG*/
// Outputs
out,
// Inputs
in
);
input [31:0] in;
output [31:0] out;
always @* begin
// When "in" changes, call my method
out = $c("m_myobjp->my_math(",in,")");
end
`systemc_header
#include "t_extend_class_c.h" // Header for contained object
`systemc_interface
t_extend_class_c* m_myobjp; // Pointer to object we are embedding
`systemc_ctor
m_myobjp = new t_extend_class_c(); // Construct contained object
`systemc_dtor
delete m_myobjp; // Destruct contained object
`verilog
endmodule
|
module t (/*AUTOARG*/
// Inputs
clk
);
input clk;
reg [255:0] a;
reg [60:0] divisor;
reg [60:0] qq;
reg [60:0] rq;
reg signed [60:0] qqs;
reg signed [60:0] rqs;
always @* begin
qq = a[60:0] / divisor;
rq = a[60:0] % divisor;
qqs = $signed(a[60:0]) / $signed(divisor);
rqs = $signed(a[60:0]) % $signed(divisor);
end
integer cyc; initial cyc=1;
always @ (posedge clk) begin
if (cyc!=0) begin
cyc <= cyc + 1;
//$write("%d: %x %x %x %x\n", cyc, qq, rq, qqs, rqs);
if (cyc==1) begin
a <= 256'hed388e646c843d35de489bab2413d77045e0eb7642b148537491f3da147e7f26;
divisor <= 61'h12371;
a[60] <= 1'b0; divisor[60] <= 1'b0; // Unsigned
end
if (cyc==2) begin
a <= 256'h0e17c88f3d5fe51a982646c8e2bd68c3e236ddfddddbdad20a48e039c9f395b8;
divisor <= 61'h1238123771;
a[60] <= 1'b0; divisor[60] <= 1'b0; // Unsigned
if (qq!==61'h00000403ad81c0da) $stop;
if (rq!==61'h00000000000090ec) $stop;
if (qqs!==61'h00000403ad81c0da) $stop;
if (rqs!==61'h00000000000090ec) $stop;
end
if (cyc==3) begin
a <= 256'h0e17c88f00d5fe51a982646c8002bd68c3e236ddfd00ddbdad20a48e00f395b8;
divisor <= 61'hf1b;
a[60] <= 1'b1; divisor[60] <= 1'b0; // Signed
if (qq!==61'h000000000090832e) $stop;
if (rq!==61'h0000000334becc6a) $stop;
if (qqs!==61'h000000000090832e) $stop;
if (rqs!==61'h0000000334becc6a) $stop;
end
if (cyc==4) begin
a[60] <= 1'b0; divisor[60] <= 1'b1; // Signed
if (qq!==61'h0001eda37cca1be8) $stop;
if (rq!==61'h0000000000000c40) $stop;
if (qqs!==61'h1fffcf5187c76510) $stop;
if (rqs!==61'h1ffffffffffffd08) $stop;
end
if (cyc==5) begin
a[60] <= 1'b1; divisor[60] <= 1'b1; // Signed
if (qq!==61'h0000000000000000) $stop;
if (rq!==61'h0d20a48e00f395b8) $stop;
if (qqs!==61'h0000000000000000) $stop;
if (rqs!==61'h0d20a48e00f395b8) $stop;
end
if (cyc==6) begin
if (qq!==61'h0000000000000001) $stop;
if (rq!==61'h0d20a48e00f3869d) $stop;
if (qqs!==61'h0000000000000000) $stop;
if (rqs!==61'h1d20a48e00f395b8) $stop;
end
// Div by zero
if (cyc==9) begin
divisor <= 61'd0;
end
if (cyc==10) begin
`ifdef verilator
if (qq !== {61{1'b0}}) $stop;
if (rq !== {61{1'b0}}) $stop;
`else
if (qq !== {61{1'bx}}) $stop;
if (rq !== {61{1'bx}}) $stop;
`endif
if ({16{1'bx}} !== 16'd1/16'd0) $stop; // No div by zero errors
if ({16{1'bx}} !== 16'd1%16'd0) $stop; // No div by zero errors
end
if (cyc==19) begin
$write("*-* All Finished *-*\n");
$finish;
end
end
end
endmodule
|
module t (/*AUTOARG*/
// Inputs
clk
);
input clk;
reg [255:0] a;
reg [60:0] divisor;
reg [60:0] qq;
reg [60:0] rq;
reg signed [60:0] qqs;
reg signed [60:0] rqs;
always @* begin
qq = a[60:0] / divisor;
rq = a[60:0] % divisor;
qqs = $signed(a[60:0]) / $signed(divisor);
rqs = $signed(a[60:0]) % $signed(divisor);
end
integer cyc; initial cyc=1;
always @ (posedge clk) begin
if (cyc!=0) begin
cyc <= cyc + 1;
//$write("%d: %x %x %x %x\n", cyc, qq, rq, qqs, rqs);
if (cyc==1) begin
a <= 256'hed388e646c843d35de489bab2413d77045e0eb7642b148537491f3da147e7f26;
divisor <= 61'h12371;
a[60] <= 1'b0; divisor[60] <= 1'b0; // Unsigned
end
if (cyc==2) begin
a <= 256'h0e17c88f3d5fe51a982646c8e2bd68c3e236ddfddddbdad20a48e039c9f395b8;
divisor <= 61'h1238123771;
a[60] <= 1'b0; divisor[60] <= 1'b0; // Unsigned
if (qq!==61'h00000403ad81c0da) $stop;
if (rq!==61'h00000000000090ec) $stop;
if (qqs!==61'h00000403ad81c0da) $stop;
if (rqs!==61'h00000000000090ec) $stop;
end
if (cyc==3) begin
a <= 256'h0e17c88f00d5fe51a982646c8002bd68c3e236ddfd00ddbdad20a48e00f395b8;
divisor <= 61'hf1b;
a[60] <= 1'b1; divisor[60] <= 1'b0; // Signed
if (qq!==61'h000000000090832e) $stop;
if (rq!==61'h0000000334becc6a) $stop;
if (qqs!==61'h000000000090832e) $stop;
if (rqs!==61'h0000000334becc6a) $stop;
end
if (cyc==4) begin
a[60] <= 1'b0; divisor[60] <= 1'b1; // Signed
if (qq!==61'h0001eda37cca1be8) $stop;
if (rq!==61'h0000000000000c40) $stop;
if (qqs!==61'h1fffcf5187c76510) $stop;
if (rqs!==61'h1ffffffffffffd08) $stop;
end
if (cyc==5) begin
a[60] <= 1'b1; divisor[60] <= 1'b1; // Signed
if (qq!==61'h0000000000000000) $stop;
if (rq!==61'h0d20a48e00f395b8) $stop;
if (qqs!==61'h0000000000000000) $stop;
if (rqs!==61'h0d20a48e00f395b8) $stop;
end
if (cyc==6) begin
if (qq!==61'h0000000000000001) $stop;
if (rq!==61'h0d20a48e00f3869d) $stop;
if (qqs!==61'h0000000000000000) $stop;
if (rqs!==61'h1d20a48e00f395b8) $stop;
end
// Div by zero
if (cyc==9) begin
divisor <= 61'd0;
end
if (cyc==10) begin
`ifdef verilator
if (qq !== {61{1'b0}}) $stop;
if (rq !== {61{1'b0}}) $stop;
`else
if (qq !== {61{1'bx}}) $stop;
if (rq !== {61{1'bx}}) $stop;
`endif
if ({16{1'bx}} !== 16'd1/16'd0) $stop; // No div by zero errors
if ({16{1'bx}} !== 16'd1%16'd0) $stop; // No div by zero errors
end
if (cyc==19) begin
$write("*-* All Finished *-*\n");
$finish;
end
end
end
endmodule
|
module t (/*AUTOARG*/
// Inputs
clk
);
input clk;
reg [2:0] index_a;
reg [2:0] index_b;
prover #(4) p4 (/*AUTOINST*/
// Inputs
.clk (clk),
.index_a (index_a),
.index_b (index_b));
prover #(32) p32 (/*AUTOINST*/
// Inputs
.clk (clk),
.index_a (index_a),
.index_b (index_b));
prover #(63) p63 (/*AUTOINST*/
// Inputs
.clk (clk),
.index_a (index_a),
.index_b (index_b));
prover #(64) p64 (/*AUTOINST*/
// Inputs
.clk (clk),
.index_a (index_a),
.index_b (index_b));
prover #(72) p72 (/*AUTOINST*/
// Inputs
.clk (clk),
.index_a (index_a),
.index_b (index_b));
prover #(126) p126 (/*AUTOINST*/
// Inputs
.clk (clk),
.index_a (index_a),
.index_b (index_b));
prover #(128) p128 (/*AUTOINST*/
// Inputs
.clk (clk),
.index_a (index_a),
.index_b (index_b));
integer cyc; initial cyc=0;
initial index_a = 3'b0;
initial index_b = 3'b0;
always @* begin
index_a = cyc[2:0]; if (index_a>3'd4) index_a=3'd4;
index_b = cyc[5:3]; if (index_b>3'd4) index_b=3'd4;
end
always @ (posedge clk) begin
cyc <= cyc + 1;
if (cyc==99) begin
$write("*-* All Finished *-*\n");
$finish;
end
end
endmodule
|
module prover (
input clk,
input [2:0] index_a,
input [2:0] index_b
);
parameter WIDTH = 4;
reg signed [WIDTH-1:0] as;
reg signed [WIDTH-1:0] bs;
wire [WIDTH-1:0] b = bs;
always @* begin
casez (index_a)
3'd0: as = {(WIDTH){1'd0}}; // 0
3'd1: as = {{(WIDTH-1){1'd0}}, 1'b1}; // 1
3'd2: as = {1'b0, {(WIDTH-1){1'd0}}}; // 127 or equiv
3'd3: as = {(WIDTH){1'd1}}; // -1
3'd4: as = {1'b1, {(WIDTH-1){1'd0}}}; // -128 or equiv
default: $stop;
endcase
casez (index_b)
3'd0: bs = {(WIDTH){1'd0}}; // 0
3'd1: bs = {{(WIDTH-1){1'd0}}, 1'b1}; // 1
3'd2: bs = {1'b0, {(WIDTH-1){1'd0}}}; // 127 or equiv
3'd3: bs = {(WIDTH){1'd1}}; // -1
3'd4: bs = {1'b1, {(WIDTH-1){1'd0}}}; // -128 or equiv
default: $stop;
endcase
end
reg [7:0] results[4:0][4:0];
wire gt = as>b;
wire gts = as>bs;
wire gte = as>=b;
wire gtes = as>=bs;
wire lt = as<b;
wire lts = as<bs;
wire lte = as<=b;
wire ltes = as<=bs;
reg [7:0] exp;
reg [7:0] got;
integer cyc=0;
always @ (posedge clk) begin
cyc <= cyc + 1;
if (cyc>2) begin
`ifdef TEST_VERBOSE
$write("results[%d][%d] = 8'b%b_%b_%b_%b_%b_%b_%b_%b;\n",
index_a, index_b,
gt, gts, gte, gtes, lt, lts, lte, ltes);
`endif
exp = results[index_a][index_b];
got = {gt, gts, gte, gtes, lt, lts, lte, ltes};
if (exp !== got) begin
$display("%%Error: bad comparison width=%0d: %d/%d got=%b exp=%b", WIDTH, index_a,index_b,got, exp);
$stop;
end
end
end
// Result table
initial begin
// Indexes: 0, 1, -1, 127, -128
// Gt Gts Gte Gtes Lt Lts Lte Ltes
results[0][0] = 8'b0_0_1_1_0_0_1_1;
results[0][1] = 8'b0_0_0_0_1_1_1_1;
results[0][2] = 8'b0_0_1_1_0_0_1_1;
results[0][3] = 8'b0_1_0_1_1_0_1_0;
results[0][4] = 8'b0_1_0_1_1_0_1_0;
results[1][0] = 8'b1_1_1_1_0_0_0_0;
results[1][1] = 8'b0_0_1_1_0_0_1_1;
results[1][2] = 8'b1_1_1_1_0_0_0_0;
results[1][3] = 8'b0_1_0_1_1_0_1_0;
results[1][4] = 8'b0_1_0_1_1_0_1_0;
results[2][0] = 8'b0_0_1_1_0_0_1_1;
results[2][1] = 8'b0_0_0_0_1_1_1_1;
results[2][2] = 8'b0_0_1_1_0_0_1_1;
results[2][3] = 8'b0_1_0_1_1_0_1_0;
results[2][4] = 8'b0_1_0_1_1_0_1_0;
results[3][0] = 8'b1_0_1_0_0_1_0_1;
results[3][1] = 8'b1_0_1_0_0_1_0_1;
results[3][2] = 8'b1_0_1_0_0_1_0_1;
results[3][3] = 8'b0_0_1_1_0_0_1_1;
results[3][4] = 8'b1_1_1_1_0_0_0_0;
results[4][0] = 8'b1_0_1_0_0_1_0_1;
results[4][1] = 8'b1_0_1_0_0_1_0_1;
results[4][2] = 8'b1_0_1_0_0_1_0_1;
results[4][3] = 8'b0_0_0_0_1_1_1_1;
results[4][4] = 8'b0_0_1_1_0_0_1_1;
end
endmodule
|
module t (/*AUTOARG*/
// Inputs
clk
);
input clk;
reg [2:0] index_a;
reg [2:0] index_b;
prover #(4) p4 (/*AUTOINST*/
// Inputs
.clk (clk),
.index_a (index_a),
.index_b (index_b));
prover #(32) p32 (/*AUTOINST*/
// Inputs
.clk (clk),
.index_a (index_a),
.index_b (index_b));
prover #(63) p63 (/*AUTOINST*/
// Inputs
.clk (clk),
.index_a (index_a),
.index_b (index_b));
prover #(64) p64 (/*AUTOINST*/
// Inputs
.clk (clk),
.index_a (index_a),
.index_b (index_b));
prover #(72) p72 (/*AUTOINST*/
// Inputs
.clk (clk),
.index_a (index_a),
.index_b (index_b));
prover #(126) p126 (/*AUTOINST*/
// Inputs
.clk (clk),
.index_a (index_a),
.index_b (index_b));
prover #(128) p128 (/*AUTOINST*/
// Inputs
.clk (clk),
.index_a (index_a),
.index_b (index_b));
integer cyc; initial cyc=0;
initial index_a = 3'b0;
initial index_b = 3'b0;
always @* begin
index_a = cyc[2:0]; if (index_a>3'd4) index_a=3'd4;
index_b = cyc[5:3]; if (index_b>3'd4) index_b=3'd4;
end
always @ (posedge clk) begin
cyc <= cyc + 1;
if (cyc==99) begin
$write("*-* All Finished *-*\n");
$finish;
end
end
endmodule
|
module prover (
input clk,
input [2:0] index_a,
input [2:0] index_b
);
parameter WIDTH = 4;
reg signed [WIDTH-1:0] as;
reg signed [WIDTH-1:0] bs;
wire [WIDTH-1:0] b = bs;
always @* begin
casez (index_a)
3'd0: as = {(WIDTH){1'd0}}; // 0
3'd1: as = {{(WIDTH-1){1'd0}}, 1'b1}; // 1
3'd2: as = {1'b0, {(WIDTH-1){1'd0}}}; // 127 or equiv
3'd3: as = {(WIDTH){1'd1}}; // -1
3'd4: as = {1'b1, {(WIDTH-1){1'd0}}}; // -128 or equiv
default: $stop;
endcase
casez (index_b)
3'd0: bs = {(WIDTH){1'd0}}; // 0
3'd1: bs = {{(WIDTH-1){1'd0}}, 1'b1}; // 1
3'd2: bs = {1'b0, {(WIDTH-1){1'd0}}}; // 127 or equiv
3'd3: bs = {(WIDTH){1'd1}}; // -1
3'd4: bs = {1'b1, {(WIDTH-1){1'd0}}}; // -128 or equiv
default: $stop;
endcase
end
reg [7:0] results[4:0][4:0];
wire gt = as>b;
wire gts = as>bs;
wire gte = as>=b;
wire gtes = as>=bs;
wire lt = as<b;
wire lts = as<bs;
wire lte = as<=b;
wire ltes = as<=bs;
reg [7:0] exp;
reg [7:0] got;
integer cyc=0;
always @ (posedge clk) begin
cyc <= cyc + 1;
if (cyc>2) begin
`ifdef TEST_VERBOSE
$write("results[%d][%d] = 8'b%b_%b_%b_%b_%b_%b_%b_%b;\n",
index_a, index_b,
gt, gts, gte, gtes, lt, lts, lte, ltes);
`endif
exp = results[index_a][index_b];
got = {gt, gts, gte, gtes, lt, lts, lte, ltes};
if (exp !== got) begin
$display("%%Error: bad comparison width=%0d: %d/%d got=%b exp=%b", WIDTH, index_a,index_b,got, exp);
$stop;
end
end
end
// Result table
initial begin
// Indexes: 0, 1, -1, 127, -128
// Gt Gts Gte Gtes Lt Lts Lte Ltes
results[0][0] = 8'b0_0_1_1_0_0_1_1;
results[0][1] = 8'b0_0_0_0_1_1_1_1;
results[0][2] = 8'b0_0_1_1_0_0_1_1;
results[0][3] = 8'b0_1_0_1_1_0_1_0;
results[0][4] = 8'b0_1_0_1_1_0_1_0;
results[1][0] = 8'b1_1_1_1_0_0_0_0;
results[1][1] = 8'b0_0_1_1_0_0_1_1;
results[1][2] = 8'b1_1_1_1_0_0_0_0;
results[1][3] = 8'b0_1_0_1_1_0_1_0;
results[1][4] = 8'b0_1_0_1_1_0_1_0;
results[2][0] = 8'b0_0_1_1_0_0_1_1;
results[2][1] = 8'b0_0_0_0_1_1_1_1;
results[2][2] = 8'b0_0_1_1_0_0_1_1;
results[2][3] = 8'b0_1_0_1_1_0_1_0;
results[2][4] = 8'b0_1_0_1_1_0_1_0;
results[3][0] = 8'b1_0_1_0_0_1_0_1;
results[3][1] = 8'b1_0_1_0_0_1_0_1;
results[3][2] = 8'b1_0_1_0_0_1_0_1;
results[3][3] = 8'b0_0_1_1_0_0_1_1;
results[3][4] = 8'b1_1_1_1_0_0_0_0;
results[4][0] = 8'b1_0_1_0_0_1_0_1;
results[4][1] = 8'b1_0_1_0_0_1_0_1;
results[4][2] = 8'b1_0_1_0_0_1_0_1;
results[4][3] = 8'b0_0_0_0_1_1_1_1;
results[4][4] = 8'b0_0_1_1_0_0_1_1;
end
endmodule
|
module t (/*AUTOARG*/
// Inputs
clk
);
input clk;
reg [2:0] index_a;
reg [2:0] index_b;
prover #(4) p4 (/*AUTOINST*/
// Inputs
.clk (clk),
.index_a (index_a),
.index_b (index_b));
prover #(32) p32 (/*AUTOINST*/
// Inputs
.clk (clk),
.index_a (index_a),
.index_b (index_b));
prover #(63) p63 (/*AUTOINST*/
// Inputs
.clk (clk),
.index_a (index_a),
.index_b (index_b));
prover #(64) p64 (/*AUTOINST*/
// Inputs
.clk (clk),
.index_a (index_a),
.index_b (index_b));
prover #(72) p72 (/*AUTOINST*/
// Inputs
.clk (clk),
.index_a (index_a),
.index_b (index_b));
prover #(126) p126 (/*AUTOINST*/
// Inputs
.clk (clk),
.index_a (index_a),
.index_b (index_b));
prover #(128) p128 (/*AUTOINST*/
// Inputs
.clk (clk),
.index_a (index_a),
.index_b (index_b));
integer cyc; initial cyc=0;
initial index_a = 3'b0;
initial index_b = 3'b0;
always @* begin
index_a = cyc[2:0]; if (index_a>3'd4) index_a=3'd4;
index_b = cyc[5:3]; if (index_b>3'd4) index_b=3'd4;
end
always @ (posedge clk) begin
cyc <= cyc + 1;
if (cyc==99) begin
$write("*-* All Finished *-*\n");
$finish;
end
end
endmodule
|
module prover (
input clk,
input [2:0] index_a,
input [2:0] index_b
);
parameter WIDTH = 4;
reg signed [WIDTH-1:0] as;
reg signed [WIDTH-1:0] bs;
wire [WIDTH-1:0] b = bs;
always @* begin
casez (index_a)
3'd0: as = {(WIDTH){1'd0}}; // 0
3'd1: as = {{(WIDTH-1){1'd0}}, 1'b1}; // 1
3'd2: as = {1'b0, {(WIDTH-1){1'd0}}}; // 127 or equiv
3'd3: as = {(WIDTH){1'd1}}; // -1
3'd4: as = {1'b1, {(WIDTH-1){1'd0}}}; // -128 or equiv
default: $stop;
endcase
casez (index_b)
3'd0: bs = {(WIDTH){1'd0}}; // 0
3'd1: bs = {{(WIDTH-1){1'd0}}, 1'b1}; // 1
3'd2: bs = {1'b0, {(WIDTH-1){1'd0}}}; // 127 or equiv
3'd3: bs = {(WIDTH){1'd1}}; // -1
3'd4: bs = {1'b1, {(WIDTH-1){1'd0}}}; // -128 or equiv
default: $stop;
endcase
end
reg [7:0] results[4:0][4:0];
wire gt = as>b;
wire gts = as>bs;
wire gte = as>=b;
wire gtes = as>=bs;
wire lt = as<b;
wire lts = as<bs;
wire lte = as<=b;
wire ltes = as<=bs;
reg [7:0] exp;
reg [7:0] got;
integer cyc=0;
always @ (posedge clk) begin
cyc <= cyc + 1;
if (cyc>2) begin
`ifdef TEST_VERBOSE
$write("results[%d][%d] = 8'b%b_%b_%b_%b_%b_%b_%b_%b;\n",
index_a, index_b,
gt, gts, gte, gtes, lt, lts, lte, ltes);
`endif
exp = results[index_a][index_b];
got = {gt, gts, gte, gtes, lt, lts, lte, ltes};
if (exp !== got) begin
$display("%%Error: bad comparison width=%0d: %d/%d got=%b exp=%b", WIDTH, index_a,index_b,got, exp);
$stop;
end
end
end
// Result table
initial begin
// Indexes: 0, 1, -1, 127, -128
// Gt Gts Gte Gtes Lt Lts Lte Ltes
results[0][0] = 8'b0_0_1_1_0_0_1_1;
results[0][1] = 8'b0_0_0_0_1_1_1_1;
results[0][2] = 8'b0_0_1_1_0_0_1_1;
results[0][3] = 8'b0_1_0_1_1_0_1_0;
results[0][4] = 8'b0_1_0_1_1_0_1_0;
results[1][0] = 8'b1_1_1_1_0_0_0_0;
results[1][1] = 8'b0_0_1_1_0_0_1_1;
results[1][2] = 8'b1_1_1_1_0_0_0_0;
results[1][3] = 8'b0_1_0_1_1_0_1_0;
results[1][4] = 8'b0_1_0_1_1_0_1_0;
results[2][0] = 8'b0_0_1_1_0_0_1_1;
results[2][1] = 8'b0_0_0_0_1_1_1_1;
results[2][2] = 8'b0_0_1_1_0_0_1_1;
results[2][3] = 8'b0_1_0_1_1_0_1_0;
results[2][4] = 8'b0_1_0_1_1_0_1_0;
results[3][0] = 8'b1_0_1_0_0_1_0_1;
results[3][1] = 8'b1_0_1_0_0_1_0_1;
results[3][2] = 8'b1_0_1_0_0_1_0_1;
results[3][3] = 8'b0_0_1_1_0_0_1_1;
results[3][4] = 8'b1_1_1_1_0_0_0_0;
results[4][0] = 8'b1_0_1_0_0_1_0_1;
results[4][1] = 8'b1_0_1_0_0_1_0_1;
results[4][2] = 8'b1_0_1_0_0_1_0_1;
results[4][3] = 8'b0_0_0_0_1_1_1_1;
results[4][4] = 8'b0_0_1_1_0_0_1_1;
end
endmodule
|
module t (/*AUTOARG*/
// Inputs
clk
);
input clk;
reg [31:0] in_a;
reg [31:0] in_b;
reg [31:0] e,f,g,h;
always @ (/*AS*/in_a) begin
e = in_a;
f = {e[15:0], e[31:16]};
g = {f[15:0], f[31:16]};
h = {g[15:0], g[31:16]};
end
// verilator lint_off UNOPTFLAT
reg [31:0] e2,f2,g2,h2;
always @ (/*AS*/f2) begin
h2 = {g2[15:0], g2[31:16]};
g2 = {f2[15:0], f2[31:16]};
end
always @ (/*AS*/in_a) begin
f2 = {e2[15:0], e2[31:16]};
e2 = in_a;
end
// verilator lint_on UNOPTFLAT
integer cyc; initial cyc=1;
always @ (posedge clk) begin
if (cyc!=0) begin
cyc <= cyc + 1;
//$write("%d %x %x\n", cyc, h, h2);
if (h != h2) $stop;
if (cyc==1) begin
in_a <= 32'h89a14fab;
in_b <= 32'h7ab512fa;
end
if (cyc==2) begin
in_a <= 32'hf4c11a42;
in_b <= 32'h359967c6;
if (h != 32'h4fab89a1) $stop;
end
if (cyc==3) begin
if (h != 32'h1a42f4c1) $stop;
end
if (cyc==9) begin
$write("*-* All Finished *-*\n");
$finish;
end
end
end
endmodule
|
module t (/*AUTOARG*/
// Inputs
clk
);
input clk;
logic [7:0] arr [7:0];
logic [7:0] arri [7:0];
has_array am1 (.clk(clk), .arri(arr), .arro(arri));
integer cyc; initial cyc = 0;
initial begin
for (int i = 0; i < 8; i++) begin
arr[i] = 0;
end
end
always @(posedge clk) begin
cyc <= cyc + 1;
if (cyc == 5 && arri[1] != 8) begin
$stop;
end
for (int i = 0; i < 7; ++i) begin
arr[i+1] <= arr[i];
end
arr[0] <= arr[0] + 1;
end
endmodule
|
module has_array (
input clk,
input logic [7:0] arri [7:0],
output logic [7:0] arro [7:0]
);
integer cyc; initial cyc = 0;
always @(posedge clk) begin
cyc <= cyc + 1;
if (arri[0] == 10 && cyc == 10) begin
$write("*-* All Finished *-*\n");
$finish;
end
end
always @(posedge clk) begin
for (integer i = 0; i < 7; ++i) begin
arro[i+1] <= arro[i];
end
arro[0] = arro[0] + 2;
end
endmodule
|
module outputs)
wire [63:0] out; // From test of Test.v
// End of automatics
wire reset_l = ~(cyc<15);
wire [63:0] d = crc[63:0];
wire [8:0] t_wa = crc[8:0];
wire [8:0] t_addr = {crc[18:17],3'b0,crc[13:10]};
Test test (/*AUTOINST*/
// Outputs
.out (out[63:0]),
// Inputs
.clk (clk),
.reset_l (reset_l),
.t_wa (t_wa[8:0]),
.d (d[63:0]),
.t_addr (t_addr[8:0]));
// Aggregate outputs into a single result vector
wire [63:0] result = {out};
// Test loop
always @ (posedge clk) begin
`ifdef TEST_VERBOSE
$write("[%0t] cyc==%0d crc=%x result=%x\n",$time, cyc, crc, result);
`endif
cyc <= cyc + 1;
crc <= {crc[62:0], crc[63]^crc[2]^crc[0]};
sum <= result ^ {sum[62:0],sum[63]^sum[2]^sum[0]};
if (cyc==0) begin
// Setup
crc <= 64'h5aef0c8d_d70a4497;
sum <= 64'h0;
end
else if (cyc<10) begin
sum <= 64'h0;
end
else if (cyc<90) begin
end
else if (cyc==99) begin
$write("[%0t] cyc==%0d crc=%x sum=%x\n",$time, cyc, crc, sum);
if (crc !== 64'hc77bb9b3784ea091) $stop;
// What checksum will we end up with (above print should match)
`define EXPECTED_SUM 64'h421a41d1541ea652
if (sum !== `EXPECTED_SUM) $stop;
$write("*-* All Finished *-*\n");
$finish;
end
end
endmodule
|
module Test (/*AUTOARG*/
// Outputs
out,
// Inputs
clk, reset_l, t_wa, d, t_addr
);
input clk;
input reset_l;
reg [63:0] m_w0 [47:0];
reg [63:0] m_w1 [23:0];
reg [63:0] m_w2 [23:0];
reg [63:0] m_w3 [23:0];
reg [63:0] m_w4 [23:0];
reg [63:0] m_w5 [23:0];
input [8:0] t_wa;
input [63:0] d;
always @ (posedge clk) begin
if (~reset_l) begin : blk
integer i;
for (i=0; i<48; i=i+1) begin
m_w0[i] <= 64'h0;
end
for (i=0; i<24; i=i+1) begin
m_w1[i] <= 64'h0;
m_w2[i] <= 64'h0;
m_w3[i] <= 64'h0;
m_w4[i] <= 64'h0;
m_w5[i] <= 64'h0;
end
end
else begin
casez (t_wa[8:6])
3'd0: m_w0[t_wa[5:0]] <= d;
3'd1: m_w1[t_wa[4:0]] <= d;
3'd2: m_w2[t_wa[4:0]] <= d;
3'd3: m_w3[t_wa[4:0]] <= d;
3'd4: m_w4[t_wa[4:0]] <= d;
default: m_w5[t_wa[4:0]] <= d;
endcase
end
end
input [8:0] t_addr;
wire [63:0] t_w0 = m_w0[t_addr[5:0]];
wire [63:0] t_w1 = m_w1[t_addr[4:0]];
wire [63:0] t_w2 = m_w2[t_addr[4:0]];
wire [63:0] t_w3 = m_w3[t_addr[4:0]];
wire [63:0] t_w4 = m_w4[t_addr[4:0]];
wire [63:0] t_w5 = m_w5[t_addr[4:0]];
output reg [63:0] out;
always @* begin
casez (t_addr[8:6])
3'd0: out = t_w0;
3'd1: out = t_w1;
3'd2: out = t_w2;
3'd3: out = t_w3;
3'd4: out = t_w4;
default: out = t_w5;
endcase
end
endmodule
|
module t (/*AUTOARG*/
// Inputs
clk
);
input clk;
integer cyc; initial cyc=1;
reg [31:0] wr_data;
reg wr_en;
wire [31:0] rd_data;
wire [1:0] rd_guards;
wire [1:0] rd_guardsok;
regfile regfile (/*AUTOINST*/
// Outputs
.rd_data (rd_data[31:0]),
.rd_guards (rd_guards[1:0]),
.rd_guardsok (rd_guardsok[1:0]),
// Inputs
.wr_data (wr_data[31:0]),
.wr_en (wr_en),
.clk (clk));
initial wr_en = 0;
always @ (posedge clk) begin
if (cyc!=0) begin
cyc <= cyc + 1;
if (cyc==1) begin
if (!rd_guards[0]) $stop;
if (!rd_guardsok[0]) $stop;
wr_en <= 1'b1;
wr_data <= 32'hfeedf;
end
if (cyc==2) begin
wr_en <= 0;
end
if (cyc==3) begin
wr_en <= 0;
if (rd_data != 32'hfeedf) $stop;
if (rd_guards != 2'b11) $stop;
if (rd_guardsok != 2'b11) $stop;
end
if (cyc==4) begin
$write("*-* All Finished *-*\n");
$finish;
end
end
end
endmodule
|
module regfile (
input [31:0] wr_data,
input wr_en,
output reg [31:0] rd_data,
output [1:0] rd_guards /*verilator public*/,
output [1:0] rd_guardsok /*verilator public*/,
input clk
);
always @(posedge clk) begin
if (wr_en)
begin
rd_data <= wr_data;
end
end
// this initial statement will induce correct initialize behavior
// initial rd_guards= { 2'b11 };
assign rd_guards= {
rd_data[0],
1'b1
};
assign rd_guardsok[0] = 1'b1;
assign rd_guardsok[1] = rd_data[0];
endmodule
|
module t (/*AUTOARG*/
// Inputs
clk
);
input clk;
integer cyc; initial cyc=1;
reg [31:0] wr_data;
reg wr_en;
wire [31:0] rd_data;
wire [1:0] rd_guards;
wire [1:0] rd_guardsok;
regfile regfile (/*AUTOINST*/
// Outputs
.rd_data (rd_data[31:0]),
.rd_guards (rd_guards[1:0]),
.rd_guardsok (rd_guardsok[1:0]),
// Inputs
.wr_data (wr_data[31:0]),
.wr_en (wr_en),
.clk (clk));
initial wr_en = 0;
always @ (posedge clk) begin
if (cyc!=0) begin
cyc <= cyc + 1;
if (cyc==1) begin
if (!rd_guards[0]) $stop;
if (!rd_guardsok[0]) $stop;
wr_en <= 1'b1;
wr_data <= 32'hfeedf;
end
if (cyc==2) begin
wr_en <= 0;
end
if (cyc==3) begin
wr_en <= 0;
if (rd_data != 32'hfeedf) $stop;
if (rd_guards != 2'b11) $stop;
if (rd_guardsok != 2'b11) $stop;
end
if (cyc==4) begin
$write("*-* All Finished *-*\n");
$finish;
end
end
end
endmodule
|
module regfile (
input [31:0] wr_data,
input wr_en,
output reg [31:0] rd_data,
output [1:0] rd_guards /*verilator public*/,
output [1:0] rd_guardsok /*verilator public*/,
input clk
);
always @(posedge clk) begin
if (wr_en)
begin
rd_data <= wr_data;
end
end
// this initial statement will induce correct initialize behavior
// initial rd_guards= { 2'b11 };
assign rd_guards= {
rd_data[0],
1'b1
};
assign rd_guardsok[0] = 1'b1;
assign rd_guardsok[1] = rd_data[0];
endmodule
|
module t_case_write1_tasks ();
// verilator lint_off WIDTH
// verilator lint_off CASEINCOMPLETE
parameter STRLEN = 78;
task ozonerab;
input [6:0] rab;
inout [STRLEN*8:1] foobar;
// verilator no_inline_task
begin
case (rab[6:0])
7'h00 : foobar = {foobar, " 0"};
7'h01 : foobar = {foobar, " 1"};
7'h02 : foobar = {foobar, " 2"};
7'h03 : foobar = {foobar, " 3"};
7'h04 : foobar = {foobar, " 4"};
7'h05 : foobar = {foobar, " 5"};
7'h06 : foobar = {foobar, " 6"};
7'h07 : foobar = {foobar, " 7"};
7'h08 : foobar = {foobar, " 8"};
7'h09 : foobar = {foobar, " 9"};
7'h0a : foobar = {foobar, " 10"};
7'h0b : foobar = {foobar, " 11"};
7'h0c : foobar = {foobar, " 12"};
7'h0d : foobar = {foobar, " 13"};
7'h0e : foobar = {foobar, " 14"};
7'h0f : foobar = {foobar, " 15"};
7'h10 : foobar = {foobar, " 16"};
7'h11 : foobar = {foobar, " 17"};
7'h12 : foobar = {foobar, " 18"};
7'h13 : foobar = {foobar, " 19"};
7'h14 : foobar = {foobar, " 20"};
7'h15 : foobar = {foobar, " 21"};
7'h16 : foobar = {foobar, " 22"};
7'h17 : foobar = {foobar, " 23"};
7'h18 : foobar = {foobar, " 24"};
7'h19 : foobar = {foobar, " 25"};
7'h1a : foobar = {foobar, " 26"};
7'h1b : foobar = {foobar, " 27"};
7'h1c : foobar = {foobar, " 28"};
7'h1d : foobar = {foobar, " 29"};
7'h1e : foobar = {foobar, " 30"};
7'h1f : foobar = {foobar, " 31"};
7'h20 : foobar = {foobar, " 32"};
7'h21 : foobar = {foobar, " 33"};
7'h22 : foobar = {foobar, " 34"};
7'h23 : foobar = {foobar, " 35"};
7'h24 : foobar = {foobar, " 36"};
7'h25 : foobar = {foobar, " 37"};
7'h26 : foobar = {foobar, " 38"};
7'h27 : foobar = {foobar, " 39"};
7'h28 : foobar = {foobar, " 40"};
7'h29 : foobar = {foobar, " 41"};
7'h2a : foobar = {foobar, " 42"};
7'h2b : foobar = {foobar, " 43"};
7'h2c : foobar = {foobar, " 44"};
7'h2d : foobar = {foobar, " 45"};
7'h2e : foobar = {foobar, " 46"};
7'h2f : foobar = {foobar, " 47"};
7'h30 : foobar = {foobar, " 48"};
7'h31 : foobar = {foobar, " 49"};
7'h32 : foobar = {foobar, " 50"};
7'h33 : foobar = {foobar, " 51"};
7'h34 : foobar = {foobar, " 52"};
7'h35 : foobar = {foobar, " 53"};
7'h36 : foobar = {foobar, " 54"};
7'h37 : foobar = {foobar, " 55"};
7'h38 : foobar = {foobar, " 56"};
7'h39 : foobar = {foobar, " 57"};
7'h3a : foobar = {foobar, " 58"};
7'h3b : foobar = {foobar, " 59"};
7'h3c : foobar = {foobar, " 60"};
7'h3d : foobar = {foobar, " 61"};
7'h3e : foobar = {foobar, " 62"};
7'h3f : foobar = {foobar, " 63"};
7'h40 : foobar = {foobar, " 64"};
7'h41 : foobar = {foobar, " 65"};
7'h42 : foobar = {foobar, " 66"};
7'h43 : foobar = {foobar, " 67"};
7'h44 : foobar = {foobar, " 68"};
7'h45 : foobar = {foobar, " 69"};
7'h46 : foobar = {foobar, " 70"};
7'h47 : foobar = {foobar, " 71"};
7'h48 : foobar = {foobar, " 72"};
7'h49 : foobar = {foobar, " 73"};
7'h4a : foobar = {foobar, " 74"};
7'h4b : foobar = {foobar, " 75"};
7'h4c : foobar = {foobar, " 76"};
7'h4d : foobar = {foobar, " 77"};
7'h4e : foobar = {foobar, " 78"};
7'h4f : foobar = {foobar, " 79"};
7'h50 : foobar = {foobar, " 80"};
7'h51 : foobar = {foobar, " 81"};
7'h52 : foobar = {foobar, " 82"};
7'h53 : foobar = {foobar, " 83"};
7'h54 : foobar = {foobar, " 84"};
7'h55 : foobar = {foobar, " 85"};
7'h56 : foobar = {foobar, " 86"};
7'h57 : foobar = {foobar, " 87"};
7'h58 : foobar = {foobar, " 88"};
7'h59 : foobar = {foobar, " 89"};
7'h5a : foobar = {foobar, " 90"};
7'h5b : foobar = {foobar, " 91"};
7'h5c : foobar = {foobar, " 92"};
7'h5d : foobar = {foobar, " 93"};
7'h5e : foobar = {foobar, " 94"};
7'h5f : foobar = {foobar, " 95"};
7'h60 : foobar = {foobar, " 96"};
7'h61 : foobar = {foobar, " 97"};
7'h62 : foobar = {foobar, " 98"};
7'h63 : foobar = {foobar, " 99"};
7'h64 : foobar = {foobar, " 100"};
7'h65 : foobar = {foobar, " 101"};
7'h66 : foobar = {foobar, " 102"};
7'h67 : foobar = {foobar, " 103"};
7'h68 : foobar = {foobar, " 104"};
7'h69 : foobar = {foobar, " 105"};
7'h6a : foobar = {foobar, " 106"};
7'h6b : foobar = {foobar, " 107"};
7'h6c : foobar = {foobar, " 108"};
7'h6d : foobar = {foobar, " 109"};
7'h6e : foobar = {foobar, " 110"};
7'h6f : foobar = {foobar, " 111"};
7'h70 : foobar = {foobar, " 112"};
7'h71 : foobar = {foobar, " 113"};
7'h72 : foobar = {foobar, " 114"};
7'h73 : foobar = {foobar, " 115"};
7'h74 : foobar = {foobar, " 116"};
7'h75 : foobar = {foobar, " 117"};
7'h76 : foobar = {foobar, " 118"};
7'h77 : foobar = {foobar, " 119"};
7'h78 : foobar = {foobar, " 120"};
7'h79 : foobar = {foobar, " 121"};
7'h7a : foobar = {foobar, " 122"};
7'h7b : foobar = {foobar, " 123"};
7'h7c : foobar = {foobar, " 124"};
7'h7d : foobar = {foobar, " 125"};
7'h7e : foobar = {foobar, " 126"};
7'h7f : foobar = {foobar, " 127"};
default:foobar = {foobar, " 128"};
endcase
end
endtask
task ozonerb;
input [5:0] rb;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (rb[5:0])
6'h10,
6'h17,
6'h1e,
6'h1f: foobar = {foobar, " 129"};
default: ozonerab({1'b1, rb}, foobar);
endcase
end
endtask
task ozonef3f4_iext;
input [1:0] foo;
input [15:0] im16;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (foo)
2'h0 :
begin
skyway({4{im16[15]}}, foobar);
skyway({4{im16[15]}}, foobar);
skyway(im16[15:12], foobar);
skyway(im16[11: 8], foobar);
skyway(im16[ 7: 4], foobar);
skyway(im16[ 3:0], foobar);
foobar = {foobar, " 130"};
end
2'h1 :
begin
foobar = {foobar, " 131"};
skyway(im16[15:12], foobar);
skyway(im16[11: 8], foobar);
skyway(im16[ 7: 4], foobar);
skyway(im16[ 3:0], foobar);
end
2'h2 :
begin
skyway({4{im16[15]}}, foobar);
skyway({4{im16[15]}}, foobar);
skyway(im16[15:12], foobar);
skyway(im16[11: 8], foobar);
skyway(im16[ 7: 4], foobar);
skyway(im16[ 3:0], foobar);
foobar = {foobar, " 132"};
end
2'h3 :
begin
foobar = {foobar, " 133"};
skyway(im16[15:12], foobar);
skyway(im16[11: 8], foobar);
skyway(im16[ 7: 4], foobar);
skyway(im16[ 3:0], foobar);
end
endcase
end
endtask
task skyway;
input [ 3:0] hex;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (hex)
4'h0 : foobar = {foobar, " 134"};
4'h1 : foobar = {foobar, " 135"};
4'h2 : foobar = {foobar, " 136"};
4'h3 : foobar = {foobar, " 137"};
4'h4 : foobar = {foobar, " 138"};
4'h5 : foobar = {foobar, " 139"};
4'h6 : foobar = {foobar, " 140"};
4'h7 : foobar = {foobar, " 141"};
4'h8 : foobar = {foobar, " 142"};
4'h9 : foobar = {foobar, " 143"};
4'ha : foobar = {foobar, " 144"};
4'hb : foobar = {foobar, " 145"};
4'hc : foobar = {foobar, " 146"};
4'hd : foobar = {foobar, " 147"};
4'he : foobar = {foobar, " 148"};
4'hf : foobar = {foobar, " 149"};
endcase
end
endtask
task ozonesr;
input [ 15:0] foo;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (foo[11: 9])
3'h0 : foobar = {foobar, " 158"};
3'h1 : foobar = {foobar, " 159"};
3'h2 : foobar = {foobar, " 160"};
3'h3 : foobar = {foobar, " 161"};
3'h4 : foobar = {foobar, " 162"};
3'h5 : foobar = {foobar, " 163"};
3'h6 : foobar = {foobar, " 164"};
3'h7 : foobar = {foobar, " 165"};
endcase
end
endtask
task ozonejk;
input k;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
if (k)
foobar = {foobar, " 166"};
else
foobar = {foobar, " 167"};
end
endtask
task ozoneae;
input [ 2:0] ae;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (ae)
3'b000 : foobar = {foobar, " 168"};
3'b001 : foobar = {foobar, " 169"};
3'b010 : foobar = {foobar, " 170"};
3'b011 : foobar = {foobar, " 171"};
3'b100 : foobar = {foobar, " 172"};
3'b101 : foobar = {foobar, " 173"};
3'b110 : foobar = {foobar, " 174"};
3'b111 : foobar = {foobar, " 175"};
endcase
end
endtask
task ozoneaee;
input [ 2:0] aee;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (aee)
3'b001,
3'b011,
3'b101,
3'b111 : foobar = {foobar, " 176"};
3'b000 : foobar = {foobar, " 177"};
3'b010 : foobar = {foobar, " 178"};
3'b100 : foobar = {foobar, " 179"};
3'b110 : foobar = {foobar, " 180"};
endcase
end
endtask
task ozoneape;
input [ 2:0] ape;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (ape)
3'b001,
3'b011,
3'b101,
3'b111 : foobar = {foobar, " 181"};
3'b000 : foobar = {foobar, " 182"};
3'b010 : foobar = {foobar, " 183"};
3'b100 : foobar = {foobar, " 184"};
3'b110 : foobar = {foobar, " 185"};
endcase
end
endtask
task ozonef1;
input [ 31:0] foo;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (foo[24:21])
4'h0 :
if (foo[26])
foobar = {foobar, " 186"};
else
foobar = {foobar, " 187"};
4'h1 :
case (foo[26:25])
2'b00 : foobar = {foobar, " 188"};
2'b01 : foobar = {foobar, " 189"};
2'b10 : foobar = {foobar, " 190"};
2'b11 : foobar = {foobar, " 191"};
endcase
4'h2 : foobar = {foobar, " 192"};
4'h3 :
case (foo[26:25])
2'b00 : foobar = {foobar, " 193"};
2'b01 : foobar = {foobar, " 194"};
2'b10 : foobar = {foobar, " 195"};
2'b11 : foobar = {foobar, " 196"};
endcase
4'h4 :
if (foo[26])
foobar = {foobar, " 197"};
else
foobar = {foobar, " 198"};
4'h5 :
case (foo[26:25])
2'b00 : foobar = {foobar, " 199"};
2'b01 : foobar = {foobar, " 200"};
2'b10 : foobar = {foobar, " 201"};
2'b11 : foobar = {foobar, " 202"};
endcase
4'h6 : foobar = {foobar, " 203"};
4'h7 :
case (foo[26:25])
2'b00 : foobar = {foobar, " 204"};
2'b01 : foobar = {foobar, " 205"};
2'b10 : foobar = {foobar, " 206"};
2'b11 : foobar = {foobar, " 207"};
endcase
4'h8 :
case (foo[26:25])
2'b00 : foobar = {foobar, " 208"};
2'b01 : foobar = {foobar, " 209"};
2'b10 : foobar = {foobar, " 210"};
2'b11 : foobar = {foobar, " 211"};
endcase
4'h9 :
case (foo[26:25])
2'b00 : foobar = {foobar, " 212"};
2'b01 : foobar = {foobar, " 213"};
2'b10 : foobar = {foobar, " 214"};
2'b11 : foobar = {foobar, " 215"};
endcase
4'ha :
if (foo[25])
foobar = {foobar, " 216"};
else
foobar = {foobar, " 217"};
4'hb :
if (foo[25])
foobar = {foobar, " 218"};
else
foobar = {foobar, " 219"};
4'hc :
if (foo[26])
foobar = {foobar, " 220"};
else
foobar = {foobar, " 221"};
4'hd :
case (foo[26:25])
2'b00 : foobar = {foobar, " 222"};
2'b01 : foobar = {foobar, " 223"};
2'b10 : foobar = {foobar, " 224"};
2'b11 : foobar = {foobar, " 225"};
endcase
4'he :
case (foo[26:25])
2'b00 : foobar = {foobar, " 226"};
2'b01 : foobar = {foobar, " 227"};
2'b10 : foobar = {foobar, " 228"};
2'b11 : foobar = {foobar, " 229"};
endcase
4'hf :
case (foo[26:25])
2'b00 : foobar = {foobar, " 230"};
2'b01 : foobar = {foobar, " 231"};
2'b10 : foobar = {foobar, " 232"};
2'b11 : foobar = {foobar, " 233"};
endcase
endcase
end
endtask
task ozonef1e;
input [ 31:0] foo;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (foo[27:21])
7'h00:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 234"};
foobar = {foobar, " 235"};
end
7'h01:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 236"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 237"};
foobar = {foobar, " 238"};
end
7'h02:
foobar = {foobar, " 239"};
7'h03:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 240"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 241"};
foobar = {foobar, " 242"};
end
7'h04:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 243"};
foobar = {foobar," 244"};
end
7'h05:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 245"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 246"};
end
7'h06:
foobar = {foobar, " 247"};
7'h07:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 248"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 249"};
end
7'h08:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 250"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 251"};
end
7'h09:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 252"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 253"};
end
7'h0a:
begin
ozoneae(foo[17:15], foobar);
foobar = {foobar," 254"};
end
7'h0b:
begin
ozoneae(foo[17:15], foobar);
foobar = {foobar," 255"};
end
7'h0c:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 256"};
end
7'h0d:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 257"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 258"};
end
7'h0e:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 259"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 260"};
end
7'h0f:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 261"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 262"};
end
7'h10:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 263"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 264"};
foobar = {foobar, " 265"};
foobar = {foobar, " 266"};
end
7'h11:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 267"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 268"};
foobar = {foobar, " 269"};
foobar = {foobar, " 270"};
end
7'h12:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 271"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 272"};
foobar = {foobar, " 273"};
foobar = {foobar, " 274"};
end
7'h13:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 275"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 276"};
foobar = {foobar, " 277"};
foobar = {foobar, " 278"};
end
7'h14:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 279"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 280"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 281"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 282"};
foobar = {foobar, " 283"};
foobar = {foobar, " 284"};
end
7'h15:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 285"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 286"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 287"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 288"};
foobar = {foobar, " 289"};
foobar = {foobar, " 290"};
end
7'h16:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 291"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 292"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 293"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 294"};
foobar = {foobar, " 295"};
foobar = {foobar, " 296"};
end
7'h17:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 297"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 298"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 299"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 300"};
foobar = {foobar, " 301"};
foobar = {foobar, " 302"};
end
7'h18:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 303"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 304"};
foobar = {foobar, " 305"};
foobar = {foobar, " 306"};
end
7'h19:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 307"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 308"};
foobar = {foobar, " 309"};
foobar = {foobar, " 310"};
end
7'h1a:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 311"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 312"};
foobar = {foobar, " 313"};
foobar = {foobar, " 314"};
end
7'h1b:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 315"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 316"};
foobar = {foobar, " 317"};
foobar = {foobar, " 318"};
end
7'h1c:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 319"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 320"};
foobar = {foobar, " 321"};
foobar = {foobar, " 322"};
end
7'h1d:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 323"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 324"};
foobar = {foobar, " 325"};
foobar = {foobar, " 326"};
end
7'h1e:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 327"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 328"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 329"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 330"};
foobar = {foobar, " 331"};
foobar = {foobar, " 332"};
end
7'h1f:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 333"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 334"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 335"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 336"};
foobar = {foobar, " 337"};
foobar = {foobar, " 338"};
end
7'h20:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 339"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 340"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 341"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 342"};
foobar = {foobar, " 343"};
foobar = {foobar, " 344"};
end
7'h21:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 345"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 346"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 347"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 348"};
foobar = {foobar, " 349"};
foobar = {foobar, " 350"};
end
7'h22:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 351"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 352"};
foobar = {foobar, " 353"};
foobar = {foobar, " 354"};
end
7'h23:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 355"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 356"};
foobar = {foobar, " 357"};
foobar = {foobar, " 358"};
end
7'h24:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 359"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 360"};
foobar = {foobar, " 361"};
foobar = {foobar, " 362"};
end
7'h25:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 363"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 364"};
foobar = {foobar, " 365"};
foobar = {foobar, " 366"};
end
7'h26:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 367"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 368"};
foobar = {foobar, " 369"};
foobar = {foobar, " 370"};
end
7'h27:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 371"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 372"};
foobar = {foobar, " 373"};
foobar = {foobar, " 374"};
end
7'h28:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 375"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 376"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 377"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 378"};
foobar = {foobar, " 379"};
foobar = {foobar, " 380"};
end
7'h29:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 381"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 382"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 383"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 384"};
foobar = {foobar, " 385"};
foobar = {foobar, " 386"};
end
7'h2a:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 387"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 388"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 389"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 390"};
foobar = {foobar, " 391"};
foobar = {foobar, " 392"};
end
7'h2b:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 393"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 394"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 395"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 396"};
foobar = {foobar, " 397"};
foobar = {foobar, " 398"};
end
7'h2c:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 399"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 400"};
foobar = {foobar, " 401"};
foobar = {foobar, " 402"};
end
7'h2d:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 403"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 404"};
foobar = {foobar, " 405"};
foobar = {foobar, " 406"};
end
7'h2e:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 407"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 408"};
foobar = {foobar, " 409"};
foobar = {foobar, " 410"};
end
7'h2f:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 411"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 412"};
foobar = {foobar, " 413"};
foobar = {foobar, " 414"};
end
7'h30:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 415"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 416"};
foobar = {foobar, " 417"};
foobar = {foobar, " 418"};
end
7'h31:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 419"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 420"};
foobar = {foobar, " 421"};
foobar = {foobar, " 422"};
end
7'h32:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 423"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 424"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 425"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 426"};
foobar = {foobar, " 427"};
foobar = {foobar, " 428"};
end
7'h33:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 429"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 430"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 431"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 432"};
foobar = {foobar, " 433"};
foobar = {foobar, " 434"};
end
7'h34:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 435"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 436"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 437"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 438"};
foobar = {foobar, " 439"};
foobar = {foobar, " 440"};
end
7'h35:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 441"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 442"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 443"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 444"};
foobar = {foobar, " 445"};
foobar = {foobar, " 446"};
end
7'h36:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 447"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 448"};
foobar = {foobar, " 449"};
foobar = {foobar, " 450"};
end
7'h37:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 451"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 452"};
foobar = {foobar, " 453"};
foobar = {foobar, " 454"};
end
7'h38:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 455"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 456"};
foobar = {foobar, " 457"};
end
7'h39:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 458"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 459"};
foobar = {foobar, " 460"};
end
7'h3a:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 461"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 462"};
foobar = {foobar, " 463"};
end
7'h3b:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 464"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 465"};
foobar = {foobar, " 466"};
end
7'h3c:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 467"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 468"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 469"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 470"};
foobar = {foobar, " 471"};
end
7'h3d:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 472"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 473"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 474"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 475"};
foobar = {foobar, " 476"};
end
7'h3e:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 477"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 478"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 479"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 480"};
foobar = {foobar, " 481"};
end
7'h3f:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 482"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 483"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 484"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 485"};
foobar = {foobar, " 486"};
end
7'h40:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 487"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 488"};
foobar = {foobar, " 489"};
foobar = {foobar, " 490"};
end
7'h41:
begin
foobar = {foobar, " 491"};
foobar = {foobar, " 492"};
end
7'h42:
begin
foobar = {foobar, " 493"};
foobar = {foobar, " 494"};
end
7'h43:
begin
foobar = {foobar, " 495"};
foobar = {foobar, " 496"};
end
7'h44:
begin
foobar = {foobar, " 497"};
foobar = {foobar, " 498"};
end
7'h45:
foobar = {foobar, " 499"};
7'h46:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 500"};
foobar = {foobar, " 501"};
foobar = {foobar, " 502"};
end
7'h47:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 503"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 504"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 505"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 506"};
foobar = {foobar, " 507"};
foobar = {foobar, " 508"};
end
7'h48:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 509"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 510"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 511"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 512"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 513"};
end
7'h49:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 514"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 515"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 516"};
end
7'h4a:
foobar = {foobar," 517"};
7'h4b:
foobar = {foobar, " 518"};
7'h4c:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 519"};
foobar = {foobar, " 520"};
foobar = {foobar, " 521"};
end
7'h4d:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 522"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 523"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 524"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 525"};
foobar = {foobar, " 526"};
foobar = {foobar, " 527"};
end
7'h4e:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 528"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 529"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 530"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 531"};
end
7'h4f:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 532"};
end
7'h50:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 533"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 534"};
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 535"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 536"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 537"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 538"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 539"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 540"};
end
7'h51:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 541"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 542"};
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 543"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 544"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 545"};
end
7'h52:
foobar = {foobar, " 546"};
7'h53:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar, " 547"};
end
7'h54:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 548"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 549"};
end
7'h55:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 550"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 551"};
end
7'h56:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 552"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 553"};
foobar = {foobar, " 554"};
end
7'h57:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 555"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 556"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 557"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 558"};
end
7'h58:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar, " 559"};
end
7'h59:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 560"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 561"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 562"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 563"};
end
7'h5a:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 564"};
ozoneae(foo[17:15], foobar);
foobar = {foobar, " 565"};
end
7'h5b:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 566"};
ozoneae(foo[17:15], foobar);
foobar = {foobar, " 567"};
end
7'h5c:
begin
foobar = {foobar," 568"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 569"};
foobar = {foobar," 570"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 571"};
ozoneae(foo[20:18], foobar);
foobar = {foobar," 572"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar, " 573"};
end
7'h5d:
begin
foobar = {foobar," 574"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 575"};
foobar = {foobar," 576"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 577"};
ozoneae(foo[20:18], foobar);
foobar = {foobar," 578"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar, " 579"};
end
7'h5e:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 580"};
ozoneae(foo[17:15], foobar);
foobar = {foobar, " 581"};
end
7'h5f:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 582"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 583"};
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 584"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 585"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 586"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 587"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 588"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 589"};
end
7'h60:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 590"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 591"};
end
7'h61:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 592"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 593"};
end
7'h62:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 594"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 595"};
end
7'h63:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 596"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 597"};
end
7'h64:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 598"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 599"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 600"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 601"};
end
7'h65:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 602"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 603"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 604"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 605"};
end
7'h66:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 606"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 607"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 608"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 609"};
end
7'h67:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 610"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 611"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 612"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 613"};
end
7'h68:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 614"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 615"};
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 616"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 617"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 618"};
ozoneape(foo[17:15], foobar);
end
7'h69:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 619"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 620"};
ozoneae(foo[20:18], foobar);
foobar = {foobar," 621"};
end
7'h6a:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 622"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 623"};
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 624"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 625"};
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 626"};
ozoneae(foo[17:15], foobar);
end
7'h6b:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 627"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 628"};
ozoneae(foo[20:18], foobar);
foobar = {foobar," 629"};
end
7'h6c:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 630"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 631"};
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 632"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 633"};
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 634"};
ozoneae(foo[17:15], foobar);
end
7'h6d:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 635"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 636"};
ozoneae(foo[20:18], foobar);
foobar = {foobar," 637"};
end
7'h6e:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 638"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 639"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 640"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 641"};
end
7'h6f:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 642"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 643"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 644"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 645"};
end
7'h70:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 646"};
ozoneae(foo[20:18], foobar);
foobar = {foobar," 647"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 648"};
ozoneae(foo[17:15], foobar);
foobar = {foobar, " 649"};
end
7'h71:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 650"};
ozoneae(foo[17:15], foobar);
foobar = {foobar, " 651"};
end
7'h72:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 652"};
ozoneae(foo[17:15], foobar);
foobar = {foobar, " 653"};
end
7'h73:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 654"};
ozoneae(foo[20:18], foobar);
foobar = {foobar," 655"};
ozoneae(foo[17:15], foobar);
end
7'h74:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 656"};
ozoneae(foo[20:18], foobar);
foobar = {foobar," 657"};
ozoneae(foo[17:15], foobar);
end
7'h75:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 658"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 659"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 660"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 661"};
foobar = {foobar, " 662"};
foobar = {foobar, " 663"};
end
7'h76:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 664"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 665"};
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 666"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 667"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 668"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 669"};
end
7'h77:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 670"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 671"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 672"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 673"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 674"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 675"};
end
7'h78,
7'h79,
7'h7a,
7'h7b,
7'h7c,
7'h7d,
7'h7e,
7'h7f:
foobar = {foobar," 676"};
endcase
end
endtask
task ozonef2;
input [ 31:0] foo;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (foo[24:21])
4'h0 :
case (foo[26:25])
2'b00 : foobar = {foobar," 677"};
2'b01 : foobar = {foobar," 678"};
2'b10 : foobar = {foobar," 679"};
2'b11 : foobar = {foobar," 680"};
endcase
4'h1 :
case (foo[26:25])
2'b00 : foobar = {foobar," 681"};
2'b01 : foobar = {foobar," 682"};
2'b10 : foobar = {foobar," 683"};
2'b11 : foobar = {foobar," 684"};
endcase
4'h2 :
case (foo[26:25])
2'b00 : foobar = {foobar," 685"};
2'b01 : foobar = {foobar," 686"};
2'b10 : foobar = {foobar," 687"};
2'b11 : foobar = {foobar," 688"};
endcase
4'h3 :
case (foo[26:25])
2'b00 : foobar = {foobar," 689"};
2'b01 : foobar = {foobar," 690"};
2'b10 : foobar = {foobar," 691"};
2'b11 : foobar = {foobar," 692"};
endcase
4'h4 :
case (foo[26:25])
2'b00 : foobar = {foobar," 693"};
2'b01 : foobar = {foobar," 694"};
2'b10 : foobar = {foobar," 695"};
2'b11 : foobar = {foobar," 696"};
endcase
4'h5 :
case (foo[26:25])
2'b00 : foobar = {foobar," 697"};
2'b01 : foobar = {foobar," 698"};
2'b10 : foobar = {foobar," 699"};
2'b11 : foobar = {foobar," 700"};
endcase
4'h6 :
case (foo[26:25])
2'b00 : foobar = {foobar," 701"};
2'b01 : foobar = {foobar," 702"};
2'b10 : foobar = {foobar," 703"};
2'b11 : foobar = {foobar," 704"};
endcase
4'h7 :
case (foo[26:25])
2'b00 : foobar = {foobar," 705"};
2'b01 : foobar = {foobar," 706"};
2'b10 : foobar = {foobar," 707"};
2'b11 : foobar = {foobar," 708"};
endcase
4'h8 :
if (foo[26])
foobar = {foobar," 709"};
else
foobar = {foobar," 710"};
4'h9 :
case (foo[26:25])
2'b00 : foobar = {foobar," 711"};
2'b01 : foobar = {foobar," 712"};
2'b10 : foobar = {foobar," 713"};
2'b11 : foobar = {foobar," 714"};
endcase
4'ha :
case (foo[26:25])
2'b00 : foobar = {foobar," 715"};
2'b01 : foobar = {foobar," 716"};
2'b10 : foobar = {foobar," 717"};
2'b11 : foobar = {foobar," 718"};
endcase
4'hb :
case (foo[26:25])
2'b00 : foobar = {foobar," 719"};
2'b01 : foobar = {foobar," 720"};
2'b10 : foobar = {foobar," 721"};
2'b11 : foobar = {foobar," 722"};
endcase
4'hc :
if (foo[26])
foobar = {foobar," 723"};
else
foobar = {foobar," 724"};
4'hd :
case (foo[26:25])
2'b00 : foobar = {foobar," 725"};
2'b01 : foobar = {foobar," 726"};
2'b10 : foobar = {foobar," 727"};
2'b11 : foobar = {foobar," 728"};
endcase
4'he :
case (foo[26:25])
2'b00 : foobar = {foobar," 729"};
2'b01 : foobar = {foobar," 730"};
2'b10 : foobar = {foobar," 731"};
2'b11 : foobar = {foobar," 732"};
endcase
4'hf :
case (foo[26:25])
2'b00 : foobar = {foobar," 733"};
2'b01 : foobar = {foobar," 734"};
2'b10 : foobar = {foobar," 735"};
2'b11 : foobar = {foobar," 736"};
endcase
endcase
end
endtask
task ozonef2e;
input [ 31:0] foo;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
casez (foo[25:21])
5'h00 :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 737"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 738"};
end
5'h01 :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 739"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 740"};
end
5'h02 :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 741"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 742"};
end
5'h03 :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 743"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 744"};
end
5'h04 :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 745"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 746"};
end
5'h05 :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 747"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 748"};
end
5'h06 :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 749"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 750"};
end
5'h07 :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 751"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 752"};
end
5'h08 :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 753"};
if (foo[ 6])
foobar = {foobar," 754"};
else
foobar = {foobar," 755"};
end
5'h09 :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 756"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 757"};
end
5'h0a :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 758"};
ozoneae(foo[17:15], foobar);
end
5'h0b :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 759"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 760"};
end
5'h0c :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 761"};
end
5'h0d :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 762"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 763"};
end
5'h0e :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 764"};
ozoneae(foo[17:15], foobar);
end
5'h0f :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 765"};
ozoneae(foo[17:15], foobar);
end
5'h10 :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 766"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 767"};
end
5'h11 :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 768"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 769"};
end
5'h18 :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 770"};
if (foo[ 6])
foobar = {foobar," 771"};
else
foobar = {foobar," 772"};
end
5'h1a :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 773"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 774"};
end
5'h1b :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 775"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 776"};
if (foo[ 6])
foobar = {foobar," 777"};
else
foobar = {foobar," 778"};
foobar = {foobar," 779"};
end
5'h1c :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 780"};
end
5'h1d :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 781"};
if (foo[ 6])
foobar = {foobar," 782"};
else
foobar = {foobar," 783"};
foobar = {foobar," 784"};
end
5'h1e :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 785"};
if (foo[ 6])
foobar = {foobar," 786"};
else
foobar = {foobar," 787"};
foobar = {foobar," 788"};
end
5'h1f :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 789"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 790"};
if (foo[ 6])
foobar = {foobar," 791"};
else
foobar = {foobar," 792"};
foobar = {foobar," 793"};
end
default :
foobar = {foobar," 794"};
endcase
end
endtask
task ozonef3e;
input [ 31:0] foo;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (foo[25:21])
5'h00,
5'h01,
5'h02:
begin
ozoneae(foo[20:18], foobar);
case (foo[22:21])
2'h0: foobar = {foobar," 795"};
2'h1: foobar = {foobar," 796"};
2'h2: foobar = {foobar," 797"};
endcase
ozoneae(foo[17:15], foobar);
foobar = {foobar," 798"};
if (foo[ 9])
ozoneae(foo[ 8: 6], foobar);
else
ozonef3e_te(foo[ 8: 6], foobar);
foobar = {foobar," 799"};
end
5'h08,
5'h09,
5'h0d,
5'h0e,
5'h0f:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 800"};
ozoneae(foo[17:15], foobar);
case (foo[23:21])
3'h0: foobar = {foobar," 801"};
3'h1: foobar = {foobar," 802"};
3'h5: foobar = {foobar," 803"};
3'h6: foobar = {foobar," 804"};
3'h7: foobar = {foobar," 805"};
endcase
if (foo[ 9])
ozoneae(foo[ 8: 6], foobar);
else
ozonef3e_te(foo[ 8: 6], foobar);
end
5'h0a,
5'h0b:
begin
ozoneae(foo[17:15], foobar);
if (foo[21])
foobar = {foobar," 806"};
else
foobar = {foobar," 807"};
if (foo[ 9])
ozoneae(foo[ 8: 6], foobar);
else
ozonef3e_te(foo[ 8: 6], foobar);
end
5'h0c:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 808"};
if (foo[ 9])
ozoneae(foo[ 8: 6], foobar);
else
ozonef3e_te(foo[ 8: 6], foobar);
foobar = {foobar," 809"};
ozoneae(foo[17:15], foobar);
end
5'h10,
5'h11,
5'h12,
5'h13:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 810"};
ozoneae(foo[17:15], foobar);
case (foo[22:21])
2'h0,
2'h2:
foobar = {foobar," 811"};
2'h1,
2'h3:
foobar = {foobar," 812"};
endcase
ozoneae(foo[ 8: 6], foobar);
foobar = {foobar," 813"};
ozoneae((foo[20:18]+1), foobar);
foobar = {foobar," 814"};
ozoneae((foo[17:15]+1), foobar);
case (foo[22:21])
2'h0,
2'h3:
foobar = {foobar," 815"};
2'h1,
2'h2:
foobar = {foobar," 816"};
endcase
ozoneae((foo[ 8: 6]+1), foobar);
end
5'h18:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 817"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 818"};
ozoneae(foo[ 8: 6], foobar);
foobar = {foobar," 819"};
ozoneae(foo[20:18], foobar);
foobar = {foobar," 820"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 821"};
ozoneae(foo[ 8: 6], foobar);
end
default :
foobar = {foobar," 822"};
endcase
end
endtask
task ozonef3e_te;
input [ 2:0] te;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (te)
3'b100 : foobar = {foobar, " 823"};
3'b101 : foobar = {foobar, " 824"};
3'b110 : foobar = {foobar, " 825"};
default: foobar = {foobar, " 826"};
endcase
end
endtask
task ozonearm;
input [ 2:0] ate;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (ate)
3'b000 : foobar = {foobar, " 827"};
3'b001 : foobar = {foobar, " 828"};
3'b010 : foobar = {foobar, " 829"};
3'b011 : foobar = {foobar, " 830"};
3'b100 : foobar = {foobar, " 831"};
3'b101 : foobar = {foobar, " 832"};
3'b110 : foobar = {foobar, " 833"};
3'b111 : foobar = {foobar, " 834"};
endcase
end
endtask
task ozonebmuop;
input [ 4:0] f4;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (f4[ 4:0])
5'h00,
5'h04 :
foobar = {foobar, " 835"};
5'h01,
5'h05 :
foobar = {foobar, " 836"};
5'h02,
5'h06 :
foobar = {foobar, " 837"};
5'h03,
5'h07 :
foobar = {foobar, " 838"};
5'h08,
5'h18 :
foobar = {foobar, " 839"};
5'h09,
5'h19 :
foobar = {foobar, " 840"};
5'h0a,
5'h1a :
foobar = {foobar, " 841"};
5'h0b :
foobar = {foobar, " 842"};
5'h1b :
foobar = {foobar, " 843"};
5'h0c,
5'h1c :
foobar = {foobar, " 844"};
5'h0d,
5'h1d :
foobar = {foobar, " 845"};
5'h1e :
foobar = {foobar, " 846"};
endcase
end
endtask
task ozonef3;
input [ 31:0] foo;
inout [STRLEN*8: 1] foobar;
reg nacho;
// verilator no_inline_task
begin : f3_body
nacho = 1'b0;
case (foo[24:21])
4'h0:
case (foo[26:25])
2'b00 : foobar = {foobar, " 847"};
2'b01 : foobar = {foobar, " 848"};
2'b10 : foobar = {foobar, " 849"};
2'b11 : foobar = {foobar, " 850"};
endcase
4'h1:
case (foo[26:25])
2'b00 : foobar = {foobar, " 851"};
2'b01 : foobar = {foobar, " 852"};
2'b10 : foobar = {foobar, " 853"};
2'b11 : foobar = {foobar, " 854"};
endcase
4'h2:
case (foo[26:25])
2'b00 : foobar = {foobar, " 855"};
2'b01 : foobar = {foobar, " 856"};
2'b10 : foobar = {foobar, " 857"};
2'b11 : foobar = {foobar, " 858"};
endcase
4'h8,
4'h9,
4'hd,
4'he,
4'hf :
case (foo[26:25])
2'b00 : foobar = {foobar, " 859"};
2'b01 : foobar = {foobar, " 860"};
2'b10 : foobar = {foobar, " 861"};
2'b11 : foobar = {foobar, " 862"};
endcase
4'ha,
4'hb :
if (foo[25])
foobar = {foobar, " 863"};
else
foobar = {foobar, " 864"};
4'hc :
if (foo[26])
foobar = {foobar, " 865"};
else
foobar = {foobar, " 866"};
default :
begin
foobar = {foobar, " 867"};
nacho = 1'b1;
end
endcase
if (~nacho)
begin
case (foo[24:21])
4'h8 :
foobar = {foobar, " 868"};
4'h9 :
foobar = {foobar, " 869"};
4'ha,
4'he :
foobar = {foobar, " 870"};
4'hb,
4'hf :
foobar = {foobar, " 871"};
4'hd :
foobar = {foobar, " 872"};
endcase
if (foo[20])
case (foo[18:16])
3'b000 : foobar = {foobar, " 873"};
3'b100 : foobar = {foobar, " 874"};
default: foobar = {foobar, " 875"};
endcase
else
ozoneae(foo[18:16], foobar);
if (foo[24:21] === 4'hc)
if (foo[25])
foobar = {foobar, " 876"};
else
foobar = {foobar, " 877"};
case (foo[24:21])
4'h0,
4'h1,
4'h2:
foobar = {foobar, " 878"};
endcase
end
end
endtask
task ozonerx;
input [ 31:0] foo;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (foo[19:18])
2'h0 : foobar = {foobar, " 879"};
2'h1 : foobar = {foobar, " 880"};
2'h2 : foobar = {foobar, " 881"};
2'h3 : foobar = {foobar, " 882"};
endcase
case (foo[17:16])
2'h1 : foobar = {foobar, " 883"};
2'h2 : foobar = {foobar, " 884"};
2'h3 : foobar = {foobar, " 885"};
endcase
end
endtask
task ozonerme;
input [ 2:0] rme;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (rme)
3'h0 : foobar = {foobar, " 886"};
3'h1 : foobar = {foobar, " 887"};
3'h2 : foobar = {foobar, " 888"};
3'h3 : foobar = {foobar, " 889"};
3'h4 : foobar = {foobar, " 890"};
3'h5 : foobar = {foobar, " 891"};
3'h6 : foobar = {foobar, " 892"};
3'h7 : foobar = {foobar, " 893"};
endcase
end
endtask
task ozoneye;
input [5:0] ye;
input l;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
foobar = {foobar, " 894"};
ozonerme(ye[5:3],foobar);
case ({ye[ 2:0], l})
4'h2,
4'ha: foobar = {foobar, " 895"};
4'h4,
4'hb: foobar = {foobar, " 896"};
4'h6,
4'he: foobar = {foobar, " 897"};
4'h8,
4'hc: foobar = {foobar, " 898"};
endcase
end
endtask
task ozonef1e_ye;
input [5:0] ye;
input l;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
foobar = {foobar, " 899"};
ozonerme(ye[5:3],foobar);
ozonef1e_inc_dec(ye[5:0], l ,foobar);
end
endtask
task ozonef1e_h;
input [ 2:0] e;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
if (e[ 2:0] <= 3'h4)
foobar = {foobar, " 900"};
end
endtask
task ozonef1e_inc_dec;
input [5:0] ye;
input l;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case ({ye[ 2:0], l})
4'h2,
4'h3,
4'ha: foobar = {foobar, " 901"};
4'h4,
4'h5,
4'hb: foobar = {foobar, " 902"};
4'h6,
4'h7,
4'he: foobar = {foobar, " 903"};
4'h8,
4'h9,
4'hc: foobar = {foobar, " 904"};
4'hf: foobar = {foobar, " 905"};
endcase
end
endtask
task ozonef1e_hl;
input [ 2:0] e;
input l;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case ({e[ 2:0], l})
4'h0,
4'h2,
4'h4,
4'h6,
4'h8: foobar = {foobar, " 906"};
4'h1,
4'h3,
4'h5,
4'h7,
4'h9: foobar = {foobar, " 907"};
endcase
end
endtask
task ozonexe;
input [ 3:0] xe;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (xe[3])
1'b0 : foobar = {foobar, " 908"};
1'b1 : foobar = {foobar, " 909"};
endcase
case (xe[ 2:0])
3'h1,
3'h5: foobar = {foobar, " 910"};
3'h2,
3'h6: foobar = {foobar, " 911"};
3'h3,
3'h7: foobar = {foobar, " 912"};
3'h4: foobar = {foobar, " 913"};
endcase
end
endtask
task ozonerp;
input [ 2:0] rp;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (rp)
3'h0 : foobar = {foobar, " 914"};
3'h1 : foobar = {foobar, " 915"};
3'h2 : foobar = {foobar, " 916"};
3'h3 : foobar = {foobar, " 917"};
3'h4 : foobar = {foobar, " 918"};
3'h5 : foobar = {foobar, " 919"};
3'h6 : foobar = {foobar, " 920"};
3'h7 : foobar = {foobar, " 921"};
endcase
end
endtask
task ozonery;
input [ 3:0] ry;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (ry)
4'h0 : foobar = {foobar, " 922"};
4'h1 : foobar = {foobar, " 923"};
4'h2 : foobar = {foobar, " 924"};
4'h3 : foobar = {foobar, " 925"};
4'h4 : foobar = {foobar, " 926"};
4'h5 : foobar = {foobar, " 927"};
4'h6 : foobar = {foobar, " 928"};
4'h7 : foobar = {foobar, " 929"};
4'h8 : foobar = {foobar, " 930"};
4'h9 : foobar = {foobar, " 931"};
4'ha : foobar = {foobar, " 932"};
4'hb : foobar = {foobar, " 933"};
4'hc : foobar = {foobar, " 934"};
4'hd : foobar = {foobar, " 935"};
4'he : foobar = {foobar, " 936"};
4'hf : foobar = {foobar, " 937"};
endcase
end
endtask
task ozonearx;
input [ 15:0] foo;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (foo[1:0])
2'h0 : foobar = {foobar, " 938"};
2'h1 : foobar = {foobar, " 939"};
2'h2 : foobar = {foobar, " 940"};
2'h3 : foobar = {foobar, " 941"};
endcase
end
endtask
task ozonef3f4imop;
input [ 4:0] f3f4iml;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
casez (f3f4iml)
5'b000??: foobar = {foobar, " 942"};
5'b001??: foobar = {foobar, " 943"};
5'b?10??: foobar = {foobar, " 944"};
5'b0110?: foobar = {foobar, " 945"};
5'b01110: foobar = {foobar, " 946"};
5'b01111: foobar = {foobar, " 947"};
5'b10???: foobar = {foobar, " 948"};
5'b11100: foobar = {foobar, " 949"};
5'b11101: foobar = {foobar, " 950"};
5'b11110: foobar = {foobar, " 951"};
5'b11111: foobar = {foobar, " 952"};
endcase
end
endtask
task ozonecon;
input [ 4:0] con;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (con)
5'h00 : foobar = {foobar, " 953"};
5'h01 : foobar = {foobar, " 954"};
5'h02 : foobar = {foobar, " 955"};
5'h03 : foobar = {foobar, " 956"};
5'h04 : foobar = {foobar, " 957"};
5'h05 : foobar = {foobar, " 958"};
5'h06 : foobar = {foobar, " 959"};
5'h07 : foobar = {foobar, " 960"};
5'h08 : foobar = {foobar, " 961"};
5'h09 : foobar = {foobar, " 962"};
5'h0a : foobar = {foobar, " 963"};
5'h0b : foobar = {foobar, " 964"};
5'h0c : foobar = {foobar, " 965"};
5'h0d : foobar = {foobar, " 966"};
5'h0e : foobar = {foobar, " 967"};
5'h0f : foobar = {foobar, " 968"};
5'h10 : foobar = {foobar, " 969"};
5'h11 : foobar = {foobar, " 970"};
5'h12 : foobar = {foobar, " 971"};
5'h13 : foobar = {foobar, " 972"};
5'h14 : foobar = {foobar, " 973"};
5'h15 : foobar = {foobar, " 974"};
5'h16 : foobar = {foobar, " 975"};
5'h17 : foobar = {foobar, " 976"};
5'h18 : foobar = {foobar, " 977"};
5'h19 : foobar = {foobar, " 978"};
5'h1a : foobar = {foobar, " 979"};
5'h1b : foobar = {foobar, " 980"};
5'h1c : foobar = {foobar, " 981"};
5'h1d : foobar = {foobar, " 982"};
5'h1e : foobar = {foobar, " 983"};
5'h1f : foobar = {foobar, " 984"};
endcase
end
endtask
task ozonedr;
input [ 15:0] foo;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (foo[ 9: 6])
4'h0 : foobar = {foobar, " 985"};
4'h1 : foobar = {foobar, " 986"};
4'h2 : foobar = {foobar, " 987"};
4'h3 : foobar = {foobar, " 988"};
4'h4 : foobar = {foobar, " 989"};
4'h5 : foobar = {foobar, " 990"};
4'h6 : foobar = {foobar, " 991"};
4'h7 : foobar = {foobar, " 992"};
4'h8 : foobar = {foobar, " 993"};
4'h9 : foobar = {foobar, " 994"};
4'ha : foobar = {foobar, " 995"};
4'hb : foobar = {foobar, " 996"};
4'hc : foobar = {foobar, " 997"};
4'hd : foobar = {foobar, " 998"};
4'he : foobar = {foobar, " 999"};
4'hf : foobar = {foobar, " 1000"};
endcase
end
endtask
task ozoneshift;
input [ 15:0] foo;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (foo[ 4: 3])
2'h0 : foobar = {foobar, " 1001"};
2'h1 : foobar = {foobar, " 1002"};
2'h2 : foobar = {foobar, " 1003"};
2'h3 : foobar = {foobar, " 1004"};
endcase
end
endtask
task ozoneacc;
input foo;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (foo)
2'h0 : foobar = {foobar, " 1005"};
2'h1 : foobar = {foobar, " 1006"};
endcase
end
endtask
task ozonehl;
input foo;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (foo)
2'h0 : foobar = {foobar, " 1007"};
2'h1 : foobar = {foobar, " 1008"};
endcase
end
endtask
task dude;
inout [STRLEN*8: 1] foobar;
reg [ 7:0] temp;
integer i;
reg nacho;
// verilator no_inline_task
begin : justify_block
nacho = 1'b0;
for (i=STRLEN-1; i>1; i=i-1)
begin
temp = foobar>>((STRLEN-1)*8);
if (temp || nacho)
nacho = 1'b1;
else
begin
foobar = foobar<<8;
foobar[8:1] = 32;
end
end
end
endtask
task big_case;
input [ 31:0] fd;
input [ 31:0] foo;
reg [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
foobar = " 1009";
if (&foo === 1'bx)
$fwrite(fd, " 1010");
else
casez ( {foo[31:26], foo[19:15], foo[5:0]} )
17'b00_111?_?_????_??_???? :
begin
ozonef1(foo, foobar);
foobar = {foobar, " 1011"};
ozoneacc(~foo[26], foobar);
ozonehl(foo[20], foobar);
foobar = {foobar, " 1012"};
ozonerx(foo, foobar);
dude(foobar);
$fwrite (fd, " 1013:%s", foobar);
end
17'b01_001?_?_????_??_???? :
begin
ozonef1(foo, foobar);
foobar = {foobar, " 1014"};
ozonerx(foo, foobar);
foobar = {foobar, " 1015"};
foobar = {foobar, " 1016"};
ozonehl(foo[20], foobar);
dude(foobar);
$fwrite (fd, " 1017:%s", foobar);
end
17'b10_100?_?_????_??_???? :
begin
ozonef1(foo, foobar);
foobar = {foobar, " 1018"};
ozonerx(foo, foobar);
foobar = {foobar, " 1019"};
foobar = {foobar, " 1020"};
ozonehl(foo[20], foobar);
dude(foobar);
$fwrite (fd, " 1021:%s", foobar);
end
17'b10_101?_?_????_??_???? :
begin
ozonef1(foo, foobar);
foobar = {foobar, " 1022"};
if (foo[20])
begin
foobar = {foobar, " 1023"};
ozoneacc(foo[18], foobar);
foobar = {foobar, " 1024"};
foobar = {foobar, " 1025"};
if (foo[19])
foobar = {foobar, " 1026"};
else
foobar = {foobar, " 1027"};
end
else
ozonerx(foo, foobar);
dude(foobar);
$fwrite (fd, " 1028:%s", foobar);
end
17'b10_110?_?_????_??_???? :
begin
ozonef1(foo, foobar);
foobar = {foobar, " 1029"};
foobar = {foobar, " 1030"};
ozonehl(foo[20], foobar);
foobar = {foobar, " 1031"};
ozonerx(foo, foobar);
dude(foobar);
$fwrite (fd, " 1032:%s", foobar);
end
17'b10_111?_?_????_??_???? :
begin
ozonef1(foo, foobar);
foobar = {foobar, " 1033"};
foobar = {foobar, " 1034"};
ozonehl(foo[20], foobar);
foobar = {foobar, " 1035"};
ozonerx(foo, foobar);
dude(foobar);
$fwrite (fd, " 1036:%s", foobar);
end
17'b11_001?_?_????_??_???? :
begin
ozonef1(foo, foobar);
foobar = {foobar, " 1037"};
ozonerx(foo, foobar);
foobar = {foobar, " 1038"};
foobar = {foobar, " 1039"};
ozonehl(foo[20], foobar);
dude(foobar);
$fwrite (fd, " 1040:%s", foobar);
end
17'b11_111?_?_????_??_???? :
begin
ozonef1(foo, foobar);
foobar = {foobar, " 1041"};
foobar = {foobar, " 1042"};
ozonerx(foo, foobar);
foobar = {foobar, " 1043"};
if (foo[20])
foobar = {foobar, " 1044"};
else
foobar = {foobar, " 1045"};
dude(foobar);
$fwrite (fd, " 1046:%s", foobar);
end
17'b00_10??_?_????_?1_1111 :
casez (foo[11: 5])
7'b??_0_010_0:
begin
foobar = " 1047";
ozonecon(foo[14:10], foobar);
foobar = {foobar, " 1048"};
ozonef1e(foo, foobar);
dude(foobar);
$fwrite (fd, " 1049:%s", foobar);
end
7'b00_?_110_?:
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1050"};
case ({foo[ 9],foo[ 5]})
2'b00:
begin
foobar = {foobar, " 1051"};
ozoneae(foo[14:12], foobar);
ozonehl(foo[ 5], foobar);
end
2'b01:
begin
foobar = {foobar, " 1052"};
ozoneae(foo[14:12], foobar);
ozonehl(foo[ 5], foobar);
end
2'b10:
begin
foobar = {foobar, " 1053"};
ozoneae(foo[14:12], foobar);
end
2'b11: foobar = {foobar, " 1054"};
endcase
dude(foobar);
$fwrite (fd, " 1055:%s", foobar);
end
7'b01_?_110_?:
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1056"};
case ({foo[ 9],foo[ 5]})
2'b00:
begin
ozoneae(foo[14:12], foobar);
ozonehl(foo[ 5], foobar);
foobar = {foobar, " 1057"};
end
2'b01:
begin
ozoneae(foo[14:12], foobar);
ozonehl(foo[ 5], foobar);
foobar = {foobar, " 1058"};
end
2'b10:
begin
ozoneae(foo[14:12], foobar);
foobar = {foobar, " 1059"};
end
2'b11: foobar = {foobar, " 1060"};
endcase
dude(foobar);
$fwrite (fd, " 1061:%s", foobar);
end
7'b10_0_110_0:
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1062"};
foobar = {foobar, " 1063"};
if (foo[12])
foobar = {foobar, " 1064"};
else
ozonerab({4'b1001, foo[14:12]}, foobar);
dude(foobar);
$fwrite (fd, " 1065:%s", foobar);
end
7'b10_0_110_1:
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1066"};
if (foo[12])
foobar = {foobar, " 1067"};
else
ozonerab({4'b1001, foo[14:12]}, foobar);
foobar = {foobar, " 1068"};
dude(foobar);
$fwrite (fd, " 1069:%s", foobar);
end
7'b??_?_000_?:
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1070"};
foobar = {foobar, " 1071"};
ozonef1e_hl(foo[11:9],foo[ 5],foobar);
foobar = {foobar, " 1072"};
ozonef1e_ye(foo[14:9],foo[ 5],foobar);
dude(foobar);
$fwrite (fd, " 1073:%s", foobar);
end
7'b??_?_100_?:
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1074"};
foobar = {foobar, " 1075"};
ozonef1e_hl(foo[11:9],foo[ 5],foobar);
foobar = {foobar, " 1076"};
ozonef1e_ye(foo[14:9],foo[ 5],foobar);
dude(foobar);
$fwrite (fd, " 1077:%s", foobar);
end
7'b??_?_001_?:
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1078"};
ozonef1e_ye(foo[14:9],foo[ 5],foobar);
foobar = {foobar, " 1079"};
foobar = {foobar, " 1080"};
ozonef1e_hl(foo[11:9],foo[ 5],foobar);
dude(foobar);
$fwrite (fd, " 1081:%s", foobar);
end
7'b??_?_011_?:
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1082"};
ozonef1e_ye(foo[14:9],foo[ 5],foobar);
foobar = {foobar, " 1083"};
foobar = {foobar, " 1084"};
ozonef1e_hl(foo[11:9],foo[ 5],foobar);
dude(foobar);
$fwrite (fd, " 1085:%s", foobar);
end
7'b??_?_101_?:
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1086"};
ozonef1e_ye(foo[14:9],foo[ 5],foobar);
dude(foobar);
$fwrite (fd, " 1087:%s", foobar);
end
endcase
17'b00_10??_?_????_?0_0110 :
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1088"};
ozoneae(foo[ 8: 6], foobar);
ozonef1e_hl(foo[11:9],foo[ 5],foobar);
foobar = {foobar, " 1089"};
ozonef1e_ye(foo[14:9],foo[ 5],foobar);
dude(foobar);
$fwrite (fd, " 1090:%s", foobar);
end
17'b00_10??_?_????_00_0111 :
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1091"};
if (foo[ 6])
foobar = {foobar, " 1092"};
else
ozonerab({4'b1001, foo[ 8: 6]}, foobar);
foobar = {foobar, " 1093"};
foobar = {foobar, " 1094"};
ozonerme(foo[14:12],foobar);
case (foo[11: 9])
3'h2,
3'h5,
3'h6,
3'h7:
ozonef1e_inc_dec(foo[14:9],1'b0,foobar);
3'h1,
3'h3,
3'h4:
foobar = {foobar, " 1095"};
endcase
dude(foobar);
$fwrite (fd, " 1096:%s", foobar);
end
17'b00_10??_?_????_?0_0100 :
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1097"};
ozonef1e_ye(foo[14:9],foo[ 5],foobar);
foobar = {foobar, " 1098"};
ozoneae(foo[ 8: 6], foobar);
ozonef1e_hl(foo[11:9],foo[ 5],foobar);
dude(foobar);
$fwrite (fd, " 1099:%s", foobar);
end
17'b00_10??_?_????_10_0111 :
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1100"};
foobar = {foobar, " 1101"};
ozonerme(foo[14:12],foobar);
case (foo[11: 9])
3'h2,
3'h5,
3'h6,
3'h7:
ozonef1e_inc_dec(foo[14:9],1'b0,foobar);
3'h1,
3'h3,
3'h4:
foobar = {foobar, " 1102"};
endcase
foobar = {foobar, " 1103"};
if (foo[ 6])
foobar = {foobar, " 1104"};
else
ozonerab({4'b1001, foo[ 8: 6]}, foobar);
dude(foobar);
$fwrite (fd, " 1105:%s", foobar);
end
17'b00_10??_?_????_?0_1110 :
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1106"};
case (foo[11:9])
3'h2:
begin
foobar = {foobar, " 1107"};
if (foo[14:12] == 3'h0)
foobar = {foobar, " 1108"};
else
ozonerme(foo[14:12],foobar);
foobar = {foobar, " 1109"};
end
3'h6:
begin
foobar = {foobar, " 1110"};
if (foo[14:12] == 3'h0)
foobar = {foobar, " 1111"};
else
ozonerme(foo[14:12],foobar);
foobar = {foobar, " 1112"};
end
3'h0:
begin
foobar = {foobar, " 1113"};
if (foo[14:12] == 3'h0)
foobar = {foobar, " 1114"};
else
ozonerme(foo[14:12],foobar);
foobar = {foobar, " 1115"};
if (foo[ 7: 5] >= 3'h5)
foobar = {foobar, " 1116"};
else
ozonexe(foo[ 8: 5], foobar);
end
3'h1:
begin
foobar = {foobar, " 1117"};
if (foo[14:12] == 3'h0)
foobar = {foobar, " 1118"};
else
ozonerme(foo[14:12],foobar);
foobar = {foobar, " 1119"};
if (foo[ 7: 5] >= 3'h5)
foobar = {foobar, " 1120"};
else
ozonexe(foo[ 8: 5], foobar);
end
3'h4:
begin
foobar = {foobar, " 1121"};
if (foo[14:12] == 3'h0)
foobar = {foobar, " 1122"};
else
ozonerme(foo[14:12],foobar);
foobar = {foobar, " 1123"};
if (foo[ 7: 5] >= 3'h5)
foobar = {foobar, " 1124"};
else
ozonexe(foo[ 8: 5], foobar);
end
3'h5:
begin
foobar = {foobar, " 1125"};
if (foo[14:12] == 3'h0)
foobar = {foobar, " 1126"};
else
ozonerme(foo[14:12],foobar);
foobar = {foobar, " 1127"};
if (foo[ 7: 5] >= 3'h5)
foobar = {foobar, " 1128"};
else
ozonexe(foo[ 8: 5], foobar);
end
endcase
dude(foobar);
$fwrite (fd, " 1129:%s", foobar);
end
17'b00_10??_?_????_?0_1111 :
casez (foo[14: 9])
6'b001_10_?:
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1130"};
foobar = {foobar, " 1131"};
ozonef1e_hl(foo[ 7: 5],foo[ 9],foobar);
foobar = {foobar, " 1132"};
ozonexe(foo[ 8: 5], foobar);
dude(foobar);
$fwrite (fd, " 1133:%s", foobar);
end
6'b???_11_?:
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1134"};
ozoneae(foo[14:12], foobar);
ozonef1e_hl(foo[ 7: 5],foo[ 9],foobar);
foobar = {foobar, " 1135"};
ozonexe(foo[ 8: 5], foobar);
dude(foobar);
$fwrite (fd, " 1136:%s", foobar);
end
6'b000_10_1,
6'b010_10_1,
6'b100_10_1,
6'b110_10_1:
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1137"};
ozonerab({4'b1001, foo[14:12]}, foobar);
foobar = {foobar, " 1138"};
if ((foo[ 7: 5] >= 3'h1) & (foo[ 7: 5] <= 3'h3))
foobar = {foobar, " 1139"};
else
ozonexe(foo[ 8: 5], foobar);
dude(foobar);
$fwrite (fd, " 1140:%s", foobar);
end
6'b000_10_0,
6'b010_10_0,
6'b100_10_0,
6'b110_10_0:
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1141"};
foobar = {foobar, " 1142"};
ozonerab({4'b1001, foo[14:12]}, foobar);
foobar = {foobar, " 1143"};
foobar = {foobar, " 1144"};
ozonef1e_h(foo[ 7: 5],foobar);
foobar = {foobar, " 1145"};
ozonexe(foo[ 8: 5], foobar);
dude(foobar);
$fwrite (fd, " 1146:%s", foobar);
end
6'b???_00_?:
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1147"};
if (foo[ 9])
begin
foobar = {foobar, " 1148"};
ozoneae(foo[14:12], foobar);
end
else
begin
foobar = {foobar, " 1149"};
ozoneae(foo[14:12], foobar);
foobar = {foobar, " 1150"};
end
foobar = {foobar, " 1151"};
foobar = {foobar, " 1152"};
ozonef1e_h(foo[ 7: 5],foobar);
foobar = {foobar, " 1153"};
ozonexe(foo[ 8: 5], foobar);
dude(foobar);
$fwrite (fd, " 1154:%s", foobar);
end
6'b???_01_?:
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1155"};
ozoneae(foo[14:12], foobar);
if (foo[ 9])
foobar = {foobar, " 1156"};
else
foobar = {foobar, " 1157"};
foobar = {foobar, " 1158"};
foobar = {foobar, " 1159"};
ozonef1e_h(foo[ 7: 5],foobar);
foobar = {foobar, " 1160"};
ozonexe(foo[ 8: 5], foobar);
dude(foobar);
$fwrite (fd, " 1161:%s", foobar);
end
6'b011_10_0:
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1162"};
case (foo[ 8: 5])
4'h0: foobar = {foobar, " 1163"};
4'h1: foobar = {foobar, " 1164"};
4'h2: foobar = {foobar, " 1165"};
4'h3: foobar = {foobar, " 1166"};
4'h4: foobar = {foobar, " 1167"};
4'h5: foobar = {foobar, " 1168"};
4'h8: foobar = {foobar, " 1169"};
4'h9: foobar = {foobar, " 1170"};
4'ha: foobar = {foobar, " 1171"};
4'hb: foobar = {foobar, " 1172"};
4'hc: foobar = {foobar, " 1173"};
4'hd: foobar = {foobar, " 1174"};
default: foobar = {foobar, " 1175"};
endcase
dude(foobar);
$fwrite (fd, " 1176:%s", foobar);
end
default: foobar = {foobar, " 1177"};
endcase
17'b00_10??_?_????_?0_110? :
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1178"};
foobar = {foobar, " 1179"};
ozonef1e_hl(foo[11:9], foo[0], foobar);
foobar = {foobar, " 1180"};
ozonef1e_ye(foo[14:9],1'b0,foobar);
foobar = {foobar, " 1181"};
ozonef1e_h(foo[ 7: 5],foobar);
foobar = {foobar, " 1182"};
ozonexe(foo[ 8: 5], foobar);
dude(foobar);
$fwrite (fd, " 1183:%s", foobar);
end
17'b00_10??_?_????_?1_110? :
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1184"};
foobar = {foobar, " 1185"};
ozonef1e_hl(foo[11:9],foo[0],foobar);
foobar = {foobar, " 1186"};
ozonef1e_ye(foo[14:9],foo[ 0],foobar);
foobar = {foobar, " 1187"};
foobar = {foobar, " 1188"};
ozonef1e_h(foo[ 7: 5],foobar);
foobar = {foobar, " 1189"};
ozonexe(foo[ 8: 5], foobar);
dude(foobar);
$fwrite (fd, " 1190:%s", foobar);
end
17'b00_10??_?_????_?0_101? :
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1191"};
ozonef1e_ye(foo[14:9],foo[ 0],foobar);
foobar = {foobar, " 1192"};
foobar = {foobar, " 1193"};
ozonef1e_hl(foo[11:9],foo[0],foobar);
foobar = {foobar, " 1194"};
foobar = {foobar, " 1195"};
ozonef1e_h(foo[ 7: 5],foobar);
foobar = {foobar, " 1196"};
ozonexe(foo[ 8: 5], foobar);
dude(foobar);
$fwrite (fd, " 1197:%s", foobar);
end
17'b00_10??_?_????_?0_1001 :
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1198"};
foobar = {foobar, " 1199"};
ozonef1e_h(foo[11:9],foobar);
foobar = {foobar, " 1200"};
ozonef1e_ye(foo[14:9],1'b0,foobar);
foobar = {foobar, " 1201"};
case (foo[ 7: 5])
3'h1,
3'h2,
3'h3:
foobar = {foobar, " 1202"};
default:
begin
foobar = {foobar, " 1203"};
foobar = {foobar, " 1204"};
ozonexe(foo[ 8: 5], foobar);
end
endcase
dude(foobar);
$fwrite (fd, " 1205:%s", foobar);
end
17'b00_10??_?_????_?0_0101 :
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1206"};
case (foo[11: 9])
3'h1,
3'h3,
3'h4:
foobar = {foobar, " 1207"};
default:
begin
ozonef1e_ye(foo[14:9],1'b0,foobar);
foobar = {foobar, " 1208"};
foobar = {foobar, " 1209"};
end
endcase
foobar = {foobar, " 1210"};
foobar = {foobar, " 1211"};
ozonef1e_h(foo[ 7: 5],foobar);
foobar = {foobar, " 1212"};
ozonexe(foo[ 8: 5], foobar);
dude(foobar);
$fwrite (fd, " 1213:%s", foobar);
end
17'b00_10??_?_????_?1_1110 :
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1214"};
ozonef1e_ye(foo[14:9],1'b0,foobar);
foobar = {foobar, " 1215"};
foobar = {foobar, " 1216"};
ozonef1e_h(foo[11: 9],foobar);
foobar = {foobar, " 1217"};
foobar = {foobar, " 1218"};
ozonef1e_h(foo[ 7: 5],foobar);
foobar = {foobar, " 1219"};
ozonexe(foo[ 8: 5], foobar);
dude(foobar);
$fwrite (fd, " 1220:%s", foobar);
end
17'b00_10??_?_????_?0_1000 :
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1221"};
ozonef1e_ye(foo[14:9],1'b0,foobar);
foobar = {foobar, " 1222"};
foobar = {foobar, " 1223"};
ozonef1e_h(foo[11: 9],foobar);
foobar = {foobar, " 1224"};
foobar = {foobar, " 1225"};
ozonef1e_h(foo[ 7: 5],foobar);
foobar = {foobar, " 1226"};
ozonexe(foo[ 8: 5], foobar);
dude(foobar);
$fwrite (fd, " 1227:%s", foobar);
end
17'b10_01??_?_????_??_???? :
begin
if (foo[27])
foobar = " 1228";
else
foobar = " 1229";
ozonecon(foo[20:16], foobar);
foobar = {foobar, " 1230"};
ozonef2(foo[31:0], foobar);
dude(foobar);
$fwrite (fd, " 1231:%s", foobar);
end
17'b00_1000_?_????_01_0011 :
if (~|foo[ 9: 8])
begin
if (foo[ 7])
foobar = " 1232";
else
foobar = " 1233";
ozonecon(foo[14:10], foobar);
foobar = {foobar, " 1234"};
ozonef2e(foo[31:0], foobar);
dude(foobar);
$fwrite (fd, " 1235:%s", foobar);
end
else
begin
foobar = " 1236";
ozonecon(foo[14:10], foobar);
foobar = {foobar, " 1237"};
ozonef3e(foo[31:0], foobar);
dude(foobar);
$fwrite (fd, " 1238:%s", foobar);
end
17'b11_110?_1_????_??_???? :
begin
ozonef3(foo[31:0], foobar);
dude(foobar);
$fwrite(fd, " 1239:%s", foobar);
end
17'b11_110?_0_????_??_???? :
begin : f4_body
casez (foo[24:20])
5'b0_1110,
5'b1_0???,
5'b1_1111:
begin
$fwrite (fd, " 1240");
end
5'b0_00??:
begin
ozoneacc(foo[26], foobar);
foobar = {foobar, " 1241"};
ozoneacc(foo[25], foobar);
ozonebmuop(foo[24:20], foobar);
ozoneae(foo[18:16], foobar);
foobar = {foobar, " 1242"};
dude(foobar);
$fwrite(fd, " 1243:%s", foobar);
end
5'b0_01??:
begin
ozoneacc(foo[26], foobar);
foobar = {foobar, " 1244"};
ozoneacc(foo[25], foobar);
ozonebmuop(foo[24:20], foobar);
ozonearm(foo[18:16], foobar);
dude(foobar);
$fwrite(fd, " 1245:%s", foobar);
end
5'b0_1011:
begin
ozoneacc(foo[26], foobar);
foobar = {foobar, " 1246"};
ozonebmuop(foo[24:20], foobar);
foobar = {foobar, " 1247"};
ozoneae(foo[18:16], foobar);
foobar = {foobar, " 1248"};
dude(foobar);
$fwrite(fd, " 1249:%s", foobar);
end
5'b0_100?,
5'b0_1010,
5'b0_110? :
begin
ozoneacc(foo[26], foobar);
foobar = {foobar, " 1250"};
ozonebmuop(foo[24:20], foobar);
foobar = {foobar, " 1251"};
ozoneacc(foo[25], foobar);
foobar = {foobar, " 1252"};
ozoneae(foo[18:16], foobar);
foobar = {foobar, " 1253"};
dude(foobar);
$fwrite(fd, " 1254:%s", foobar);
end
5'b0_1111 :
begin
ozoneacc(foo[26], foobar);
foobar = {foobar, " 1255"};
ozoneacc(foo[25], foobar);
foobar = {foobar, " 1256"};
ozoneae(foo[18:16], foobar);
dude(foobar);
$fwrite(fd, " 1257:%s", foobar);
end
5'b1_10??,
5'b1_110?,
5'b1_1110 :
begin
ozoneacc(foo[26], foobar);
foobar = {foobar, " 1258"};
ozonebmuop(foo[24:20], foobar);
foobar = {foobar, " 1259"};
ozoneacc(foo[25], foobar);
foobar = {foobar, " 1260"};
ozonearm(foo[18:16], foobar);
foobar = {foobar, " 1261"};
dude(foobar);
$fwrite(fd, " 1262:%s", foobar);
end
endcase
end
17'b11_100?_?_????_??_???? :
casez (foo[23:19])
5'b111??,
5'b0111?:
begin
ozoneae(foo[26:24], foobar);
foobar = {foobar, " 1263"};
ozonef3f4imop(foo[23:19], foobar);
foobar = {foobar, " 1264"};
ozoneae(foo[18:16], foobar);
foobar = {foobar, " 1265"};
skyway(foo[15:12], foobar);
skyway(foo[11: 8], foobar);
skyway(foo[ 7: 4], foobar);
skyway(foo[ 3:0], foobar);
foobar = {foobar, " 1266"};
dude(foobar);
$fwrite(fd, " 1267:%s", foobar);
end
5'b?0???,
5'b110??:
begin
ozoneae(foo[26:24], foobar);
foobar = {foobar, " 1268"};
if (foo[23:21] == 3'b100)
foobar = {foobar, " 1269"};
ozoneae(foo[18:16], foobar);
if (foo[19])
foobar = {foobar, " 1270"};
else
foobar = {foobar, " 1271"};
ozonef3f4imop(foo[23:19], foobar);
foobar = {foobar, " 1272"};
ozonef3f4_iext(foo[20:19], foo[15:0], foobar);
dude(foobar);
$fwrite(fd, " 1273:%s", foobar);
end
5'b010??,
5'b0110?:
begin
ozoneae(foo[18:16], foobar);
if (foo[19])
foobar = {foobar, " 1274"};
else
foobar = {foobar, " 1275"};
ozonef3f4imop(foo[23:19], foobar);
foobar = {foobar, " 1276"};
ozonef3f4_iext(foo[20:19], foo[15:0], foobar);
dude(foobar);
$fwrite(fd, " 1277:%s", foobar);
end
endcase
17'b00_1000_?_????_11_0011 :
begin
foobar = " 1278";
ozonecon(foo[14:10], foobar);
foobar = {foobar, " 1279"};
casez (foo[25:21])
5'b0_1110,
5'b1_0???,
5'b1_1111:
begin
$fwrite(fd, " 1280");
end
5'b0_00??:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar, " 1281"};
ozoneae(foo[17:15], foobar);
ozonebmuop(foo[25:21], foobar);
ozoneae(foo[ 8: 6], foobar);
foobar = {foobar, " 1282"};
dude(foobar);
$fwrite(fd, " 1283:%s", foobar);
end
5'b0_01??:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar, " 1284"};
ozoneae(foo[17:15], foobar);
ozonebmuop(foo[25:21], foobar);
ozonearm(foo[ 8: 6], foobar);
dude(foobar);
$fwrite(fd, " 1285:%s", foobar);
end
5'b0_1011:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar, " 1286"};
ozonebmuop(foo[25:21], foobar);
foobar = {foobar, " 1287"};
ozoneae(foo[ 8: 6], foobar);
foobar = {foobar, " 1288"};
dude(foobar);
$fwrite(fd, " 1289:%s", foobar);
end
5'b0_100?,
5'b0_1010,
5'b0_110? :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar, " 1290"};
ozonebmuop(foo[25:21], foobar);
foobar = {foobar, " 1291"};
ozoneae(foo[17:15], foobar);
foobar = {foobar, " 1292"};
ozoneae(foo[ 8: 6], foobar);
foobar = {foobar, " 1293"};
dude(foobar);
$fwrite(fd, " 1294:%s", foobar);
end
5'b0_1111 :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar, " 1295"};
ozoneae(foo[17:15], foobar);
foobar = {foobar, " 1296"};
ozoneae(foo[ 8: 6], foobar);
dude(foobar);
$fwrite(fd, " 1297:%s", foobar);
end
5'b1_10??,
5'b1_110?,
5'b1_1110 :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar, " 1298"};
ozonebmuop(foo[25:21], foobar);
foobar = {foobar, " 1299"};
ozoneae(foo[17:15], foobar);
foobar = {foobar, " 1300"};
ozonearm(foo[ 8: 6], foobar);
foobar = {foobar, " 1301"};
dude(foobar);
$fwrite(fd, " 1302:%s", foobar);
end
endcase
end
17'b00_0010_?_????_??_???? :
begin
$fwrite(fd, " 1304a:%x;%x", foobar, foo[25:20]);
ozonerab({1'b0, foo[25:20]}, foobar);
$fwrite(fd, " 1304b:%x", foobar);
foobar = {foobar, " 1303"};
$fwrite(fd, " 1304c:%x;%x", foobar, foo[19:16]);
skyway(foo[19:16], foobar);
$fwrite(fd, " 1304d:%x", foobar);
dude(foobar);
$fwrite(fd, " 1304e:%x", foobar);
$fwrite(fd, " 1304:%s", foobar);
end
17'b00_01??_?_????_??_???? :
begin
if (foo[27])
begin
foobar = {foobar, " 1305"};
if (foo[26])
foobar = {foobar, " 1306"};
else
foobar = {foobar, " 1307"};
skyway(foo[19:16], foobar);
foobar = {foobar, " 1308"};
ozonerab({1'b0, foo[25:20]}, foobar);
end
else
begin
ozonerab({1'b0, foo[25:20]}, foobar);
foobar = {foobar, " 1309"};
if (foo[26])
foobar = {foobar, " 1310"};
else
foobar = {foobar, " 1311"};
skyway(foo[19:16], foobar);
foobar = {foobar, " 1312"};
end
dude(foobar);
$fwrite(fd, " 1313:%s", foobar);
end
17'b01_000?_?_????_??_???? :
begin
if (foo[26])
begin
ozonerb(foo[25:20], foobar);
foobar = {foobar, " 1314"};
ozoneae(foo[18:16], foobar);
ozonehl(foo[19], foobar);
end
else
begin
ozoneae(foo[18:16], foobar);
ozonehl(foo[19], foobar);
foobar = {foobar, " 1315"};
ozonerb(foo[25:20], foobar);
end
dude(foobar);
$fwrite(fd, " 1316:%s", foobar);
end
17'b01_10??_?_????_??_???? :
begin
if (foo[27])
begin
ozonerab({1'b0, foo[25:20]}, foobar);
foobar = {foobar, " 1317"};
ozonerx(foo, foobar);
end
else
begin
ozonerx(foo, foobar);
foobar = {foobar, " 1318"};
ozonerab({1'b0, foo[25:20]}, foobar);
end
dude(foobar);
$fwrite(fd, " 1319:%s", foobar);
end
17'b11_101?_?_????_??_???? :
begin
ozonerab (foo[26:20], foobar);
foobar = {foobar, " 1320"};
skyway(foo[19:16], foobar);
skyway(foo[15:12], foobar);
skyway(foo[11: 8], foobar);
skyway(foo[ 7: 4], foobar);
skyway(foo[ 3: 0], foobar);
dude(foobar);
$fwrite(fd, " 1321:%s", foobar);
end
17'b11_0000_?_????_??_???? :
begin
casez (foo[25:23])
3'b00?:
begin
ozonerab(foo[22:16], foobar);
foobar = {foobar, " 1322"};
end
3'b01?:
begin
foobar = {foobar, " 1323"};
if (foo[22:16]>=7'h60)
foobar = {foobar, " 1324"};
else
ozonerab(foo[22:16], foobar);
end
3'b110:
foobar = {foobar, " 1325"};
3'b10?:
begin
foobar = {foobar, " 1326"};
if (foo[22:16]>=7'h60)
foobar = {foobar, " 1327"};
else
ozonerab(foo[22:16], foobar);
end
3'b111:
begin
foobar = {foobar, " 1328"};
ozonerab(foo[22:16], foobar);
foobar = {foobar, " 1329"};
end
endcase
dude(foobar);
$fwrite(fd, " 1330:%s", foobar);
end
17'b00_10??_?_????_?1_0000 :
begin
if (foo[27])
begin
foobar = {foobar, " 1331"};
ozonerp(foo[14:12], foobar);
foobar = {foobar, " 1332"};
skyway(foo[19:16], foobar);
skyway({foo[15],foo[11: 9]}, foobar);
skyway(foo[ 8: 5], foobar);
foobar = {foobar, " 1333"};
if (foo[26:20]>=7'h60)
foobar = {foobar, " 1334"};
else
ozonerab(foo[26:20], foobar);
end
else
begin
ozonerab(foo[26:20], foobar);
foobar = {foobar, " 1335"};
foobar = {foobar, " 1336"};
ozonerp(foo[14:12], foobar);
foobar = {foobar, " 1337"};
skyway(foo[19:16], foobar);
skyway({foo[15],foo[11: 9]}, foobar);
skyway(foo[ 8: 5], foobar);
foobar = {foobar, " 1338"};
end
dude(foobar);
$fwrite(fd, " 1339:%s", foobar);
end
17'b00_101?_1_0000_?1_0010 :
if (~|foo[11: 7])
begin
if (foo[ 6])
begin
foobar = {foobar, " 1340"};
ozonerp(foo[14:12], foobar);
foobar = {foobar, " 1341"};
ozonejk(foo[ 5], foobar);
foobar = {foobar, " 1342"};
if (foo[26:20]>=7'h60)
foobar = {foobar, " 1343"};
else
ozonerab(foo[26:20], foobar);
end
else
begin
ozonerab(foo[26:20], foobar);
foobar = {foobar, " 1344"};
foobar = {foobar, " 1345"};
ozonerp(foo[14:12], foobar);
foobar = {foobar, " 1346"};
ozonejk(foo[ 5], foobar);
foobar = {foobar, " 1347"};
end
dude(foobar);
$fwrite(fd, " 1348:%s", foobar);
end
else
$fwrite(fd, " 1349");
17'b00_100?_0_0011_?1_0101 :
if (~|foo[ 8: 7])
begin
if (foo[6])
begin
ozonerab(foo[26:20], foobar);
foobar = {foobar, " 1350"};
ozoneye(foo[14: 9],foo[ 5], foobar);
end
else
begin
ozoneye(foo[14: 9],foo[ 5], foobar);
foobar = {foobar, " 1351"};
if (foo[26:20]>=7'h60)
foobar = {foobar, " 1352"};
else
ozonerab(foo[26:20], foobar);
end
dude(foobar);
$fwrite(fd, " 1353:%s", foobar);
end
else
$fwrite(fd, " 1354");
17'b00_1001_0_0000_?1_0010 :
if (~|foo[25:20])
begin
ozoneye(foo[14: 9],1'b0, foobar);
foobar = {foobar, " 1355"};
ozonef1e_h(foo[11: 9],foobar);
foobar = {foobar, " 1356"};
ozonef1e_h(foo[ 7: 5],foobar);
foobar = {foobar, " 1357"};
ozonexe(foo[ 8: 5], foobar);
dude(foobar);
$fwrite(fd, " 1358:%s", foobar);
end
else
$fwrite(fd, " 1359");
17'b00_101?_0_????_?1_0010 :
if (~foo[13])
begin
if (foo[12])
begin
foobar = {foobar, " 1360"};
if (foo[26:20]>=7'h60)
foobar = {foobar, " 1361"};
else
ozonerab(foo[26:20], foobar);
foobar = {foobar, " 1362"};
foobar = {foobar, " 1363"};
skyway({1'b0,foo[18:16]}, foobar);
skyway({foo[15],foo[11: 9]}, foobar);
skyway(foo[ 8: 5], foobar);
dude(foobar);
$fwrite(fd, " 1364:%s", foobar);
end
else
begin
ozonerab(foo[26:20], foobar);
foobar = {foobar, " 1365"};
foobar = {foobar, " 1366"};
skyway({1'b0,foo[18:16]}, foobar);
skyway({foo[15],foo[11: 9]}, foobar);
skyway(foo[ 8: 5], foobar);
dude(foobar);
$fwrite(fd, " 1367:%s", foobar);
end
end
else
$fwrite(fd, " 1368");
17'b01_01??_?_????_??_???? :
begin
ozonerab({1'b0,foo[27:26],foo[19:16]}, foobar);
foobar = {foobar, " 1369"};
ozonerab({1'b0,foo[25:20]}, foobar);
dude(foobar);
$fwrite(fd, " 1370:%s", foobar);
end
17'b00_100?_?_???0_11_0101 :
if (~foo[6])
begin
foobar = " 1371";
ozonecon(foo[14:10], foobar);
foobar = {foobar, " 1372"};
ozonerab({foo[ 9: 7],foo[19:16]}, foobar);
foobar = {foobar, " 1373"};
ozonerab({foo[26:20]}, foobar);
dude(foobar);
$fwrite(fd, " 1374:%s", foobar);
end
else
$fwrite(fd, " 1375");
17'b00_1000_?_????_?1_0010 :
if (~|foo[25:24])
begin
ozonery(foo[23:20], foobar);
foobar = {foobar, " 1376"};
ozonerp(foo[14:12], foobar);
foobar = {foobar, " 1377"};
skyway(foo[19:16], foobar);
skyway({foo[15],foo[11: 9]}, foobar);
skyway(foo[ 8: 5], foobar);
dude(foobar);
$fwrite(fd, " 1378:%s", foobar);
end
else if ((foo[25:24] == 2'b10) & ~|foo[19:15] & ~|foo[11: 6])
begin
ozonery(foo[23:20], foobar);
foobar = {foobar, " 1379"};
ozonerp(foo[14:12], foobar);
foobar = {foobar, " 1380"};
ozonejk(foo[ 5], foobar);
dude(foobar);
$fwrite(fd, " 1381:%s", foobar);
end
else
$fwrite(fd, " 1382");
17'b11_01??_?_????_??_????,
17'b10_00??_?_????_??_???? :
if (foo[30])
$fwrite(fd, " 1383:%s", foo[27:16]);
else
$fwrite(fd, " 1384:%s", foo[27:16]);
17'b00_10??_?_????_01_1000 :
if (~foo[6])
begin
if (foo[7])
$fwrite(fd, " 1385:%s", foo[27: 8]);
else
$fwrite(fd, " 1386:%s", foo[27: 8]);
end
else
$fwrite(fd, " 1387");
17'b00_10??_?_????_11_1000 :
begin
foobar = " 1388";
ozonecon(foo[14:10], foobar);
foobar = {foobar, " 1389"};
if (foo[15])
foobar = {foobar, " 1390"};
else
foobar = {foobar, " 1391"};
skyway(foo[27:24], foobar);
skyway(foo[23:20], foobar);
skyway(foo[19:16], foobar);
skyway(foo[ 9: 6], foobar);
dude(foobar);
$fwrite(fd, " 1392:%s", foobar);
end
17'b11_0001_?_????_??_???? :
casez (foo[25:22])
4'b01?? :
begin
foobar = " 1393";
ozonecon(foo[20:16], foobar);
case (foo[23:21])
3'h0 : foobar = {foobar, " 1394"};
3'h1 : foobar = {foobar, " 1395"};
3'h2 : foobar = {foobar, " 1396"};
3'h3 : foobar = {foobar, " 1397"};
3'h4 : foobar = {foobar, " 1398"};
3'h5 : foobar = {foobar, " 1399"};
3'h6 : foobar = {foobar, " 1400"};
3'h7 : foobar = {foobar, " 1401"};
endcase
dude(foobar);
$fwrite(fd, " 1402:%s", foobar);
end
4'b0000 :
$fwrite(fd, " 1403:%s", foo[21:16]);
4'b0010 :
if (~|foo[21:16])
$fwrite(fd, " 1404");
4'b1010 :
if (~|foo[21:17])
begin
if (foo[16])
$fwrite(fd, " 1405");
else
$fwrite(fd, " 1406");
end
default :
$fwrite(fd, " 1407");
endcase
17'b01_11??_?_????_??_???? :
if (foo[27:23] === 5'h00)
$fwrite(fd, " 1408:%s", foo[22:16]);
else
$fwrite(fd, " 1409:%s", foo[22:16]);
default: $fwrite(fd, " 1410");
endcase
end
endtask
//(query-replace-regexp "\\([a-z0-9_]+\\) *( *\\([][a-z0-9_~': ]+\\) *, *\\([][a-z0-9'~: ]+\\) *, *\\([][a-z0-9'~: ]+\\) *);" "$c(\"\\1(\",\\2,\",\",\\3,\",\",\\4,\");\");" nil nil nil)
//(query-replace-regexp "\\([a-z0-9_]+\\) *( *\\([][a-z0-9_~': ]+\\) *, *\\([][a-z0-9'~: ]+\\) *);" "$c(\"\\1(\",\\2,\",\",\\3,\");\");" nil nil nil)
endmodule
|
module t_case_write1_tasks ();
// verilator lint_off WIDTH
// verilator lint_off CASEINCOMPLETE
parameter STRLEN = 78;
task ozonerab;
input [6:0] rab;
inout [STRLEN*8:1] foobar;
// verilator no_inline_task
begin
case (rab[6:0])
7'h00 : foobar = {foobar, " 0"};
7'h01 : foobar = {foobar, " 1"};
7'h02 : foobar = {foobar, " 2"};
7'h03 : foobar = {foobar, " 3"};
7'h04 : foobar = {foobar, " 4"};
7'h05 : foobar = {foobar, " 5"};
7'h06 : foobar = {foobar, " 6"};
7'h07 : foobar = {foobar, " 7"};
7'h08 : foobar = {foobar, " 8"};
7'h09 : foobar = {foobar, " 9"};
7'h0a : foobar = {foobar, " 10"};
7'h0b : foobar = {foobar, " 11"};
7'h0c : foobar = {foobar, " 12"};
7'h0d : foobar = {foobar, " 13"};
7'h0e : foobar = {foobar, " 14"};
7'h0f : foobar = {foobar, " 15"};
7'h10 : foobar = {foobar, " 16"};
7'h11 : foobar = {foobar, " 17"};
7'h12 : foobar = {foobar, " 18"};
7'h13 : foobar = {foobar, " 19"};
7'h14 : foobar = {foobar, " 20"};
7'h15 : foobar = {foobar, " 21"};
7'h16 : foobar = {foobar, " 22"};
7'h17 : foobar = {foobar, " 23"};
7'h18 : foobar = {foobar, " 24"};
7'h19 : foobar = {foobar, " 25"};
7'h1a : foobar = {foobar, " 26"};
7'h1b : foobar = {foobar, " 27"};
7'h1c : foobar = {foobar, " 28"};
7'h1d : foobar = {foobar, " 29"};
7'h1e : foobar = {foobar, " 30"};
7'h1f : foobar = {foobar, " 31"};
7'h20 : foobar = {foobar, " 32"};
7'h21 : foobar = {foobar, " 33"};
7'h22 : foobar = {foobar, " 34"};
7'h23 : foobar = {foobar, " 35"};
7'h24 : foobar = {foobar, " 36"};
7'h25 : foobar = {foobar, " 37"};
7'h26 : foobar = {foobar, " 38"};
7'h27 : foobar = {foobar, " 39"};
7'h28 : foobar = {foobar, " 40"};
7'h29 : foobar = {foobar, " 41"};
7'h2a : foobar = {foobar, " 42"};
7'h2b : foobar = {foobar, " 43"};
7'h2c : foobar = {foobar, " 44"};
7'h2d : foobar = {foobar, " 45"};
7'h2e : foobar = {foobar, " 46"};
7'h2f : foobar = {foobar, " 47"};
7'h30 : foobar = {foobar, " 48"};
7'h31 : foobar = {foobar, " 49"};
7'h32 : foobar = {foobar, " 50"};
7'h33 : foobar = {foobar, " 51"};
7'h34 : foobar = {foobar, " 52"};
7'h35 : foobar = {foobar, " 53"};
7'h36 : foobar = {foobar, " 54"};
7'h37 : foobar = {foobar, " 55"};
7'h38 : foobar = {foobar, " 56"};
7'h39 : foobar = {foobar, " 57"};
7'h3a : foobar = {foobar, " 58"};
7'h3b : foobar = {foobar, " 59"};
7'h3c : foobar = {foobar, " 60"};
7'h3d : foobar = {foobar, " 61"};
7'h3e : foobar = {foobar, " 62"};
7'h3f : foobar = {foobar, " 63"};
7'h40 : foobar = {foobar, " 64"};
7'h41 : foobar = {foobar, " 65"};
7'h42 : foobar = {foobar, " 66"};
7'h43 : foobar = {foobar, " 67"};
7'h44 : foobar = {foobar, " 68"};
7'h45 : foobar = {foobar, " 69"};
7'h46 : foobar = {foobar, " 70"};
7'h47 : foobar = {foobar, " 71"};
7'h48 : foobar = {foobar, " 72"};
7'h49 : foobar = {foobar, " 73"};
7'h4a : foobar = {foobar, " 74"};
7'h4b : foobar = {foobar, " 75"};
7'h4c : foobar = {foobar, " 76"};
7'h4d : foobar = {foobar, " 77"};
7'h4e : foobar = {foobar, " 78"};
7'h4f : foobar = {foobar, " 79"};
7'h50 : foobar = {foobar, " 80"};
7'h51 : foobar = {foobar, " 81"};
7'h52 : foobar = {foobar, " 82"};
7'h53 : foobar = {foobar, " 83"};
7'h54 : foobar = {foobar, " 84"};
7'h55 : foobar = {foobar, " 85"};
7'h56 : foobar = {foobar, " 86"};
7'h57 : foobar = {foobar, " 87"};
7'h58 : foobar = {foobar, " 88"};
7'h59 : foobar = {foobar, " 89"};
7'h5a : foobar = {foobar, " 90"};
7'h5b : foobar = {foobar, " 91"};
7'h5c : foobar = {foobar, " 92"};
7'h5d : foobar = {foobar, " 93"};
7'h5e : foobar = {foobar, " 94"};
7'h5f : foobar = {foobar, " 95"};
7'h60 : foobar = {foobar, " 96"};
7'h61 : foobar = {foobar, " 97"};
7'h62 : foobar = {foobar, " 98"};
7'h63 : foobar = {foobar, " 99"};
7'h64 : foobar = {foobar, " 100"};
7'h65 : foobar = {foobar, " 101"};
7'h66 : foobar = {foobar, " 102"};
7'h67 : foobar = {foobar, " 103"};
7'h68 : foobar = {foobar, " 104"};
7'h69 : foobar = {foobar, " 105"};
7'h6a : foobar = {foobar, " 106"};
7'h6b : foobar = {foobar, " 107"};
7'h6c : foobar = {foobar, " 108"};
7'h6d : foobar = {foobar, " 109"};
7'h6e : foobar = {foobar, " 110"};
7'h6f : foobar = {foobar, " 111"};
7'h70 : foobar = {foobar, " 112"};
7'h71 : foobar = {foobar, " 113"};
7'h72 : foobar = {foobar, " 114"};
7'h73 : foobar = {foobar, " 115"};
7'h74 : foobar = {foobar, " 116"};
7'h75 : foobar = {foobar, " 117"};
7'h76 : foobar = {foobar, " 118"};
7'h77 : foobar = {foobar, " 119"};
7'h78 : foobar = {foobar, " 120"};
7'h79 : foobar = {foobar, " 121"};
7'h7a : foobar = {foobar, " 122"};
7'h7b : foobar = {foobar, " 123"};
7'h7c : foobar = {foobar, " 124"};
7'h7d : foobar = {foobar, " 125"};
7'h7e : foobar = {foobar, " 126"};
7'h7f : foobar = {foobar, " 127"};
default:foobar = {foobar, " 128"};
endcase
end
endtask
task ozonerb;
input [5:0] rb;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (rb[5:0])
6'h10,
6'h17,
6'h1e,
6'h1f: foobar = {foobar, " 129"};
default: ozonerab({1'b1, rb}, foobar);
endcase
end
endtask
task ozonef3f4_iext;
input [1:0] foo;
input [15:0] im16;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (foo)
2'h0 :
begin
skyway({4{im16[15]}}, foobar);
skyway({4{im16[15]}}, foobar);
skyway(im16[15:12], foobar);
skyway(im16[11: 8], foobar);
skyway(im16[ 7: 4], foobar);
skyway(im16[ 3:0], foobar);
foobar = {foobar, " 130"};
end
2'h1 :
begin
foobar = {foobar, " 131"};
skyway(im16[15:12], foobar);
skyway(im16[11: 8], foobar);
skyway(im16[ 7: 4], foobar);
skyway(im16[ 3:0], foobar);
end
2'h2 :
begin
skyway({4{im16[15]}}, foobar);
skyway({4{im16[15]}}, foobar);
skyway(im16[15:12], foobar);
skyway(im16[11: 8], foobar);
skyway(im16[ 7: 4], foobar);
skyway(im16[ 3:0], foobar);
foobar = {foobar, " 132"};
end
2'h3 :
begin
foobar = {foobar, " 133"};
skyway(im16[15:12], foobar);
skyway(im16[11: 8], foobar);
skyway(im16[ 7: 4], foobar);
skyway(im16[ 3:0], foobar);
end
endcase
end
endtask
task skyway;
input [ 3:0] hex;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (hex)
4'h0 : foobar = {foobar, " 134"};
4'h1 : foobar = {foobar, " 135"};
4'h2 : foobar = {foobar, " 136"};
4'h3 : foobar = {foobar, " 137"};
4'h4 : foobar = {foobar, " 138"};
4'h5 : foobar = {foobar, " 139"};
4'h6 : foobar = {foobar, " 140"};
4'h7 : foobar = {foobar, " 141"};
4'h8 : foobar = {foobar, " 142"};
4'h9 : foobar = {foobar, " 143"};
4'ha : foobar = {foobar, " 144"};
4'hb : foobar = {foobar, " 145"};
4'hc : foobar = {foobar, " 146"};
4'hd : foobar = {foobar, " 147"};
4'he : foobar = {foobar, " 148"};
4'hf : foobar = {foobar, " 149"};
endcase
end
endtask
task ozonesr;
input [ 15:0] foo;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (foo[11: 9])
3'h0 : foobar = {foobar, " 158"};
3'h1 : foobar = {foobar, " 159"};
3'h2 : foobar = {foobar, " 160"};
3'h3 : foobar = {foobar, " 161"};
3'h4 : foobar = {foobar, " 162"};
3'h5 : foobar = {foobar, " 163"};
3'h6 : foobar = {foobar, " 164"};
3'h7 : foobar = {foobar, " 165"};
endcase
end
endtask
task ozonejk;
input k;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
if (k)
foobar = {foobar, " 166"};
else
foobar = {foobar, " 167"};
end
endtask
task ozoneae;
input [ 2:0] ae;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (ae)
3'b000 : foobar = {foobar, " 168"};
3'b001 : foobar = {foobar, " 169"};
3'b010 : foobar = {foobar, " 170"};
3'b011 : foobar = {foobar, " 171"};
3'b100 : foobar = {foobar, " 172"};
3'b101 : foobar = {foobar, " 173"};
3'b110 : foobar = {foobar, " 174"};
3'b111 : foobar = {foobar, " 175"};
endcase
end
endtask
task ozoneaee;
input [ 2:0] aee;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (aee)
3'b001,
3'b011,
3'b101,
3'b111 : foobar = {foobar, " 176"};
3'b000 : foobar = {foobar, " 177"};
3'b010 : foobar = {foobar, " 178"};
3'b100 : foobar = {foobar, " 179"};
3'b110 : foobar = {foobar, " 180"};
endcase
end
endtask
task ozoneape;
input [ 2:0] ape;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (ape)
3'b001,
3'b011,
3'b101,
3'b111 : foobar = {foobar, " 181"};
3'b000 : foobar = {foobar, " 182"};
3'b010 : foobar = {foobar, " 183"};
3'b100 : foobar = {foobar, " 184"};
3'b110 : foobar = {foobar, " 185"};
endcase
end
endtask
task ozonef1;
input [ 31:0] foo;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (foo[24:21])
4'h0 :
if (foo[26])
foobar = {foobar, " 186"};
else
foobar = {foobar, " 187"};
4'h1 :
case (foo[26:25])
2'b00 : foobar = {foobar, " 188"};
2'b01 : foobar = {foobar, " 189"};
2'b10 : foobar = {foobar, " 190"};
2'b11 : foobar = {foobar, " 191"};
endcase
4'h2 : foobar = {foobar, " 192"};
4'h3 :
case (foo[26:25])
2'b00 : foobar = {foobar, " 193"};
2'b01 : foobar = {foobar, " 194"};
2'b10 : foobar = {foobar, " 195"};
2'b11 : foobar = {foobar, " 196"};
endcase
4'h4 :
if (foo[26])
foobar = {foobar, " 197"};
else
foobar = {foobar, " 198"};
4'h5 :
case (foo[26:25])
2'b00 : foobar = {foobar, " 199"};
2'b01 : foobar = {foobar, " 200"};
2'b10 : foobar = {foobar, " 201"};
2'b11 : foobar = {foobar, " 202"};
endcase
4'h6 : foobar = {foobar, " 203"};
4'h7 :
case (foo[26:25])
2'b00 : foobar = {foobar, " 204"};
2'b01 : foobar = {foobar, " 205"};
2'b10 : foobar = {foobar, " 206"};
2'b11 : foobar = {foobar, " 207"};
endcase
4'h8 :
case (foo[26:25])
2'b00 : foobar = {foobar, " 208"};
2'b01 : foobar = {foobar, " 209"};
2'b10 : foobar = {foobar, " 210"};
2'b11 : foobar = {foobar, " 211"};
endcase
4'h9 :
case (foo[26:25])
2'b00 : foobar = {foobar, " 212"};
2'b01 : foobar = {foobar, " 213"};
2'b10 : foobar = {foobar, " 214"};
2'b11 : foobar = {foobar, " 215"};
endcase
4'ha :
if (foo[25])
foobar = {foobar, " 216"};
else
foobar = {foobar, " 217"};
4'hb :
if (foo[25])
foobar = {foobar, " 218"};
else
foobar = {foobar, " 219"};
4'hc :
if (foo[26])
foobar = {foobar, " 220"};
else
foobar = {foobar, " 221"};
4'hd :
case (foo[26:25])
2'b00 : foobar = {foobar, " 222"};
2'b01 : foobar = {foobar, " 223"};
2'b10 : foobar = {foobar, " 224"};
2'b11 : foobar = {foobar, " 225"};
endcase
4'he :
case (foo[26:25])
2'b00 : foobar = {foobar, " 226"};
2'b01 : foobar = {foobar, " 227"};
2'b10 : foobar = {foobar, " 228"};
2'b11 : foobar = {foobar, " 229"};
endcase
4'hf :
case (foo[26:25])
2'b00 : foobar = {foobar, " 230"};
2'b01 : foobar = {foobar, " 231"};
2'b10 : foobar = {foobar, " 232"};
2'b11 : foobar = {foobar, " 233"};
endcase
endcase
end
endtask
task ozonef1e;
input [ 31:0] foo;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (foo[27:21])
7'h00:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 234"};
foobar = {foobar, " 235"};
end
7'h01:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 236"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 237"};
foobar = {foobar, " 238"};
end
7'h02:
foobar = {foobar, " 239"};
7'h03:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 240"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 241"};
foobar = {foobar, " 242"};
end
7'h04:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 243"};
foobar = {foobar," 244"};
end
7'h05:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 245"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 246"};
end
7'h06:
foobar = {foobar, " 247"};
7'h07:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 248"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 249"};
end
7'h08:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 250"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 251"};
end
7'h09:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 252"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 253"};
end
7'h0a:
begin
ozoneae(foo[17:15], foobar);
foobar = {foobar," 254"};
end
7'h0b:
begin
ozoneae(foo[17:15], foobar);
foobar = {foobar," 255"};
end
7'h0c:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 256"};
end
7'h0d:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 257"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 258"};
end
7'h0e:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 259"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 260"};
end
7'h0f:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 261"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 262"};
end
7'h10:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 263"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 264"};
foobar = {foobar, " 265"};
foobar = {foobar, " 266"};
end
7'h11:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 267"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 268"};
foobar = {foobar, " 269"};
foobar = {foobar, " 270"};
end
7'h12:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 271"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 272"};
foobar = {foobar, " 273"};
foobar = {foobar, " 274"};
end
7'h13:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 275"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 276"};
foobar = {foobar, " 277"};
foobar = {foobar, " 278"};
end
7'h14:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 279"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 280"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 281"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 282"};
foobar = {foobar, " 283"};
foobar = {foobar, " 284"};
end
7'h15:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 285"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 286"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 287"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 288"};
foobar = {foobar, " 289"};
foobar = {foobar, " 290"};
end
7'h16:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 291"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 292"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 293"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 294"};
foobar = {foobar, " 295"};
foobar = {foobar, " 296"};
end
7'h17:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 297"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 298"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 299"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 300"};
foobar = {foobar, " 301"};
foobar = {foobar, " 302"};
end
7'h18:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 303"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 304"};
foobar = {foobar, " 305"};
foobar = {foobar, " 306"};
end
7'h19:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 307"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 308"};
foobar = {foobar, " 309"};
foobar = {foobar, " 310"};
end
7'h1a:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 311"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 312"};
foobar = {foobar, " 313"};
foobar = {foobar, " 314"};
end
7'h1b:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 315"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 316"};
foobar = {foobar, " 317"};
foobar = {foobar, " 318"};
end
7'h1c:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 319"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 320"};
foobar = {foobar, " 321"};
foobar = {foobar, " 322"};
end
7'h1d:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 323"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 324"};
foobar = {foobar, " 325"};
foobar = {foobar, " 326"};
end
7'h1e:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 327"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 328"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 329"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 330"};
foobar = {foobar, " 331"};
foobar = {foobar, " 332"};
end
7'h1f:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 333"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 334"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 335"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 336"};
foobar = {foobar, " 337"};
foobar = {foobar, " 338"};
end
7'h20:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 339"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 340"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 341"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 342"};
foobar = {foobar, " 343"};
foobar = {foobar, " 344"};
end
7'h21:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 345"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 346"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 347"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 348"};
foobar = {foobar, " 349"};
foobar = {foobar, " 350"};
end
7'h22:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 351"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 352"};
foobar = {foobar, " 353"};
foobar = {foobar, " 354"};
end
7'h23:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 355"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 356"};
foobar = {foobar, " 357"};
foobar = {foobar, " 358"};
end
7'h24:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 359"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 360"};
foobar = {foobar, " 361"};
foobar = {foobar, " 362"};
end
7'h25:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 363"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 364"};
foobar = {foobar, " 365"};
foobar = {foobar, " 366"};
end
7'h26:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 367"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 368"};
foobar = {foobar, " 369"};
foobar = {foobar, " 370"};
end
7'h27:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 371"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 372"};
foobar = {foobar, " 373"};
foobar = {foobar, " 374"};
end
7'h28:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 375"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 376"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 377"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 378"};
foobar = {foobar, " 379"};
foobar = {foobar, " 380"};
end
7'h29:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 381"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 382"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 383"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 384"};
foobar = {foobar, " 385"};
foobar = {foobar, " 386"};
end
7'h2a:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 387"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 388"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 389"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 390"};
foobar = {foobar, " 391"};
foobar = {foobar, " 392"};
end
7'h2b:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 393"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 394"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 395"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 396"};
foobar = {foobar, " 397"};
foobar = {foobar, " 398"};
end
7'h2c:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 399"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 400"};
foobar = {foobar, " 401"};
foobar = {foobar, " 402"};
end
7'h2d:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 403"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 404"};
foobar = {foobar, " 405"};
foobar = {foobar, " 406"};
end
7'h2e:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 407"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 408"};
foobar = {foobar, " 409"};
foobar = {foobar, " 410"};
end
7'h2f:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 411"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 412"};
foobar = {foobar, " 413"};
foobar = {foobar, " 414"};
end
7'h30:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 415"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 416"};
foobar = {foobar, " 417"};
foobar = {foobar, " 418"};
end
7'h31:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 419"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 420"};
foobar = {foobar, " 421"};
foobar = {foobar, " 422"};
end
7'h32:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 423"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 424"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 425"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 426"};
foobar = {foobar, " 427"};
foobar = {foobar, " 428"};
end
7'h33:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 429"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 430"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 431"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 432"};
foobar = {foobar, " 433"};
foobar = {foobar, " 434"};
end
7'h34:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 435"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 436"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 437"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 438"};
foobar = {foobar, " 439"};
foobar = {foobar, " 440"};
end
7'h35:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 441"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 442"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 443"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 444"};
foobar = {foobar, " 445"};
foobar = {foobar, " 446"};
end
7'h36:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 447"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 448"};
foobar = {foobar, " 449"};
foobar = {foobar, " 450"};
end
7'h37:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 451"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 452"};
foobar = {foobar, " 453"};
foobar = {foobar, " 454"};
end
7'h38:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 455"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 456"};
foobar = {foobar, " 457"};
end
7'h39:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 458"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 459"};
foobar = {foobar, " 460"};
end
7'h3a:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 461"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 462"};
foobar = {foobar, " 463"};
end
7'h3b:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 464"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 465"};
foobar = {foobar, " 466"};
end
7'h3c:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 467"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 468"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 469"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 470"};
foobar = {foobar, " 471"};
end
7'h3d:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 472"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 473"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 474"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 475"};
foobar = {foobar, " 476"};
end
7'h3e:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 477"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 478"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 479"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 480"};
foobar = {foobar, " 481"};
end
7'h3f:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 482"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 483"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 484"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 485"};
foobar = {foobar, " 486"};
end
7'h40:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 487"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 488"};
foobar = {foobar, " 489"};
foobar = {foobar, " 490"};
end
7'h41:
begin
foobar = {foobar, " 491"};
foobar = {foobar, " 492"};
end
7'h42:
begin
foobar = {foobar, " 493"};
foobar = {foobar, " 494"};
end
7'h43:
begin
foobar = {foobar, " 495"};
foobar = {foobar, " 496"};
end
7'h44:
begin
foobar = {foobar, " 497"};
foobar = {foobar, " 498"};
end
7'h45:
foobar = {foobar, " 499"};
7'h46:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 500"};
foobar = {foobar, " 501"};
foobar = {foobar, " 502"};
end
7'h47:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 503"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 504"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 505"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 506"};
foobar = {foobar, " 507"};
foobar = {foobar, " 508"};
end
7'h48:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 509"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 510"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 511"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 512"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 513"};
end
7'h49:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 514"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 515"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 516"};
end
7'h4a:
foobar = {foobar," 517"};
7'h4b:
foobar = {foobar, " 518"};
7'h4c:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 519"};
foobar = {foobar, " 520"};
foobar = {foobar, " 521"};
end
7'h4d:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 522"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 523"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 524"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 525"};
foobar = {foobar, " 526"};
foobar = {foobar, " 527"};
end
7'h4e:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 528"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 529"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 530"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 531"};
end
7'h4f:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 532"};
end
7'h50:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 533"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 534"};
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 535"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 536"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 537"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 538"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 539"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 540"};
end
7'h51:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 541"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 542"};
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 543"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 544"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 545"};
end
7'h52:
foobar = {foobar, " 546"};
7'h53:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar, " 547"};
end
7'h54:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 548"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 549"};
end
7'h55:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 550"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 551"};
end
7'h56:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 552"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 553"};
foobar = {foobar, " 554"};
end
7'h57:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 555"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 556"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 557"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 558"};
end
7'h58:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar, " 559"};
end
7'h59:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 560"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 561"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 562"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 563"};
end
7'h5a:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 564"};
ozoneae(foo[17:15], foobar);
foobar = {foobar, " 565"};
end
7'h5b:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 566"};
ozoneae(foo[17:15], foobar);
foobar = {foobar, " 567"};
end
7'h5c:
begin
foobar = {foobar," 568"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 569"};
foobar = {foobar," 570"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 571"};
ozoneae(foo[20:18], foobar);
foobar = {foobar," 572"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar, " 573"};
end
7'h5d:
begin
foobar = {foobar," 574"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 575"};
foobar = {foobar," 576"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 577"};
ozoneae(foo[20:18], foobar);
foobar = {foobar," 578"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar, " 579"};
end
7'h5e:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 580"};
ozoneae(foo[17:15], foobar);
foobar = {foobar, " 581"};
end
7'h5f:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 582"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 583"};
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 584"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 585"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 586"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 587"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 588"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 589"};
end
7'h60:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 590"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 591"};
end
7'h61:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 592"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 593"};
end
7'h62:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 594"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 595"};
end
7'h63:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 596"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 597"};
end
7'h64:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 598"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 599"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 600"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 601"};
end
7'h65:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 602"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 603"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 604"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 605"};
end
7'h66:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 606"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 607"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 608"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 609"};
end
7'h67:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 610"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 611"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 612"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 613"};
end
7'h68:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 614"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 615"};
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 616"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 617"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 618"};
ozoneape(foo[17:15], foobar);
end
7'h69:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 619"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 620"};
ozoneae(foo[20:18], foobar);
foobar = {foobar," 621"};
end
7'h6a:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 622"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 623"};
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 624"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 625"};
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 626"};
ozoneae(foo[17:15], foobar);
end
7'h6b:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 627"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 628"};
ozoneae(foo[20:18], foobar);
foobar = {foobar," 629"};
end
7'h6c:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 630"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 631"};
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 632"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 633"};
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 634"};
ozoneae(foo[17:15], foobar);
end
7'h6d:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 635"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 636"};
ozoneae(foo[20:18], foobar);
foobar = {foobar," 637"};
end
7'h6e:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 638"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 639"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 640"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 641"};
end
7'h6f:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 642"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 643"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 644"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 645"};
end
7'h70:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 646"};
ozoneae(foo[20:18], foobar);
foobar = {foobar," 647"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 648"};
ozoneae(foo[17:15], foobar);
foobar = {foobar, " 649"};
end
7'h71:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 650"};
ozoneae(foo[17:15], foobar);
foobar = {foobar, " 651"};
end
7'h72:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 652"};
ozoneae(foo[17:15], foobar);
foobar = {foobar, " 653"};
end
7'h73:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 654"};
ozoneae(foo[20:18], foobar);
foobar = {foobar," 655"};
ozoneae(foo[17:15], foobar);
end
7'h74:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 656"};
ozoneae(foo[20:18], foobar);
foobar = {foobar," 657"};
ozoneae(foo[17:15], foobar);
end
7'h75:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 658"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 659"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 660"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 661"};
foobar = {foobar, " 662"};
foobar = {foobar, " 663"};
end
7'h76:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 664"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 665"};
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 666"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 667"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 668"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 669"};
end
7'h77:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 670"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 671"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 672"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 673"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 674"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 675"};
end
7'h78,
7'h79,
7'h7a,
7'h7b,
7'h7c,
7'h7d,
7'h7e,
7'h7f:
foobar = {foobar," 676"};
endcase
end
endtask
task ozonef2;
input [ 31:0] foo;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (foo[24:21])
4'h0 :
case (foo[26:25])
2'b00 : foobar = {foobar," 677"};
2'b01 : foobar = {foobar," 678"};
2'b10 : foobar = {foobar," 679"};
2'b11 : foobar = {foobar," 680"};
endcase
4'h1 :
case (foo[26:25])
2'b00 : foobar = {foobar," 681"};
2'b01 : foobar = {foobar," 682"};
2'b10 : foobar = {foobar," 683"};
2'b11 : foobar = {foobar," 684"};
endcase
4'h2 :
case (foo[26:25])
2'b00 : foobar = {foobar," 685"};
2'b01 : foobar = {foobar," 686"};
2'b10 : foobar = {foobar," 687"};
2'b11 : foobar = {foobar," 688"};
endcase
4'h3 :
case (foo[26:25])
2'b00 : foobar = {foobar," 689"};
2'b01 : foobar = {foobar," 690"};
2'b10 : foobar = {foobar," 691"};
2'b11 : foobar = {foobar," 692"};
endcase
4'h4 :
case (foo[26:25])
2'b00 : foobar = {foobar," 693"};
2'b01 : foobar = {foobar," 694"};
2'b10 : foobar = {foobar," 695"};
2'b11 : foobar = {foobar," 696"};
endcase
4'h5 :
case (foo[26:25])
2'b00 : foobar = {foobar," 697"};
2'b01 : foobar = {foobar," 698"};
2'b10 : foobar = {foobar," 699"};
2'b11 : foobar = {foobar," 700"};
endcase
4'h6 :
case (foo[26:25])
2'b00 : foobar = {foobar," 701"};
2'b01 : foobar = {foobar," 702"};
2'b10 : foobar = {foobar," 703"};
2'b11 : foobar = {foobar," 704"};
endcase
4'h7 :
case (foo[26:25])
2'b00 : foobar = {foobar," 705"};
2'b01 : foobar = {foobar," 706"};
2'b10 : foobar = {foobar," 707"};
2'b11 : foobar = {foobar," 708"};
endcase
4'h8 :
if (foo[26])
foobar = {foobar," 709"};
else
foobar = {foobar," 710"};
4'h9 :
case (foo[26:25])
2'b00 : foobar = {foobar," 711"};
2'b01 : foobar = {foobar," 712"};
2'b10 : foobar = {foobar," 713"};
2'b11 : foobar = {foobar," 714"};
endcase
4'ha :
case (foo[26:25])
2'b00 : foobar = {foobar," 715"};
2'b01 : foobar = {foobar," 716"};
2'b10 : foobar = {foobar," 717"};
2'b11 : foobar = {foobar," 718"};
endcase
4'hb :
case (foo[26:25])
2'b00 : foobar = {foobar," 719"};
2'b01 : foobar = {foobar," 720"};
2'b10 : foobar = {foobar," 721"};
2'b11 : foobar = {foobar," 722"};
endcase
4'hc :
if (foo[26])
foobar = {foobar," 723"};
else
foobar = {foobar," 724"};
4'hd :
case (foo[26:25])
2'b00 : foobar = {foobar," 725"};
2'b01 : foobar = {foobar," 726"};
2'b10 : foobar = {foobar," 727"};
2'b11 : foobar = {foobar," 728"};
endcase
4'he :
case (foo[26:25])
2'b00 : foobar = {foobar," 729"};
2'b01 : foobar = {foobar," 730"};
2'b10 : foobar = {foobar," 731"};
2'b11 : foobar = {foobar," 732"};
endcase
4'hf :
case (foo[26:25])
2'b00 : foobar = {foobar," 733"};
2'b01 : foobar = {foobar," 734"};
2'b10 : foobar = {foobar," 735"};
2'b11 : foobar = {foobar," 736"};
endcase
endcase
end
endtask
task ozonef2e;
input [ 31:0] foo;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
casez (foo[25:21])
5'h00 :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 737"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 738"};
end
5'h01 :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 739"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 740"};
end
5'h02 :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 741"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 742"};
end
5'h03 :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 743"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 744"};
end
5'h04 :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 745"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 746"};
end
5'h05 :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 747"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 748"};
end
5'h06 :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 749"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 750"};
end
5'h07 :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 751"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 752"};
end
5'h08 :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 753"};
if (foo[ 6])
foobar = {foobar," 754"};
else
foobar = {foobar," 755"};
end
5'h09 :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 756"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 757"};
end
5'h0a :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 758"};
ozoneae(foo[17:15], foobar);
end
5'h0b :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 759"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 760"};
end
5'h0c :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 761"};
end
5'h0d :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 762"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 763"};
end
5'h0e :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 764"};
ozoneae(foo[17:15], foobar);
end
5'h0f :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 765"};
ozoneae(foo[17:15], foobar);
end
5'h10 :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 766"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 767"};
end
5'h11 :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 768"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 769"};
end
5'h18 :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 770"};
if (foo[ 6])
foobar = {foobar," 771"};
else
foobar = {foobar," 772"};
end
5'h1a :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 773"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 774"};
end
5'h1b :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 775"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 776"};
if (foo[ 6])
foobar = {foobar," 777"};
else
foobar = {foobar," 778"};
foobar = {foobar," 779"};
end
5'h1c :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 780"};
end
5'h1d :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 781"};
if (foo[ 6])
foobar = {foobar," 782"};
else
foobar = {foobar," 783"};
foobar = {foobar," 784"};
end
5'h1e :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 785"};
if (foo[ 6])
foobar = {foobar," 786"};
else
foobar = {foobar," 787"};
foobar = {foobar," 788"};
end
5'h1f :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 789"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 790"};
if (foo[ 6])
foobar = {foobar," 791"};
else
foobar = {foobar," 792"};
foobar = {foobar," 793"};
end
default :
foobar = {foobar," 794"};
endcase
end
endtask
task ozonef3e;
input [ 31:0] foo;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (foo[25:21])
5'h00,
5'h01,
5'h02:
begin
ozoneae(foo[20:18], foobar);
case (foo[22:21])
2'h0: foobar = {foobar," 795"};
2'h1: foobar = {foobar," 796"};
2'h2: foobar = {foobar," 797"};
endcase
ozoneae(foo[17:15], foobar);
foobar = {foobar," 798"};
if (foo[ 9])
ozoneae(foo[ 8: 6], foobar);
else
ozonef3e_te(foo[ 8: 6], foobar);
foobar = {foobar," 799"};
end
5'h08,
5'h09,
5'h0d,
5'h0e,
5'h0f:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 800"};
ozoneae(foo[17:15], foobar);
case (foo[23:21])
3'h0: foobar = {foobar," 801"};
3'h1: foobar = {foobar," 802"};
3'h5: foobar = {foobar," 803"};
3'h6: foobar = {foobar," 804"};
3'h7: foobar = {foobar," 805"};
endcase
if (foo[ 9])
ozoneae(foo[ 8: 6], foobar);
else
ozonef3e_te(foo[ 8: 6], foobar);
end
5'h0a,
5'h0b:
begin
ozoneae(foo[17:15], foobar);
if (foo[21])
foobar = {foobar," 806"};
else
foobar = {foobar," 807"};
if (foo[ 9])
ozoneae(foo[ 8: 6], foobar);
else
ozonef3e_te(foo[ 8: 6], foobar);
end
5'h0c:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 808"};
if (foo[ 9])
ozoneae(foo[ 8: 6], foobar);
else
ozonef3e_te(foo[ 8: 6], foobar);
foobar = {foobar," 809"};
ozoneae(foo[17:15], foobar);
end
5'h10,
5'h11,
5'h12,
5'h13:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 810"};
ozoneae(foo[17:15], foobar);
case (foo[22:21])
2'h0,
2'h2:
foobar = {foobar," 811"};
2'h1,
2'h3:
foobar = {foobar," 812"};
endcase
ozoneae(foo[ 8: 6], foobar);
foobar = {foobar," 813"};
ozoneae((foo[20:18]+1), foobar);
foobar = {foobar," 814"};
ozoneae((foo[17:15]+1), foobar);
case (foo[22:21])
2'h0,
2'h3:
foobar = {foobar," 815"};
2'h1,
2'h2:
foobar = {foobar," 816"};
endcase
ozoneae((foo[ 8: 6]+1), foobar);
end
5'h18:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 817"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 818"};
ozoneae(foo[ 8: 6], foobar);
foobar = {foobar," 819"};
ozoneae(foo[20:18], foobar);
foobar = {foobar," 820"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 821"};
ozoneae(foo[ 8: 6], foobar);
end
default :
foobar = {foobar," 822"};
endcase
end
endtask
task ozonef3e_te;
input [ 2:0] te;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (te)
3'b100 : foobar = {foobar, " 823"};
3'b101 : foobar = {foobar, " 824"};
3'b110 : foobar = {foobar, " 825"};
default: foobar = {foobar, " 826"};
endcase
end
endtask
task ozonearm;
input [ 2:0] ate;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (ate)
3'b000 : foobar = {foobar, " 827"};
3'b001 : foobar = {foobar, " 828"};
3'b010 : foobar = {foobar, " 829"};
3'b011 : foobar = {foobar, " 830"};
3'b100 : foobar = {foobar, " 831"};
3'b101 : foobar = {foobar, " 832"};
3'b110 : foobar = {foobar, " 833"};
3'b111 : foobar = {foobar, " 834"};
endcase
end
endtask
task ozonebmuop;
input [ 4:0] f4;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (f4[ 4:0])
5'h00,
5'h04 :
foobar = {foobar, " 835"};
5'h01,
5'h05 :
foobar = {foobar, " 836"};
5'h02,
5'h06 :
foobar = {foobar, " 837"};
5'h03,
5'h07 :
foobar = {foobar, " 838"};
5'h08,
5'h18 :
foobar = {foobar, " 839"};
5'h09,
5'h19 :
foobar = {foobar, " 840"};
5'h0a,
5'h1a :
foobar = {foobar, " 841"};
5'h0b :
foobar = {foobar, " 842"};
5'h1b :
foobar = {foobar, " 843"};
5'h0c,
5'h1c :
foobar = {foobar, " 844"};
5'h0d,
5'h1d :
foobar = {foobar, " 845"};
5'h1e :
foobar = {foobar, " 846"};
endcase
end
endtask
task ozonef3;
input [ 31:0] foo;
inout [STRLEN*8: 1] foobar;
reg nacho;
// verilator no_inline_task
begin : f3_body
nacho = 1'b0;
case (foo[24:21])
4'h0:
case (foo[26:25])
2'b00 : foobar = {foobar, " 847"};
2'b01 : foobar = {foobar, " 848"};
2'b10 : foobar = {foobar, " 849"};
2'b11 : foobar = {foobar, " 850"};
endcase
4'h1:
case (foo[26:25])
2'b00 : foobar = {foobar, " 851"};
2'b01 : foobar = {foobar, " 852"};
2'b10 : foobar = {foobar, " 853"};
2'b11 : foobar = {foobar, " 854"};
endcase
4'h2:
case (foo[26:25])
2'b00 : foobar = {foobar, " 855"};
2'b01 : foobar = {foobar, " 856"};
2'b10 : foobar = {foobar, " 857"};
2'b11 : foobar = {foobar, " 858"};
endcase
4'h8,
4'h9,
4'hd,
4'he,
4'hf :
case (foo[26:25])
2'b00 : foobar = {foobar, " 859"};
2'b01 : foobar = {foobar, " 860"};
2'b10 : foobar = {foobar, " 861"};
2'b11 : foobar = {foobar, " 862"};
endcase
4'ha,
4'hb :
if (foo[25])
foobar = {foobar, " 863"};
else
foobar = {foobar, " 864"};
4'hc :
if (foo[26])
foobar = {foobar, " 865"};
else
foobar = {foobar, " 866"};
default :
begin
foobar = {foobar, " 867"};
nacho = 1'b1;
end
endcase
if (~nacho)
begin
case (foo[24:21])
4'h8 :
foobar = {foobar, " 868"};
4'h9 :
foobar = {foobar, " 869"};
4'ha,
4'he :
foobar = {foobar, " 870"};
4'hb,
4'hf :
foobar = {foobar, " 871"};
4'hd :
foobar = {foobar, " 872"};
endcase
if (foo[20])
case (foo[18:16])
3'b000 : foobar = {foobar, " 873"};
3'b100 : foobar = {foobar, " 874"};
default: foobar = {foobar, " 875"};
endcase
else
ozoneae(foo[18:16], foobar);
if (foo[24:21] === 4'hc)
if (foo[25])
foobar = {foobar, " 876"};
else
foobar = {foobar, " 877"};
case (foo[24:21])
4'h0,
4'h1,
4'h2:
foobar = {foobar, " 878"};
endcase
end
end
endtask
task ozonerx;
input [ 31:0] foo;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (foo[19:18])
2'h0 : foobar = {foobar, " 879"};
2'h1 : foobar = {foobar, " 880"};
2'h2 : foobar = {foobar, " 881"};
2'h3 : foobar = {foobar, " 882"};
endcase
case (foo[17:16])
2'h1 : foobar = {foobar, " 883"};
2'h2 : foobar = {foobar, " 884"};
2'h3 : foobar = {foobar, " 885"};
endcase
end
endtask
task ozonerme;
input [ 2:0] rme;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (rme)
3'h0 : foobar = {foobar, " 886"};
3'h1 : foobar = {foobar, " 887"};
3'h2 : foobar = {foobar, " 888"};
3'h3 : foobar = {foobar, " 889"};
3'h4 : foobar = {foobar, " 890"};
3'h5 : foobar = {foobar, " 891"};
3'h6 : foobar = {foobar, " 892"};
3'h7 : foobar = {foobar, " 893"};
endcase
end
endtask
task ozoneye;
input [5:0] ye;
input l;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
foobar = {foobar, " 894"};
ozonerme(ye[5:3],foobar);
case ({ye[ 2:0], l})
4'h2,
4'ha: foobar = {foobar, " 895"};
4'h4,
4'hb: foobar = {foobar, " 896"};
4'h6,
4'he: foobar = {foobar, " 897"};
4'h8,
4'hc: foobar = {foobar, " 898"};
endcase
end
endtask
task ozonef1e_ye;
input [5:0] ye;
input l;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
foobar = {foobar, " 899"};
ozonerme(ye[5:3],foobar);
ozonef1e_inc_dec(ye[5:0], l ,foobar);
end
endtask
task ozonef1e_h;
input [ 2:0] e;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
if (e[ 2:0] <= 3'h4)
foobar = {foobar, " 900"};
end
endtask
task ozonef1e_inc_dec;
input [5:0] ye;
input l;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case ({ye[ 2:0], l})
4'h2,
4'h3,
4'ha: foobar = {foobar, " 901"};
4'h4,
4'h5,
4'hb: foobar = {foobar, " 902"};
4'h6,
4'h7,
4'he: foobar = {foobar, " 903"};
4'h8,
4'h9,
4'hc: foobar = {foobar, " 904"};
4'hf: foobar = {foobar, " 905"};
endcase
end
endtask
task ozonef1e_hl;
input [ 2:0] e;
input l;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case ({e[ 2:0], l})
4'h0,
4'h2,
4'h4,
4'h6,
4'h8: foobar = {foobar, " 906"};
4'h1,
4'h3,
4'h5,
4'h7,
4'h9: foobar = {foobar, " 907"};
endcase
end
endtask
task ozonexe;
input [ 3:0] xe;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (xe[3])
1'b0 : foobar = {foobar, " 908"};
1'b1 : foobar = {foobar, " 909"};
endcase
case (xe[ 2:0])
3'h1,
3'h5: foobar = {foobar, " 910"};
3'h2,
3'h6: foobar = {foobar, " 911"};
3'h3,
3'h7: foobar = {foobar, " 912"};
3'h4: foobar = {foobar, " 913"};
endcase
end
endtask
task ozonerp;
input [ 2:0] rp;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (rp)
3'h0 : foobar = {foobar, " 914"};
3'h1 : foobar = {foobar, " 915"};
3'h2 : foobar = {foobar, " 916"};
3'h3 : foobar = {foobar, " 917"};
3'h4 : foobar = {foobar, " 918"};
3'h5 : foobar = {foobar, " 919"};
3'h6 : foobar = {foobar, " 920"};
3'h7 : foobar = {foobar, " 921"};
endcase
end
endtask
task ozonery;
input [ 3:0] ry;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (ry)
4'h0 : foobar = {foobar, " 922"};
4'h1 : foobar = {foobar, " 923"};
4'h2 : foobar = {foobar, " 924"};
4'h3 : foobar = {foobar, " 925"};
4'h4 : foobar = {foobar, " 926"};
4'h5 : foobar = {foobar, " 927"};
4'h6 : foobar = {foobar, " 928"};
4'h7 : foobar = {foobar, " 929"};
4'h8 : foobar = {foobar, " 930"};
4'h9 : foobar = {foobar, " 931"};
4'ha : foobar = {foobar, " 932"};
4'hb : foobar = {foobar, " 933"};
4'hc : foobar = {foobar, " 934"};
4'hd : foobar = {foobar, " 935"};
4'he : foobar = {foobar, " 936"};
4'hf : foobar = {foobar, " 937"};
endcase
end
endtask
task ozonearx;
input [ 15:0] foo;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (foo[1:0])
2'h0 : foobar = {foobar, " 938"};
2'h1 : foobar = {foobar, " 939"};
2'h2 : foobar = {foobar, " 940"};
2'h3 : foobar = {foobar, " 941"};
endcase
end
endtask
task ozonef3f4imop;
input [ 4:0] f3f4iml;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
casez (f3f4iml)
5'b000??: foobar = {foobar, " 942"};
5'b001??: foobar = {foobar, " 943"};
5'b?10??: foobar = {foobar, " 944"};
5'b0110?: foobar = {foobar, " 945"};
5'b01110: foobar = {foobar, " 946"};
5'b01111: foobar = {foobar, " 947"};
5'b10???: foobar = {foobar, " 948"};
5'b11100: foobar = {foobar, " 949"};
5'b11101: foobar = {foobar, " 950"};
5'b11110: foobar = {foobar, " 951"};
5'b11111: foobar = {foobar, " 952"};
endcase
end
endtask
task ozonecon;
input [ 4:0] con;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (con)
5'h00 : foobar = {foobar, " 953"};
5'h01 : foobar = {foobar, " 954"};
5'h02 : foobar = {foobar, " 955"};
5'h03 : foobar = {foobar, " 956"};
5'h04 : foobar = {foobar, " 957"};
5'h05 : foobar = {foobar, " 958"};
5'h06 : foobar = {foobar, " 959"};
5'h07 : foobar = {foobar, " 960"};
5'h08 : foobar = {foobar, " 961"};
5'h09 : foobar = {foobar, " 962"};
5'h0a : foobar = {foobar, " 963"};
5'h0b : foobar = {foobar, " 964"};
5'h0c : foobar = {foobar, " 965"};
5'h0d : foobar = {foobar, " 966"};
5'h0e : foobar = {foobar, " 967"};
5'h0f : foobar = {foobar, " 968"};
5'h10 : foobar = {foobar, " 969"};
5'h11 : foobar = {foobar, " 970"};
5'h12 : foobar = {foobar, " 971"};
5'h13 : foobar = {foobar, " 972"};
5'h14 : foobar = {foobar, " 973"};
5'h15 : foobar = {foobar, " 974"};
5'h16 : foobar = {foobar, " 975"};
5'h17 : foobar = {foobar, " 976"};
5'h18 : foobar = {foobar, " 977"};
5'h19 : foobar = {foobar, " 978"};
5'h1a : foobar = {foobar, " 979"};
5'h1b : foobar = {foobar, " 980"};
5'h1c : foobar = {foobar, " 981"};
5'h1d : foobar = {foobar, " 982"};
5'h1e : foobar = {foobar, " 983"};
5'h1f : foobar = {foobar, " 984"};
endcase
end
endtask
task ozonedr;
input [ 15:0] foo;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (foo[ 9: 6])
4'h0 : foobar = {foobar, " 985"};
4'h1 : foobar = {foobar, " 986"};
4'h2 : foobar = {foobar, " 987"};
4'h3 : foobar = {foobar, " 988"};
4'h4 : foobar = {foobar, " 989"};
4'h5 : foobar = {foobar, " 990"};
4'h6 : foobar = {foobar, " 991"};
4'h7 : foobar = {foobar, " 992"};
4'h8 : foobar = {foobar, " 993"};
4'h9 : foobar = {foobar, " 994"};
4'ha : foobar = {foobar, " 995"};
4'hb : foobar = {foobar, " 996"};
4'hc : foobar = {foobar, " 997"};
4'hd : foobar = {foobar, " 998"};
4'he : foobar = {foobar, " 999"};
4'hf : foobar = {foobar, " 1000"};
endcase
end
endtask
task ozoneshift;
input [ 15:0] foo;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (foo[ 4: 3])
2'h0 : foobar = {foobar, " 1001"};
2'h1 : foobar = {foobar, " 1002"};
2'h2 : foobar = {foobar, " 1003"};
2'h3 : foobar = {foobar, " 1004"};
endcase
end
endtask
task ozoneacc;
input foo;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (foo)
2'h0 : foobar = {foobar, " 1005"};
2'h1 : foobar = {foobar, " 1006"};
endcase
end
endtask
task ozonehl;
input foo;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (foo)
2'h0 : foobar = {foobar, " 1007"};
2'h1 : foobar = {foobar, " 1008"};
endcase
end
endtask
task dude;
inout [STRLEN*8: 1] foobar;
reg [ 7:0] temp;
integer i;
reg nacho;
// verilator no_inline_task
begin : justify_block
nacho = 1'b0;
for (i=STRLEN-1; i>1; i=i-1)
begin
temp = foobar>>((STRLEN-1)*8);
if (temp || nacho)
nacho = 1'b1;
else
begin
foobar = foobar<<8;
foobar[8:1] = 32;
end
end
end
endtask
task big_case;
input [ 31:0] fd;
input [ 31:0] foo;
reg [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
foobar = " 1009";
if (&foo === 1'bx)
$fwrite(fd, " 1010");
else
casez ( {foo[31:26], foo[19:15], foo[5:0]} )
17'b00_111?_?_????_??_???? :
begin
ozonef1(foo, foobar);
foobar = {foobar, " 1011"};
ozoneacc(~foo[26], foobar);
ozonehl(foo[20], foobar);
foobar = {foobar, " 1012"};
ozonerx(foo, foobar);
dude(foobar);
$fwrite (fd, " 1013:%s", foobar);
end
17'b01_001?_?_????_??_???? :
begin
ozonef1(foo, foobar);
foobar = {foobar, " 1014"};
ozonerx(foo, foobar);
foobar = {foobar, " 1015"};
foobar = {foobar, " 1016"};
ozonehl(foo[20], foobar);
dude(foobar);
$fwrite (fd, " 1017:%s", foobar);
end
17'b10_100?_?_????_??_???? :
begin
ozonef1(foo, foobar);
foobar = {foobar, " 1018"};
ozonerx(foo, foobar);
foobar = {foobar, " 1019"};
foobar = {foobar, " 1020"};
ozonehl(foo[20], foobar);
dude(foobar);
$fwrite (fd, " 1021:%s", foobar);
end
17'b10_101?_?_????_??_???? :
begin
ozonef1(foo, foobar);
foobar = {foobar, " 1022"};
if (foo[20])
begin
foobar = {foobar, " 1023"};
ozoneacc(foo[18], foobar);
foobar = {foobar, " 1024"};
foobar = {foobar, " 1025"};
if (foo[19])
foobar = {foobar, " 1026"};
else
foobar = {foobar, " 1027"};
end
else
ozonerx(foo, foobar);
dude(foobar);
$fwrite (fd, " 1028:%s", foobar);
end
17'b10_110?_?_????_??_???? :
begin
ozonef1(foo, foobar);
foobar = {foobar, " 1029"};
foobar = {foobar, " 1030"};
ozonehl(foo[20], foobar);
foobar = {foobar, " 1031"};
ozonerx(foo, foobar);
dude(foobar);
$fwrite (fd, " 1032:%s", foobar);
end
17'b10_111?_?_????_??_???? :
begin
ozonef1(foo, foobar);
foobar = {foobar, " 1033"};
foobar = {foobar, " 1034"};
ozonehl(foo[20], foobar);
foobar = {foobar, " 1035"};
ozonerx(foo, foobar);
dude(foobar);
$fwrite (fd, " 1036:%s", foobar);
end
17'b11_001?_?_????_??_???? :
begin
ozonef1(foo, foobar);
foobar = {foobar, " 1037"};
ozonerx(foo, foobar);
foobar = {foobar, " 1038"};
foobar = {foobar, " 1039"};
ozonehl(foo[20], foobar);
dude(foobar);
$fwrite (fd, " 1040:%s", foobar);
end
17'b11_111?_?_????_??_???? :
begin
ozonef1(foo, foobar);
foobar = {foobar, " 1041"};
foobar = {foobar, " 1042"};
ozonerx(foo, foobar);
foobar = {foobar, " 1043"};
if (foo[20])
foobar = {foobar, " 1044"};
else
foobar = {foobar, " 1045"};
dude(foobar);
$fwrite (fd, " 1046:%s", foobar);
end
17'b00_10??_?_????_?1_1111 :
casez (foo[11: 5])
7'b??_0_010_0:
begin
foobar = " 1047";
ozonecon(foo[14:10], foobar);
foobar = {foobar, " 1048"};
ozonef1e(foo, foobar);
dude(foobar);
$fwrite (fd, " 1049:%s", foobar);
end
7'b00_?_110_?:
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1050"};
case ({foo[ 9],foo[ 5]})
2'b00:
begin
foobar = {foobar, " 1051"};
ozoneae(foo[14:12], foobar);
ozonehl(foo[ 5], foobar);
end
2'b01:
begin
foobar = {foobar, " 1052"};
ozoneae(foo[14:12], foobar);
ozonehl(foo[ 5], foobar);
end
2'b10:
begin
foobar = {foobar, " 1053"};
ozoneae(foo[14:12], foobar);
end
2'b11: foobar = {foobar, " 1054"};
endcase
dude(foobar);
$fwrite (fd, " 1055:%s", foobar);
end
7'b01_?_110_?:
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1056"};
case ({foo[ 9],foo[ 5]})
2'b00:
begin
ozoneae(foo[14:12], foobar);
ozonehl(foo[ 5], foobar);
foobar = {foobar, " 1057"};
end
2'b01:
begin
ozoneae(foo[14:12], foobar);
ozonehl(foo[ 5], foobar);
foobar = {foobar, " 1058"};
end
2'b10:
begin
ozoneae(foo[14:12], foobar);
foobar = {foobar, " 1059"};
end
2'b11: foobar = {foobar, " 1060"};
endcase
dude(foobar);
$fwrite (fd, " 1061:%s", foobar);
end
7'b10_0_110_0:
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1062"};
foobar = {foobar, " 1063"};
if (foo[12])
foobar = {foobar, " 1064"};
else
ozonerab({4'b1001, foo[14:12]}, foobar);
dude(foobar);
$fwrite (fd, " 1065:%s", foobar);
end
7'b10_0_110_1:
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1066"};
if (foo[12])
foobar = {foobar, " 1067"};
else
ozonerab({4'b1001, foo[14:12]}, foobar);
foobar = {foobar, " 1068"};
dude(foobar);
$fwrite (fd, " 1069:%s", foobar);
end
7'b??_?_000_?:
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1070"};
foobar = {foobar, " 1071"};
ozonef1e_hl(foo[11:9],foo[ 5],foobar);
foobar = {foobar, " 1072"};
ozonef1e_ye(foo[14:9],foo[ 5],foobar);
dude(foobar);
$fwrite (fd, " 1073:%s", foobar);
end
7'b??_?_100_?:
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1074"};
foobar = {foobar, " 1075"};
ozonef1e_hl(foo[11:9],foo[ 5],foobar);
foobar = {foobar, " 1076"};
ozonef1e_ye(foo[14:9],foo[ 5],foobar);
dude(foobar);
$fwrite (fd, " 1077:%s", foobar);
end
7'b??_?_001_?:
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1078"};
ozonef1e_ye(foo[14:9],foo[ 5],foobar);
foobar = {foobar, " 1079"};
foobar = {foobar, " 1080"};
ozonef1e_hl(foo[11:9],foo[ 5],foobar);
dude(foobar);
$fwrite (fd, " 1081:%s", foobar);
end
7'b??_?_011_?:
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1082"};
ozonef1e_ye(foo[14:9],foo[ 5],foobar);
foobar = {foobar, " 1083"};
foobar = {foobar, " 1084"};
ozonef1e_hl(foo[11:9],foo[ 5],foobar);
dude(foobar);
$fwrite (fd, " 1085:%s", foobar);
end
7'b??_?_101_?:
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1086"};
ozonef1e_ye(foo[14:9],foo[ 5],foobar);
dude(foobar);
$fwrite (fd, " 1087:%s", foobar);
end
endcase
17'b00_10??_?_????_?0_0110 :
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1088"};
ozoneae(foo[ 8: 6], foobar);
ozonef1e_hl(foo[11:9],foo[ 5],foobar);
foobar = {foobar, " 1089"};
ozonef1e_ye(foo[14:9],foo[ 5],foobar);
dude(foobar);
$fwrite (fd, " 1090:%s", foobar);
end
17'b00_10??_?_????_00_0111 :
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1091"};
if (foo[ 6])
foobar = {foobar, " 1092"};
else
ozonerab({4'b1001, foo[ 8: 6]}, foobar);
foobar = {foobar, " 1093"};
foobar = {foobar, " 1094"};
ozonerme(foo[14:12],foobar);
case (foo[11: 9])
3'h2,
3'h5,
3'h6,
3'h7:
ozonef1e_inc_dec(foo[14:9],1'b0,foobar);
3'h1,
3'h3,
3'h4:
foobar = {foobar, " 1095"};
endcase
dude(foobar);
$fwrite (fd, " 1096:%s", foobar);
end
17'b00_10??_?_????_?0_0100 :
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1097"};
ozonef1e_ye(foo[14:9],foo[ 5],foobar);
foobar = {foobar, " 1098"};
ozoneae(foo[ 8: 6], foobar);
ozonef1e_hl(foo[11:9],foo[ 5],foobar);
dude(foobar);
$fwrite (fd, " 1099:%s", foobar);
end
17'b00_10??_?_????_10_0111 :
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1100"};
foobar = {foobar, " 1101"};
ozonerme(foo[14:12],foobar);
case (foo[11: 9])
3'h2,
3'h5,
3'h6,
3'h7:
ozonef1e_inc_dec(foo[14:9],1'b0,foobar);
3'h1,
3'h3,
3'h4:
foobar = {foobar, " 1102"};
endcase
foobar = {foobar, " 1103"};
if (foo[ 6])
foobar = {foobar, " 1104"};
else
ozonerab({4'b1001, foo[ 8: 6]}, foobar);
dude(foobar);
$fwrite (fd, " 1105:%s", foobar);
end
17'b00_10??_?_????_?0_1110 :
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1106"};
case (foo[11:9])
3'h2:
begin
foobar = {foobar, " 1107"};
if (foo[14:12] == 3'h0)
foobar = {foobar, " 1108"};
else
ozonerme(foo[14:12],foobar);
foobar = {foobar, " 1109"};
end
3'h6:
begin
foobar = {foobar, " 1110"};
if (foo[14:12] == 3'h0)
foobar = {foobar, " 1111"};
else
ozonerme(foo[14:12],foobar);
foobar = {foobar, " 1112"};
end
3'h0:
begin
foobar = {foobar, " 1113"};
if (foo[14:12] == 3'h0)
foobar = {foobar, " 1114"};
else
ozonerme(foo[14:12],foobar);
foobar = {foobar, " 1115"};
if (foo[ 7: 5] >= 3'h5)
foobar = {foobar, " 1116"};
else
ozonexe(foo[ 8: 5], foobar);
end
3'h1:
begin
foobar = {foobar, " 1117"};
if (foo[14:12] == 3'h0)
foobar = {foobar, " 1118"};
else
ozonerme(foo[14:12],foobar);
foobar = {foobar, " 1119"};
if (foo[ 7: 5] >= 3'h5)
foobar = {foobar, " 1120"};
else
ozonexe(foo[ 8: 5], foobar);
end
3'h4:
begin
foobar = {foobar, " 1121"};
if (foo[14:12] == 3'h0)
foobar = {foobar, " 1122"};
else
ozonerme(foo[14:12],foobar);
foobar = {foobar, " 1123"};
if (foo[ 7: 5] >= 3'h5)
foobar = {foobar, " 1124"};
else
ozonexe(foo[ 8: 5], foobar);
end
3'h5:
begin
foobar = {foobar, " 1125"};
if (foo[14:12] == 3'h0)
foobar = {foobar, " 1126"};
else
ozonerme(foo[14:12],foobar);
foobar = {foobar, " 1127"};
if (foo[ 7: 5] >= 3'h5)
foobar = {foobar, " 1128"};
else
ozonexe(foo[ 8: 5], foobar);
end
endcase
dude(foobar);
$fwrite (fd, " 1129:%s", foobar);
end
17'b00_10??_?_????_?0_1111 :
casez (foo[14: 9])
6'b001_10_?:
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1130"};
foobar = {foobar, " 1131"};
ozonef1e_hl(foo[ 7: 5],foo[ 9],foobar);
foobar = {foobar, " 1132"};
ozonexe(foo[ 8: 5], foobar);
dude(foobar);
$fwrite (fd, " 1133:%s", foobar);
end
6'b???_11_?:
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1134"};
ozoneae(foo[14:12], foobar);
ozonef1e_hl(foo[ 7: 5],foo[ 9],foobar);
foobar = {foobar, " 1135"};
ozonexe(foo[ 8: 5], foobar);
dude(foobar);
$fwrite (fd, " 1136:%s", foobar);
end
6'b000_10_1,
6'b010_10_1,
6'b100_10_1,
6'b110_10_1:
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1137"};
ozonerab({4'b1001, foo[14:12]}, foobar);
foobar = {foobar, " 1138"};
if ((foo[ 7: 5] >= 3'h1) & (foo[ 7: 5] <= 3'h3))
foobar = {foobar, " 1139"};
else
ozonexe(foo[ 8: 5], foobar);
dude(foobar);
$fwrite (fd, " 1140:%s", foobar);
end
6'b000_10_0,
6'b010_10_0,
6'b100_10_0,
6'b110_10_0:
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1141"};
foobar = {foobar, " 1142"};
ozonerab({4'b1001, foo[14:12]}, foobar);
foobar = {foobar, " 1143"};
foobar = {foobar, " 1144"};
ozonef1e_h(foo[ 7: 5],foobar);
foobar = {foobar, " 1145"};
ozonexe(foo[ 8: 5], foobar);
dude(foobar);
$fwrite (fd, " 1146:%s", foobar);
end
6'b???_00_?:
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1147"};
if (foo[ 9])
begin
foobar = {foobar, " 1148"};
ozoneae(foo[14:12], foobar);
end
else
begin
foobar = {foobar, " 1149"};
ozoneae(foo[14:12], foobar);
foobar = {foobar, " 1150"};
end
foobar = {foobar, " 1151"};
foobar = {foobar, " 1152"};
ozonef1e_h(foo[ 7: 5],foobar);
foobar = {foobar, " 1153"};
ozonexe(foo[ 8: 5], foobar);
dude(foobar);
$fwrite (fd, " 1154:%s", foobar);
end
6'b???_01_?:
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1155"};
ozoneae(foo[14:12], foobar);
if (foo[ 9])
foobar = {foobar, " 1156"};
else
foobar = {foobar, " 1157"};
foobar = {foobar, " 1158"};
foobar = {foobar, " 1159"};
ozonef1e_h(foo[ 7: 5],foobar);
foobar = {foobar, " 1160"};
ozonexe(foo[ 8: 5], foobar);
dude(foobar);
$fwrite (fd, " 1161:%s", foobar);
end
6'b011_10_0:
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1162"};
case (foo[ 8: 5])
4'h0: foobar = {foobar, " 1163"};
4'h1: foobar = {foobar, " 1164"};
4'h2: foobar = {foobar, " 1165"};
4'h3: foobar = {foobar, " 1166"};
4'h4: foobar = {foobar, " 1167"};
4'h5: foobar = {foobar, " 1168"};
4'h8: foobar = {foobar, " 1169"};
4'h9: foobar = {foobar, " 1170"};
4'ha: foobar = {foobar, " 1171"};
4'hb: foobar = {foobar, " 1172"};
4'hc: foobar = {foobar, " 1173"};
4'hd: foobar = {foobar, " 1174"};
default: foobar = {foobar, " 1175"};
endcase
dude(foobar);
$fwrite (fd, " 1176:%s", foobar);
end
default: foobar = {foobar, " 1177"};
endcase
17'b00_10??_?_????_?0_110? :
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1178"};
foobar = {foobar, " 1179"};
ozonef1e_hl(foo[11:9], foo[0], foobar);
foobar = {foobar, " 1180"};
ozonef1e_ye(foo[14:9],1'b0,foobar);
foobar = {foobar, " 1181"};
ozonef1e_h(foo[ 7: 5],foobar);
foobar = {foobar, " 1182"};
ozonexe(foo[ 8: 5], foobar);
dude(foobar);
$fwrite (fd, " 1183:%s", foobar);
end
17'b00_10??_?_????_?1_110? :
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1184"};
foobar = {foobar, " 1185"};
ozonef1e_hl(foo[11:9],foo[0],foobar);
foobar = {foobar, " 1186"};
ozonef1e_ye(foo[14:9],foo[ 0],foobar);
foobar = {foobar, " 1187"};
foobar = {foobar, " 1188"};
ozonef1e_h(foo[ 7: 5],foobar);
foobar = {foobar, " 1189"};
ozonexe(foo[ 8: 5], foobar);
dude(foobar);
$fwrite (fd, " 1190:%s", foobar);
end
17'b00_10??_?_????_?0_101? :
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1191"};
ozonef1e_ye(foo[14:9],foo[ 0],foobar);
foobar = {foobar, " 1192"};
foobar = {foobar, " 1193"};
ozonef1e_hl(foo[11:9],foo[0],foobar);
foobar = {foobar, " 1194"};
foobar = {foobar, " 1195"};
ozonef1e_h(foo[ 7: 5],foobar);
foobar = {foobar, " 1196"};
ozonexe(foo[ 8: 5], foobar);
dude(foobar);
$fwrite (fd, " 1197:%s", foobar);
end
17'b00_10??_?_????_?0_1001 :
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1198"};
foobar = {foobar, " 1199"};
ozonef1e_h(foo[11:9],foobar);
foobar = {foobar, " 1200"};
ozonef1e_ye(foo[14:9],1'b0,foobar);
foobar = {foobar, " 1201"};
case (foo[ 7: 5])
3'h1,
3'h2,
3'h3:
foobar = {foobar, " 1202"};
default:
begin
foobar = {foobar, " 1203"};
foobar = {foobar, " 1204"};
ozonexe(foo[ 8: 5], foobar);
end
endcase
dude(foobar);
$fwrite (fd, " 1205:%s", foobar);
end
17'b00_10??_?_????_?0_0101 :
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1206"};
case (foo[11: 9])
3'h1,
3'h3,
3'h4:
foobar = {foobar, " 1207"};
default:
begin
ozonef1e_ye(foo[14:9],1'b0,foobar);
foobar = {foobar, " 1208"};
foobar = {foobar, " 1209"};
end
endcase
foobar = {foobar, " 1210"};
foobar = {foobar, " 1211"};
ozonef1e_h(foo[ 7: 5],foobar);
foobar = {foobar, " 1212"};
ozonexe(foo[ 8: 5], foobar);
dude(foobar);
$fwrite (fd, " 1213:%s", foobar);
end
17'b00_10??_?_????_?1_1110 :
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1214"};
ozonef1e_ye(foo[14:9],1'b0,foobar);
foobar = {foobar, " 1215"};
foobar = {foobar, " 1216"};
ozonef1e_h(foo[11: 9],foobar);
foobar = {foobar, " 1217"};
foobar = {foobar, " 1218"};
ozonef1e_h(foo[ 7: 5],foobar);
foobar = {foobar, " 1219"};
ozonexe(foo[ 8: 5], foobar);
dude(foobar);
$fwrite (fd, " 1220:%s", foobar);
end
17'b00_10??_?_????_?0_1000 :
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1221"};
ozonef1e_ye(foo[14:9],1'b0,foobar);
foobar = {foobar, " 1222"};
foobar = {foobar, " 1223"};
ozonef1e_h(foo[11: 9],foobar);
foobar = {foobar, " 1224"};
foobar = {foobar, " 1225"};
ozonef1e_h(foo[ 7: 5],foobar);
foobar = {foobar, " 1226"};
ozonexe(foo[ 8: 5], foobar);
dude(foobar);
$fwrite (fd, " 1227:%s", foobar);
end
17'b10_01??_?_????_??_???? :
begin
if (foo[27])
foobar = " 1228";
else
foobar = " 1229";
ozonecon(foo[20:16], foobar);
foobar = {foobar, " 1230"};
ozonef2(foo[31:0], foobar);
dude(foobar);
$fwrite (fd, " 1231:%s", foobar);
end
17'b00_1000_?_????_01_0011 :
if (~|foo[ 9: 8])
begin
if (foo[ 7])
foobar = " 1232";
else
foobar = " 1233";
ozonecon(foo[14:10], foobar);
foobar = {foobar, " 1234"};
ozonef2e(foo[31:0], foobar);
dude(foobar);
$fwrite (fd, " 1235:%s", foobar);
end
else
begin
foobar = " 1236";
ozonecon(foo[14:10], foobar);
foobar = {foobar, " 1237"};
ozonef3e(foo[31:0], foobar);
dude(foobar);
$fwrite (fd, " 1238:%s", foobar);
end
17'b11_110?_1_????_??_???? :
begin
ozonef3(foo[31:0], foobar);
dude(foobar);
$fwrite(fd, " 1239:%s", foobar);
end
17'b11_110?_0_????_??_???? :
begin : f4_body
casez (foo[24:20])
5'b0_1110,
5'b1_0???,
5'b1_1111:
begin
$fwrite (fd, " 1240");
end
5'b0_00??:
begin
ozoneacc(foo[26], foobar);
foobar = {foobar, " 1241"};
ozoneacc(foo[25], foobar);
ozonebmuop(foo[24:20], foobar);
ozoneae(foo[18:16], foobar);
foobar = {foobar, " 1242"};
dude(foobar);
$fwrite(fd, " 1243:%s", foobar);
end
5'b0_01??:
begin
ozoneacc(foo[26], foobar);
foobar = {foobar, " 1244"};
ozoneacc(foo[25], foobar);
ozonebmuop(foo[24:20], foobar);
ozonearm(foo[18:16], foobar);
dude(foobar);
$fwrite(fd, " 1245:%s", foobar);
end
5'b0_1011:
begin
ozoneacc(foo[26], foobar);
foobar = {foobar, " 1246"};
ozonebmuop(foo[24:20], foobar);
foobar = {foobar, " 1247"};
ozoneae(foo[18:16], foobar);
foobar = {foobar, " 1248"};
dude(foobar);
$fwrite(fd, " 1249:%s", foobar);
end
5'b0_100?,
5'b0_1010,
5'b0_110? :
begin
ozoneacc(foo[26], foobar);
foobar = {foobar, " 1250"};
ozonebmuop(foo[24:20], foobar);
foobar = {foobar, " 1251"};
ozoneacc(foo[25], foobar);
foobar = {foobar, " 1252"};
ozoneae(foo[18:16], foobar);
foobar = {foobar, " 1253"};
dude(foobar);
$fwrite(fd, " 1254:%s", foobar);
end
5'b0_1111 :
begin
ozoneacc(foo[26], foobar);
foobar = {foobar, " 1255"};
ozoneacc(foo[25], foobar);
foobar = {foobar, " 1256"};
ozoneae(foo[18:16], foobar);
dude(foobar);
$fwrite(fd, " 1257:%s", foobar);
end
5'b1_10??,
5'b1_110?,
5'b1_1110 :
begin
ozoneacc(foo[26], foobar);
foobar = {foobar, " 1258"};
ozonebmuop(foo[24:20], foobar);
foobar = {foobar, " 1259"};
ozoneacc(foo[25], foobar);
foobar = {foobar, " 1260"};
ozonearm(foo[18:16], foobar);
foobar = {foobar, " 1261"};
dude(foobar);
$fwrite(fd, " 1262:%s", foobar);
end
endcase
end
17'b11_100?_?_????_??_???? :
casez (foo[23:19])
5'b111??,
5'b0111?:
begin
ozoneae(foo[26:24], foobar);
foobar = {foobar, " 1263"};
ozonef3f4imop(foo[23:19], foobar);
foobar = {foobar, " 1264"};
ozoneae(foo[18:16], foobar);
foobar = {foobar, " 1265"};
skyway(foo[15:12], foobar);
skyway(foo[11: 8], foobar);
skyway(foo[ 7: 4], foobar);
skyway(foo[ 3:0], foobar);
foobar = {foobar, " 1266"};
dude(foobar);
$fwrite(fd, " 1267:%s", foobar);
end
5'b?0???,
5'b110??:
begin
ozoneae(foo[26:24], foobar);
foobar = {foobar, " 1268"};
if (foo[23:21] == 3'b100)
foobar = {foobar, " 1269"};
ozoneae(foo[18:16], foobar);
if (foo[19])
foobar = {foobar, " 1270"};
else
foobar = {foobar, " 1271"};
ozonef3f4imop(foo[23:19], foobar);
foobar = {foobar, " 1272"};
ozonef3f4_iext(foo[20:19], foo[15:0], foobar);
dude(foobar);
$fwrite(fd, " 1273:%s", foobar);
end
5'b010??,
5'b0110?:
begin
ozoneae(foo[18:16], foobar);
if (foo[19])
foobar = {foobar, " 1274"};
else
foobar = {foobar, " 1275"};
ozonef3f4imop(foo[23:19], foobar);
foobar = {foobar, " 1276"};
ozonef3f4_iext(foo[20:19], foo[15:0], foobar);
dude(foobar);
$fwrite(fd, " 1277:%s", foobar);
end
endcase
17'b00_1000_?_????_11_0011 :
begin
foobar = " 1278";
ozonecon(foo[14:10], foobar);
foobar = {foobar, " 1279"};
casez (foo[25:21])
5'b0_1110,
5'b1_0???,
5'b1_1111:
begin
$fwrite(fd, " 1280");
end
5'b0_00??:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar, " 1281"};
ozoneae(foo[17:15], foobar);
ozonebmuop(foo[25:21], foobar);
ozoneae(foo[ 8: 6], foobar);
foobar = {foobar, " 1282"};
dude(foobar);
$fwrite(fd, " 1283:%s", foobar);
end
5'b0_01??:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar, " 1284"};
ozoneae(foo[17:15], foobar);
ozonebmuop(foo[25:21], foobar);
ozonearm(foo[ 8: 6], foobar);
dude(foobar);
$fwrite(fd, " 1285:%s", foobar);
end
5'b0_1011:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar, " 1286"};
ozonebmuop(foo[25:21], foobar);
foobar = {foobar, " 1287"};
ozoneae(foo[ 8: 6], foobar);
foobar = {foobar, " 1288"};
dude(foobar);
$fwrite(fd, " 1289:%s", foobar);
end
5'b0_100?,
5'b0_1010,
5'b0_110? :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar, " 1290"};
ozonebmuop(foo[25:21], foobar);
foobar = {foobar, " 1291"};
ozoneae(foo[17:15], foobar);
foobar = {foobar, " 1292"};
ozoneae(foo[ 8: 6], foobar);
foobar = {foobar, " 1293"};
dude(foobar);
$fwrite(fd, " 1294:%s", foobar);
end
5'b0_1111 :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar, " 1295"};
ozoneae(foo[17:15], foobar);
foobar = {foobar, " 1296"};
ozoneae(foo[ 8: 6], foobar);
dude(foobar);
$fwrite(fd, " 1297:%s", foobar);
end
5'b1_10??,
5'b1_110?,
5'b1_1110 :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar, " 1298"};
ozonebmuop(foo[25:21], foobar);
foobar = {foobar, " 1299"};
ozoneae(foo[17:15], foobar);
foobar = {foobar, " 1300"};
ozonearm(foo[ 8: 6], foobar);
foobar = {foobar, " 1301"};
dude(foobar);
$fwrite(fd, " 1302:%s", foobar);
end
endcase
end
17'b00_0010_?_????_??_???? :
begin
$fwrite(fd, " 1304a:%x;%x", foobar, foo[25:20]);
ozonerab({1'b0, foo[25:20]}, foobar);
$fwrite(fd, " 1304b:%x", foobar);
foobar = {foobar, " 1303"};
$fwrite(fd, " 1304c:%x;%x", foobar, foo[19:16]);
skyway(foo[19:16], foobar);
$fwrite(fd, " 1304d:%x", foobar);
dude(foobar);
$fwrite(fd, " 1304e:%x", foobar);
$fwrite(fd, " 1304:%s", foobar);
end
17'b00_01??_?_????_??_???? :
begin
if (foo[27])
begin
foobar = {foobar, " 1305"};
if (foo[26])
foobar = {foobar, " 1306"};
else
foobar = {foobar, " 1307"};
skyway(foo[19:16], foobar);
foobar = {foobar, " 1308"};
ozonerab({1'b0, foo[25:20]}, foobar);
end
else
begin
ozonerab({1'b0, foo[25:20]}, foobar);
foobar = {foobar, " 1309"};
if (foo[26])
foobar = {foobar, " 1310"};
else
foobar = {foobar, " 1311"};
skyway(foo[19:16], foobar);
foobar = {foobar, " 1312"};
end
dude(foobar);
$fwrite(fd, " 1313:%s", foobar);
end
17'b01_000?_?_????_??_???? :
begin
if (foo[26])
begin
ozonerb(foo[25:20], foobar);
foobar = {foobar, " 1314"};
ozoneae(foo[18:16], foobar);
ozonehl(foo[19], foobar);
end
else
begin
ozoneae(foo[18:16], foobar);
ozonehl(foo[19], foobar);
foobar = {foobar, " 1315"};
ozonerb(foo[25:20], foobar);
end
dude(foobar);
$fwrite(fd, " 1316:%s", foobar);
end
17'b01_10??_?_????_??_???? :
begin
if (foo[27])
begin
ozonerab({1'b0, foo[25:20]}, foobar);
foobar = {foobar, " 1317"};
ozonerx(foo, foobar);
end
else
begin
ozonerx(foo, foobar);
foobar = {foobar, " 1318"};
ozonerab({1'b0, foo[25:20]}, foobar);
end
dude(foobar);
$fwrite(fd, " 1319:%s", foobar);
end
17'b11_101?_?_????_??_???? :
begin
ozonerab (foo[26:20], foobar);
foobar = {foobar, " 1320"};
skyway(foo[19:16], foobar);
skyway(foo[15:12], foobar);
skyway(foo[11: 8], foobar);
skyway(foo[ 7: 4], foobar);
skyway(foo[ 3: 0], foobar);
dude(foobar);
$fwrite(fd, " 1321:%s", foobar);
end
17'b11_0000_?_????_??_???? :
begin
casez (foo[25:23])
3'b00?:
begin
ozonerab(foo[22:16], foobar);
foobar = {foobar, " 1322"};
end
3'b01?:
begin
foobar = {foobar, " 1323"};
if (foo[22:16]>=7'h60)
foobar = {foobar, " 1324"};
else
ozonerab(foo[22:16], foobar);
end
3'b110:
foobar = {foobar, " 1325"};
3'b10?:
begin
foobar = {foobar, " 1326"};
if (foo[22:16]>=7'h60)
foobar = {foobar, " 1327"};
else
ozonerab(foo[22:16], foobar);
end
3'b111:
begin
foobar = {foobar, " 1328"};
ozonerab(foo[22:16], foobar);
foobar = {foobar, " 1329"};
end
endcase
dude(foobar);
$fwrite(fd, " 1330:%s", foobar);
end
17'b00_10??_?_????_?1_0000 :
begin
if (foo[27])
begin
foobar = {foobar, " 1331"};
ozonerp(foo[14:12], foobar);
foobar = {foobar, " 1332"};
skyway(foo[19:16], foobar);
skyway({foo[15],foo[11: 9]}, foobar);
skyway(foo[ 8: 5], foobar);
foobar = {foobar, " 1333"};
if (foo[26:20]>=7'h60)
foobar = {foobar, " 1334"};
else
ozonerab(foo[26:20], foobar);
end
else
begin
ozonerab(foo[26:20], foobar);
foobar = {foobar, " 1335"};
foobar = {foobar, " 1336"};
ozonerp(foo[14:12], foobar);
foobar = {foobar, " 1337"};
skyway(foo[19:16], foobar);
skyway({foo[15],foo[11: 9]}, foobar);
skyway(foo[ 8: 5], foobar);
foobar = {foobar, " 1338"};
end
dude(foobar);
$fwrite(fd, " 1339:%s", foobar);
end
17'b00_101?_1_0000_?1_0010 :
if (~|foo[11: 7])
begin
if (foo[ 6])
begin
foobar = {foobar, " 1340"};
ozonerp(foo[14:12], foobar);
foobar = {foobar, " 1341"};
ozonejk(foo[ 5], foobar);
foobar = {foobar, " 1342"};
if (foo[26:20]>=7'h60)
foobar = {foobar, " 1343"};
else
ozonerab(foo[26:20], foobar);
end
else
begin
ozonerab(foo[26:20], foobar);
foobar = {foobar, " 1344"};
foobar = {foobar, " 1345"};
ozonerp(foo[14:12], foobar);
foobar = {foobar, " 1346"};
ozonejk(foo[ 5], foobar);
foobar = {foobar, " 1347"};
end
dude(foobar);
$fwrite(fd, " 1348:%s", foobar);
end
else
$fwrite(fd, " 1349");
17'b00_100?_0_0011_?1_0101 :
if (~|foo[ 8: 7])
begin
if (foo[6])
begin
ozonerab(foo[26:20], foobar);
foobar = {foobar, " 1350"};
ozoneye(foo[14: 9],foo[ 5], foobar);
end
else
begin
ozoneye(foo[14: 9],foo[ 5], foobar);
foobar = {foobar, " 1351"};
if (foo[26:20]>=7'h60)
foobar = {foobar, " 1352"};
else
ozonerab(foo[26:20], foobar);
end
dude(foobar);
$fwrite(fd, " 1353:%s", foobar);
end
else
$fwrite(fd, " 1354");
17'b00_1001_0_0000_?1_0010 :
if (~|foo[25:20])
begin
ozoneye(foo[14: 9],1'b0, foobar);
foobar = {foobar, " 1355"};
ozonef1e_h(foo[11: 9],foobar);
foobar = {foobar, " 1356"};
ozonef1e_h(foo[ 7: 5],foobar);
foobar = {foobar, " 1357"};
ozonexe(foo[ 8: 5], foobar);
dude(foobar);
$fwrite(fd, " 1358:%s", foobar);
end
else
$fwrite(fd, " 1359");
17'b00_101?_0_????_?1_0010 :
if (~foo[13])
begin
if (foo[12])
begin
foobar = {foobar, " 1360"};
if (foo[26:20]>=7'h60)
foobar = {foobar, " 1361"};
else
ozonerab(foo[26:20], foobar);
foobar = {foobar, " 1362"};
foobar = {foobar, " 1363"};
skyway({1'b0,foo[18:16]}, foobar);
skyway({foo[15],foo[11: 9]}, foobar);
skyway(foo[ 8: 5], foobar);
dude(foobar);
$fwrite(fd, " 1364:%s", foobar);
end
else
begin
ozonerab(foo[26:20], foobar);
foobar = {foobar, " 1365"};
foobar = {foobar, " 1366"};
skyway({1'b0,foo[18:16]}, foobar);
skyway({foo[15],foo[11: 9]}, foobar);
skyway(foo[ 8: 5], foobar);
dude(foobar);
$fwrite(fd, " 1367:%s", foobar);
end
end
else
$fwrite(fd, " 1368");
17'b01_01??_?_????_??_???? :
begin
ozonerab({1'b0,foo[27:26],foo[19:16]}, foobar);
foobar = {foobar, " 1369"};
ozonerab({1'b0,foo[25:20]}, foobar);
dude(foobar);
$fwrite(fd, " 1370:%s", foobar);
end
17'b00_100?_?_???0_11_0101 :
if (~foo[6])
begin
foobar = " 1371";
ozonecon(foo[14:10], foobar);
foobar = {foobar, " 1372"};
ozonerab({foo[ 9: 7],foo[19:16]}, foobar);
foobar = {foobar, " 1373"};
ozonerab({foo[26:20]}, foobar);
dude(foobar);
$fwrite(fd, " 1374:%s", foobar);
end
else
$fwrite(fd, " 1375");
17'b00_1000_?_????_?1_0010 :
if (~|foo[25:24])
begin
ozonery(foo[23:20], foobar);
foobar = {foobar, " 1376"};
ozonerp(foo[14:12], foobar);
foobar = {foobar, " 1377"};
skyway(foo[19:16], foobar);
skyway({foo[15],foo[11: 9]}, foobar);
skyway(foo[ 8: 5], foobar);
dude(foobar);
$fwrite(fd, " 1378:%s", foobar);
end
else if ((foo[25:24] == 2'b10) & ~|foo[19:15] & ~|foo[11: 6])
begin
ozonery(foo[23:20], foobar);
foobar = {foobar, " 1379"};
ozonerp(foo[14:12], foobar);
foobar = {foobar, " 1380"};
ozonejk(foo[ 5], foobar);
dude(foobar);
$fwrite(fd, " 1381:%s", foobar);
end
else
$fwrite(fd, " 1382");
17'b11_01??_?_????_??_????,
17'b10_00??_?_????_??_???? :
if (foo[30])
$fwrite(fd, " 1383:%s", foo[27:16]);
else
$fwrite(fd, " 1384:%s", foo[27:16]);
17'b00_10??_?_????_01_1000 :
if (~foo[6])
begin
if (foo[7])
$fwrite(fd, " 1385:%s", foo[27: 8]);
else
$fwrite(fd, " 1386:%s", foo[27: 8]);
end
else
$fwrite(fd, " 1387");
17'b00_10??_?_????_11_1000 :
begin
foobar = " 1388";
ozonecon(foo[14:10], foobar);
foobar = {foobar, " 1389"};
if (foo[15])
foobar = {foobar, " 1390"};
else
foobar = {foobar, " 1391"};
skyway(foo[27:24], foobar);
skyway(foo[23:20], foobar);
skyway(foo[19:16], foobar);
skyway(foo[ 9: 6], foobar);
dude(foobar);
$fwrite(fd, " 1392:%s", foobar);
end
17'b11_0001_?_????_??_???? :
casez (foo[25:22])
4'b01?? :
begin
foobar = " 1393";
ozonecon(foo[20:16], foobar);
case (foo[23:21])
3'h0 : foobar = {foobar, " 1394"};
3'h1 : foobar = {foobar, " 1395"};
3'h2 : foobar = {foobar, " 1396"};
3'h3 : foobar = {foobar, " 1397"};
3'h4 : foobar = {foobar, " 1398"};
3'h5 : foobar = {foobar, " 1399"};
3'h6 : foobar = {foobar, " 1400"};
3'h7 : foobar = {foobar, " 1401"};
endcase
dude(foobar);
$fwrite(fd, " 1402:%s", foobar);
end
4'b0000 :
$fwrite(fd, " 1403:%s", foo[21:16]);
4'b0010 :
if (~|foo[21:16])
$fwrite(fd, " 1404");
4'b1010 :
if (~|foo[21:17])
begin
if (foo[16])
$fwrite(fd, " 1405");
else
$fwrite(fd, " 1406");
end
default :
$fwrite(fd, " 1407");
endcase
17'b01_11??_?_????_??_???? :
if (foo[27:23] === 5'h00)
$fwrite(fd, " 1408:%s", foo[22:16]);
else
$fwrite(fd, " 1409:%s", foo[22:16]);
default: $fwrite(fd, " 1410");
endcase
end
endtask
//(query-replace-regexp "\\([a-z0-9_]+\\) *( *\\([][a-z0-9_~': ]+\\) *, *\\([][a-z0-9'~: ]+\\) *, *\\([][a-z0-9'~: ]+\\) *);" "$c(\"\\1(\",\\2,\",\",\\3,\",\",\\4,\");\");" nil nil nil)
//(query-replace-regexp "\\([a-z0-9_]+\\) *( *\\([][a-z0-9_~': ]+\\) *, *\\([][a-z0-9'~: ]+\\) *);" "$c(\"\\1(\",\\2,\",\",\\3,\");\");" nil nil nil)
endmodule
|
module t_case_write1_tasks ();
// verilator lint_off WIDTH
// verilator lint_off CASEINCOMPLETE
parameter STRLEN = 78;
task ozonerab;
input [6:0] rab;
inout [STRLEN*8:1] foobar;
// verilator no_inline_task
begin
case (rab[6:0])
7'h00 : foobar = {foobar, " 0"};
7'h01 : foobar = {foobar, " 1"};
7'h02 : foobar = {foobar, " 2"};
7'h03 : foobar = {foobar, " 3"};
7'h04 : foobar = {foobar, " 4"};
7'h05 : foobar = {foobar, " 5"};
7'h06 : foobar = {foobar, " 6"};
7'h07 : foobar = {foobar, " 7"};
7'h08 : foobar = {foobar, " 8"};
7'h09 : foobar = {foobar, " 9"};
7'h0a : foobar = {foobar, " 10"};
7'h0b : foobar = {foobar, " 11"};
7'h0c : foobar = {foobar, " 12"};
7'h0d : foobar = {foobar, " 13"};
7'h0e : foobar = {foobar, " 14"};
7'h0f : foobar = {foobar, " 15"};
7'h10 : foobar = {foobar, " 16"};
7'h11 : foobar = {foobar, " 17"};
7'h12 : foobar = {foobar, " 18"};
7'h13 : foobar = {foobar, " 19"};
7'h14 : foobar = {foobar, " 20"};
7'h15 : foobar = {foobar, " 21"};
7'h16 : foobar = {foobar, " 22"};
7'h17 : foobar = {foobar, " 23"};
7'h18 : foobar = {foobar, " 24"};
7'h19 : foobar = {foobar, " 25"};
7'h1a : foobar = {foobar, " 26"};
7'h1b : foobar = {foobar, " 27"};
7'h1c : foobar = {foobar, " 28"};
7'h1d : foobar = {foobar, " 29"};
7'h1e : foobar = {foobar, " 30"};
7'h1f : foobar = {foobar, " 31"};
7'h20 : foobar = {foobar, " 32"};
7'h21 : foobar = {foobar, " 33"};
7'h22 : foobar = {foobar, " 34"};
7'h23 : foobar = {foobar, " 35"};
7'h24 : foobar = {foobar, " 36"};
7'h25 : foobar = {foobar, " 37"};
7'h26 : foobar = {foobar, " 38"};
7'h27 : foobar = {foobar, " 39"};
7'h28 : foobar = {foobar, " 40"};
7'h29 : foobar = {foobar, " 41"};
7'h2a : foobar = {foobar, " 42"};
7'h2b : foobar = {foobar, " 43"};
7'h2c : foobar = {foobar, " 44"};
7'h2d : foobar = {foobar, " 45"};
7'h2e : foobar = {foobar, " 46"};
7'h2f : foobar = {foobar, " 47"};
7'h30 : foobar = {foobar, " 48"};
7'h31 : foobar = {foobar, " 49"};
7'h32 : foobar = {foobar, " 50"};
7'h33 : foobar = {foobar, " 51"};
7'h34 : foobar = {foobar, " 52"};
7'h35 : foobar = {foobar, " 53"};
7'h36 : foobar = {foobar, " 54"};
7'h37 : foobar = {foobar, " 55"};
7'h38 : foobar = {foobar, " 56"};
7'h39 : foobar = {foobar, " 57"};
7'h3a : foobar = {foobar, " 58"};
7'h3b : foobar = {foobar, " 59"};
7'h3c : foobar = {foobar, " 60"};
7'h3d : foobar = {foobar, " 61"};
7'h3e : foobar = {foobar, " 62"};
7'h3f : foobar = {foobar, " 63"};
7'h40 : foobar = {foobar, " 64"};
7'h41 : foobar = {foobar, " 65"};
7'h42 : foobar = {foobar, " 66"};
7'h43 : foobar = {foobar, " 67"};
7'h44 : foobar = {foobar, " 68"};
7'h45 : foobar = {foobar, " 69"};
7'h46 : foobar = {foobar, " 70"};
7'h47 : foobar = {foobar, " 71"};
7'h48 : foobar = {foobar, " 72"};
7'h49 : foobar = {foobar, " 73"};
7'h4a : foobar = {foobar, " 74"};
7'h4b : foobar = {foobar, " 75"};
7'h4c : foobar = {foobar, " 76"};
7'h4d : foobar = {foobar, " 77"};
7'h4e : foobar = {foobar, " 78"};
7'h4f : foobar = {foobar, " 79"};
7'h50 : foobar = {foobar, " 80"};
7'h51 : foobar = {foobar, " 81"};
7'h52 : foobar = {foobar, " 82"};
7'h53 : foobar = {foobar, " 83"};
7'h54 : foobar = {foobar, " 84"};
7'h55 : foobar = {foobar, " 85"};
7'h56 : foobar = {foobar, " 86"};
7'h57 : foobar = {foobar, " 87"};
7'h58 : foobar = {foobar, " 88"};
7'h59 : foobar = {foobar, " 89"};
7'h5a : foobar = {foobar, " 90"};
7'h5b : foobar = {foobar, " 91"};
7'h5c : foobar = {foobar, " 92"};
7'h5d : foobar = {foobar, " 93"};
7'h5e : foobar = {foobar, " 94"};
7'h5f : foobar = {foobar, " 95"};
7'h60 : foobar = {foobar, " 96"};
7'h61 : foobar = {foobar, " 97"};
7'h62 : foobar = {foobar, " 98"};
7'h63 : foobar = {foobar, " 99"};
7'h64 : foobar = {foobar, " 100"};
7'h65 : foobar = {foobar, " 101"};
7'h66 : foobar = {foobar, " 102"};
7'h67 : foobar = {foobar, " 103"};
7'h68 : foobar = {foobar, " 104"};
7'h69 : foobar = {foobar, " 105"};
7'h6a : foobar = {foobar, " 106"};
7'h6b : foobar = {foobar, " 107"};
7'h6c : foobar = {foobar, " 108"};
7'h6d : foobar = {foobar, " 109"};
7'h6e : foobar = {foobar, " 110"};
7'h6f : foobar = {foobar, " 111"};
7'h70 : foobar = {foobar, " 112"};
7'h71 : foobar = {foobar, " 113"};
7'h72 : foobar = {foobar, " 114"};
7'h73 : foobar = {foobar, " 115"};
7'h74 : foobar = {foobar, " 116"};
7'h75 : foobar = {foobar, " 117"};
7'h76 : foobar = {foobar, " 118"};
7'h77 : foobar = {foobar, " 119"};
7'h78 : foobar = {foobar, " 120"};
7'h79 : foobar = {foobar, " 121"};
7'h7a : foobar = {foobar, " 122"};
7'h7b : foobar = {foobar, " 123"};
7'h7c : foobar = {foobar, " 124"};
7'h7d : foobar = {foobar, " 125"};
7'h7e : foobar = {foobar, " 126"};
7'h7f : foobar = {foobar, " 127"};
default:foobar = {foobar, " 128"};
endcase
end
endtask
task ozonerb;
input [5:0] rb;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (rb[5:0])
6'h10,
6'h17,
6'h1e,
6'h1f: foobar = {foobar, " 129"};
default: ozonerab({1'b1, rb}, foobar);
endcase
end
endtask
task ozonef3f4_iext;
input [1:0] foo;
input [15:0] im16;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (foo)
2'h0 :
begin
skyway({4{im16[15]}}, foobar);
skyway({4{im16[15]}}, foobar);
skyway(im16[15:12], foobar);
skyway(im16[11: 8], foobar);
skyway(im16[ 7: 4], foobar);
skyway(im16[ 3:0], foobar);
foobar = {foobar, " 130"};
end
2'h1 :
begin
foobar = {foobar, " 131"};
skyway(im16[15:12], foobar);
skyway(im16[11: 8], foobar);
skyway(im16[ 7: 4], foobar);
skyway(im16[ 3:0], foobar);
end
2'h2 :
begin
skyway({4{im16[15]}}, foobar);
skyway({4{im16[15]}}, foobar);
skyway(im16[15:12], foobar);
skyway(im16[11: 8], foobar);
skyway(im16[ 7: 4], foobar);
skyway(im16[ 3:0], foobar);
foobar = {foobar, " 132"};
end
2'h3 :
begin
foobar = {foobar, " 133"};
skyway(im16[15:12], foobar);
skyway(im16[11: 8], foobar);
skyway(im16[ 7: 4], foobar);
skyway(im16[ 3:0], foobar);
end
endcase
end
endtask
task skyway;
input [ 3:0] hex;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (hex)
4'h0 : foobar = {foobar, " 134"};
4'h1 : foobar = {foobar, " 135"};
4'h2 : foobar = {foobar, " 136"};
4'h3 : foobar = {foobar, " 137"};
4'h4 : foobar = {foobar, " 138"};
4'h5 : foobar = {foobar, " 139"};
4'h6 : foobar = {foobar, " 140"};
4'h7 : foobar = {foobar, " 141"};
4'h8 : foobar = {foobar, " 142"};
4'h9 : foobar = {foobar, " 143"};
4'ha : foobar = {foobar, " 144"};
4'hb : foobar = {foobar, " 145"};
4'hc : foobar = {foobar, " 146"};
4'hd : foobar = {foobar, " 147"};
4'he : foobar = {foobar, " 148"};
4'hf : foobar = {foobar, " 149"};
endcase
end
endtask
task ozonesr;
input [ 15:0] foo;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (foo[11: 9])
3'h0 : foobar = {foobar, " 158"};
3'h1 : foobar = {foobar, " 159"};
3'h2 : foobar = {foobar, " 160"};
3'h3 : foobar = {foobar, " 161"};
3'h4 : foobar = {foobar, " 162"};
3'h5 : foobar = {foobar, " 163"};
3'h6 : foobar = {foobar, " 164"};
3'h7 : foobar = {foobar, " 165"};
endcase
end
endtask
task ozonejk;
input k;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
if (k)
foobar = {foobar, " 166"};
else
foobar = {foobar, " 167"};
end
endtask
task ozoneae;
input [ 2:0] ae;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (ae)
3'b000 : foobar = {foobar, " 168"};
3'b001 : foobar = {foobar, " 169"};
3'b010 : foobar = {foobar, " 170"};
3'b011 : foobar = {foobar, " 171"};
3'b100 : foobar = {foobar, " 172"};
3'b101 : foobar = {foobar, " 173"};
3'b110 : foobar = {foobar, " 174"};
3'b111 : foobar = {foobar, " 175"};
endcase
end
endtask
task ozoneaee;
input [ 2:0] aee;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (aee)
3'b001,
3'b011,
3'b101,
3'b111 : foobar = {foobar, " 176"};
3'b000 : foobar = {foobar, " 177"};
3'b010 : foobar = {foobar, " 178"};
3'b100 : foobar = {foobar, " 179"};
3'b110 : foobar = {foobar, " 180"};
endcase
end
endtask
task ozoneape;
input [ 2:0] ape;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (ape)
3'b001,
3'b011,
3'b101,
3'b111 : foobar = {foobar, " 181"};
3'b000 : foobar = {foobar, " 182"};
3'b010 : foobar = {foobar, " 183"};
3'b100 : foobar = {foobar, " 184"};
3'b110 : foobar = {foobar, " 185"};
endcase
end
endtask
task ozonef1;
input [ 31:0] foo;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (foo[24:21])
4'h0 :
if (foo[26])
foobar = {foobar, " 186"};
else
foobar = {foobar, " 187"};
4'h1 :
case (foo[26:25])
2'b00 : foobar = {foobar, " 188"};
2'b01 : foobar = {foobar, " 189"};
2'b10 : foobar = {foobar, " 190"};
2'b11 : foobar = {foobar, " 191"};
endcase
4'h2 : foobar = {foobar, " 192"};
4'h3 :
case (foo[26:25])
2'b00 : foobar = {foobar, " 193"};
2'b01 : foobar = {foobar, " 194"};
2'b10 : foobar = {foobar, " 195"};
2'b11 : foobar = {foobar, " 196"};
endcase
4'h4 :
if (foo[26])
foobar = {foobar, " 197"};
else
foobar = {foobar, " 198"};
4'h5 :
case (foo[26:25])
2'b00 : foobar = {foobar, " 199"};
2'b01 : foobar = {foobar, " 200"};
2'b10 : foobar = {foobar, " 201"};
2'b11 : foobar = {foobar, " 202"};
endcase
4'h6 : foobar = {foobar, " 203"};
4'h7 :
case (foo[26:25])
2'b00 : foobar = {foobar, " 204"};
2'b01 : foobar = {foobar, " 205"};
2'b10 : foobar = {foobar, " 206"};
2'b11 : foobar = {foobar, " 207"};
endcase
4'h8 :
case (foo[26:25])
2'b00 : foobar = {foobar, " 208"};
2'b01 : foobar = {foobar, " 209"};
2'b10 : foobar = {foobar, " 210"};
2'b11 : foobar = {foobar, " 211"};
endcase
4'h9 :
case (foo[26:25])
2'b00 : foobar = {foobar, " 212"};
2'b01 : foobar = {foobar, " 213"};
2'b10 : foobar = {foobar, " 214"};
2'b11 : foobar = {foobar, " 215"};
endcase
4'ha :
if (foo[25])
foobar = {foobar, " 216"};
else
foobar = {foobar, " 217"};
4'hb :
if (foo[25])
foobar = {foobar, " 218"};
else
foobar = {foobar, " 219"};
4'hc :
if (foo[26])
foobar = {foobar, " 220"};
else
foobar = {foobar, " 221"};
4'hd :
case (foo[26:25])
2'b00 : foobar = {foobar, " 222"};
2'b01 : foobar = {foobar, " 223"};
2'b10 : foobar = {foobar, " 224"};
2'b11 : foobar = {foobar, " 225"};
endcase
4'he :
case (foo[26:25])
2'b00 : foobar = {foobar, " 226"};
2'b01 : foobar = {foobar, " 227"};
2'b10 : foobar = {foobar, " 228"};
2'b11 : foobar = {foobar, " 229"};
endcase
4'hf :
case (foo[26:25])
2'b00 : foobar = {foobar, " 230"};
2'b01 : foobar = {foobar, " 231"};
2'b10 : foobar = {foobar, " 232"};
2'b11 : foobar = {foobar, " 233"};
endcase
endcase
end
endtask
task ozonef1e;
input [ 31:0] foo;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (foo[27:21])
7'h00:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 234"};
foobar = {foobar, " 235"};
end
7'h01:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 236"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 237"};
foobar = {foobar, " 238"};
end
7'h02:
foobar = {foobar, " 239"};
7'h03:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 240"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 241"};
foobar = {foobar, " 242"};
end
7'h04:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 243"};
foobar = {foobar," 244"};
end
7'h05:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 245"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 246"};
end
7'h06:
foobar = {foobar, " 247"};
7'h07:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 248"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 249"};
end
7'h08:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 250"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 251"};
end
7'h09:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 252"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 253"};
end
7'h0a:
begin
ozoneae(foo[17:15], foobar);
foobar = {foobar," 254"};
end
7'h0b:
begin
ozoneae(foo[17:15], foobar);
foobar = {foobar," 255"};
end
7'h0c:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 256"};
end
7'h0d:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 257"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 258"};
end
7'h0e:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 259"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 260"};
end
7'h0f:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 261"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 262"};
end
7'h10:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 263"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 264"};
foobar = {foobar, " 265"};
foobar = {foobar, " 266"};
end
7'h11:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 267"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 268"};
foobar = {foobar, " 269"};
foobar = {foobar, " 270"};
end
7'h12:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 271"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 272"};
foobar = {foobar, " 273"};
foobar = {foobar, " 274"};
end
7'h13:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 275"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 276"};
foobar = {foobar, " 277"};
foobar = {foobar, " 278"};
end
7'h14:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 279"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 280"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 281"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 282"};
foobar = {foobar, " 283"};
foobar = {foobar, " 284"};
end
7'h15:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 285"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 286"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 287"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 288"};
foobar = {foobar, " 289"};
foobar = {foobar, " 290"};
end
7'h16:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 291"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 292"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 293"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 294"};
foobar = {foobar, " 295"};
foobar = {foobar, " 296"};
end
7'h17:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 297"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 298"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 299"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 300"};
foobar = {foobar, " 301"};
foobar = {foobar, " 302"};
end
7'h18:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 303"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 304"};
foobar = {foobar, " 305"};
foobar = {foobar, " 306"};
end
7'h19:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 307"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 308"};
foobar = {foobar, " 309"};
foobar = {foobar, " 310"};
end
7'h1a:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 311"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 312"};
foobar = {foobar, " 313"};
foobar = {foobar, " 314"};
end
7'h1b:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 315"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 316"};
foobar = {foobar, " 317"};
foobar = {foobar, " 318"};
end
7'h1c:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 319"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 320"};
foobar = {foobar, " 321"};
foobar = {foobar, " 322"};
end
7'h1d:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 323"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 324"};
foobar = {foobar, " 325"};
foobar = {foobar, " 326"};
end
7'h1e:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 327"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 328"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 329"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 330"};
foobar = {foobar, " 331"};
foobar = {foobar, " 332"};
end
7'h1f:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 333"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 334"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 335"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 336"};
foobar = {foobar, " 337"};
foobar = {foobar, " 338"};
end
7'h20:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 339"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 340"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 341"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 342"};
foobar = {foobar, " 343"};
foobar = {foobar, " 344"};
end
7'h21:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 345"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 346"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 347"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 348"};
foobar = {foobar, " 349"};
foobar = {foobar, " 350"};
end
7'h22:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 351"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 352"};
foobar = {foobar, " 353"};
foobar = {foobar, " 354"};
end
7'h23:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 355"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 356"};
foobar = {foobar, " 357"};
foobar = {foobar, " 358"};
end
7'h24:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 359"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 360"};
foobar = {foobar, " 361"};
foobar = {foobar, " 362"};
end
7'h25:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 363"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 364"};
foobar = {foobar, " 365"};
foobar = {foobar, " 366"};
end
7'h26:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 367"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 368"};
foobar = {foobar, " 369"};
foobar = {foobar, " 370"};
end
7'h27:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 371"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 372"};
foobar = {foobar, " 373"};
foobar = {foobar, " 374"};
end
7'h28:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 375"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 376"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 377"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 378"};
foobar = {foobar, " 379"};
foobar = {foobar, " 380"};
end
7'h29:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 381"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 382"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 383"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 384"};
foobar = {foobar, " 385"};
foobar = {foobar, " 386"};
end
7'h2a:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 387"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 388"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 389"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 390"};
foobar = {foobar, " 391"};
foobar = {foobar, " 392"};
end
7'h2b:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 393"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 394"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 395"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 396"};
foobar = {foobar, " 397"};
foobar = {foobar, " 398"};
end
7'h2c:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 399"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 400"};
foobar = {foobar, " 401"};
foobar = {foobar, " 402"};
end
7'h2d:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 403"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 404"};
foobar = {foobar, " 405"};
foobar = {foobar, " 406"};
end
7'h2e:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 407"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 408"};
foobar = {foobar, " 409"};
foobar = {foobar, " 410"};
end
7'h2f:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 411"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 412"};
foobar = {foobar, " 413"};
foobar = {foobar, " 414"};
end
7'h30:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 415"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 416"};
foobar = {foobar, " 417"};
foobar = {foobar, " 418"};
end
7'h31:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 419"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 420"};
foobar = {foobar, " 421"};
foobar = {foobar, " 422"};
end
7'h32:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 423"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 424"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 425"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 426"};
foobar = {foobar, " 427"};
foobar = {foobar, " 428"};
end
7'h33:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 429"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 430"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 431"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 432"};
foobar = {foobar, " 433"};
foobar = {foobar, " 434"};
end
7'h34:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 435"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 436"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 437"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 438"};
foobar = {foobar, " 439"};
foobar = {foobar, " 440"};
end
7'h35:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 441"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 442"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 443"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 444"};
foobar = {foobar, " 445"};
foobar = {foobar, " 446"};
end
7'h36:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 447"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 448"};
foobar = {foobar, " 449"};
foobar = {foobar, " 450"};
end
7'h37:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 451"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 452"};
foobar = {foobar, " 453"};
foobar = {foobar, " 454"};
end
7'h38:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 455"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 456"};
foobar = {foobar, " 457"};
end
7'h39:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 458"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 459"};
foobar = {foobar, " 460"};
end
7'h3a:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 461"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 462"};
foobar = {foobar, " 463"};
end
7'h3b:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 464"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 465"};
foobar = {foobar, " 466"};
end
7'h3c:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 467"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 468"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 469"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 470"};
foobar = {foobar, " 471"};
end
7'h3d:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 472"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 473"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 474"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 475"};
foobar = {foobar, " 476"};
end
7'h3e:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 477"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 478"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 479"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 480"};
foobar = {foobar, " 481"};
end
7'h3f:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 482"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 483"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 484"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 485"};
foobar = {foobar, " 486"};
end
7'h40:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 487"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 488"};
foobar = {foobar, " 489"};
foobar = {foobar, " 490"};
end
7'h41:
begin
foobar = {foobar, " 491"};
foobar = {foobar, " 492"};
end
7'h42:
begin
foobar = {foobar, " 493"};
foobar = {foobar, " 494"};
end
7'h43:
begin
foobar = {foobar, " 495"};
foobar = {foobar, " 496"};
end
7'h44:
begin
foobar = {foobar, " 497"};
foobar = {foobar, " 498"};
end
7'h45:
foobar = {foobar, " 499"};
7'h46:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 500"};
foobar = {foobar, " 501"};
foobar = {foobar, " 502"};
end
7'h47:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 503"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 504"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 505"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 506"};
foobar = {foobar, " 507"};
foobar = {foobar, " 508"};
end
7'h48:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 509"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 510"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 511"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 512"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 513"};
end
7'h49:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 514"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 515"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 516"};
end
7'h4a:
foobar = {foobar," 517"};
7'h4b:
foobar = {foobar, " 518"};
7'h4c:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 519"};
foobar = {foobar, " 520"};
foobar = {foobar, " 521"};
end
7'h4d:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 522"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 523"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 524"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 525"};
foobar = {foobar, " 526"};
foobar = {foobar, " 527"};
end
7'h4e:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 528"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 529"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 530"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 531"};
end
7'h4f:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 532"};
end
7'h50:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 533"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 534"};
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 535"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 536"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 537"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 538"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 539"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 540"};
end
7'h51:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 541"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 542"};
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 543"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 544"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 545"};
end
7'h52:
foobar = {foobar, " 546"};
7'h53:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar, " 547"};
end
7'h54:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 548"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 549"};
end
7'h55:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 550"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 551"};
end
7'h56:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 552"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 553"};
foobar = {foobar, " 554"};
end
7'h57:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 555"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 556"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 557"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 558"};
end
7'h58:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar, " 559"};
end
7'h59:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 560"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 561"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 562"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 563"};
end
7'h5a:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 564"};
ozoneae(foo[17:15], foobar);
foobar = {foobar, " 565"};
end
7'h5b:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 566"};
ozoneae(foo[17:15], foobar);
foobar = {foobar, " 567"};
end
7'h5c:
begin
foobar = {foobar," 568"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 569"};
foobar = {foobar," 570"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 571"};
ozoneae(foo[20:18], foobar);
foobar = {foobar," 572"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar, " 573"};
end
7'h5d:
begin
foobar = {foobar," 574"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 575"};
foobar = {foobar," 576"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 577"};
ozoneae(foo[20:18], foobar);
foobar = {foobar," 578"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar, " 579"};
end
7'h5e:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 580"};
ozoneae(foo[17:15], foobar);
foobar = {foobar, " 581"};
end
7'h5f:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 582"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 583"};
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 584"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 585"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 586"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 587"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 588"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 589"};
end
7'h60:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 590"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 591"};
end
7'h61:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 592"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 593"};
end
7'h62:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 594"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 595"};
end
7'h63:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 596"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 597"};
end
7'h64:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 598"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 599"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 600"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 601"};
end
7'h65:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 602"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 603"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 604"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 605"};
end
7'h66:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 606"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 607"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 608"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 609"};
end
7'h67:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 610"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 611"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 612"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 613"};
end
7'h68:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 614"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 615"};
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 616"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 617"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 618"};
ozoneape(foo[17:15], foobar);
end
7'h69:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 619"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 620"};
ozoneae(foo[20:18], foobar);
foobar = {foobar," 621"};
end
7'h6a:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 622"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 623"};
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 624"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 625"};
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 626"};
ozoneae(foo[17:15], foobar);
end
7'h6b:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 627"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 628"};
ozoneae(foo[20:18], foobar);
foobar = {foobar," 629"};
end
7'h6c:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 630"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 631"};
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 632"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 633"};
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 634"};
ozoneae(foo[17:15], foobar);
end
7'h6d:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 635"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 636"};
ozoneae(foo[20:18], foobar);
foobar = {foobar," 637"};
end
7'h6e:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 638"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 639"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 640"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 641"};
end
7'h6f:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 642"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 643"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 644"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 645"};
end
7'h70:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 646"};
ozoneae(foo[20:18], foobar);
foobar = {foobar," 647"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 648"};
ozoneae(foo[17:15], foobar);
foobar = {foobar, " 649"};
end
7'h71:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 650"};
ozoneae(foo[17:15], foobar);
foobar = {foobar, " 651"};
end
7'h72:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 652"};
ozoneae(foo[17:15], foobar);
foobar = {foobar, " 653"};
end
7'h73:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 654"};
ozoneae(foo[20:18], foobar);
foobar = {foobar," 655"};
ozoneae(foo[17:15], foobar);
end
7'h74:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 656"};
ozoneae(foo[20:18], foobar);
foobar = {foobar," 657"};
ozoneae(foo[17:15], foobar);
end
7'h75:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 658"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 659"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 660"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 661"};
foobar = {foobar, " 662"};
foobar = {foobar, " 663"};
end
7'h76:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 664"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 665"};
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 666"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 667"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 668"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 669"};
end
7'h77:
begin
ozoneaee(foo[20:18], foobar);
foobar = {foobar," 670"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 671"};
ozoneaee(foo[17:15], foobar);
foobar = {foobar," 672"};
ozoneape(foo[20:18], foobar);
foobar = {foobar," 673"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 674"};
ozoneape(foo[17:15], foobar);
foobar = {foobar," 675"};
end
7'h78,
7'h79,
7'h7a,
7'h7b,
7'h7c,
7'h7d,
7'h7e,
7'h7f:
foobar = {foobar," 676"};
endcase
end
endtask
task ozonef2;
input [ 31:0] foo;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (foo[24:21])
4'h0 :
case (foo[26:25])
2'b00 : foobar = {foobar," 677"};
2'b01 : foobar = {foobar," 678"};
2'b10 : foobar = {foobar," 679"};
2'b11 : foobar = {foobar," 680"};
endcase
4'h1 :
case (foo[26:25])
2'b00 : foobar = {foobar," 681"};
2'b01 : foobar = {foobar," 682"};
2'b10 : foobar = {foobar," 683"};
2'b11 : foobar = {foobar," 684"};
endcase
4'h2 :
case (foo[26:25])
2'b00 : foobar = {foobar," 685"};
2'b01 : foobar = {foobar," 686"};
2'b10 : foobar = {foobar," 687"};
2'b11 : foobar = {foobar," 688"};
endcase
4'h3 :
case (foo[26:25])
2'b00 : foobar = {foobar," 689"};
2'b01 : foobar = {foobar," 690"};
2'b10 : foobar = {foobar," 691"};
2'b11 : foobar = {foobar," 692"};
endcase
4'h4 :
case (foo[26:25])
2'b00 : foobar = {foobar," 693"};
2'b01 : foobar = {foobar," 694"};
2'b10 : foobar = {foobar," 695"};
2'b11 : foobar = {foobar," 696"};
endcase
4'h5 :
case (foo[26:25])
2'b00 : foobar = {foobar," 697"};
2'b01 : foobar = {foobar," 698"};
2'b10 : foobar = {foobar," 699"};
2'b11 : foobar = {foobar," 700"};
endcase
4'h6 :
case (foo[26:25])
2'b00 : foobar = {foobar," 701"};
2'b01 : foobar = {foobar," 702"};
2'b10 : foobar = {foobar," 703"};
2'b11 : foobar = {foobar," 704"};
endcase
4'h7 :
case (foo[26:25])
2'b00 : foobar = {foobar," 705"};
2'b01 : foobar = {foobar," 706"};
2'b10 : foobar = {foobar," 707"};
2'b11 : foobar = {foobar," 708"};
endcase
4'h8 :
if (foo[26])
foobar = {foobar," 709"};
else
foobar = {foobar," 710"};
4'h9 :
case (foo[26:25])
2'b00 : foobar = {foobar," 711"};
2'b01 : foobar = {foobar," 712"};
2'b10 : foobar = {foobar," 713"};
2'b11 : foobar = {foobar," 714"};
endcase
4'ha :
case (foo[26:25])
2'b00 : foobar = {foobar," 715"};
2'b01 : foobar = {foobar," 716"};
2'b10 : foobar = {foobar," 717"};
2'b11 : foobar = {foobar," 718"};
endcase
4'hb :
case (foo[26:25])
2'b00 : foobar = {foobar," 719"};
2'b01 : foobar = {foobar," 720"};
2'b10 : foobar = {foobar," 721"};
2'b11 : foobar = {foobar," 722"};
endcase
4'hc :
if (foo[26])
foobar = {foobar," 723"};
else
foobar = {foobar," 724"};
4'hd :
case (foo[26:25])
2'b00 : foobar = {foobar," 725"};
2'b01 : foobar = {foobar," 726"};
2'b10 : foobar = {foobar," 727"};
2'b11 : foobar = {foobar," 728"};
endcase
4'he :
case (foo[26:25])
2'b00 : foobar = {foobar," 729"};
2'b01 : foobar = {foobar," 730"};
2'b10 : foobar = {foobar," 731"};
2'b11 : foobar = {foobar," 732"};
endcase
4'hf :
case (foo[26:25])
2'b00 : foobar = {foobar," 733"};
2'b01 : foobar = {foobar," 734"};
2'b10 : foobar = {foobar," 735"};
2'b11 : foobar = {foobar," 736"};
endcase
endcase
end
endtask
task ozonef2e;
input [ 31:0] foo;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
casez (foo[25:21])
5'h00 :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 737"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 738"};
end
5'h01 :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 739"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 740"};
end
5'h02 :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 741"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 742"};
end
5'h03 :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 743"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 744"};
end
5'h04 :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 745"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 746"};
end
5'h05 :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 747"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 748"};
end
5'h06 :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 749"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 750"};
end
5'h07 :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 751"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 752"};
end
5'h08 :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 753"};
if (foo[ 6])
foobar = {foobar," 754"};
else
foobar = {foobar," 755"};
end
5'h09 :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 756"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 757"};
end
5'h0a :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 758"};
ozoneae(foo[17:15], foobar);
end
5'h0b :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 759"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 760"};
end
5'h0c :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 761"};
end
5'h0d :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 762"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 763"};
end
5'h0e :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 764"};
ozoneae(foo[17:15], foobar);
end
5'h0f :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 765"};
ozoneae(foo[17:15], foobar);
end
5'h10 :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 766"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 767"};
end
5'h11 :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 768"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 769"};
end
5'h18 :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 770"};
if (foo[ 6])
foobar = {foobar," 771"};
else
foobar = {foobar," 772"};
end
5'h1a :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 773"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 774"};
end
5'h1b :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 775"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 776"};
if (foo[ 6])
foobar = {foobar," 777"};
else
foobar = {foobar," 778"};
foobar = {foobar," 779"};
end
5'h1c :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 780"};
end
5'h1d :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 781"};
if (foo[ 6])
foobar = {foobar," 782"};
else
foobar = {foobar," 783"};
foobar = {foobar," 784"};
end
5'h1e :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 785"};
if (foo[ 6])
foobar = {foobar," 786"};
else
foobar = {foobar," 787"};
foobar = {foobar," 788"};
end
5'h1f :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 789"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 790"};
if (foo[ 6])
foobar = {foobar," 791"};
else
foobar = {foobar," 792"};
foobar = {foobar," 793"};
end
default :
foobar = {foobar," 794"};
endcase
end
endtask
task ozonef3e;
input [ 31:0] foo;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (foo[25:21])
5'h00,
5'h01,
5'h02:
begin
ozoneae(foo[20:18], foobar);
case (foo[22:21])
2'h0: foobar = {foobar," 795"};
2'h1: foobar = {foobar," 796"};
2'h2: foobar = {foobar," 797"};
endcase
ozoneae(foo[17:15], foobar);
foobar = {foobar," 798"};
if (foo[ 9])
ozoneae(foo[ 8: 6], foobar);
else
ozonef3e_te(foo[ 8: 6], foobar);
foobar = {foobar," 799"};
end
5'h08,
5'h09,
5'h0d,
5'h0e,
5'h0f:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 800"};
ozoneae(foo[17:15], foobar);
case (foo[23:21])
3'h0: foobar = {foobar," 801"};
3'h1: foobar = {foobar," 802"};
3'h5: foobar = {foobar," 803"};
3'h6: foobar = {foobar," 804"};
3'h7: foobar = {foobar," 805"};
endcase
if (foo[ 9])
ozoneae(foo[ 8: 6], foobar);
else
ozonef3e_te(foo[ 8: 6], foobar);
end
5'h0a,
5'h0b:
begin
ozoneae(foo[17:15], foobar);
if (foo[21])
foobar = {foobar," 806"};
else
foobar = {foobar," 807"};
if (foo[ 9])
ozoneae(foo[ 8: 6], foobar);
else
ozonef3e_te(foo[ 8: 6], foobar);
end
5'h0c:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 808"};
if (foo[ 9])
ozoneae(foo[ 8: 6], foobar);
else
ozonef3e_te(foo[ 8: 6], foobar);
foobar = {foobar," 809"};
ozoneae(foo[17:15], foobar);
end
5'h10,
5'h11,
5'h12,
5'h13:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 810"};
ozoneae(foo[17:15], foobar);
case (foo[22:21])
2'h0,
2'h2:
foobar = {foobar," 811"};
2'h1,
2'h3:
foobar = {foobar," 812"};
endcase
ozoneae(foo[ 8: 6], foobar);
foobar = {foobar," 813"};
ozoneae((foo[20:18]+1), foobar);
foobar = {foobar," 814"};
ozoneae((foo[17:15]+1), foobar);
case (foo[22:21])
2'h0,
2'h3:
foobar = {foobar," 815"};
2'h1,
2'h2:
foobar = {foobar," 816"};
endcase
ozoneae((foo[ 8: 6]+1), foobar);
end
5'h18:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar," 817"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 818"};
ozoneae(foo[ 8: 6], foobar);
foobar = {foobar," 819"};
ozoneae(foo[20:18], foobar);
foobar = {foobar," 820"};
ozoneae(foo[17:15], foobar);
foobar = {foobar," 821"};
ozoneae(foo[ 8: 6], foobar);
end
default :
foobar = {foobar," 822"};
endcase
end
endtask
task ozonef3e_te;
input [ 2:0] te;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (te)
3'b100 : foobar = {foobar, " 823"};
3'b101 : foobar = {foobar, " 824"};
3'b110 : foobar = {foobar, " 825"};
default: foobar = {foobar, " 826"};
endcase
end
endtask
task ozonearm;
input [ 2:0] ate;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (ate)
3'b000 : foobar = {foobar, " 827"};
3'b001 : foobar = {foobar, " 828"};
3'b010 : foobar = {foobar, " 829"};
3'b011 : foobar = {foobar, " 830"};
3'b100 : foobar = {foobar, " 831"};
3'b101 : foobar = {foobar, " 832"};
3'b110 : foobar = {foobar, " 833"};
3'b111 : foobar = {foobar, " 834"};
endcase
end
endtask
task ozonebmuop;
input [ 4:0] f4;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (f4[ 4:0])
5'h00,
5'h04 :
foobar = {foobar, " 835"};
5'h01,
5'h05 :
foobar = {foobar, " 836"};
5'h02,
5'h06 :
foobar = {foobar, " 837"};
5'h03,
5'h07 :
foobar = {foobar, " 838"};
5'h08,
5'h18 :
foobar = {foobar, " 839"};
5'h09,
5'h19 :
foobar = {foobar, " 840"};
5'h0a,
5'h1a :
foobar = {foobar, " 841"};
5'h0b :
foobar = {foobar, " 842"};
5'h1b :
foobar = {foobar, " 843"};
5'h0c,
5'h1c :
foobar = {foobar, " 844"};
5'h0d,
5'h1d :
foobar = {foobar, " 845"};
5'h1e :
foobar = {foobar, " 846"};
endcase
end
endtask
task ozonef3;
input [ 31:0] foo;
inout [STRLEN*8: 1] foobar;
reg nacho;
// verilator no_inline_task
begin : f3_body
nacho = 1'b0;
case (foo[24:21])
4'h0:
case (foo[26:25])
2'b00 : foobar = {foobar, " 847"};
2'b01 : foobar = {foobar, " 848"};
2'b10 : foobar = {foobar, " 849"};
2'b11 : foobar = {foobar, " 850"};
endcase
4'h1:
case (foo[26:25])
2'b00 : foobar = {foobar, " 851"};
2'b01 : foobar = {foobar, " 852"};
2'b10 : foobar = {foobar, " 853"};
2'b11 : foobar = {foobar, " 854"};
endcase
4'h2:
case (foo[26:25])
2'b00 : foobar = {foobar, " 855"};
2'b01 : foobar = {foobar, " 856"};
2'b10 : foobar = {foobar, " 857"};
2'b11 : foobar = {foobar, " 858"};
endcase
4'h8,
4'h9,
4'hd,
4'he,
4'hf :
case (foo[26:25])
2'b00 : foobar = {foobar, " 859"};
2'b01 : foobar = {foobar, " 860"};
2'b10 : foobar = {foobar, " 861"};
2'b11 : foobar = {foobar, " 862"};
endcase
4'ha,
4'hb :
if (foo[25])
foobar = {foobar, " 863"};
else
foobar = {foobar, " 864"};
4'hc :
if (foo[26])
foobar = {foobar, " 865"};
else
foobar = {foobar, " 866"};
default :
begin
foobar = {foobar, " 867"};
nacho = 1'b1;
end
endcase
if (~nacho)
begin
case (foo[24:21])
4'h8 :
foobar = {foobar, " 868"};
4'h9 :
foobar = {foobar, " 869"};
4'ha,
4'he :
foobar = {foobar, " 870"};
4'hb,
4'hf :
foobar = {foobar, " 871"};
4'hd :
foobar = {foobar, " 872"};
endcase
if (foo[20])
case (foo[18:16])
3'b000 : foobar = {foobar, " 873"};
3'b100 : foobar = {foobar, " 874"};
default: foobar = {foobar, " 875"};
endcase
else
ozoneae(foo[18:16], foobar);
if (foo[24:21] === 4'hc)
if (foo[25])
foobar = {foobar, " 876"};
else
foobar = {foobar, " 877"};
case (foo[24:21])
4'h0,
4'h1,
4'h2:
foobar = {foobar, " 878"};
endcase
end
end
endtask
task ozonerx;
input [ 31:0] foo;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (foo[19:18])
2'h0 : foobar = {foobar, " 879"};
2'h1 : foobar = {foobar, " 880"};
2'h2 : foobar = {foobar, " 881"};
2'h3 : foobar = {foobar, " 882"};
endcase
case (foo[17:16])
2'h1 : foobar = {foobar, " 883"};
2'h2 : foobar = {foobar, " 884"};
2'h3 : foobar = {foobar, " 885"};
endcase
end
endtask
task ozonerme;
input [ 2:0] rme;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (rme)
3'h0 : foobar = {foobar, " 886"};
3'h1 : foobar = {foobar, " 887"};
3'h2 : foobar = {foobar, " 888"};
3'h3 : foobar = {foobar, " 889"};
3'h4 : foobar = {foobar, " 890"};
3'h5 : foobar = {foobar, " 891"};
3'h6 : foobar = {foobar, " 892"};
3'h7 : foobar = {foobar, " 893"};
endcase
end
endtask
task ozoneye;
input [5:0] ye;
input l;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
foobar = {foobar, " 894"};
ozonerme(ye[5:3],foobar);
case ({ye[ 2:0], l})
4'h2,
4'ha: foobar = {foobar, " 895"};
4'h4,
4'hb: foobar = {foobar, " 896"};
4'h6,
4'he: foobar = {foobar, " 897"};
4'h8,
4'hc: foobar = {foobar, " 898"};
endcase
end
endtask
task ozonef1e_ye;
input [5:0] ye;
input l;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
foobar = {foobar, " 899"};
ozonerme(ye[5:3],foobar);
ozonef1e_inc_dec(ye[5:0], l ,foobar);
end
endtask
task ozonef1e_h;
input [ 2:0] e;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
if (e[ 2:0] <= 3'h4)
foobar = {foobar, " 900"};
end
endtask
task ozonef1e_inc_dec;
input [5:0] ye;
input l;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case ({ye[ 2:0], l})
4'h2,
4'h3,
4'ha: foobar = {foobar, " 901"};
4'h4,
4'h5,
4'hb: foobar = {foobar, " 902"};
4'h6,
4'h7,
4'he: foobar = {foobar, " 903"};
4'h8,
4'h9,
4'hc: foobar = {foobar, " 904"};
4'hf: foobar = {foobar, " 905"};
endcase
end
endtask
task ozonef1e_hl;
input [ 2:0] e;
input l;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case ({e[ 2:0], l})
4'h0,
4'h2,
4'h4,
4'h6,
4'h8: foobar = {foobar, " 906"};
4'h1,
4'h3,
4'h5,
4'h7,
4'h9: foobar = {foobar, " 907"};
endcase
end
endtask
task ozonexe;
input [ 3:0] xe;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (xe[3])
1'b0 : foobar = {foobar, " 908"};
1'b1 : foobar = {foobar, " 909"};
endcase
case (xe[ 2:0])
3'h1,
3'h5: foobar = {foobar, " 910"};
3'h2,
3'h6: foobar = {foobar, " 911"};
3'h3,
3'h7: foobar = {foobar, " 912"};
3'h4: foobar = {foobar, " 913"};
endcase
end
endtask
task ozonerp;
input [ 2:0] rp;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (rp)
3'h0 : foobar = {foobar, " 914"};
3'h1 : foobar = {foobar, " 915"};
3'h2 : foobar = {foobar, " 916"};
3'h3 : foobar = {foobar, " 917"};
3'h4 : foobar = {foobar, " 918"};
3'h5 : foobar = {foobar, " 919"};
3'h6 : foobar = {foobar, " 920"};
3'h7 : foobar = {foobar, " 921"};
endcase
end
endtask
task ozonery;
input [ 3:0] ry;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (ry)
4'h0 : foobar = {foobar, " 922"};
4'h1 : foobar = {foobar, " 923"};
4'h2 : foobar = {foobar, " 924"};
4'h3 : foobar = {foobar, " 925"};
4'h4 : foobar = {foobar, " 926"};
4'h5 : foobar = {foobar, " 927"};
4'h6 : foobar = {foobar, " 928"};
4'h7 : foobar = {foobar, " 929"};
4'h8 : foobar = {foobar, " 930"};
4'h9 : foobar = {foobar, " 931"};
4'ha : foobar = {foobar, " 932"};
4'hb : foobar = {foobar, " 933"};
4'hc : foobar = {foobar, " 934"};
4'hd : foobar = {foobar, " 935"};
4'he : foobar = {foobar, " 936"};
4'hf : foobar = {foobar, " 937"};
endcase
end
endtask
task ozonearx;
input [ 15:0] foo;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (foo[1:0])
2'h0 : foobar = {foobar, " 938"};
2'h1 : foobar = {foobar, " 939"};
2'h2 : foobar = {foobar, " 940"};
2'h3 : foobar = {foobar, " 941"};
endcase
end
endtask
task ozonef3f4imop;
input [ 4:0] f3f4iml;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
casez (f3f4iml)
5'b000??: foobar = {foobar, " 942"};
5'b001??: foobar = {foobar, " 943"};
5'b?10??: foobar = {foobar, " 944"};
5'b0110?: foobar = {foobar, " 945"};
5'b01110: foobar = {foobar, " 946"};
5'b01111: foobar = {foobar, " 947"};
5'b10???: foobar = {foobar, " 948"};
5'b11100: foobar = {foobar, " 949"};
5'b11101: foobar = {foobar, " 950"};
5'b11110: foobar = {foobar, " 951"};
5'b11111: foobar = {foobar, " 952"};
endcase
end
endtask
task ozonecon;
input [ 4:0] con;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (con)
5'h00 : foobar = {foobar, " 953"};
5'h01 : foobar = {foobar, " 954"};
5'h02 : foobar = {foobar, " 955"};
5'h03 : foobar = {foobar, " 956"};
5'h04 : foobar = {foobar, " 957"};
5'h05 : foobar = {foobar, " 958"};
5'h06 : foobar = {foobar, " 959"};
5'h07 : foobar = {foobar, " 960"};
5'h08 : foobar = {foobar, " 961"};
5'h09 : foobar = {foobar, " 962"};
5'h0a : foobar = {foobar, " 963"};
5'h0b : foobar = {foobar, " 964"};
5'h0c : foobar = {foobar, " 965"};
5'h0d : foobar = {foobar, " 966"};
5'h0e : foobar = {foobar, " 967"};
5'h0f : foobar = {foobar, " 968"};
5'h10 : foobar = {foobar, " 969"};
5'h11 : foobar = {foobar, " 970"};
5'h12 : foobar = {foobar, " 971"};
5'h13 : foobar = {foobar, " 972"};
5'h14 : foobar = {foobar, " 973"};
5'h15 : foobar = {foobar, " 974"};
5'h16 : foobar = {foobar, " 975"};
5'h17 : foobar = {foobar, " 976"};
5'h18 : foobar = {foobar, " 977"};
5'h19 : foobar = {foobar, " 978"};
5'h1a : foobar = {foobar, " 979"};
5'h1b : foobar = {foobar, " 980"};
5'h1c : foobar = {foobar, " 981"};
5'h1d : foobar = {foobar, " 982"};
5'h1e : foobar = {foobar, " 983"};
5'h1f : foobar = {foobar, " 984"};
endcase
end
endtask
task ozonedr;
input [ 15:0] foo;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (foo[ 9: 6])
4'h0 : foobar = {foobar, " 985"};
4'h1 : foobar = {foobar, " 986"};
4'h2 : foobar = {foobar, " 987"};
4'h3 : foobar = {foobar, " 988"};
4'h4 : foobar = {foobar, " 989"};
4'h5 : foobar = {foobar, " 990"};
4'h6 : foobar = {foobar, " 991"};
4'h7 : foobar = {foobar, " 992"};
4'h8 : foobar = {foobar, " 993"};
4'h9 : foobar = {foobar, " 994"};
4'ha : foobar = {foobar, " 995"};
4'hb : foobar = {foobar, " 996"};
4'hc : foobar = {foobar, " 997"};
4'hd : foobar = {foobar, " 998"};
4'he : foobar = {foobar, " 999"};
4'hf : foobar = {foobar, " 1000"};
endcase
end
endtask
task ozoneshift;
input [ 15:0] foo;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (foo[ 4: 3])
2'h0 : foobar = {foobar, " 1001"};
2'h1 : foobar = {foobar, " 1002"};
2'h2 : foobar = {foobar, " 1003"};
2'h3 : foobar = {foobar, " 1004"};
endcase
end
endtask
task ozoneacc;
input foo;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (foo)
2'h0 : foobar = {foobar, " 1005"};
2'h1 : foobar = {foobar, " 1006"};
endcase
end
endtask
task ozonehl;
input foo;
inout [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
case (foo)
2'h0 : foobar = {foobar, " 1007"};
2'h1 : foobar = {foobar, " 1008"};
endcase
end
endtask
task dude;
inout [STRLEN*8: 1] foobar;
reg [ 7:0] temp;
integer i;
reg nacho;
// verilator no_inline_task
begin : justify_block
nacho = 1'b0;
for (i=STRLEN-1; i>1; i=i-1)
begin
temp = foobar>>((STRLEN-1)*8);
if (temp || nacho)
nacho = 1'b1;
else
begin
foobar = foobar<<8;
foobar[8:1] = 32;
end
end
end
endtask
task big_case;
input [ 31:0] fd;
input [ 31:0] foo;
reg [STRLEN*8: 1] foobar;
// verilator no_inline_task
begin
foobar = " 1009";
if (&foo === 1'bx)
$fwrite(fd, " 1010");
else
casez ( {foo[31:26], foo[19:15], foo[5:0]} )
17'b00_111?_?_????_??_???? :
begin
ozonef1(foo, foobar);
foobar = {foobar, " 1011"};
ozoneacc(~foo[26], foobar);
ozonehl(foo[20], foobar);
foobar = {foobar, " 1012"};
ozonerx(foo, foobar);
dude(foobar);
$fwrite (fd, " 1013:%s", foobar);
end
17'b01_001?_?_????_??_???? :
begin
ozonef1(foo, foobar);
foobar = {foobar, " 1014"};
ozonerx(foo, foobar);
foobar = {foobar, " 1015"};
foobar = {foobar, " 1016"};
ozonehl(foo[20], foobar);
dude(foobar);
$fwrite (fd, " 1017:%s", foobar);
end
17'b10_100?_?_????_??_???? :
begin
ozonef1(foo, foobar);
foobar = {foobar, " 1018"};
ozonerx(foo, foobar);
foobar = {foobar, " 1019"};
foobar = {foobar, " 1020"};
ozonehl(foo[20], foobar);
dude(foobar);
$fwrite (fd, " 1021:%s", foobar);
end
17'b10_101?_?_????_??_???? :
begin
ozonef1(foo, foobar);
foobar = {foobar, " 1022"};
if (foo[20])
begin
foobar = {foobar, " 1023"};
ozoneacc(foo[18], foobar);
foobar = {foobar, " 1024"};
foobar = {foobar, " 1025"};
if (foo[19])
foobar = {foobar, " 1026"};
else
foobar = {foobar, " 1027"};
end
else
ozonerx(foo, foobar);
dude(foobar);
$fwrite (fd, " 1028:%s", foobar);
end
17'b10_110?_?_????_??_???? :
begin
ozonef1(foo, foobar);
foobar = {foobar, " 1029"};
foobar = {foobar, " 1030"};
ozonehl(foo[20], foobar);
foobar = {foobar, " 1031"};
ozonerx(foo, foobar);
dude(foobar);
$fwrite (fd, " 1032:%s", foobar);
end
17'b10_111?_?_????_??_???? :
begin
ozonef1(foo, foobar);
foobar = {foobar, " 1033"};
foobar = {foobar, " 1034"};
ozonehl(foo[20], foobar);
foobar = {foobar, " 1035"};
ozonerx(foo, foobar);
dude(foobar);
$fwrite (fd, " 1036:%s", foobar);
end
17'b11_001?_?_????_??_???? :
begin
ozonef1(foo, foobar);
foobar = {foobar, " 1037"};
ozonerx(foo, foobar);
foobar = {foobar, " 1038"};
foobar = {foobar, " 1039"};
ozonehl(foo[20], foobar);
dude(foobar);
$fwrite (fd, " 1040:%s", foobar);
end
17'b11_111?_?_????_??_???? :
begin
ozonef1(foo, foobar);
foobar = {foobar, " 1041"};
foobar = {foobar, " 1042"};
ozonerx(foo, foobar);
foobar = {foobar, " 1043"};
if (foo[20])
foobar = {foobar, " 1044"};
else
foobar = {foobar, " 1045"};
dude(foobar);
$fwrite (fd, " 1046:%s", foobar);
end
17'b00_10??_?_????_?1_1111 :
casez (foo[11: 5])
7'b??_0_010_0:
begin
foobar = " 1047";
ozonecon(foo[14:10], foobar);
foobar = {foobar, " 1048"};
ozonef1e(foo, foobar);
dude(foobar);
$fwrite (fd, " 1049:%s", foobar);
end
7'b00_?_110_?:
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1050"};
case ({foo[ 9],foo[ 5]})
2'b00:
begin
foobar = {foobar, " 1051"};
ozoneae(foo[14:12], foobar);
ozonehl(foo[ 5], foobar);
end
2'b01:
begin
foobar = {foobar, " 1052"};
ozoneae(foo[14:12], foobar);
ozonehl(foo[ 5], foobar);
end
2'b10:
begin
foobar = {foobar, " 1053"};
ozoneae(foo[14:12], foobar);
end
2'b11: foobar = {foobar, " 1054"};
endcase
dude(foobar);
$fwrite (fd, " 1055:%s", foobar);
end
7'b01_?_110_?:
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1056"};
case ({foo[ 9],foo[ 5]})
2'b00:
begin
ozoneae(foo[14:12], foobar);
ozonehl(foo[ 5], foobar);
foobar = {foobar, " 1057"};
end
2'b01:
begin
ozoneae(foo[14:12], foobar);
ozonehl(foo[ 5], foobar);
foobar = {foobar, " 1058"};
end
2'b10:
begin
ozoneae(foo[14:12], foobar);
foobar = {foobar, " 1059"};
end
2'b11: foobar = {foobar, " 1060"};
endcase
dude(foobar);
$fwrite (fd, " 1061:%s", foobar);
end
7'b10_0_110_0:
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1062"};
foobar = {foobar, " 1063"};
if (foo[12])
foobar = {foobar, " 1064"};
else
ozonerab({4'b1001, foo[14:12]}, foobar);
dude(foobar);
$fwrite (fd, " 1065:%s", foobar);
end
7'b10_0_110_1:
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1066"};
if (foo[12])
foobar = {foobar, " 1067"};
else
ozonerab({4'b1001, foo[14:12]}, foobar);
foobar = {foobar, " 1068"};
dude(foobar);
$fwrite (fd, " 1069:%s", foobar);
end
7'b??_?_000_?:
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1070"};
foobar = {foobar, " 1071"};
ozonef1e_hl(foo[11:9],foo[ 5],foobar);
foobar = {foobar, " 1072"};
ozonef1e_ye(foo[14:9],foo[ 5],foobar);
dude(foobar);
$fwrite (fd, " 1073:%s", foobar);
end
7'b??_?_100_?:
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1074"};
foobar = {foobar, " 1075"};
ozonef1e_hl(foo[11:9],foo[ 5],foobar);
foobar = {foobar, " 1076"};
ozonef1e_ye(foo[14:9],foo[ 5],foobar);
dude(foobar);
$fwrite (fd, " 1077:%s", foobar);
end
7'b??_?_001_?:
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1078"};
ozonef1e_ye(foo[14:9],foo[ 5],foobar);
foobar = {foobar, " 1079"};
foobar = {foobar, " 1080"};
ozonef1e_hl(foo[11:9],foo[ 5],foobar);
dude(foobar);
$fwrite (fd, " 1081:%s", foobar);
end
7'b??_?_011_?:
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1082"};
ozonef1e_ye(foo[14:9],foo[ 5],foobar);
foobar = {foobar, " 1083"};
foobar = {foobar, " 1084"};
ozonef1e_hl(foo[11:9],foo[ 5],foobar);
dude(foobar);
$fwrite (fd, " 1085:%s", foobar);
end
7'b??_?_101_?:
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1086"};
ozonef1e_ye(foo[14:9],foo[ 5],foobar);
dude(foobar);
$fwrite (fd, " 1087:%s", foobar);
end
endcase
17'b00_10??_?_????_?0_0110 :
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1088"};
ozoneae(foo[ 8: 6], foobar);
ozonef1e_hl(foo[11:9],foo[ 5],foobar);
foobar = {foobar, " 1089"};
ozonef1e_ye(foo[14:9],foo[ 5],foobar);
dude(foobar);
$fwrite (fd, " 1090:%s", foobar);
end
17'b00_10??_?_????_00_0111 :
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1091"};
if (foo[ 6])
foobar = {foobar, " 1092"};
else
ozonerab({4'b1001, foo[ 8: 6]}, foobar);
foobar = {foobar, " 1093"};
foobar = {foobar, " 1094"};
ozonerme(foo[14:12],foobar);
case (foo[11: 9])
3'h2,
3'h5,
3'h6,
3'h7:
ozonef1e_inc_dec(foo[14:9],1'b0,foobar);
3'h1,
3'h3,
3'h4:
foobar = {foobar, " 1095"};
endcase
dude(foobar);
$fwrite (fd, " 1096:%s", foobar);
end
17'b00_10??_?_????_?0_0100 :
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1097"};
ozonef1e_ye(foo[14:9],foo[ 5],foobar);
foobar = {foobar, " 1098"};
ozoneae(foo[ 8: 6], foobar);
ozonef1e_hl(foo[11:9],foo[ 5],foobar);
dude(foobar);
$fwrite (fd, " 1099:%s", foobar);
end
17'b00_10??_?_????_10_0111 :
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1100"};
foobar = {foobar, " 1101"};
ozonerme(foo[14:12],foobar);
case (foo[11: 9])
3'h2,
3'h5,
3'h6,
3'h7:
ozonef1e_inc_dec(foo[14:9],1'b0,foobar);
3'h1,
3'h3,
3'h4:
foobar = {foobar, " 1102"};
endcase
foobar = {foobar, " 1103"};
if (foo[ 6])
foobar = {foobar, " 1104"};
else
ozonerab({4'b1001, foo[ 8: 6]}, foobar);
dude(foobar);
$fwrite (fd, " 1105:%s", foobar);
end
17'b00_10??_?_????_?0_1110 :
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1106"};
case (foo[11:9])
3'h2:
begin
foobar = {foobar, " 1107"};
if (foo[14:12] == 3'h0)
foobar = {foobar, " 1108"};
else
ozonerme(foo[14:12],foobar);
foobar = {foobar, " 1109"};
end
3'h6:
begin
foobar = {foobar, " 1110"};
if (foo[14:12] == 3'h0)
foobar = {foobar, " 1111"};
else
ozonerme(foo[14:12],foobar);
foobar = {foobar, " 1112"};
end
3'h0:
begin
foobar = {foobar, " 1113"};
if (foo[14:12] == 3'h0)
foobar = {foobar, " 1114"};
else
ozonerme(foo[14:12],foobar);
foobar = {foobar, " 1115"};
if (foo[ 7: 5] >= 3'h5)
foobar = {foobar, " 1116"};
else
ozonexe(foo[ 8: 5], foobar);
end
3'h1:
begin
foobar = {foobar, " 1117"};
if (foo[14:12] == 3'h0)
foobar = {foobar, " 1118"};
else
ozonerme(foo[14:12],foobar);
foobar = {foobar, " 1119"};
if (foo[ 7: 5] >= 3'h5)
foobar = {foobar, " 1120"};
else
ozonexe(foo[ 8: 5], foobar);
end
3'h4:
begin
foobar = {foobar, " 1121"};
if (foo[14:12] == 3'h0)
foobar = {foobar, " 1122"};
else
ozonerme(foo[14:12],foobar);
foobar = {foobar, " 1123"};
if (foo[ 7: 5] >= 3'h5)
foobar = {foobar, " 1124"};
else
ozonexe(foo[ 8: 5], foobar);
end
3'h5:
begin
foobar = {foobar, " 1125"};
if (foo[14:12] == 3'h0)
foobar = {foobar, " 1126"};
else
ozonerme(foo[14:12],foobar);
foobar = {foobar, " 1127"};
if (foo[ 7: 5] >= 3'h5)
foobar = {foobar, " 1128"};
else
ozonexe(foo[ 8: 5], foobar);
end
endcase
dude(foobar);
$fwrite (fd, " 1129:%s", foobar);
end
17'b00_10??_?_????_?0_1111 :
casez (foo[14: 9])
6'b001_10_?:
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1130"};
foobar = {foobar, " 1131"};
ozonef1e_hl(foo[ 7: 5],foo[ 9],foobar);
foobar = {foobar, " 1132"};
ozonexe(foo[ 8: 5], foobar);
dude(foobar);
$fwrite (fd, " 1133:%s", foobar);
end
6'b???_11_?:
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1134"};
ozoneae(foo[14:12], foobar);
ozonef1e_hl(foo[ 7: 5],foo[ 9],foobar);
foobar = {foobar, " 1135"};
ozonexe(foo[ 8: 5], foobar);
dude(foobar);
$fwrite (fd, " 1136:%s", foobar);
end
6'b000_10_1,
6'b010_10_1,
6'b100_10_1,
6'b110_10_1:
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1137"};
ozonerab({4'b1001, foo[14:12]}, foobar);
foobar = {foobar, " 1138"};
if ((foo[ 7: 5] >= 3'h1) & (foo[ 7: 5] <= 3'h3))
foobar = {foobar, " 1139"};
else
ozonexe(foo[ 8: 5], foobar);
dude(foobar);
$fwrite (fd, " 1140:%s", foobar);
end
6'b000_10_0,
6'b010_10_0,
6'b100_10_0,
6'b110_10_0:
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1141"};
foobar = {foobar, " 1142"};
ozonerab({4'b1001, foo[14:12]}, foobar);
foobar = {foobar, " 1143"};
foobar = {foobar, " 1144"};
ozonef1e_h(foo[ 7: 5],foobar);
foobar = {foobar, " 1145"};
ozonexe(foo[ 8: 5], foobar);
dude(foobar);
$fwrite (fd, " 1146:%s", foobar);
end
6'b???_00_?:
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1147"};
if (foo[ 9])
begin
foobar = {foobar, " 1148"};
ozoneae(foo[14:12], foobar);
end
else
begin
foobar = {foobar, " 1149"};
ozoneae(foo[14:12], foobar);
foobar = {foobar, " 1150"};
end
foobar = {foobar, " 1151"};
foobar = {foobar, " 1152"};
ozonef1e_h(foo[ 7: 5],foobar);
foobar = {foobar, " 1153"};
ozonexe(foo[ 8: 5], foobar);
dude(foobar);
$fwrite (fd, " 1154:%s", foobar);
end
6'b???_01_?:
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1155"};
ozoneae(foo[14:12], foobar);
if (foo[ 9])
foobar = {foobar, " 1156"};
else
foobar = {foobar, " 1157"};
foobar = {foobar, " 1158"};
foobar = {foobar, " 1159"};
ozonef1e_h(foo[ 7: 5],foobar);
foobar = {foobar, " 1160"};
ozonexe(foo[ 8: 5], foobar);
dude(foobar);
$fwrite (fd, " 1161:%s", foobar);
end
6'b011_10_0:
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1162"};
case (foo[ 8: 5])
4'h0: foobar = {foobar, " 1163"};
4'h1: foobar = {foobar, " 1164"};
4'h2: foobar = {foobar, " 1165"};
4'h3: foobar = {foobar, " 1166"};
4'h4: foobar = {foobar, " 1167"};
4'h5: foobar = {foobar, " 1168"};
4'h8: foobar = {foobar, " 1169"};
4'h9: foobar = {foobar, " 1170"};
4'ha: foobar = {foobar, " 1171"};
4'hb: foobar = {foobar, " 1172"};
4'hc: foobar = {foobar, " 1173"};
4'hd: foobar = {foobar, " 1174"};
default: foobar = {foobar, " 1175"};
endcase
dude(foobar);
$fwrite (fd, " 1176:%s", foobar);
end
default: foobar = {foobar, " 1177"};
endcase
17'b00_10??_?_????_?0_110? :
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1178"};
foobar = {foobar, " 1179"};
ozonef1e_hl(foo[11:9], foo[0], foobar);
foobar = {foobar, " 1180"};
ozonef1e_ye(foo[14:9],1'b0,foobar);
foobar = {foobar, " 1181"};
ozonef1e_h(foo[ 7: 5],foobar);
foobar = {foobar, " 1182"};
ozonexe(foo[ 8: 5], foobar);
dude(foobar);
$fwrite (fd, " 1183:%s", foobar);
end
17'b00_10??_?_????_?1_110? :
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1184"};
foobar = {foobar, " 1185"};
ozonef1e_hl(foo[11:9],foo[0],foobar);
foobar = {foobar, " 1186"};
ozonef1e_ye(foo[14:9],foo[ 0],foobar);
foobar = {foobar, " 1187"};
foobar = {foobar, " 1188"};
ozonef1e_h(foo[ 7: 5],foobar);
foobar = {foobar, " 1189"};
ozonexe(foo[ 8: 5], foobar);
dude(foobar);
$fwrite (fd, " 1190:%s", foobar);
end
17'b00_10??_?_????_?0_101? :
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1191"};
ozonef1e_ye(foo[14:9],foo[ 0],foobar);
foobar = {foobar, " 1192"};
foobar = {foobar, " 1193"};
ozonef1e_hl(foo[11:9],foo[0],foobar);
foobar = {foobar, " 1194"};
foobar = {foobar, " 1195"};
ozonef1e_h(foo[ 7: 5],foobar);
foobar = {foobar, " 1196"};
ozonexe(foo[ 8: 5], foobar);
dude(foobar);
$fwrite (fd, " 1197:%s", foobar);
end
17'b00_10??_?_????_?0_1001 :
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1198"};
foobar = {foobar, " 1199"};
ozonef1e_h(foo[11:9],foobar);
foobar = {foobar, " 1200"};
ozonef1e_ye(foo[14:9],1'b0,foobar);
foobar = {foobar, " 1201"};
case (foo[ 7: 5])
3'h1,
3'h2,
3'h3:
foobar = {foobar, " 1202"};
default:
begin
foobar = {foobar, " 1203"};
foobar = {foobar, " 1204"};
ozonexe(foo[ 8: 5], foobar);
end
endcase
dude(foobar);
$fwrite (fd, " 1205:%s", foobar);
end
17'b00_10??_?_????_?0_0101 :
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1206"};
case (foo[11: 9])
3'h1,
3'h3,
3'h4:
foobar = {foobar, " 1207"};
default:
begin
ozonef1e_ye(foo[14:9],1'b0,foobar);
foobar = {foobar, " 1208"};
foobar = {foobar, " 1209"};
end
endcase
foobar = {foobar, " 1210"};
foobar = {foobar, " 1211"};
ozonef1e_h(foo[ 7: 5],foobar);
foobar = {foobar, " 1212"};
ozonexe(foo[ 8: 5], foobar);
dude(foobar);
$fwrite (fd, " 1213:%s", foobar);
end
17'b00_10??_?_????_?1_1110 :
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1214"};
ozonef1e_ye(foo[14:9],1'b0,foobar);
foobar = {foobar, " 1215"};
foobar = {foobar, " 1216"};
ozonef1e_h(foo[11: 9],foobar);
foobar = {foobar, " 1217"};
foobar = {foobar, " 1218"};
ozonef1e_h(foo[ 7: 5],foobar);
foobar = {foobar, " 1219"};
ozonexe(foo[ 8: 5], foobar);
dude(foobar);
$fwrite (fd, " 1220:%s", foobar);
end
17'b00_10??_?_????_?0_1000 :
begin
ozonef1e(foo, foobar);
foobar = {foobar, " 1221"};
ozonef1e_ye(foo[14:9],1'b0,foobar);
foobar = {foobar, " 1222"};
foobar = {foobar, " 1223"};
ozonef1e_h(foo[11: 9],foobar);
foobar = {foobar, " 1224"};
foobar = {foobar, " 1225"};
ozonef1e_h(foo[ 7: 5],foobar);
foobar = {foobar, " 1226"};
ozonexe(foo[ 8: 5], foobar);
dude(foobar);
$fwrite (fd, " 1227:%s", foobar);
end
17'b10_01??_?_????_??_???? :
begin
if (foo[27])
foobar = " 1228";
else
foobar = " 1229";
ozonecon(foo[20:16], foobar);
foobar = {foobar, " 1230"};
ozonef2(foo[31:0], foobar);
dude(foobar);
$fwrite (fd, " 1231:%s", foobar);
end
17'b00_1000_?_????_01_0011 :
if (~|foo[ 9: 8])
begin
if (foo[ 7])
foobar = " 1232";
else
foobar = " 1233";
ozonecon(foo[14:10], foobar);
foobar = {foobar, " 1234"};
ozonef2e(foo[31:0], foobar);
dude(foobar);
$fwrite (fd, " 1235:%s", foobar);
end
else
begin
foobar = " 1236";
ozonecon(foo[14:10], foobar);
foobar = {foobar, " 1237"};
ozonef3e(foo[31:0], foobar);
dude(foobar);
$fwrite (fd, " 1238:%s", foobar);
end
17'b11_110?_1_????_??_???? :
begin
ozonef3(foo[31:0], foobar);
dude(foobar);
$fwrite(fd, " 1239:%s", foobar);
end
17'b11_110?_0_????_??_???? :
begin : f4_body
casez (foo[24:20])
5'b0_1110,
5'b1_0???,
5'b1_1111:
begin
$fwrite (fd, " 1240");
end
5'b0_00??:
begin
ozoneacc(foo[26], foobar);
foobar = {foobar, " 1241"};
ozoneacc(foo[25], foobar);
ozonebmuop(foo[24:20], foobar);
ozoneae(foo[18:16], foobar);
foobar = {foobar, " 1242"};
dude(foobar);
$fwrite(fd, " 1243:%s", foobar);
end
5'b0_01??:
begin
ozoneacc(foo[26], foobar);
foobar = {foobar, " 1244"};
ozoneacc(foo[25], foobar);
ozonebmuop(foo[24:20], foobar);
ozonearm(foo[18:16], foobar);
dude(foobar);
$fwrite(fd, " 1245:%s", foobar);
end
5'b0_1011:
begin
ozoneacc(foo[26], foobar);
foobar = {foobar, " 1246"};
ozonebmuop(foo[24:20], foobar);
foobar = {foobar, " 1247"};
ozoneae(foo[18:16], foobar);
foobar = {foobar, " 1248"};
dude(foobar);
$fwrite(fd, " 1249:%s", foobar);
end
5'b0_100?,
5'b0_1010,
5'b0_110? :
begin
ozoneacc(foo[26], foobar);
foobar = {foobar, " 1250"};
ozonebmuop(foo[24:20], foobar);
foobar = {foobar, " 1251"};
ozoneacc(foo[25], foobar);
foobar = {foobar, " 1252"};
ozoneae(foo[18:16], foobar);
foobar = {foobar, " 1253"};
dude(foobar);
$fwrite(fd, " 1254:%s", foobar);
end
5'b0_1111 :
begin
ozoneacc(foo[26], foobar);
foobar = {foobar, " 1255"};
ozoneacc(foo[25], foobar);
foobar = {foobar, " 1256"};
ozoneae(foo[18:16], foobar);
dude(foobar);
$fwrite(fd, " 1257:%s", foobar);
end
5'b1_10??,
5'b1_110?,
5'b1_1110 :
begin
ozoneacc(foo[26], foobar);
foobar = {foobar, " 1258"};
ozonebmuop(foo[24:20], foobar);
foobar = {foobar, " 1259"};
ozoneacc(foo[25], foobar);
foobar = {foobar, " 1260"};
ozonearm(foo[18:16], foobar);
foobar = {foobar, " 1261"};
dude(foobar);
$fwrite(fd, " 1262:%s", foobar);
end
endcase
end
17'b11_100?_?_????_??_???? :
casez (foo[23:19])
5'b111??,
5'b0111?:
begin
ozoneae(foo[26:24], foobar);
foobar = {foobar, " 1263"};
ozonef3f4imop(foo[23:19], foobar);
foobar = {foobar, " 1264"};
ozoneae(foo[18:16], foobar);
foobar = {foobar, " 1265"};
skyway(foo[15:12], foobar);
skyway(foo[11: 8], foobar);
skyway(foo[ 7: 4], foobar);
skyway(foo[ 3:0], foobar);
foobar = {foobar, " 1266"};
dude(foobar);
$fwrite(fd, " 1267:%s", foobar);
end
5'b?0???,
5'b110??:
begin
ozoneae(foo[26:24], foobar);
foobar = {foobar, " 1268"};
if (foo[23:21] == 3'b100)
foobar = {foobar, " 1269"};
ozoneae(foo[18:16], foobar);
if (foo[19])
foobar = {foobar, " 1270"};
else
foobar = {foobar, " 1271"};
ozonef3f4imop(foo[23:19], foobar);
foobar = {foobar, " 1272"};
ozonef3f4_iext(foo[20:19], foo[15:0], foobar);
dude(foobar);
$fwrite(fd, " 1273:%s", foobar);
end
5'b010??,
5'b0110?:
begin
ozoneae(foo[18:16], foobar);
if (foo[19])
foobar = {foobar, " 1274"};
else
foobar = {foobar, " 1275"};
ozonef3f4imop(foo[23:19], foobar);
foobar = {foobar, " 1276"};
ozonef3f4_iext(foo[20:19], foo[15:0], foobar);
dude(foobar);
$fwrite(fd, " 1277:%s", foobar);
end
endcase
17'b00_1000_?_????_11_0011 :
begin
foobar = " 1278";
ozonecon(foo[14:10], foobar);
foobar = {foobar, " 1279"};
casez (foo[25:21])
5'b0_1110,
5'b1_0???,
5'b1_1111:
begin
$fwrite(fd, " 1280");
end
5'b0_00??:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar, " 1281"};
ozoneae(foo[17:15], foobar);
ozonebmuop(foo[25:21], foobar);
ozoneae(foo[ 8: 6], foobar);
foobar = {foobar, " 1282"};
dude(foobar);
$fwrite(fd, " 1283:%s", foobar);
end
5'b0_01??:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar, " 1284"};
ozoneae(foo[17:15], foobar);
ozonebmuop(foo[25:21], foobar);
ozonearm(foo[ 8: 6], foobar);
dude(foobar);
$fwrite(fd, " 1285:%s", foobar);
end
5'b0_1011:
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar, " 1286"};
ozonebmuop(foo[25:21], foobar);
foobar = {foobar, " 1287"};
ozoneae(foo[ 8: 6], foobar);
foobar = {foobar, " 1288"};
dude(foobar);
$fwrite(fd, " 1289:%s", foobar);
end
5'b0_100?,
5'b0_1010,
5'b0_110? :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar, " 1290"};
ozonebmuop(foo[25:21], foobar);
foobar = {foobar, " 1291"};
ozoneae(foo[17:15], foobar);
foobar = {foobar, " 1292"};
ozoneae(foo[ 8: 6], foobar);
foobar = {foobar, " 1293"};
dude(foobar);
$fwrite(fd, " 1294:%s", foobar);
end
5'b0_1111 :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar, " 1295"};
ozoneae(foo[17:15], foobar);
foobar = {foobar, " 1296"};
ozoneae(foo[ 8: 6], foobar);
dude(foobar);
$fwrite(fd, " 1297:%s", foobar);
end
5'b1_10??,
5'b1_110?,
5'b1_1110 :
begin
ozoneae(foo[20:18], foobar);
foobar = {foobar, " 1298"};
ozonebmuop(foo[25:21], foobar);
foobar = {foobar, " 1299"};
ozoneae(foo[17:15], foobar);
foobar = {foobar, " 1300"};
ozonearm(foo[ 8: 6], foobar);
foobar = {foobar, " 1301"};
dude(foobar);
$fwrite(fd, " 1302:%s", foobar);
end
endcase
end
17'b00_0010_?_????_??_???? :
begin
$fwrite(fd, " 1304a:%x;%x", foobar, foo[25:20]);
ozonerab({1'b0, foo[25:20]}, foobar);
$fwrite(fd, " 1304b:%x", foobar);
foobar = {foobar, " 1303"};
$fwrite(fd, " 1304c:%x;%x", foobar, foo[19:16]);
skyway(foo[19:16], foobar);
$fwrite(fd, " 1304d:%x", foobar);
dude(foobar);
$fwrite(fd, " 1304e:%x", foobar);
$fwrite(fd, " 1304:%s", foobar);
end
17'b00_01??_?_????_??_???? :
begin
if (foo[27])
begin
foobar = {foobar, " 1305"};
if (foo[26])
foobar = {foobar, " 1306"};
else
foobar = {foobar, " 1307"};
skyway(foo[19:16], foobar);
foobar = {foobar, " 1308"};
ozonerab({1'b0, foo[25:20]}, foobar);
end
else
begin
ozonerab({1'b0, foo[25:20]}, foobar);
foobar = {foobar, " 1309"};
if (foo[26])
foobar = {foobar, " 1310"};
else
foobar = {foobar, " 1311"};
skyway(foo[19:16], foobar);
foobar = {foobar, " 1312"};
end
dude(foobar);
$fwrite(fd, " 1313:%s", foobar);
end
17'b01_000?_?_????_??_???? :
begin
if (foo[26])
begin
ozonerb(foo[25:20], foobar);
foobar = {foobar, " 1314"};
ozoneae(foo[18:16], foobar);
ozonehl(foo[19], foobar);
end
else
begin
ozoneae(foo[18:16], foobar);
ozonehl(foo[19], foobar);
foobar = {foobar, " 1315"};
ozonerb(foo[25:20], foobar);
end
dude(foobar);
$fwrite(fd, " 1316:%s", foobar);
end
17'b01_10??_?_????_??_???? :
begin
if (foo[27])
begin
ozonerab({1'b0, foo[25:20]}, foobar);
foobar = {foobar, " 1317"};
ozonerx(foo, foobar);
end
else
begin
ozonerx(foo, foobar);
foobar = {foobar, " 1318"};
ozonerab({1'b0, foo[25:20]}, foobar);
end
dude(foobar);
$fwrite(fd, " 1319:%s", foobar);
end
17'b11_101?_?_????_??_???? :
begin
ozonerab (foo[26:20], foobar);
foobar = {foobar, " 1320"};
skyway(foo[19:16], foobar);
skyway(foo[15:12], foobar);
skyway(foo[11: 8], foobar);
skyway(foo[ 7: 4], foobar);
skyway(foo[ 3: 0], foobar);
dude(foobar);
$fwrite(fd, " 1321:%s", foobar);
end
17'b11_0000_?_????_??_???? :
begin
casez (foo[25:23])
3'b00?:
begin
ozonerab(foo[22:16], foobar);
foobar = {foobar, " 1322"};
end
3'b01?:
begin
foobar = {foobar, " 1323"};
if (foo[22:16]>=7'h60)
foobar = {foobar, " 1324"};
else
ozonerab(foo[22:16], foobar);
end
3'b110:
foobar = {foobar, " 1325"};
3'b10?:
begin
foobar = {foobar, " 1326"};
if (foo[22:16]>=7'h60)
foobar = {foobar, " 1327"};
else
ozonerab(foo[22:16], foobar);
end
3'b111:
begin
foobar = {foobar, " 1328"};
ozonerab(foo[22:16], foobar);
foobar = {foobar, " 1329"};
end
endcase
dude(foobar);
$fwrite(fd, " 1330:%s", foobar);
end
17'b00_10??_?_????_?1_0000 :
begin
if (foo[27])
begin
foobar = {foobar, " 1331"};
ozonerp(foo[14:12], foobar);
foobar = {foobar, " 1332"};
skyway(foo[19:16], foobar);
skyway({foo[15],foo[11: 9]}, foobar);
skyway(foo[ 8: 5], foobar);
foobar = {foobar, " 1333"};
if (foo[26:20]>=7'h60)
foobar = {foobar, " 1334"};
else
ozonerab(foo[26:20], foobar);
end
else
begin
ozonerab(foo[26:20], foobar);
foobar = {foobar, " 1335"};
foobar = {foobar, " 1336"};
ozonerp(foo[14:12], foobar);
foobar = {foobar, " 1337"};
skyway(foo[19:16], foobar);
skyway({foo[15],foo[11: 9]}, foobar);
skyway(foo[ 8: 5], foobar);
foobar = {foobar, " 1338"};
end
dude(foobar);
$fwrite(fd, " 1339:%s", foobar);
end
17'b00_101?_1_0000_?1_0010 :
if (~|foo[11: 7])
begin
if (foo[ 6])
begin
foobar = {foobar, " 1340"};
ozonerp(foo[14:12], foobar);
foobar = {foobar, " 1341"};
ozonejk(foo[ 5], foobar);
foobar = {foobar, " 1342"};
if (foo[26:20]>=7'h60)
foobar = {foobar, " 1343"};
else
ozonerab(foo[26:20], foobar);
end
else
begin
ozonerab(foo[26:20], foobar);
foobar = {foobar, " 1344"};
foobar = {foobar, " 1345"};
ozonerp(foo[14:12], foobar);
foobar = {foobar, " 1346"};
ozonejk(foo[ 5], foobar);
foobar = {foobar, " 1347"};
end
dude(foobar);
$fwrite(fd, " 1348:%s", foobar);
end
else
$fwrite(fd, " 1349");
17'b00_100?_0_0011_?1_0101 :
if (~|foo[ 8: 7])
begin
if (foo[6])
begin
ozonerab(foo[26:20], foobar);
foobar = {foobar, " 1350"};
ozoneye(foo[14: 9],foo[ 5], foobar);
end
else
begin
ozoneye(foo[14: 9],foo[ 5], foobar);
foobar = {foobar, " 1351"};
if (foo[26:20]>=7'h60)
foobar = {foobar, " 1352"};
else
ozonerab(foo[26:20], foobar);
end
dude(foobar);
$fwrite(fd, " 1353:%s", foobar);
end
else
$fwrite(fd, " 1354");
17'b00_1001_0_0000_?1_0010 :
if (~|foo[25:20])
begin
ozoneye(foo[14: 9],1'b0, foobar);
foobar = {foobar, " 1355"};
ozonef1e_h(foo[11: 9],foobar);
foobar = {foobar, " 1356"};
ozonef1e_h(foo[ 7: 5],foobar);
foobar = {foobar, " 1357"};
ozonexe(foo[ 8: 5], foobar);
dude(foobar);
$fwrite(fd, " 1358:%s", foobar);
end
else
$fwrite(fd, " 1359");
17'b00_101?_0_????_?1_0010 :
if (~foo[13])
begin
if (foo[12])
begin
foobar = {foobar, " 1360"};
if (foo[26:20]>=7'h60)
foobar = {foobar, " 1361"};
else
ozonerab(foo[26:20], foobar);
foobar = {foobar, " 1362"};
foobar = {foobar, " 1363"};
skyway({1'b0,foo[18:16]}, foobar);
skyway({foo[15],foo[11: 9]}, foobar);
skyway(foo[ 8: 5], foobar);
dude(foobar);
$fwrite(fd, " 1364:%s", foobar);
end
else
begin
ozonerab(foo[26:20], foobar);
foobar = {foobar, " 1365"};
foobar = {foobar, " 1366"};
skyway({1'b0,foo[18:16]}, foobar);
skyway({foo[15],foo[11: 9]}, foobar);
skyway(foo[ 8: 5], foobar);
dude(foobar);
$fwrite(fd, " 1367:%s", foobar);
end
end
else
$fwrite(fd, " 1368");
17'b01_01??_?_????_??_???? :
begin
ozonerab({1'b0,foo[27:26],foo[19:16]}, foobar);
foobar = {foobar, " 1369"};
ozonerab({1'b0,foo[25:20]}, foobar);
dude(foobar);
$fwrite(fd, " 1370:%s", foobar);
end
17'b00_100?_?_???0_11_0101 :
if (~foo[6])
begin
foobar = " 1371";
ozonecon(foo[14:10], foobar);
foobar = {foobar, " 1372"};
ozonerab({foo[ 9: 7],foo[19:16]}, foobar);
foobar = {foobar, " 1373"};
ozonerab({foo[26:20]}, foobar);
dude(foobar);
$fwrite(fd, " 1374:%s", foobar);
end
else
$fwrite(fd, " 1375");
17'b00_1000_?_????_?1_0010 :
if (~|foo[25:24])
begin
ozonery(foo[23:20], foobar);
foobar = {foobar, " 1376"};
ozonerp(foo[14:12], foobar);
foobar = {foobar, " 1377"};
skyway(foo[19:16], foobar);
skyway({foo[15],foo[11: 9]}, foobar);
skyway(foo[ 8: 5], foobar);
dude(foobar);
$fwrite(fd, " 1378:%s", foobar);
end
else if ((foo[25:24] == 2'b10) & ~|foo[19:15] & ~|foo[11: 6])
begin
ozonery(foo[23:20], foobar);
foobar = {foobar, " 1379"};
ozonerp(foo[14:12], foobar);
foobar = {foobar, " 1380"};
ozonejk(foo[ 5], foobar);
dude(foobar);
$fwrite(fd, " 1381:%s", foobar);
end
else
$fwrite(fd, " 1382");
17'b11_01??_?_????_??_????,
17'b10_00??_?_????_??_???? :
if (foo[30])
$fwrite(fd, " 1383:%s", foo[27:16]);
else
$fwrite(fd, " 1384:%s", foo[27:16]);
17'b00_10??_?_????_01_1000 :
if (~foo[6])
begin
if (foo[7])
$fwrite(fd, " 1385:%s", foo[27: 8]);
else
$fwrite(fd, " 1386:%s", foo[27: 8]);
end
else
$fwrite(fd, " 1387");
17'b00_10??_?_????_11_1000 :
begin
foobar = " 1388";
ozonecon(foo[14:10], foobar);
foobar = {foobar, " 1389"};
if (foo[15])
foobar = {foobar, " 1390"};
else
foobar = {foobar, " 1391"};
skyway(foo[27:24], foobar);
skyway(foo[23:20], foobar);
skyway(foo[19:16], foobar);
skyway(foo[ 9: 6], foobar);
dude(foobar);
$fwrite(fd, " 1392:%s", foobar);
end
17'b11_0001_?_????_??_???? :
casez (foo[25:22])
4'b01?? :
begin
foobar = " 1393";
ozonecon(foo[20:16], foobar);
case (foo[23:21])
3'h0 : foobar = {foobar, " 1394"};
3'h1 : foobar = {foobar, " 1395"};
3'h2 : foobar = {foobar, " 1396"};
3'h3 : foobar = {foobar, " 1397"};
3'h4 : foobar = {foobar, " 1398"};
3'h5 : foobar = {foobar, " 1399"};
3'h6 : foobar = {foobar, " 1400"};
3'h7 : foobar = {foobar, " 1401"};
endcase
dude(foobar);
$fwrite(fd, " 1402:%s", foobar);
end
4'b0000 :
$fwrite(fd, " 1403:%s", foo[21:16]);
4'b0010 :
if (~|foo[21:16])
$fwrite(fd, " 1404");
4'b1010 :
if (~|foo[21:17])
begin
if (foo[16])
$fwrite(fd, " 1405");
else
$fwrite(fd, " 1406");
end
default :
$fwrite(fd, " 1407");
endcase
17'b01_11??_?_????_??_???? :
if (foo[27:23] === 5'h00)
$fwrite(fd, " 1408:%s", foo[22:16]);
else
$fwrite(fd, " 1409:%s", foo[22:16]);
default: $fwrite(fd, " 1410");
endcase
end
endtask
//(query-replace-regexp "\\([a-z0-9_]+\\) *( *\\([][a-z0-9_~': ]+\\) *, *\\([][a-z0-9'~: ]+\\) *, *\\([][a-z0-9'~: ]+\\) *);" "$c(\"\\1(\",\\2,\",\",\\3,\",\",\\4,\");\");" nil nil nil)
//(query-replace-regexp "\\([a-z0-9_]+\\) *( *\\([][a-z0-9_~': ]+\\) *, *\\([][a-z0-9'~: ]+\\) *);" "$c(\"\\1(\",\\2,\",\",\\3,\");\");" nil nil nil)
endmodule
|
module outputs)
wire [63:0] HighLogicImm; // From example of example.v
wire [63:0] LogicImm; // From example of example.v
wire [63:0] LowLogicImm; // From example of example.v
// End of automatics
wire [5:0] LowMaskSel_Top = crc[5:0];
wire [5:0] LowMaskSel_Bot = crc[5:0];
wire [5:0] HighMaskSel_Top = crc[5:0]+{4'b0,crc[7:6]};
wire [5:0] HighMaskSel_Bot = crc[5:0]+{4'b0,crc[7:6]};
example example (/*AUTOINST*/
// Outputs
.LogicImm (LogicImm[63:0]),
.LowLogicImm (LowLogicImm[63:0]),
.HighLogicImm (HighLogicImm[63:0]),
// Inputs
.LowMaskSel_Top (LowMaskSel_Top[5:0]),
.HighMaskSel_Top (HighMaskSel_Top[5:0]),
.LowMaskSel_Bot (LowMaskSel_Bot[5:0]),
.HighMaskSel_Bot (HighMaskSel_Bot[5:0]));
always @ (posedge clk) begin
cyc <= cyc + 1;
crc <= {crc[6:0], ~^ {crc[7],crc[5],crc[4],crc[3]}};
`ifdef TEST_VERBOSE
$write("[%0t] cyc==%0d crc=%b %d.%d,%d.%d -> %x.%x -> %x\n",$time, cyc, crc,
LowMaskSel_Top, HighMaskSel_Top, LowMaskSel_Bot, HighMaskSel_Bot,
LowLogicImm, HighLogicImm, LogicImm);
`endif
if (cyc==0) begin
// Single case
crc <= 8'h0;
sum <= 64'h0;
end
else if (cyc==1) begin
// Setup
crc <= 8'hed;
sum <= 64'h0;
end
else if (cyc<90) begin
sum <= {sum[62:0],sum[63]} ^ LogicImm;
end
else if (cyc==99) begin
$write("[%0t] cyc==%0d crc=%b %x\n",$time, cyc, crc, sum);
if (crc !== 8'b00111000) $stop;
if (sum !== 64'h58743ffa61e41075) $stop;
$write("*-* All Finished *-*\n");
$finish;
end
end
endmodule
|
module example (/*AUTOARG*/
// Outputs
LogicImm, LowLogicImm, HighLogicImm,
// Inputs
LowMaskSel_Top, HighMaskSel_Top, LowMaskSel_Bot, HighMaskSel_Bot
);
input [5:0] LowMaskSel_Top, HighMaskSel_Top;
input [5:0] LowMaskSel_Bot, HighMaskSel_Bot;
output [63:0] LogicImm;
output [63:0] LowLogicImm, HighLogicImm;
wire [63:0] LowLogicImm, HighLogicImm;
/* verilator lint_off UNSIGNED */
/* verilator lint_off CMPCONST */
genvar i;
generate
for (i=0;i<64;i=i+1) begin : MaskVal
if (i >= 32) begin
assign LowLogicImm[i] = (LowMaskSel_Top <= i[5:0]);
assign HighLogicImm[i] = (HighMaskSel_Top >= i[5:0]);
end
else begin
assign LowLogicImm[i] = (LowMaskSel_Bot <= i[5:0]);
assign HighLogicImm[i] = (HighMaskSel_Bot >= i[5:0]);
end
end
endgenerate
/* verilator lint_on UNSIGNED */
/* verilator lint_on CMPCONST */
assign LogicImm = LowLogicImm & HighLogicImm;
endmodule
|
module outputs)
wire [7:0] entry_vld; // From test of Test.v
wire [7:0] ff_en_vld; // From test of Test.v
// End of automatics
Test test (/*AUTOINST*/
// Outputs
.ff_en_vld (ff_en_vld[7:0]),
.entry_vld (entry_vld[7:0]),
// Inputs
.clk (clk),
.dvld (dvld[7:0]),
.ff_en_e1 (ff_en_e1[7:0]));
reg err_code;
reg ffq_clk_active;
reg [7:0] prv_dvld;
initial begin
err_code = 0;
ffq_clk_active = 0;
end
always @ (posedge clk) begin
prv_dvld = test.dvld;
end
always @ (negedge test.ff_entry_dvld_0.clk) begin
ffq_clk_active = 1;
if (test.entry_vld[0] !== prv_dvld[0]) err_code = 1;
end
// Test loop
always @ (posedge clk) begin
`ifdef TEST_VERBOSE
$write("[%0t] cyc==%0d crc=%x ",$time, cyc, crc);
$display(" en=%b fen=%b d=%b ev=%b",
test.flop_en_vld[0], test.ff_en_vld[0],
test.dvld[0], test.entry_vld[0]);
`endif
cyc <= cyc + 1;
crc <= {crc[62:0], crc[63]^crc[2]^crc[0]};
if (cyc<3) begin
crc <= 64'h5aef0c8d_d70a4497;
end
else if (cyc==99) begin
$write("[%0t] cyc==%0d crc=%x\n",$time, cyc, crc);
if (ffq_clk_active == 0) begin
$display ("----");
$display ("%%Error: TESTCASE FAILED with no Clock arriving at FFQs");
$display ("----");
$stop;
end
else if (err_code) begin
$display ("----");
$display ("%%Error: TESTCASE FAILED with invalid propagation of 'd' to 'q' of FFQs");
$display ("----");
$stop;
end
else begin
$write("*-* All Finished *-*\n");
$finish;
end
end
end
endmodule
|
module llq (clk, d, q);
parameter WIDTH = 32;
input clk;
input [WIDTH-1:0] d;
output [WIDTH-1:0] q;
reg [WIDTH-1:0] qr;
/* verilator lint_off COMBDLY */
always @(clk or d)
if (clk == 1'b0)
qr <= d;
/* verilator lint_on COMBDLY */
assign q = qr;
endmodule
|
module ffq (clk, d, q);
parameter WIDTH = 32;
input clk;
input [WIDTH-1:0] d;
output [WIDTH-1:0] q;
reg [WIDTH-1:0] qr;
always @(posedge clk)
qr <= d;
assign q = qr;
endmodule
|
module Test (/*AUTOARG*/
// Outputs
ff_en_vld, entry_vld,
// Inputs
clk, dvld, ff_en_e1
);
input clk;
input [7:0] dvld;
input [7:0] ff_en_e1;
output [7:0] ff_en_vld;
output wire [7:0] entry_vld;
wire [7:0] gclk_vld;
wire [7:0] ff_en_vld /*verilator clock_enable*/;
reg [7:0] flop_en_vld;
always @(posedge clk) flop_en_vld <= ff_en_e1;
// clock gating
`ifdef GATED_CLK_TESTCASE
assign gclk_vld = {8{clk}} & ff_en_vld;
`else
assign gclk_vld = {8{clk}};
`endif
// latch for avoiding glitch on the clock gating control
llq #(8) dp_ff_en_vld (.clk(clk), .d(flop_en_vld), .q(ff_en_vld));
// flops that use the gated clock signal
ffq #(1) ff_entry_dvld_0 (.clk(gclk_vld[0]), .d(dvld[0]), .q(entry_vld[0]));
ffq #(1) ff_entry_dvld_1 (.clk(gclk_vld[1]), .d(dvld[1]), .q(entry_vld[1]));
ffq #(1) ff_entry_dvld_2 (.clk(gclk_vld[2]), .d(dvld[2]), .q(entry_vld[2]));
ffq #(1) ff_entry_dvld_3 (.clk(gclk_vld[3]), .d(dvld[3]), .q(entry_vld[3]));
ffq #(1) ff_entry_dvld_4 (.clk(gclk_vld[4]), .d(dvld[4]), .q(entry_vld[4]));
ffq #(1) ff_entry_dvld_5 (.clk(gclk_vld[5]), .d(dvld[5]), .q(entry_vld[5]));
ffq #(1) ff_entry_dvld_6 (.clk(gclk_vld[6]), .d(dvld[6]), .q(entry_vld[6]));
ffq #(1) ff_entry_dvld_7 (.clk(gclk_vld[7]), .d(dvld[7]), .q(entry_vld[7]));
endmodule
|
module outputs)
wire [7:0] entry_vld; // From test of Test.v
wire [7:0] ff_en_vld; // From test of Test.v
// End of automatics
Test test (/*AUTOINST*/
// Outputs
.ff_en_vld (ff_en_vld[7:0]),
.entry_vld (entry_vld[7:0]),
// Inputs
.clk (clk),
.dvld (dvld[7:0]),
.ff_en_e1 (ff_en_e1[7:0]));
reg err_code;
reg ffq_clk_active;
reg [7:0] prv_dvld;
initial begin
err_code = 0;
ffq_clk_active = 0;
end
always @ (posedge clk) begin
prv_dvld = test.dvld;
end
always @ (negedge test.ff_entry_dvld_0.clk) begin
ffq_clk_active = 1;
if (test.entry_vld[0] !== prv_dvld[0]) err_code = 1;
end
// Test loop
always @ (posedge clk) begin
`ifdef TEST_VERBOSE
$write("[%0t] cyc==%0d crc=%x ",$time, cyc, crc);
$display(" en=%b fen=%b d=%b ev=%b",
test.flop_en_vld[0], test.ff_en_vld[0],
test.dvld[0], test.entry_vld[0]);
`endif
cyc <= cyc + 1;
crc <= {crc[62:0], crc[63]^crc[2]^crc[0]};
if (cyc<3) begin
crc <= 64'h5aef0c8d_d70a4497;
end
else if (cyc==99) begin
$write("[%0t] cyc==%0d crc=%x\n",$time, cyc, crc);
if (ffq_clk_active == 0) begin
$display ("----");
$display ("%%Error: TESTCASE FAILED with no Clock arriving at FFQs");
$display ("----");
$stop;
end
else if (err_code) begin
$display ("----");
$display ("%%Error: TESTCASE FAILED with invalid propagation of 'd' to 'q' of FFQs");
$display ("----");
$stop;
end
else begin
$write("*-* All Finished *-*\n");
$finish;
end
end
end
endmodule
|
module llq (clk, d, q);
parameter WIDTH = 32;
input clk;
input [WIDTH-1:0] d;
output [WIDTH-1:0] q;
reg [WIDTH-1:0] qr;
/* verilator lint_off COMBDLY */
always @(clk or d)
if (clk == 1'b0)
qr <= d;
/* verilator lint_on COMBDLY */
assign q = qr;
endmodule
|
module ffq (clk, d, q);
parameter WIDTH = 32;
input clk;
input [WIDTH-1:0] d;
output [WIDTH-1:0] q;
reg [WIDTH-1:0] qr;
always @(posedge clk)
qr <= d;
assign q = qr;
endmodule
|
module Test (/*AUTOARG*/
// Outputs
ff_en_vld, entry_vld,
// Inputs
clk, dvld, ff_en_e1
);
input clk;
input [7:0] dvld;
input [7:0] ff_en_e1;
output [7:0] ff_en_vld;
output wire [7:0] entry_vld;
wire [7:0] gclk_vld;
wire [7:0] ff_en_vld /*verilator clock_enable*/;
reg [7:0] flop_en_vld;
always @(posedge clk) flop_en_vld <= ff_en_e1;
// clock gating
`ifdef GATED_CLK_TESTCASE
assign gclk_vld = {8{clk}} & ff_en_vld;
`else
assign gclk_vld = {8{clk}};
`endif
// latch for avoiding glitch on the clock gating control
llq #(8) dp_ff_en_vld (.clk(clk), .d(flop_en_vld), .q(ff_en_vld));
// flops that use the gated clock signal
ffq #(1) ff_entry_dvld_0 (.clk(gclk_vld[0]), .d(dvld[0]), .q(entry_vld[0]));
ffq #(1) ff_entry_dvld_1 (.clk(gclk_vld[1]), .d(dvld[1]), .q(entry_vld[1]));
ffq #(1) ff_entry_dvld_2 (.clk(gclk_vld[2]), .d(dvld[2]), .q(entry_vld[2]));
ffq #(1) ff_entry_dvld_3 (.clk(gclk_vld[3]), .d(dvld[3]), .q(entry_vld[3]));
ffq #(1) ff_entry_dvld_4 (.clk(gclk_vld[4]), .d(dvld[4]), .q(entry_vld[4]));
ffq #(1) ff_entry_dvld_5 (.clk(gclk_vld[5]), .d(dvld[5]), .q(entry_vld[5]));
ffq #(1) ff_entry_dvld_6 (.clk(gclk_vld[6]), .d(dvld[6]), .q(entry_vld[6]));
ffq #(1) ff_entry_dvld_7 (.clk(gclk_vld[7]), .d(dvld[7]), .q(entry_vld[7]));
endmodule
|
module hi_read_tx(
pck0, ck_1356meg, ck_1356megb,
pwr_lo, pwr_hi, pwr_oe1, pwr_oe2, pwr_oe3, pwr_oe4,
adc_d, adc_clk,
ssp_frame, ssp_din, ssp_dout, ssp_clk,
cross_hi, cross_lo,
dbg,
shallow_modulation
);
input pck0, ck_1356meg, ck_1356megb;
output pwr_lo, pwr_hi, pwr_oe1, pwr_oe2, pwr_oe3, pwr_oe4;
input [7:0] adc_d;
output adc_clk;
input ssp_dout;
output ssp_frame, ssp_din, ssp_clk;
input cross_hi, cross_lo;
output dbg;
input shallow_modulation;
// The high-frequency stuff. For now, for testing, just bring out the carrier,
// and allow the ARM to modulate it over the SSP.
reg pwr_hi;
reg pwr_oe1;
reg pwr_oe2;
reg pwr_oe3;
reg pwr_oe4;
always @(ck_1356megb or ssp_dout or shallow_modulation)
begin
if(shallow_modulation)
begin
pwr_hi <= ck_1356megb;
pwr_oe1 <= ~ssp_dout;
pwr_oe2 <= ~ssp_dout;
pwr_oe3 <= ~ssp_dout;
pwr_oe4 <= 1'b0;
end
else
begin
pwr_hi <= ck_1356megb & ssp_dout;
pwr_oe1 <= 1'b0;
pwr_oe2 <= 1'b0;
pwr_oe3 <= 1'b0;
pwr_oe4 <= 1'b0;
end
end
// Then just divide the 13.56 MHz clock down to produce appropriate clocks
// for the synchronous serial port.
reg [6:0] hi_div_by_128;
always @(posedge ck_1356meg)
hi_div_by_128 <= hi_div_by_128 + 1;
assign ssp_clk = hi_div_by_128[6];
reg [2:0] hi_byte_div;
always @(negedge ssp_clk)
hi_byte_div <= hi_byte_div + 1;
assign ssp_frame = (hi_byte_div == 3'b000);
// Implement a hysteresis to give out the received signal on
// ssp_din. Sample at fc.
assign adc_clk = ck_1356meg;
// ADC data appears on the rising edge, so sample it on the falling edge
reg after_hysteresis;
always @(negedge adc_clk)
begin
if(& adc_d[7:0]) after_hysteresis <= 1'b1;
else if(~(| adc_d[7:0])) after_hysteresis <= 1'b0;
end
assign ssp_din = after_hysteresis;
assign pwr_lo = 1'b0;
assign dbg = ssp_din;
endmodule
|
module hi_read_tx(
pck0, ck_1356meg, ck_1356megb,
pwr_lo, pwr_hi, pwr_oe1, pwr_oe2, pwr_oe3, pwr_oe4,
adc_d, adc_clk,
ssp_frame, ssp_din, ssp_dout, ssp_clk,
cross_hi, cross_lo,
dbg,
shallow_modulation
);
input pck0, ck_1356meg, ck_1356megb;
output pwr_lo, pwr_hi, pwr_oe1, pwr_oe2, pwr_oe3, pwr_oe4;
input [7:0] adc_d;
output adc_clk;
input ssp_dout;
output ssp_frame, ssp_din, ssp_clk;
input cross_hi, cross_lo;
output dbg;
input shallow_modulation;
// The high-frequency stuff. For now, for testing, just bring out the carrier,
// and allow the ARM to modulate it over the SSP.
reg pwr_hi;
reg pwr_oe1;
reg pwr_oe2;
reg pwr_oe3;
reg pwr_oe4;
always @(ck_1356megb or ssp_dout or shallow_modulation)
begin
if(shallow_modulation)
begin
pwr_hi <= ck_1356megb;
pwr_oe1 <= ~ssp_dout;
pwr_oe2 <= ~ssp_dout;
pwr_oe3 <= ~ssp_dout;
pwr_oe4 <= 1'b0;
end
else
begin
pwr_hi <= ck_1356megb & ssp_dout;
pwr_oe1 <= 1'b0;
pwr_oe2 <= 1'b0;
pwr_oe3 <= 1'b0;
pwr_oe4 <= 1'b0;
end
end
// Then just divide the 13.56 MHz clock down to produce appropriate clocks
// for the synchronous serial port.
reg [6:0] hi_div_by_128;
always @(posedge ck_1356meg)
hi_div_by_128 <= hi_div_by_128 + 1;
assign ssp_clk = hi_div_by_128[6];
reg [2:0] hi_byte_div;
always @(negedge ssp_clk)
hi_byte_div <= hi_byte_div + 1;
assign ssp_frame = (hi_byte_div == 3'b000);
// Implement a hysteresis to give out the received signal on
// ssp_din. Sample at fc.
assign adc_clk = ck_1356meg;
// ADC data appears on the rising edge, so sample it on the falling edge
reg after_hysteresis;
always @(negedge adc_clk)
begin
if(& adc_d[7:0]) after_hysteresis <= 1'b1;
else if(~(| adc_d[7:0])) after_hysteresis <= 1'b0;
end
assign ssp_din = after_hysteresis;
assign pwr_lo = 1'b0;
assign dbg = ssp_din;
endmodule
|
module hi_read_tx(
pck0, ck_1356meg, ck_1356megb,
pwr_lo, pwr_hi, pwr_oe1, pwr_oe2, pwr_oe3, pwr_oe4,
adc_d, adc_clk,
ssp_frame, ssp_din, ssp_dout, ssp_clk,
cross_hi, cross_lo,
dbg,
shallow_modulation
);
input pck0, ck_1356meg, ck_1356megb;
output pwr_lo, pwr_hi, pwr_oe1, pwr_oe2, pwr_oe3, pwr_oe4;
input [7:0] adc_d;
output adc_clk;
input ssp_dout;
output ssp_frame, ssp_din, ssp_clk;
input cross_hi, cross_lo;
output dbg;
input shallow_modulation;
// The high-frequency stuff. For now, for testing, just bring out the carrier,
// and allow the ARM to modulate it over the SSP.
reg pwr_hi;
reg pwr_oe1;
reg pwr_oe2;
reg pwr_oe3;
reg pwr_oe4;
always @(ck_1356megb or ssp_dout or shallow_modulation)
begin
if(shallow_modulation)
begin
pwr_hi <= ck_1356megb;
pwr_oe1 <= ~ssp_dout;
pwr_oe2 <= ~ssp_dout;
pwr_oe3 <= ~ssp_dout;
pwr_oe4 <= 1'b0;
end
else
begin
pwr_hi <= ck_1356megb & ssp_dout;
pwr_oe1 <= 1'b0;
pwr_oe2 <= 1'b0;
pwr_oe3 <= 1'b0;
pwr_oe4 <= 1'b0;
end
end
// Then just divide the 13.56 MHz clock down to produce appropriate clocks
// for the synchronous serial port.
reg [6:0] hi_div_by_128;
always @(posedge ck_1356meg)
hi_div_by_128 <= hi_div_by_128 + 1;
assign ssp_clk = hi_div_by_128[6];
reg [2:0] hi_byte_div;
always @(negedge ssp_clk)
hi_byte_div <= hi_byte_div + 1;
assign ssp_frame = (hi_byte_div == 3'b000);
// Implement a hysteresis to give out the received signal on
// ssp_din. Sample at fc.
assign adc_clk = ck_1356meg;
// ADC data appears on the rising edge, so sample it on the falling edge
reg after_hysteresis;
always @(negedge adc_clk)
begin
if(& adc_d[7:0]) after_hysteresis <= 1'b1;
else if(~(| adc_d[7:0])) after_hysteresis <= 1'b0;
end
assign ssp_din = after_hysteresis;
assign pwr_lo = 1'b0;
assign dbg = ssp_din;
endmodule
|
module, including test, but that'll make a mess
timeunit 1ns;
timeprecision 1ns;
`endif
input clk;
integer cyc; initial cyc=1;
supply0 [1:0] low;
supply1 [1:0] high;
reg [7:0] isizedwire;
reg ionewire;
wire oonewire;
wire [7:0] osizedreg; // From sub of t_inst_v2k_sub.v
t_inst sub
(
.osizedreg,
.oonewire,
// Inputs
.isizedwire (isizedwire[7:0]),
.*
//.ionewire (ionewire)
);
always @ (posedge clk) begin
if (cyc!=0) begin
cyc <= cyc + 1;
if (cyc==1) begin
ionewire <= 1'b1;
isizedwire <= 8'd8;
end
if (cyc==2) begin
if (low != 2'b00) $stop;
if (high != 2'b11) $stop;
if (oonewire !== 1'b1) $stop;
if (isizedwire !== 8'd8) $stop;
end
if (cyc==3) begin
ionewire <= 1'b0;
isizedwire <= 8'd7;
end
if (cyc==4) begin
if (oonewire !== 1'b0) $stop;
if (isizedwire !== 8'd7) $stop;
$write("*-* All Finished *-*\n");
$finish;
end
end
end
endmodule
|
module t_inst
(
output reg [7:0] osizedreg,
output wire oonewire /*verilator public*/,
input [7:0] isizedwire,
input wire ionewire
);
assign oonewire = ionewire;
always @* begin
osizedreg = isizedwire;
end
endmodule
|
module, including test, but that'll make a mess
timeunit 1ns;
timeprecision 1ns;
`endif
input clk;
integer cyc; initial cyc=1;
supply0 [1:0] low;
supply1 [1:0] high;
reg [7:0] isizedwire;
reg ionewire;
wire oonewire;
wire [7:0] osizedreg; // From sub of t_inst_v2k_sub.v
t_inst sub
(
.osizedreg,
.oonewire,
// Inputs
.isizedwire (isizedwire[7:0]),
.*
//.ionewire (ionewire)
);
always @ (posedge clk) begin
if (cyc!=0) begin
cyc <= cyc + 1;
if (cyc==1) begin
ionewire <= 1'b1;
isizedwire <= 8'd8;
end
if (cyc==2) begin
if (low != 2'b00) $stop;
if (high != 2'b11) $stop;
if (oonewire !== 1'b1) $stop;
if (isizedwire !== 8'd8) $stop;
end
if (cyc==3) begin
ionewire <= 1'b0;
isizedwire <= 8'd7;
end
if (cyc==4) begin
if (oonewire !== 1'b0) $stop;
if (isizedwire !== 8'd7) $stop;
$write("*-* All Finished *-*\n");
$finish;
end
end
end
endmodule
|
module t_inst
(
output reg [7:0] osizedreg,
output wire oonewire /*verilator public*/,
input [7:0] isizedwire,
input wire ionewire
);
assign oonewire = ionewire;
always @* begin
osizedreg = isizedwire;
end
endmodule
|
module t (/*AUTOARG*/
// Inputs
clk
);
input clk;
integer cyc; initial cyc=1;
reg b;
wire vconst1 = 1'b0;
wire vconst2 = !(vconst1);
wire vconst3 = !vconst2;
wire vconst = vconst3;
wire qa;
wire qb;
wire qc;
wire qd;
wire qe;
ta ta (.b(b), .vconst(vconst), .q(qa));
tb tb (.clk(clk), .vconst(vconst), .q(qb));
tc tc (.b(b), .vconst(vconst), .q(qc));
td td (.b(b), .vconst(vconst), .q(qd));
te te (.clk(clk), .b(b), .vconst(vconst), .q(qe));
always @ (posedge clk) begin
`ifdef TEST_VERBOSE
$display("%b",{qa,qb,qc,qd,qe});
`endif
if (cyc!=0) begin
cyc <= cyc + 1;
if (cyc==1) begin
b <= 1'b1;
end
if (cyc==2) begin
if (qa!=1'b1) $stop;
if (qb!=1'b0) $stop;
if (qd!=1'b0) $stop;
b <= 1'b0;
end
if (cyc==3) begin
if (qa!=1'b0) $stop;
if (qb!=1'b0) $stop;
if (qd!=1'b0) $stop;
if (qe!=1'b0) $stop;
b <= 1'b1;
end
if (cyc==4) begin
if (qa!=1'b1) $stop;
if (qb!=1'b0) $stop;
if (qd!=1'b0) $stop;
if (qe!=1'b1) $stop;
b <= 1'b0;
end
if (cyc==5) begin
$write("*-* All Finished *-*\n");
$finish;
end
end
end
endmodule
|
module ta (
input vconst,
input b,
output reg q);
always @ (/*AS*/b or vconst) begin
q = vconst | b;
end
endmodule
|
module tb (
input vconst,
input clk,
output reg q);
always @ (posedge clk) begin
q <= vconst;
end
endmodule
|
module tc (
input vconst,
input b,
output reg q);
always @ (posedge vconst) begin
q <= b;
$stop;
end
endmodule
|
module td (
input vconst,
input b,
output reg q);
always @ (/*AS*/vconst) begin
q = vconst;
end
endmodule
|
module te (
input clk,
input vconst,
input b,
output reg q);
reg qmid;
always @ (posedge vconst or posedge clk) begin
qmid <= b;
end
always @ (posedge clk or posedge vconst) begin
q <= qmid;
end
endmodule
|
module t (/*AUTOARG*/
// Inputs
clk
);
input clk;
integer cyc; initial cyc=1;
reg b;
wire vconst1 = 1'b0;
wire vconst2 = !(vconst1);
wire vconst3 = !vconst2;
wire vconst = vconst3;
wire qa;
wire qb;
wire qc;
wire qd;
wire qe;
ta ta (.b(b), .vconst(vconst), .q(qa));
tb tb (.clk(clk), .vconst(vconst), .q(qb));
tc tc (.b(b), .vconst(vconst), .q(qc));
td td (.b(b), .vconst(vconst), .q(qd));
te te (.clk(clk), .b(b), .vconst(vconst), .q(qe));
always @ (posedge clk) begin
`ifdef TEST_VERBOSE
$display("%b",{qa,qb,qc,qd,qe});
`endif
if (cyc!=0) begin
cyc <= cyc + 1;
if (cyc==1) begin
b <= 1'b1;
end
if (cyc==2) begin
if (qa!=1'b1) $stop;
if (qb!=1'b0) $stop;
if (qd!=1'b0) $stop;
b <= 1'b0;
end
if (cyc==3) begin
if (qa!=1'b0) $stop;
if (qb!=1'b0) $stop;
if (qd!=1'b0) $stop;
if (qe!=1'b0) $stop;
b <= 1'b1;
end
if (cyc==4) begin
if (qa!=1'b1) $stop;
if (qb!=1'b0) $stop;
if (qd!=1'b0) $stop;
if (qe!=1'b1) $stop;
b <= 1'b0;
end
if (cyc==5) begin
$write("*-* All Finished *-*\n");
$finish;
end
end
end
endmodule
|
module ta (
input vconst,
input b,
output reg q);
always @ (/*AS*/b or vconst) begin
q = vconst | b;
end
endmodule
|
module tb (
input vconst,
input clk,
output reg q);
always @ (posedge clk) begin
q <= vconst;
end
endmodule
|
module tc (
input vconst,
input b,
output reg q);
always @ (posedge vconst) begin
q <= b;
$stop;
end
endmodule
|
module td (
input vconst,
input b,
output reg q);
always @ (/*AS*/vconst) begin
q = vconst;
end
endmodule
|
module te (
input clk,
input vconst,
input b,
output reg q);
reg qmid;
always @ (posedge vconst or posedge clk) begin
qmid <= b;
end
always @ (posedge clk or posedge vconst) begin
q <= qmid;
end
endmodule
|
module t (/*AUTOARG*/
// Inputs
clk
);
input clk;
reg a; initial a = 1'b1;
reg b_fc; initial b_fc = 1'b0;
reg b_pc; initial b_pc = 1'b0;
reg b_oh; initial b_oh = 1'b0;
reg b_oc; initial b_oc = 1'b0;
wire a_l = ~a;
wire b_oc_l = ~b_oc;
// Note we must insure that full, parallel, etc, only fire during
// edges (not mid-cycle), and must provide a way to turn them off.
// SystemVerilog provides: $asserton and $assertoff.
// verilator lint_off CASEINCOMPLETE
always @* begin
// Note not all tools support directives on casez's
case ({a,b_fc}) // synopsys full_case
2'b0_0: ;
2'b0_1: ;
2'b1_0: ;
// Note no default
endcase
priority case ({a,b_fc})
2'b0_0: ;
2'b0_1: ;
2'b1_0: ;
// Note no default
endcase
end
always @* begin
case (1'b1) // synopsys full_case parallel_case
a: ;
b_pc: ;
endcase
end
`ifdef NOT_YET_VERILATOR // Unsupported
// ambit synthesis one_hot "a, b_oh"
// cadence one_cold "a_l, b_oc_l"
`endif
integer cyc; initial cyc=1;
always @ (posedge clk) begin
if (cyc!=0) begin
cyc <= cyc + 1;
if (cyc==1) begin
a <= 1'b1;
b_fc <= 1'b0;
b_pc <= 1'b0;
b_oh <= 1'b0;
b_oc <= 1'b0;
end
if (cyc==2) begin
a <= 1'b0;
b_fc <= 1'b1;
b_pc <= 1'b1;
b_oh <= 1'b1;
b_oc <= 1'b1;
end
if (cyc==3) begin
a <= 1'b1;
b_fc <= 1'b0;
b_pc <= 1'b0;
b_oh <= 1'b0;
b_oc <= 1'b0;
end
if (cyc==4) begin
`ifdef FAILING_FULL
b_fc <= 1'b1;
`endif
`ifdef FAILING_PARALLEL
b_pc <= 1'b1;
`endif
`ifdef FAILING_OH
b_oh <= 1'b1;
`endif
`ifdef FAILING_OC
b_oc <= 1'b1;
`endif
end
if (cyc==10) begin
$write("*-* All Finished *-*\n");
$finish;
end
end
end
endmodule
|
module t (/*AUTOARG*/
// Inputs
clk
);
input clk;
reg a; initial a = 1'b1;
reg b_fc; initial b_fc = 1'b0;
reg b_pc; initial b_pc = 1'b0;
reg b_oh; initial b_oh = 1'b0;
reg b_oc; initial b_oc = 1'b0;
wire a_l = ~a;
wire b_oc_l = ~b_oc;
// Note we must insure that full, parallel, etc, only fire during
// edges (not mid-cycle), and must provide a way to turn them off.
// SystemVerilog provides: $asserton and $assertoff.
// verilator lint_off CASEINCOMPLETE
always @* begin
// Note not all tools support directives on casez's
case ({a,b_fc}) // synopsys full_case
2'b0_0: ;
2'b0_1: ;
2'b1_0: ;
// Note no default
endcase
priority case ({a,b_fc})
2'b0_0: ;
2'b0_1: ;
2'b1_0: ;
// Note no default
endcase
end
always @* begin
case (1'b1) // synopsys full_case parallel_case
a: ;
b_pc: ;
endcase
end
`ifdef NOT_YET_VERILATOR // Unsupported
// ambit synthesis one_hot "a, b_oh"
// cadence one_cold "a_l, b_oc_l"
`endif
integer cyc; initial cyc=1;
always @ (posedge clk) begin
if (cyc!=0) begin
cyc <= cyc + 1;
if (cyc==1) begin
a <= 1'b1;
b_fc <= 1'b0;
b_pc <= 1'b0;
b_oh <= 1'b0;
b_oc <= 1'b0;
end
if (cyc==2) begin
a <= 1'b0;
b_fc <= 1'b1;
b_pc <= 1'b1;
b_oh <= 1'b1;
b_oc <= 1'b1;
end
if (cyc==3) begin
a <= 1'b1;
b_fc <= 1'b0;
b_pc <= 1'b0;
b_oh <= 1'b0;
b_oc <= 1'b0;
end
if (cyc==4) begin
`ifdef FAILING_FULL
b_fc <= 1'b1;
`endif
`ifdef FAILING_PARALLEL
b_pc <= 1'b1;
`endif
`ifdef FAILING_OH
b_oh <= 1'b1;
`endif
`ifdef FAILING_OC
b_oc <= 1'b1;
`endif
end
if (cyc==10) begin
$write("*-* All Finished *-*\n");
$finish;
end
end
end
endmodule
|
module t (/*AUTOARG*/
// Inputs
clk
);
input clk;
localparam // synopsys enum En_State
EP_State_IDLE = {3'b000,5'd00},
EP_State_CMDSHIFT0 = {3'b001,5'd00},
EP_State_CMDSHIFT13 = {3'b001,5'd13},
EP_State_CMDSHIFT14 = {3'b001,5'd14},
EP_State_CMDSHIFT15 = {3'b001,5'd15},
EP_State_CMDSHIFT16 = {3'b001,5'd16},
EP_State_DWAIT = {3'b010,5'd00},
EP_State_DSHIFT0 = {3'b100,5'd00},
EP_State_DSHIFT1 = {3'b100,5'd01},
EP_State_DSHIFT15 = {3'b100,5'd15};
reg [7:0] /* synopsys enum En_State */
m_state_xr; // Last command, for debugging
/*AUTOASCIIENUM("m_state_xr", "m_stateAscii_xr", "EP_State_")*/
// Beginning of automatic ASCII enum decoding
reg [79:0] m_stateAscii_xr; // Decode of m_state_xr
always @(m_state_xr) begin
case ({m_state_xr})
EP_State_IDLE: m_stateAscii_xr = "idle ";
EP_State_CMDSHIFT0: m_stateAscii_xr = "cmdshift0 ";
EP_State_CMDSHIFT13: m_stateAscii_xr = "cmdshift13";
EP_State_CMDSHIFT14: m_stateAscii_xr = "cmdshift14";
EP_State_CMDSHIFT15: m_stateAscii_xr = "cmdshift15";
EP_State_CMDSHIFT16: m_stateAscii_xr = "cmdshift16";
EP_State_DWAIT: m_stateAscii_xr = "dwait ";
EP_State_DSHIFT0: m_stateAscii_xr = "dshift0 ";
EP_State_DSHIFT1: m_stateAscii_xr = "dshift1 ";
EP_State_DSHIFT15: m_stateAscii_xr = "dshift15 ";
default: m_stateAscii_xr = "%Error ";
endcase
end
// End of automatics
integer cyc; initial cyc=1;
always @ (posedge clk) begin
if (cyc!=0) begin
cyc <= cyc + 1;
//$write("%d %x %x %x\n", cyc, data, wrapcheck_a, wrapcheck_b);
if (cyc==1) begin
m_state_xr <= EP_State_IDLE;
end
if (cyc==2) begin
if (m_stateAscii_xr != "idle ") $stop;
m_state_xr <= EP_State_CMDSHIFT13;
end
if (cyc==3) begin
if (m_stateAscii_xr != "cmdshift13") $stop;
m_state_xr <= EP_State_CMDSHIFT16;
end
if (cyc==4) begin
if (m_stateAscii_xr != "cmdshift16") $stop;
m_state_xr <= EP_State_DWAIT;
end
if (cyc==9) begin
if (m_stateAscii_xr != "dwait ") $stop;
$write("*-* All Finished *-*\n");
$finish;
end
end
end
endmodule
|
module t (/*AUTOARG*/
// Inputs
clk
);
input clk;
localparam // synopsys enum En_State
EP_State_IDLE = {3'b000,5'd00},
EP_State_CMDSHIFT0 = {3'b001,5'd00},
EP_State_CMDSHIFT13 = {3'b001,5'd13},
EP_State_CMDSHIFT14 = {3'b001,5'd14},
EP_State_CMDSHIFT15 = {3'b001,5'd15},
EP_State_CMDSHIFT16 = {3'b001,5'd16},
EP_State_DWAIT = {3'b010,5'd00},
EP_State_DSHIFT0 = {3'b100,5'd00},
EP_State_DSHIFT1 = {3'b100,5'd01},
EP_State_DSHIFT15 = {3'b100,5'd15};
reg [7:0] /* synopsys enum En_State */
m_state_xr; // Last command, for debugging
/*AUTOASCIIENUM("m_state_xr", "m_stateAscii_xr", "EP_State_")*/
// Beginning of automatic ASCII enum decoding
reg [79:0] m_stateAscii_xr; // Decode of m_state_xr
always @(m_state_xr) begin
case ({m_state_xr})
EP_State_IDLE: m_stateAscii_xr = "idle ";
EP_State_CMDSHIFT0: m_stateAscii_xr = "cmdshift0 ";
EP_State_CMDSHIFT13: m_stateAscii_xr = "cmdshift13";
EP_State_CMDSHIFT14: m_stateAscii_xr = "cmdshift14";
EP_State_CMDSHIFT15: m_stateAscii_xr = "cmdshift15";
EP_State_CMDSHIFT16: m_stateAscii_xr = "cmdshift16";
EP_State_DWAIT: m_stateAscii_xr = "dwait ";
EP_State_DSHIFT0: m_stateAscii_xr = "dshift0 ";
EP_State_DSHIFT1: m_stateAscii_xr = "dshift1 ";
EP_State_DSHIFT15: m_stateAscii_xr = "dshift15 ";
default: m_stateAscii_xr = "%Error ";
endcase
end
// End of automatics
integer cyc; initial cyc=1;
always @ (posedge clk) begin
if (cyc!=0) begin
cyc <= cyc + 1;
//$write("%d %x %x %x\n", cyc, data, wrapcheck_a, wrapcheck_b);
if (cyc==1) begin
m_state_xr <= EP_State_IDLE;
end
if (cyc==2) begin
if (m_stateAscii_xr != "idle ") $stop;
m_state_xr <= EP_State_CMDSHIFT13;
end
if (cyc==3) begin
if (m_stateAscii_xr != "cmdshift13") $stop;
m_state_xr <= EP_State_CMDSHIFT16;
end
if (cyc==4) begin
if (m_stateAscii_xr != "cmdshift16") $stop;
m_state_xr <= EP_State_DWAIT;
end
if (cyc==9) begin
if (m_stateAscii_xr != "dwait ") $stop;
$write("*-* All Finished *-*\n");
$finish;
end
end
end
endmodule
|
module t (/*AUTOARG*/
// Inputs
clk
);
input clk;
localparam // synopsys enum En_State
EP_State_IDLE = {3'b000,5'd00},
EP_State_CMDSHIFT0 = {3'b001,5'd00},
EP_State_CMDSHIFT13 = {3'b001,5'd13},
EP_State_CMDSHIFT14 = {3'b001,5'd14},
EP_State_CMDSHIFT15 = {3'b001,5'd15},
EP_State_CMDSHIFT16 = {3'b001,5'd16},
EP_State_DWAIT = {3'b010,5'd00},
EP_State_DSHIFT0 = {3'b100,5'd00},
EP_State_DSHIFT1 = {3'b100,5'd01},
EP_State_DSHIFT15 = {3'b100,5'd15};
reg [7:0] /* synopsys enum En_State */
m_state_xr; // Last command, for debugging
/*AUTOASCIIENUM("m_state_xr", "m_stateAscii_xr", "EP_State_")*/
// Beginning of automatic ASCII enum decoding
reg [79:0] m_stateAscii_xr; // Decode of m_state_xr
always @(m_state_xr) begin
case ({m_state_xr})
EP_State_IDLE: m_stateAscii_xr = "idle ";
EP_State_CMDSHIFT0: m_stateAscii_xr = "cmdshift0 ";
EP_State_CMDSHIFT13: m_stateAscii_xr = "cmdshift13";
EP_State_CMDSHIFT14: m_stateAscii_xr = "cmdshift14";
EP_State_CMDSHIFT15: m_stateAscii_xr = "cmdshift15";
EP_State_CMDSHIFT16: m_stateAscii_xr = "cmdshift16";
EP_State_DWAIT: m_stateAscii_xr = "dwait ";
EP_State_DSHIFT0: m_stateAscii_xr = "dshift0 ";
EP_State_DSHIFT1: m_stateAscii_xr = "dshift1 ";
EP_State_DSHIFT15: m_stateAscii_xr = "dshift15 ";
default: m_stateAscii_xr = "%Error ";
endcase
end
// End of automatics
integer cyc; initial cyc=1;
always @ (posedge clk) begin
if (cyc!=0) begin
cyc <= cyc + 1;
//$write("%d %x %x %x\n", cyc, data, wrapcheck_a, wrapcheck_b);
if (cyc==1) begin
m_state_xr <= EP_State_IDLE;
end
if (cyc==2) begin
if (m_stateAscii_xr != "idle ") $stop;
m_state_xr <= EP_State_CMDSHIFT13;
end
if (cyc==3) begin
if (m_stateAscii_xr != "cmdshift13") $stop;
m_state_xr <= EP_State_CMDSHIFT16;
end
if (cyc==4) begin
if (m_stateAscii_xr != "cmdshift16") $stop;
m_state_xr <= EP_State_DWAIT;
end
if (cyc==9) begin
if (m_stateAscii_xr != "dwait ") $stop;
$write("*-* All Finished *-*\n");
$finish;
end
end
end
endmodule
|
module t (/*AUTOARG*/
// Inputs
clk
);
input clk;
integer cyc; initial cyc=1;
reg [7:0] crc;
// Build up assignments
wire [7:0] bitrev;
assign bitrev[7] = crc[0];
assign bitrev[6] = crc[1];
assign bitrev[5] = crc[2];
assign bitrev[4] = crc[3];
assign bitrev[0] = crc[7];
assign bitrev[1] = crc[6];
assign bitrev[2] = crc[5];
assign bitrev[3] = crc[4];
// Build up always assignments
reg [7:0] bitrevb;
always @ (/*AS*/crc) begin
bitrevb[7] = crc[0];
bitrevb[6] = crc[1];
bitrevb[5] = crc[2];
bitrevb[4] = crc[3];
bitrevb[0] = crc[7];
bitrevb[1] = crc[6];
bitrevb[2] = crc[5];
bitrevb[3] = crc[4];
end
// Build up always assignments
reg [7:0] bitrevr;
always @ (posedge clk) begin
bitrevr[7] <= crc[0];
bitrevr[6] <= crc[1];
bitrevr[5] <= crc[2];
bitrevr[4] <= crc[3];
bitrevr[0] <= crc[7];
bitrevr[1] <= crc[6];
bitrevr[2] <= crc[5];
bitrevr[3] <= crc[4];
end
always @ (posedge clk) begin
if (cyc!=0) begin
cyc<=cyc+1;
//$write("cyc=%0d crc=%x r=%x\n", cyc, crc, bitrev);
crc <= {crc[6:0], ~^ {crc[7],crc[5],crc[4],crc[3]}};
if (cyc==1) begin
crc <= 8'hed;
end
if (cyc==2 && bitrev!=8'hb7) $stop;
if (cyc==3 && bitrev!=8'h5b) $stop;
if (cyc==4 && bitrev!=8'h2d) $stop;
if (cyc==5 && bitrev!=8'h16) $stop;
if (cyc==6 && bitrev!=8'h8b) $stop;
if (cyc==7 && bitrev!=8'hc5) $stop;
if (cyc==8 && bitrev!=8'he2) $stop;
if (cyc==9 && bitrev!=8'hf1) $stop;
if (bitrevb != bitrev) $stop;
if (cyc==3 && bitrevr!=8'hb7) $stop;
if (cyc==4 && bitrevr!=8'h5b) $stop;
if (cyc==5 && bitrevr!=8'h2d) $stop;
if (cyc==6 && bitrevr!=8'h16) $stop;
if (cyc==7 && bitrevr!=8'h8b) $stop;
if (cyc==8 && bitrevr!=8'hc5) $stop;
if (cyc==9) begin
$write("*-* All Finished *-*\n");
$finish;
end
end
end
endmodule
|
module processing_system7_bfm_v2_0_5_axi_master (
M_RESETN,
M_ARVALID,
M_AWVALID,
M_BREADY,
M_RREADY,
M_WLAST,
M_WVALID,
M_ARID,
M_AWID,
M_WID,
M_ARBURST,
M_ARLOCK,
M_ARSIZE,
M_AWBURST,
M_AWLOCK,
M_AWSIZE,
M_ARPROT,
M_AWPROT,
M_ARADDR,
M_AWADDR,
M_WDATA,
M_ARCACHE,
M_ARLEN,
M_AWCACHE,
M_AWLEN,
M_ARQOS, // not connected to AXI BFM
M_AWQOS, // not connected to AXI BFM
M_WSTRB,
M_ACLK,
M_ARREADY,
M_AWREADY,
M_BVALID,
M_RLAST,
M_RVALID,
M_WREADY,
M_BID,
M_RID,
M_BRESP,
M_RRESP,
M_RDATA
);
parameter enable_this_port = 0;
parameter master_name = "Master";
parameter data_bus_width = 32;
parameter address_bus_width = 32;
parameter id_bus_width = 6;
parameter max_outstanding_transactions = 8;
parameter exclusive_access_supported = 0;
parameter ID = 12'hC00;
`include "processing_system7_bfm_v2_0_5_local_params.v"
/* IDs for Masters
// l2m1 (CPU000)
12'b11_000_000_00_00
12'b11_010_000_00_00
12'b11_011_000_00_00
12'b11_100_000_00_00
12'b11_101_000_00_00
12'b11_110_000_00_00
12'b11_111_000_00_00
// l2m1 (CPU001)
12'b11_000_001_00_00
12'b11_010_001_00_00
12'b11_011_001_00_00
12'b11_100_001_00_00
12'b11_101_001_00_00
12'b11_110_001_00_00
12'b11_111_001_00_00
*/
input M_RESETN;
output M_ARVALID;
output M_AWVALID;
output M_BREADY;
output M_RREADY;
output M_WLAST;
output M_WVALID;
output [id_bus_width-1:0] M_ARID;
output [id_bus_width-1:0] M_AWID;
output [id_bus_width-1:0] M_WID;
output [axi_brst_type_width-1:0] M_ARBURST;
output [axi_lock_width-1:0] M_ARLOCK;
output [axi_size_width-1:0] M_ARSIZE;
output [axi_brst_type_width-1:0] M_AWBURST;
output [axi_lock_width-1:0] M_AWLOCK;
output [axi_size_width-1:0] M_AWSIZE;
output [axi_prot_width-1:0] M_ARPROT;
output [axi_prot_width-1:0] M_AWPROT;
output [address_bus_width-1:0] M_ARADDR;
output [address_bus_width-1:0] M_AWADDR;
output [data_bus_width-1:0] M_WDATA;
output [axi_cache_width-1:0] M_ARCACHE;
output [axi_len_width-1:0] M_ARLEN;
output [axi_qos_width-1:0] M_ARQOS; // not connected to AXI BFM
output [axi_cache_width-1:0] M_AWCACHE;
output [axi_len_width-1:0] M_AWLEN;
output [axi_qos_width-1:0] M_AWQOS; // not connected to AXI BFM
output [(data_bus_width/8)-1:0] M_WSTRB;
input M_ACLK;
input M_ARREADY;
input M_AWREADY;
input M_BVALID;
input M_RLAST;
input M_RVALID;
input M_WREADY;
input [id_bus_width-1:0] M_BID;
input [id_bus_width-1:0] M_RID;
input [axi_rsp_width-1:0] M_BRESP;
input [axi_rsp_width-1:0] M_RRESP;
input [data_bus_width-1:0] M_RDATA;
wire net_RESETN;
wire net_RVALID;
wire net_BVALID;
reg DEBUG_INFO = 1'b1;
reg STOP_ON_ERROR = 1'b1;
integer use_id_no = 0;
assign M_ARQOS = 'b0;
assign M_AWQOS = 'b0;
assign net_RESETN = M_RESETN; //ENABLE_THIS_PORT ? M_RESETN : 1'b0;
assign net_RVALID = enable_this_port ? M_RVALID : 1'b0;
assign net_BVALID = enable_this_port ? M_BVALID : 1'b0;
initial begin
if(DEBUG_INFO) begin
if(enable_this_port)
$display("[%0d] : %0s : %0s : Port is ENABLED.",$time, DISP_INFO, master_name);
else
$display("[%0d] : %0s : %0s : Port is DISABLED.",$time, DISP_INFO, master_name);
end
end
initial master.set_disable_reset_value_checks(1);
initial begin
repeat(2) @(posedge M_ACLK);
if(!enable_this_port) begin
master.set_channel_level_info(0);
master.set_function_level_info(0);
end
master.RESPONSE_TIMEOUT = 0;
end
cdn_axi3_master_bfm #(master_name,
data_bus_width,
address_bus_width,
id_bus_width,
max_outstanding_transactions,
exclusive_access_supported)
master (.ACLK (M_ACLK),
.ARESETn (net_RESETN), /// confirm this
// Write Address Channel
.AWID (M_AWID),
.AWADDR (M_AWADDR),
.AWLEN (M_AWLEN),
.AWSIZE (M_AWSIZE),
.AWBURST (M_AWBURST),
.AWLOCK (M_AWLOCK),
.AWCACHE (M_AWCACHE),
.AWPROT (M_AWPROT),
.AWVALID (M_AWVALID),
.AWREADY (M_AWREADY),
// Write Data Channel Signals.
.WID (M_WID),
.WDATA (M_WDATA),
.WSTRB (M_WSTRB),
.WLAST (M_WLAST),
.WVALID (M_WVALID),
.WREADY (M_WREADY),
// Write Response Channel Signals.
.BID (M_BID),
.BRESP (M_BRESP),
.BVALID (net_BVALID),
.BREADY (M_BREADY),
// Read Address Channel Signals.
.ARID (M_ARID),
.ARADDR (M_ARADDR),
.ARLEN (M_ARLEN),
.ARSIZE (M_ARSIZE),
.ARBURST (M_ARBURST),
.ARLOCK (M_ARLOCK),
.ARCACHE (M_ARCACHE),
.ARPROT (M_ARPROT),
.ARVALID (M_ARVALID),
.ARREADY (M_ARREADY),
// Read Data Channel Signals.
.RID (M_RID),
.RDATA (M_RDATA),
.RRESP (M_RRESP),
.RLAST (M_RLAST),
.RVALID (net_RVALID),
.RREADY (M_RREADY));
/* Call to BFM APIs */
task automatic read_burst(input [address_bus_width-1:0] addr,input [axi_len_width-1:0] len,input [axi_size_width-1:0] siz,input [axi_brst_type_width-1:0] burst,input [axi_lock_width-1:0] lck,input [axi_cache_width-1:0] cache,input [axi_prot_width-1:0] prot,output [(axi_mgp_data_width*axi_burst_len)-1:0] data, output [(axi_rsp_width*axi_burst_len)-1:0] response);
if(enable_this_port)begin
if(lck !== AXI_NRML)
master.READ_BURST(ID,addr,len,siz,burst,lck,cache,prot,data,response);
else
master.READ_BURST(ID,addr,len,siz,burst,lck,cache,prot,data,response);
end else begin
$display("[%0d] : %0s : %0s : Port is disabled. 'read_burst' will not be executed...",$time, DISP_ERR, master_name);
if(STOP_ON_ERROR) $stop;
end
endtask
task automatic write_burst(input [address_bus_width-1:0] addr,input [axi_len_width-1:0] len,input [axi_size_width-1:0] siz,input [axi_brst_type_width-1:0] burst,input [axi_lock_width-1:0] lck,input [axi_cache_width-1:0] cache,input [axi_prot_width-1:0] prot,input [(axi_mgp_data_width*axi_burst_len)-1:0] data,input integer datasize, output [axi_rsp_width-1:0] response);
if(enable_this_port)begin
if(lck !== AXI_NRML)
master.WRITE_BURST(ID,addr,len,siz,burst,lck,cache,prot,data,datasize,response);
else
master.WRITE_BURST(ID,addr,len,siz,burst,lck,cache,prot,data,datasize,response);
end else begin
$display("[%0d] : %0s : %0s : Port is disabled. 'write_burst' will not be executed...",$time, DISP_ERR, master_name);
if(STOP_ON_ERROR) $stop;
end
endtask
task automatic write_burst_concurrent(input [address_bus_width-1:0] addr,input [axi_len_width-1:0] len,input [axi_size_width-1:0] siz,input [axi_brst_type_width-1:0] burst,input [axi_lock_width-1:0] lck,input [axi_cache_width-1:0] cache,input [axi_prot_width-1:0] prot,input [(axi_mgp_data_width*axi_burst_len)-1:0] data,input integer datasize, output [axi_rsp_width-1:0] response);
if(enable_this_port)begin
if(lck !== AXI_NRML)
master.WRITE_BURST_CONCURRENT(ID,addr,len,siz,burst,lck,cache,prot,data,datasize,response);
else
master.WRITE_BURST_CONCURRENT(ID,addr,len,siz,burst,lck,cache,prot,data,datasize,response);
end else begin
$display("[%0d] : %0s : %0s : Port is disabled. 'write_burst_concurrent' will not be executed...",$time, DISP_ERR, master_name);
if(STOP_ON_ERROR) $stop;
end
endtask
/* local */
function automatic[id_bus_width-1:0] get_id;
input dummy;
begin
case(use_id_no)
// l2m1 (CPU000)
0 : get_id = 12'b11_000_000_00_00;
1 : get_id = 12'b11_010_000_00_00;
2 : get_id = 12'b11_011_000_00_00;
3 : get_id = 12'b11_100_000_00_00;
4 : get_id = 12'b11_101_000_00_00;
5 : get_id = 12'b11_110_000_00_00;
6 : get_id = 12'b11_111_000_00_00;
// l2m1 (CPU001)
7 : get_id = 12'b11_000_001_00_00;
8 : get_id = 12'b11_010_001_00_00;
9 : get_id = 12'b11_011_001_00_00;
10 : get_id = 12'b11_100_001_00_00;
11 : get_id = 12'b11_101_001_00_00;
12 : get_id = 12'b11_110_001_00_00;
13 : get_id = 12'b11_111_001_00_00;
endcase
if(use_id_no == 13)
use_id_no = 0;
else
use_id_no = use_id_no+1;
end
endfunction
/* Write data from file */
task automatic write_from_file;
input [(max_chars*8)-1:0] file_name;
input [addr_width-1:0] start_addr;
input [int_width-1:0] wr_size;
output [axi_rsp_width-1:0] response;
reg [axi_rsp_width-1:0] wresp,rwrsp;
reg [addr_width-1:0] addr;
reg [(axi_burst_len*data_bus_width)-1 : 0] wr_data;
integer bytes;
integer trnsfr_bytes;
integer wr_fd;
integer succ;
integer trnsfr_lngth;
reg concurrent;
reg [id_bus_width-1:0] wr_id;
reg [axi_size_width-1:0] siz;
reg [axi_brst_type_width-1:0] burst;
reg [axi_lock_width-1:0] lck;
reg [axi_cache_width-1:0] cache;
reg [axi_prot_width-1:0] prot;
begin
if(!enable_this_port) begin
$display("[%0d] : %0s : %0s : Port is disabled. 'write_from_file' will not be executed...",$time, DISP_ERR, master_name);
if(STOP_ON_ERROR) $stop;
end else begin
siz = 2;
burst = 1;
lck = 0;
cache = 0;
prot = 0;
addr = start_addr;
bytes = wr_size;
wresp = 0;
concurrent = $random;
if(bytes > (axi_burst_len * data_bus_width/8))
trnsfr_bytes = (axi_burst_len * data_bus_width/8);
else
trnsfr_bytes = bytes;
if(bytes > (axi_burst_len * data_bus_width/8))
trnsfr_lngth = axi_burst_len-1;
else if(bytes%(data_bus_width/8) == 0)
trnsfr_lngth = bytes/(data_bus_width/8) - 1;
else
trnsfr_lngth = bytes/(data_bus_width/8);
wr_id = ID;
wr_fd = $fopen(file_name,"r");
while (bytes > 0) begin
repeat(axi_burst_len) begin /// get the data for 1 AXI burst transaction
wr_data = wr_data >> data_bus_width;
succ = $fscanf(wr_fd,"%h",wr_data[(axi_burst_len*data_bus_width)-1 :(axi_burst_len*data_bus_width)-data_bus_width ]); /// write as 4 bytes (data_bus_width) ..
end
if(concurrent)
master.WRITE_BURST_CONCURRENT(wr_id, addr, trnsfr_lngth, siz, burst, lck, cache, prot, wr_data, trnsfr_bytes, rwrsp);
else
master.WRITE_BURST(wr_id, addr, trnsfr_lngth, siz, burst, lck, cache, prot, wr_data, trnsfr_bytes, rwrsp);
bytes = bytes - trnsfr_bytes;
addr = addr + trnsfr_bytes;
if(bytes >= (axi_burst_len * data_bus_width/8) )
trnsfr_bytes = (axi_burst_len * data_bus_width/8); //
else
trnsfr_bytes = bytes;
if(bytes > (axi_burst_len * data_bus_width/8))
trnsfr_lngth = axi_burst_len-1;
else if(bytes%(data_bus_width/8) == 0)
trnsfr_lngth = bytes/(data_bus_width/8) - 1;
else
trnsfr_lngth = bytes/(data_bus_width/8);
wresp = wresp | rwrsp;
end /// while
response = wresp;
end
end
endtask
/* Read data to file */
task automatic read_to_file;
input [(max_chars*8)-1:0] file_name;
input [addr_width-1:0] start_addr;
input [int_width-1:0] rd_size;
output [axi_rsp_width-1:0] response;
reg [axi_rsp_width-1:0] rresp, rrrsp;
reg [addr_width-1:0] addr;
integer bytes;
integer trnsfr_lngth;
reg [(axi_burst_len*data_bus_width)-1 :0] rd_data;
integer rd_fd;
reg [id_bus_width-1:0] rd_id;
reg [axi_size_width-1:0] siz;
reg [axi_brst_type_width-1:0] burst;
reg [axi_lock_width-1:0] lck;
reg [axi_cache_width-1:0] cache;
reg [axi_prot_width-1:0] prot;
begin
if(!enable_this_port) begin
$display("[%0d] : %0s : %0s : Port is disabled. 'read_to_file' will not be executed...",$time, DISP_ERR, master_name);
if(STOP_ON_ERROR) $stop;
end else begin
siz = 2;
burst = 1;
lck = 0;
cache = 0;
prot = 0;
addr = start_addr;
rresp = 0;
bytes = rd_size;
rd_id = ID;
if(bytes > (axi_burst_len * data_bus_width/8))
trnsfr_lngth = axi_burst_len-1;
else if(bytes%(data_bus_width/8) == 0)
trnsfr_lngth = bytes/(data_bus_width/8) - 1;
else
trnsfr_lngth = bytes/(data_bus_width/8);
rd_fd = $fopen(file_name,"w");
while (bytes > 0) begin
master.READ_BURST(rd_id, addr, trnsfr_lngth, siz, burst, lck, cache, prot, rd_data, rrrsp);
repeat(trnsfr_lngth+1) begin
$fdisplayh(rd_fd,rd_data[data_bus_width-1:0]);
rd_data = rd_data >> data_bus_width;
end
addr = addr + (trnsfr_lngth+1)*4;
if(bytes >= (axi_burst_len * data_bus_width/8) )
bytes = bytes - (axi_burst_len * data_bus_width/8); //
else
bytes = 0;
if(bytes > (axi_burst_len * data_bus_width/8))
trnsfr_lngth = axi_burst_len-1;
else if(bytes%(data_bus_width/8) == 0)
trnsfr_lngth = bytes/(data_bus_width/8) - 1;
else
trnsfr_lngth = bytes/(data_bus_width/8);
rresp = rresp | rrrsp;
end /// while
response = rresp;
end
end
endtask
/* Write data (used for transfer size <= 128 Bytes */
task automatic write_data;
input [addr_width-1:0] start_addr;
input [max_transfer_bytes_width:0] wr_size;
input [(max_transfer_bytes*8)-1:0] w_data;
output [axi_rsp_width-1:0] response;
reg [axi_rsp_width-1:0] wresp,rwrsp;
reg [addr_width-1:0] addr;
reg [7:0] bytes,tmp_bytes;
integer trnsfr_bytes;
reg [(max_transfer_bytes*8)-1:0] wr_data;
integer trnsfr_lngth;
reg concurrent;
reg [id_bus_width-1:0] wr_id;
reg [axi_size_width-1:0] siz;
reg [axi_brst_type_width-1:0] burst;
reg [axi_lock_width-1:0] lck;
reg [axi_cache_width-1:0] cache;
reg [axi_prot_width-1:0] prot;
integer pad_bytes;
begin
if(!enable_this_port) begin
$display("[%0d] : %0s : %0s : Port is disabled. 'write_data' will not be executed...",$time, DISP_ERR, master_name);
if(STOP_ON_ERROR) $stop;
end else begin
addr = start_addr;
bytes = wr_size;
wresp = 0;
wr_data = w_data;
concurrent = $random;
siz = 2;
burst = 1;
lck = 0;
cache = 0;
prot = 0;
pad_bytes = start_addr[clogb2(data_bus_width/8)-1:0];
wr_id = ID;
if(bytes+pad_bytes > (data_bus_width/8*axi_burst_len)) begin /// for unaligned address
trnsfr_bytes = (data_bus_width*axi_burst_len)/8 - pad_bytes;//start_addr[1:0];
trnsfr_lngth = axi_burst_len-1;
end else begin
trnsfr_bytes = bytes;
tmp_bytes = bytes + pad_bytes;//start_addr[1:0];
if(tmp_bytes%(data_bus_width/8) == 0)
trnsfr_lngth = tmp_bytes/(data_bus_width/8) - 1;
else
trnsfr_lngth = tmp_bytes/(data_bus_width/8);
end
while (bytes > 0) begin
if(concurrent)
master.WRITE_BURST_CONCURRENT(wr_id, addr, trnsfr_lngth, siz, burst, lck, cache, prot, wr_data[(axi_burst_len*data_bus_width)-1:0], trnsfr_bytes, rwrsp);
else
master.WRITE_BURST(wr_id, addr, trnsfr_lngth, siz, burst, lck, cache, prot, wr_data[(axi_burst_len*data_bus_width)-1:0], trnsfr_bytes, rwrsp);
wr_data = wr_data >> (trnsfr_bytes*8);
bytes = bytes - trnsfr_bytes;
addr = addr + trnsfr_bytes;
if(bytes > (axi_burst_len * data_bus_width/8)) begin
trnsfr_bytes = (axi_burst_len * data_bus_width/8) - pad_bytes;//start_addr[1:0];
trnsfr_lngth = axi_burst_len-1;
end else begin
trnsfr_bytes = bytes;
tmp_bytes = bytes + pad_bytes;//start_addr[1:0];
if(tmp_bytes%(data_bus_width/8) == 0)
trnsfr_lngth = tmp_bytes/(data_bus_width/8) - 1;
else
trnsfr_lngth = tmp_bytes/(data_bus_width/8);
end
wresp = wresp | rwrsp;
end /// while
response = wresp;
end
end
endtask
/* Read data (used for transfer size <= 128 Bytes */
task automatic read_data;
input [addr_width-1:0] start_addr;
input [max_transfer_bytes_width:0] rd_size;
output [(max_transfer_bytes*8)-1:0] r_data;
output [axi_rsp_width-1:0] response;
reg [axi_rsp_width-1:0] rresp,rdrsp;
reg [addr_width-1:0] addr;
reg [max_transfer_bytes_width:0] bytes,tmp_bytes;
integer trnsfr_bytes;
reg [(max_transfer_bytes*8)-1 : 0] rd_data;
reg [(axi_burst_len*data_bus_width)-1:0] rcv_rd_data;
integer total_rcvd_bytes;
integer trnsfr_lngth;
integer i;
reg [id_bus_width-1:0] rd_id;
reg [axi_size_width-1:0] siz;
reg [axi_brst_type_width-1:0] burst;
reg [axi_lock_width-1:0] lck;
reg [axi_cache_width-1:0] cache;
reg [axi_prot_width-1:0] prot;
integer pad_bytes;
begin
if(!enable_this_port) begin
$display("[%0d] : %0s : %0s : Port is disabled. 'read_data' will not be executed...",$time, DISP_ERR, master_name);
if(STOP_ON_ERROR) $stop;
end else begin
addr = start_addr;
bytes = rd_size;
rresp = 0;
total_rcvd_bytes = 0;
rd_data = 0;
rd_id = ID;
siz = 2;
burst = 1;
lck = 0;
cache = 0;
prot = 0;
pad_bytes = start_addr[clogb2(data_bus_width/8)-1:0];
if(bytes+ pad_bytes > (axi_burst_len * data_bus_width/8)) begin /// for unaligned address
trnsfr_bytes = (axi_burst_len * data_bus_width/8) - pad_bytes;//start_addr[1:0];
trnsfr_lngth = axi_burst_len-1;
end else begin
trnsfr_bytes = bytes;
tmp_bytes = bytes + pad_bytes;//start_addr[1:0];
if(tmp_bytes%(data_bus_width/8) == 0)
trnsfr_lngth = tmp_bytes/(data_bus_width/8) - 1;
else
trnsfr_lngth = tmp_bytes/(data_bus_width/8);
end
while (bytes > 0) begin
master.READ_BURST(rd_id,addr, trnsfr_lngth, siz, burst, lck, cache, prot, rcv_rd_data, rdrsp);
for(i = 0; i < trnsfr_bytes; i = i+1) begin
rd_data = rd_data >> 8;
rd_data[(max_transfer_bytes*8)-1 : (max_transfer_bytes*8)-8] = rcv_rd_data[7:0];
rcv_rd_data = rcv_rd_data >> 8;
total_rcvd_bytes = total_rcvd_bytes+1;
end
bytes = bytes - trnsfr_bytes;
addr = addr + trnsfr_bytes;
if(bytes > (axi_burst_len * data_bus_width/8)) begin
trnsfr_bytes = (axi_burst_len * data_bus_width/8) - pad_bytes;//start_addr[1:0];
trnsfr_lngth = 15;
end else begin
trnsfr_bytes = bytes;
tmp_bytes = bytes + pad_bytes;//start_addr[1:0];
if(tmp_bytes%(data_bus_width/8) == 0)
trnsfr_lngth = tmp_bytes/(data_bus_width/8) - 1;
else
trnsfr_lngth = tmp_bytes/(data_bus_width/8);
end
rresp = rresp | rdrsp;
end /// while
rd_data = rd_data >> (max_transfer_bytes - total_rcvd_bytes)*8;
r_data = rd_data;
response = rresp;
end
end
endtask
/* Wait Register Update in PL */
/* Issue a series of 1 burst length reads until the expected data pattern is received */
task automatic wait_reg_update;
input [addr_width-1:0] addri;
input [data_width-1:0] datai;
input [data_width-1:0] maski;
input [int_width-1:0] time_interval;
input [int_width-1:0] time_out;
output [data_width-1:0] data_o;
output upd_done;
reg [addr_width-1:0] addr;
reg [data_width-1:0] data_i;
reg [data_width-1:0] mask_i;
integer time_int;
integer timeout;
reg [axi_rsp_width-1:0] rdrsp;
reg [id_bus_width-1:0] rd_id;
reg [axi_size_width-1:0] siz;
reg [axi_brst_type_width-1:0] burst;
reg [axi_lock_width-1:0] lck;
reg [axi_cache_width-1:0] cache;
reg [axi_prot_width-1:0] prot;
reg [data_width-1:0] rcv_data;
integer trnsfr_lngth;
reg rd_loop;
reg timed_out;
integer i;
integer cycle_cnt;
begin
addr = addri;
data_i = datai;
mask_i = maski;
time_int = time_interval;
timeout = time_out;
timed_out = 0;
cycle_cnt = 0;
if(!enable_this_port) begin
$display("[%0d] : %0s : %0s : Port is disabled. 'wait_reg_update' will not be executed...",$time, DISP_ERR, master_name);
upd_done = 0;
if(STOP_ON_ERROR) $stop;
end else begin
rd_id = ID;
siz = 2;
burst = 1;
lck = 0;
cache = 0;
prot = 0;
trnsfr_lngth = 0;
rd_loop = 1;
fork
begin
while(!timed_out & rd_loop) begin
cycle_cnt = cycle_cnt + 1;
if(cycle_cnt >= timeout) timed_out = 1;
@(posedge M_ACLK);
end
end
begin
while (rd_loop) begin
if(DEBUG_INFO)
$display("[%0d] : %0s : %0s : Reading Register mapped at Address(0x%0h) ",$time, master_name, DISP_INFO, addr);
master.READ_BURST(rd_id,addr, trnsfr_lngth, siz, burst, lck, cache, prot, rcv_data, rdrsp);
if(DEBUG_INFO)
$display("[%0d] : %0s : %0s : Reading Register returned (0x%0h) ",$time, master_name, DISP_INFO, rcv_data);
if(((rcv_data & ~mask_i) === (data_i & ~mask_i)) | timed_out)
rd_loop = 0;
else
repeat(time_int) @(posedge M_ACLK);
end /// while
end
join
data_o = rcv_data & ~mask_i;
if(timed_out) begin
$display("[%0d] : %0s : %0s : 'wait_reg_update' timed out ... Register is not updated ",$time, DISP_ERR, master_name);
if(STOP_ON_ERROR) $stop;
end else
upd_done = 1;
end
end
endtask
endmodule
|
module t (/*AUTOARG*/
// Inputs
clk
);
input clk;
integer cyc; initial cyc=1;
// verilator lint_off UNOPT
// verilator lint_off UNOPTFLAT
// verilator lint_off MULTIDRIVEN
// verilator lint_off BLKANDNBLK
reg [31:0] comcnt;
reg [31:0] dlycnt; initial dlycnt=0;
reg [31:0] lastdlycnt; initial lastdlycnt = 0;
reg [31:0] comrun; initial comrun = 0;
reg [31:0] comrunm1;
reg [31:0] dlyrun; initial dlyrun = 0;
reg [31:0] dlyrunm1;
always @ (posedge clk) begin
$write("[%0t] cyc %d\n",$time,cyc);
cyc <= cyc + 1;
if (cyc==2) begin
// Test # of iters
lastdlycnt = 0;
comcnt = 0;
dlycnt <= 0;
end
if (cyc==3) begin
dlyrun <= 5;
dlycnt <= 0;
end
if (cyc==4) begin
comrun = 4;
end
end
always @ (negedge clk) begin
if (cyc==5) begin
$display("%d %d\n", dlycnt, comcnt);
if (dlycnt != 32'd5) $stop;
if (comcnt != 32'd19) $stop;
$write("*-* All Finished *-*\n");
$finish;
end
end
// This forms a "loop" where we keep going through the always till comrun=0
reg runclk; initial runclk = 1'b0;
always @ (/*AS*/comrunm1 or dlycnt) begin
if (lastdlycnt != dlycnt) begin
comrun = 3;
$write ("[%0t] comrun=%0d start\n", $time, comrun);
end
else if (comrun > 0) begin
comrun = comrunm1;
if (comrunm1==1) begin
runclk = 1;
$write ("[%0t] comrun=%0d [trigger clk]\n", $time, comrun);
end
else $write ("[%0t] comrun=%0d\n", $time, comrun);
end
lastdlycnt = dlycnt;
end
always @ (/*AS*/comrun) begin
if (comrun!=0) begin
comrunm1 = comrun - 32'd1;
comcnt = comcnt + 32'd1;
$write("[%0t] comcnt=%0d\n",$time,comcnt);
end
end
// This forms a "loop" where we keep going through the always till dlyrun=0
reg runclkrst;
always @ (posedge runclk) begin
runclkrst <= 1;
$write ("[%0t] runclk\n", $time);
if (dlyrun > 0) begin
dlyrun <= dlyrun - 32'd1;
dlycnt <= dlycnt + 32'd1;
$write ("[%0t] dlyrun<=%0d\n", $time, dlyrun-32'd1);
end
end
always @* begin
if (runclkrst) begin
$write ("[%0t] runclk reset\n", $time);
runclkrst = 0;
runclk = 0;
end
end
endmodule
|
module generic_baseblocks_v2_1_0_comparator_sel_mask_static #
(
parameter C_FAMILY = "virtex6",
// FPGA Family. Current version: virtex6 or spartan6.
parameter C_VALUE = 4'b0,
// Static value to compare against.
parameter integer C_DATA_WIDTH = 4
// Data width for comparator.
)
(
input wire CIN,
input wire S,
input wire [C_DATA_WIDTH-1:0] A,
input wire [C_DATA_WIDTH-1:0] B,
input wire [C_DATA_WIDTH-1:0] M,
output wire COUT
);
/////////////////////////////////////////////////////////////////////////////
// Variables for generating parameter controlled instances.
/////////////////////////////////////////////////////////////////////////////
// Generate variable for bit vector.
genvar lut_cnt;
/////////////////////////////////////////////////////////////////////////////
// Local params
/////////////////////////////////////////////////////////////////////////////
// Bits per LUT for this architecture.
localparam integer C_BITS_PER_LUT = 1;
// Constants for packing levels.
localparam integer C_NUM_LUT = ( C_DATA_WIDTH + C_BITS_PER_LUT - 1 ) / C_BITS_PER_LUT;
//
localparam integer C_FIX_DATA_WIDTH = ( C_NUM_LUT * C_BITS_PER_LUT > C_DATA_WIDTH ) ? C_NUM_LUT * C_BITS_PER_LUT :
C_DATA_WIDTH;
/////////////////////////////////////////////////////////////////////////////
// Functions
/////////////////////////////////////////////////////////////////////////////
/////////////////////////////////////////////////////////////////////////////
// Internal signals
/////////////////////////////////////////////////////////////////////////////
wire [C_FIX_DATA_WIDTH-1:0] a_local;
wire [C_FIX_DATA_WIDTH-1:0] b_local;
wire [C_FIX_DATA_WIDTH-1:0] m_local;
wire [C_FIX_DATA_WIDTH-1:0] v_local;
wire [C_NUM_LUT-1:0] sel;
wire [C_NUM_LUT:0] carry_local;
/////////////////////////////////////////////////////////////////////////////
//
/////////////////////////////////////////////////////////////////////////////
generate
// Assign input to local vectors.
assign carry_local[0] = CIN;
// Extend input data to fit.
if ( C_NUM_LUT * C_BITS_PER_LUT > C_DATA_WIDTH ) begin : USE_EXTENDED_DATA
assign a_local = {A, {C_NUM_LUT * C_BITS_PER_LUT - C_DATA_WIDTH{1'b0}}};
assign b_local = {B, {C_NUM_LUT * C_BITS_PER_LUT - C_DATA_WIDTH{1'b0}}};
assign m_local = {M, {C_NUM_LUT * C_BITS_PER_LUT - C_DATA_WIDTH{1'b0}}};
assign v_local = {C_VALUE, {C_NUM_LUT * C_BITS_PER_LUT - C_DATA_WIDTH{1'b0}}};
end else begin : NO_EXTENDED_DATA
assign a_local = A;
assign b_local = B;
assign m_local = M;
assign v_local = C_VALUE;
end
// Instantiate one generic_baseblocks_v2_1_0_carry and per level.
for (lut_cnt = 0; lut_cnt < C_NUM_LUT ; lut_cnt = lut_cnt + 1) begin : LUT_LEVEL
// Create the local select signal
assign sel[lut_cnt] = ( ( ( a_local[lut_cnt*C_BITS_PER_LUT +: C_BITS_PER_LUT] &
m_local[lut_cnt*C_BITS_PER_LUT +: C_BITS_PER_LUT] ) ==
( v_local[lut_cnt*C_BITS_PER_LUT +: C_BITS_PER_LUT] &
m_local[lut_cnt*C_BITS_PER_LUT +: C_BITS_PER_LUT] ) ) & ( S == 1'b0 ) ) |
( ( ( b_local[lut_cnt*C_BITS_PER_LUT +: C_BITS_PER_LUT] &
m_local[lut_cnt*C_BITS_PER_LUT +: C_BITS_PER_LUT] ) ==
( v_local[lut_cnt*C_BITS_PER_LUT +: C_BITS_PER_LUT] &
m_local[lut_cnt*C_BITS_PER_LUT +: C_BITS_PER_LUT] ) ) & ( S == 1'b1 ) );
// Instantiate each LUT level.
generic_baseblocks_v2_1_0_carry_and #
(
.C_FAMILY(C_FAMILY)
) compare_inst
(
.COUT (carry_local[lut_cnt+1]),
.CIN (carry_local[lut_cnt]),
.S (sel[lut_cnt])
);
end // end for lut_cnt
// Assign output from local vector.
assign COUT = carry_local[C_NUM_LUT];
endgenerate
endmodule
|
module generic_baseblocks_v2_1_0_comparator_sel_mask_static #
(
parameter C_FAMILY = "virtex6",
// FPGA Family. Current version: virtex6 or spartan6.
parameter C_VALUE = 4'b0,
// Static value to compare against.
parameter integer C_DATA_WIDTH = 4
// Data width for comparator.
)
(
input wire CIN,
input wire S,
input wire [C_DATA_WIDTH-1:0] A,
input wire [C_DATA_WIDTH-1:0] B,
input wire [C_DATA_WIDTH-1:0] M,
output wire COUT
);
/////////////////////////////////////////////////////////////////////////////
// Variables for generating parameter controlled instances.
/////////////////////////////////////////////////////////////////////////////
// Generate variable for bit vector.
genvar lut_cnt;
/////////////////////////////////////////////////////////////////////////////
// Local params
/////////////////////////////////////////////////////////////////////////////
// Bits per LUT for this architecture.
localparam integer C_BITS_PER_LUT = 1;
// Constants for packing levels.
localparam integer C_NUM_LUT = ( C_DATA_WIDTH + C_BITS_PER_LUT - 1 ) / C_BITS_PER_LUT;
//
localparam integer C_FIX_DATA_WIDTH = ( C_NUM_LUT * C_BITS_PER_LUT > C_DATA_WIDTH ) ? C_NUM_LUT * C_BITS_PER_LUT :
C_DATA_WIDTH;
/////////////////////////////////////////////////////////////////////////////
// Functions
/////////////////////////////////////////////////////////////////////////////
/////////////////////////////////////////////////////////////////////////////
// Internal signals
/////////////////////////////////////////////////////////////////////////////
wire [C_FIX_DATA_WIDTH-1:0] a_local;
wire [C_FIX_DATA_WIDTH-1:0] b_local;
wire [C_FIX_DATA_WIDTH-1:0] m_local;
wire [C_FIX_DATA_WIDTH-1:0] v_local;
wire [C_NUM_LUT-1:0] sel;
wire [C_NUM_LUT:0] carry_local;
/////////////////////////////////////////////////////////////////////////////
//
/////////////////////////////////////////////////////////////////////////////
generate
// Assign input to local vectors.
assign carry_local[0] = CIN;
// Extend input data to fit.
if ( C_NUM_LUT * C_BITS_PER_LUT > C_DATA_WIDTH ) begin : USE_EXTENDED_DATA
assign a_local = {A, {C_NUM_LUT * C_BITS_PER_LUT - C_DATA_WIDTH{1'b0}}};
assign b_local = {B, {C_NUM_LUT * C_BITS_PER_LUT - C_DATA_WIDTH{1'b0}}};
assign m_local = {M, {C_NUM_LUT * C_BITS_PER_LUT - C_DATA_WIDTH{1'b0}}};
assign v_local = {C_VALUE, {C_NUM_LUT * C_BITS_PER_LUT - C_DATA_WIDTH{1'b0}}};
end else begin : NO_EXTENDED_DATA
assign a_local = A;
assign b_local = B;
assign m_local = M;
assign v_local = C_VALUE;
end
// Instantiate one generic_baseblocks_v2_1_0_carry and per level.
for (lut_cnt = 0; lut_cnt < C_NUM_LUT ; lut_cnt = lut_cnt + 1) begin : LUT_LEVEL
// Create the local select signal
assign sel[lut_cnt] = ( ( ( a_local[lut_cnt*C_BITS_PER_LUT +: C_BITS_PER_LUT] &
m_local[lut_cnt*C_BITS_PER_LUT +: C_BITS_PER_LUT] ) ==
( v_local[lut_cnt*C_BITS_PER_LUT +: C_BITS_PER_LUT] &
m_local[lut_cnt*C_BITS_PER_LUT +: C_BITS_PER_LUT] ) ) & ( S == 1'b0 ) ) |
( ( ( b_local[lut_cnt*C_BITS_PER_LUT +: C_BITS_PER_LUT] &
m_local[lut_cnt*C_BITS_PER_LUT +: C_BITS_PER_LUT] ) ==
( v_local[lut_cnt*C_BITS_PER_LUT +: C_BITS_PER_LUT] &
m_local[lut_cnt*C_BITS_PER_LUT +: C_BITS_PER_LUT] ) ) & ( S == 1'b1 ) );
// Instantiate each LUT level.
generic_baseblocks_v2_1_0_carry_and #
(
.C_FAMILY(C_FAMILY)
) compare_inst
(
.COUT (carry_local[lut_cnt+1]),
.CIN (carry_local[lut_cnt]),
.S (sel[lut_cnt])
);
end // end for lut_cnt
// Assign output from local vector.
assign COUT = carry_local[C_NUM_LUT];
endgenerate
endmodule
|
module generic_baseblocks_v2_1_0_comparator_sel_mask_static #
(
parameter C_FAMILY = "virtex6",
// FPGA Family. Current version: virtex6 or spartan6.
parameter C_VALUE = 4'b0,
// Static value to compare against.
parameter integer C_DATA_WIDTH = 4
// Data width for comparator.
)
(
input wire CIN,
input wire S,
input wire [C_DATA_WIDTH-1:0] A,
input wire [C_DATA_WIDTH-1:0] B,
input wire [C_DATA_WIDTH-1:0] M,
output wire COUT
);
/////////////////////////////////////////////////////////////////////////////
// Variables for generating parameter controlled instances.
/////////////////////////////////////////////////////////////////////////////
// Generate variable for bit vector.
genvar lut_cnt;
/////////////////////////////////////////////////////////////////////////////
// Local params
/////////////////////////////////////////////////////////////////////////////
// Bits per LUT for this architecture.
localparam integer C_BITS_PER_LUT = 1;
// Constants for packing levels.
localparam integer C_NUM_LUT = ( C_DATA_WIDTH + C_BITS_PER_LUT - 1 ) / C_BITS_PER_LUT;
//
localparam integer C_FIX_DATA_WIDTH = ( C_NUM_LUT * C_BITS_PER_LUT > C_DATA_WIDTH ) ? C_NUM_LUT * C_BITS_PER_LUT :
C_DATA_WIDTH;
/////////////////////////////////////////////////////////////////////////////
// Functions
/////////////////////////////////////////////////////////////////////////////
/////////////////////////////////////////////////////////////////////////////
// Internal signals
/////////////////////////////////////////////////////////////////////////////
wire [C_FIX_DATA_WIDTH-1:0] a_local;
wire [C_FIX_DATA_WIDTH-1:0] b_local;
wire [C_FIX_DATA_WIDTH-1:0] m_local;
wire [C_FIX_DATA_WIDTH-1:0] v_local;
wire [C_NUM_LUT-1:0] sel;
wire [C_NUM_LUT:0] carry_local;
/////////////////////////////////////////////////////////////////////////////
//
/////////////////////////////////////////////////////////////////////////////
generate
// Assign input to local vectors.
assign carry_local[0] = CIN;
// Extend input data to fit.
if ( C_NUM_LUT * C_BITS_PER_LUT > C_DATA_WIDTH ) begin : USE_EXTENDED_DATA
assign a_local = {A, {C_NUM_LUT * C_BITS_PER_LUT - C_DATA_WIDTH{1'b0}}};
assign b_local = {B, {C_NUM_LUT * C_BITS_PER_LUT - C_DATA_WIDTH{1'b0}}};
assign m_local = {M, {C_NUM_LUT * C_BITS_PER_LUT - C_DATA_WIDTH{1'b0}}};
assign v_local = {C_VALUE, {C_NUM_LUT * C_BITS_PER_LUT - C_DATA_WIDTH{1'b0}}};
end else begin : NO_EXTENDED_DATA
assign a_local = A;
assign b_local = B;
assign m_local = M;
assign v_local = C_VALUE;
end
// Instantiate one generic_baseblocks_v2_1_0_carry and per level.
for (lut_cnt = 0; lut_cnt < C_NUM_LUT ; lut_cnt = lut_cnt + 1) begin : LUT_LEVEL
// Create the local select signal
assign sel[lut_cnt] = ( ( ( a_local[lut_cnt*C_BITS_PER_LUT +: C_BITS_PER_LUT] &
m_local[lut_cnt*C_BITS_PER_LUT +: C_BITS_PER_LUT] ) ==
( v_local[lut_cnt*C_BITS_PER_LUT +: C_BITS_PER_LUT] &
m_local[lut_cnt*C_BITS_PER_LUT +: C_BITS_PER_LUT] ) ) & ( S == 1'b0 ) ) |
( ( ( b_local[lut_cnt*C_BITS_PER_LUT +: C_BITS_PER_LUT] &
m_local[lut_cnt*C_BITS_PER_LUT +: C_BITS_PER_LUT] ) ==
( v_local[lut_cnt*C_BITS_PER_LUT +: C_BITS_PER_LUT] &
m_local[lut_cnt*C_BITS_PER_LUT +: C_BITS_PER_LUT] ) ) & ( S == 1'b1 ) );
// Instantiate each LUT level.
generic_baseblocks_v2_1_0_carry_and #
(
.C_FAMILY(C_FAMILY)
) compare_inst
(
.COUT (carry_local[lut_cnt+1]),
.CIN (carry_local[lut_cnt]),
.S (sel[lut_cnt])
);
end // end for lut_cnt
// Assign output from local vector.
assign COUT = carry_local[C_NUM_LUT];
endgenerate
endmodule
|
module simply takes the output of the descriptor buffer and reformats the data
* to be sent in the command format needed by the master command port. If new features are added to the
* descriptor format then add it to this block. This block also provides the descriptor information
* using a naming convention isn't of bit indexes in a 256 bit wide command signal.
*/
read_signal_breakout the_read_signal_breakout (
.read_command_data_in (read_fifo_output),
.read_command_data_out (read_command_data),
.read_address (read_address),
.read_length (read_length),
.read_transmit_channel (read_transmit_channel),
.read_generate_sop (read_generate_sop),
.read_generate_eop (read_generate_eop),
.read_park (read_park),
.read_transfer_complete_IRQ_mask (read_transfer_complete_IRQ_mask),
.read_burst_count (read_burst_count),
.read_stride (read_stride),
.read_sequence_number (read_sequence_number),
.read_transmit_error (read_transmit_error),
.read_early_done_enable (read_early_done_enable),
.read_stop (stop),
.read_sw_reset (sw_reset)
);
defparam the_read_signal_breakout.DATA_WIDTH = DATA_WIDTH;
// Descriptor FIFO allows for each byte lane to be written to and the data is not committed to the FIFO until the 'push' signal is asserted.
// This differs from scfifo which commits the data any time the write signal is asserted.
fifo_with_byteenables the_read_command_FIFO (
.clk (clk),
.areset (reset),
.sreset (sw_reset),
.write_data (writedata),
.write_byteenables (byteenable),
.write (write),
.push (push_read_fifo),
.read_data (read_fifo_output),
.pop (pop_read_fifo),
.used (read_command_used), // this is a 'true used' signal with the full bit accounted for
.full (read_command_full),
.empty (read_command_empty)
);
defparam the_read_command_FIFO.DATA_WIDTH = DATA_WIDTH; // we are not actually going to use all these bits and byte lanes left unconnected at the output will get optimized away
defparam the_read_command_FIFO.FIFO_DEPTH = FIFO_DEPTH;
defparam the_read_command_FIFO.FIFO_DEPTH_LOG2 = FIFO_DEPTH_LOG2;
defparam the_read_command_FIFO.LATENCY = 2;
// Descriptor FIFO allows for each byte lane to be written to and the data is not committed to the FIFO until the 'push' signal is asserted.
// This differs from scfifo which commits the data any time the write signal is asserted.
fifo_with_byteenables the_write_command_FIFO (
.clk (clk),
.areset (reset),
.sreset (sw_reset),
.write_data (writedata),
.write_byteenables (byteenable),
.write (write),
.push (push_write_fifo),
.read_data (write_fifo_output),
.pop (pop_write_fifo),
.used (write_command_used), // this is a 'true used' signal with the full bit accounted for
.full (write_command_full),
.empty (write_command_empty)
);
defparam the_write_command_FIFO.DATA_WIDTH = DATA_WIDTH; // we are not actually going to use all these bits and byte lanes left unconnected at the output will get optimized away
defparam the_write_command_FIFO.FIFO_DEPTH = FIFO_DEPTH;
defparam the_write_command_FIFO.FIFO_DEPTH_LOG2 = FIFO_DEPTH_LOG2;
defparam the_write_command_FIFO.LATENCY = 2;
/**************************************** End Module Instantiations ************************************************/
/****************************************** Combinational Signals **************************************************/
generate // all unnecessary signals and drivers will be optimized away
if (MODE == 0) // MM-->MM
begin
assign waitrequest = (read_command_full == 1) | (write_command_full == 1);
// information for the CSR or response blocks to use
assign sequence_number = {write_sequence_number_d1, read_sequence_number_d1};
assign transfer_complete_IRQ_mask = write_transfer_complete_IRQ_mask_d1;
assign early_termination_IRQ_mask = 1'b0;
assign error_IRQ_mask = 8'h00;
// read buffer flow control
assign push_read_fifo = go_bit;
assign read_park_enable = (read_park == 1) & (read_command_used == 1); // we want to keep the descriptor in the FIFO when the park bit is set
assign read_command_valid = (stop == 0) & (sw_reset == 0) & (stop_issuing_commands == 0) &
(read_command_empty == 0) & (read_command_empty_d1 == 0) & (read_command_empty_d2 == 0); // command buffer has two cycles of latency so the empty deassertion need to delayed two cycles but asserted in zero cycles, the time between commands will be at least 2 cycles so this delay is only needed coming out of the empty condition
assign issue_read_descriptor = (read_command_valid == 1) & (read_command_ready == 1);
assign pop_read_fifo = (issue_read_descriptor == 1) & (read_park_enable == 0); // don't want to pop the fifo if we are in parked mode
// write buffer flow control
assign push_write_fifo = go_bit;
assign write_park_enable = (write_park == 1) & (write_command_used == 1); // we want to keep the descriptor in the FIFO when the park bit is set
assign write_command_valid = (stop == 0) & (sw_reset == 0) & (stop_issuing_commands == 0) &
(write_command_empty == 0) & (write_command_empty_d1 == 0) & (write_command_empty_d2 == 0); // command buffer has two cycles of latency so the empty deassertion need to delayed two cycles but asserted in zero cycles, the time between commands will be at least 2 cycles so this delay is only needed coming out of the empty condition
assign issue_write_descriptor = (write_command_valid == 1) & (write_command_ready == 1);
assign pop_write_fifo = (issue_write_descriptor == 1) & (write_park_enable == 0); // don't want to pop the fifo if we are in parked mode
end
else if (MODE == 1) // MM-->ST
begin
// information for the CSR or response blocks to use
assign sequence_number = {16'h0000, read_sequence_number_d1};
assign transfer_complete_IRQ_mask = read_transfer_complete_IRQ_mask_d1;
assign early_termination_IRQ_mask = 1'b0;
assign error_IRQ_mask = 8'h00;
assign waitrequest = (read_command_full == 1);
// read buffer flow control
assign push_read_fifo = go_bit;
assign read_park_enable = (read_park == 1) & (read_command_used == 1); // we want to keep the descriptor in the FIFO when the park bit is set
assign read_command_valid = (stop == 0) & (sw_reset == 0) & (stop_issuing_commands == 0) &
(read_command_empty == 0) & (read_command_empty_d1 == 0) & (read_command_empty_d2 == 0); // command buffer has two cycles of latency so the empty deassertion need to delayed two cycles but asserted in zero cycles, the time between commands will be at least 2 cycles so this delay is only needed coming out of the empty condition
assign issue_read_descriptor = (read_command_valid == 1) & (read_command_ready == 1);
assign pop_read_fifo = (issue_read_descriptor == 1) & (read_park_enable == 0); // don't want to pop the fifo if we are in parked mode
// write buffer flow control
assign push_write_fifo = 0;
assign write_park_enable = 0;
assign write_command_valid = 0;
assign issue_write_descriptor = 0;
assign pop_write_fifo = 0;
end
else // ST-->MM
begin
// information for the CSR or response blocks to use
assign sequence_number = {write_sequence_number_d1, 16'h0000};
assign transfer_complete_IRQ_mask = write_transfer_complete_IRQ_mask_d1;
assign early_termination_IRQ_mask = write_early_termination_IRQ_mask_d1;
assign error_IRQ_mask = write_error_IRQ_mask_d1;
assign waitrequest = (write_command_full == 1);
// read buffer flow control
assign push_read_fifo = 0;
assign read_park_enable = 0;
assign read_command_valid = 0;
assign issue_read_descriptor = 0;
assign pop_read_fifo = 0;
// write buffer flow control
assign push_write_fifo = go_bit;
assign write_park_enable = (write_park == 1) & (write_command_used == 1); // we want to keep the descriptor in the FIFO when the park bit is set
assign write_command_valid = (stop == 0) & (sw_reset == 0) & (stop_issuing_commands == 0) &
(write_command_empty == 0) & (write_command_empty_d1 == 0) & (write_command_empty_d2 == 0); // command buffer has two cycles of latency so the empty deassertion need to delayed two cycles but asserted in zero cycles, the time between commands will be at least 2 cycles so this delay is only needed coming out of the empty condition
assign issue_write_descriptor = (write_command_valid == 1) & (write_command_ready == 1);
assign pop_write_fifo = (issue_write_descriptor == 1) & (write_park_enable == 0); // don't want to pop the fifo if we are in parked mode
end
endgenerate
generate // go bit is in a different location depending on the width of the slave port
if (DATA_WIDTH == 256)
begin
assign go_bit = (writedata[255] == 1) & (write == 1) & (byteenable[31] == 1) & (waitrequest == 0);
end
else
begin
assign go_bit = (writedata[127] == 1) & (write == 1) & (byteenable[15] == 1) & (waitrequest == 0);
end
endgenerate
/**************************************** End Combinational Signals ************************************************/
endmodule
|
module simply takes the output of the descriptor buffer and reformats the data
* to be sent in the command format needed by the master command port. If new features are added to the
* descriptor format then add it to this block. This block also provides the descriptor information
* using a naming convention isn't of bit indexes in a 256 bit wide command signal.
*/
read_signal_breakout the_read_signal_breakout (
.read_command_data_in (read_fifo_output),
.read_command_data_out (read_command_data),
.read_address (read_address),
.read_length (read_length),
.read_transmit_channel (read_transmit_channel),
.read_generate_sop (read_generate_sop),
.read_generate_eop (read_generate_eop),
.read_park (read_park),
.read_transfer_complete_IRQ_mask (read_transfer_complete_IRQ_mask),
.read_burst_count (read_burst_count),
.read_stride (read_stride),
.read_sequence_number (read_sequence_number),
.read_transmit_error (read_transmit_error),
.read_early_done_enable (read_early_done_enable),
.read_stop (stop),
.read_sw_reset (sw_reset)
);
defparam the_read_signal_breakout.DATA_WIDTH = DATA_WIDTH;
// Descriptor FIFO allows for each byte lane to be written to and the data is not committed to the FIFO until the 'push' signal is asserted.
// This differs from scfifo which commits the data any time the write signal is asserted.
fifo_with_byteenables the_read_command_FIFO (
.clk (clk),
.areset (reset),
.sreset (sw_reset),
.write_data (writedata),
.write_byteenables (byteenable),
.write (write),
.push (push_read_fifo),
.read_data (read_fifo_output),
.pop (pop_read_fifo),
.used (read_command_used), // this is a 'true used' signal with the full bit accounted for
.full (read_command_full),
.empty (read_command_empty)
);
defparam the_read_command_FIFO.DATA_WIDTH = DATA_WIDTH; // we are not actually going to use all these bits and byte lanes left unconnected at the output will get optimized away
defparam the_read_command_FIFO.FIFO_DEPTH = FIFO_DEPTH;
defparam the_read_command_FIFO.FIFO_DEPTH_LOG2 = FIFO_DEPTH_LOG2;
defparam the_read_command_FIFO.LATENCY = 2;
// Descriptor FIFO allows for each byte lane to be written to and the data is not committed to the FIFO until the 'push' signal is asserted.
// This differs from scfifo which commits the data any time the write signal is asserted.
fifo_with_byteenables the_write_command_FIFO (
.clk (clk),
.areset (reset),
.sreset (sw_reset),
.write_data (writedata),
.write_byteenables (byteenable),
.write (write),
.push (push_write_fifo),
.read_data (write_fifo_output),
.pop (pop_write_fifo),
.used (write_command_used), // this is a 'true used' signal with the full bit accounted for
.full (write_command_full),
.empty (write_command_empty)
);
defparam the_write_command_FIFO.DATA_WIDTH = DATA_WIDTH; // we are not actually going to use all these bits and byte lanes left unconnected at the output will get optimized away
defparam the_write_command_FIFO.FIFO_DEPTH = FIFO_DEPTH;
defparam the_write_command_FIFO.FIFO_DEPTH_LOG2 = FIFO_DEPTH_LOG2;
defparam the_write_command_FIFO.LATENCY = 2;
/**************************************** End Module Instantiations ************************************************/
/****************************************** Combinational Signals **************************************************/
generate // all unnecessary signals and drivers will be optimized away
if (MODE == 0) // MM-->MM
begin
assign waitrequest = (read_command_full == 1) | (write_command_full == 1);
// information for the CSR or response blocks to use
assign sequence_number = {write_sequence_number_d1, read_sequence_number_d1};
assign transfer_complete_IRQ_mask = write_transfer_complete_IRQ_mask_d1;
assign early_termination_IRQ_mask = 1'b0;
assign error_IRQ_mask = 8'h00;
// read buffer flow control
assign push_read_fifo = go_bit;
assign read_park_enable = (read_park == 1) & (read_command_used == 1); // we want to keep the descriptor in the FIFO when the park bit is set
assign read_command_valid = (stop == 0) & (sw_reset == 0) & (stop_issuing_commands == 0) &
(read_command_empty == 0) & (read_command_empty_d1 == 0) & (read_command_empty_d2 == 0); // command buffer has two cycles of latency so the empty deassertion need to delayed two cycles but asserted in zero cycles, the time between commands will be at least 2 cycles so this delay is only needed coming out of the empty condition
assign issue_read_descriptor = (read_command_valid == 1) & (read_command_ready == 1);
assign pop_read_fifo = (issue_read_descriptor == 1) & (read_park_enable == 0); // don't want to pop the fifo if we are in parked mode
// write buffer flow control
assign push_write_fifo = go_bit;
assign write_park_enable = (write_park == 1) & (write_command_used == 1); // we want to keep the descriptor in the FIFO when the park bit is set
assign write_command_valid = (stop == 0) & (sw_reset == 0) & (stop_issuing_commands == 0) &
(write_command_empty == 0) & (write_command_empty_d1 == 0) & (write_command_empty_d2 == 0); // command buffer has two cycles of latency so the empty deassertion need to delayed two cycles but asserted in zero cycles, the time between commands will be at least 2 cycles so this delay is only needed coming out of the empty condition
assign issue_write_descriptor = (write_command_valid == 1) & (write_command_ready == 1);
assign pop_write_fifo = (issue_write_descriptor == 1) & (write_park_enable == 0); // don't want to pop the fifo if we are in parked mode
end
else if (MODE == 1) // MM-->ST
begin
// information for the CSR or response blocks to use
assign sequence_number = {16'h0000, read_sequence_number_d1};
assign transfer_complete_IRQ_mask = read_transfer_complete_IRQ_mask_d1;
assign early_termination_IRQ_mask = 1'b0;
assign error_IRQ_mask = 8'h00;
assign waitrequest = (read_command_full == 1);
// read buffer flow control
assign push_read_fifo = go_bit;
assign read_park_enable = (read_park == 1) & (read_command_used == 1); // we want to keep the descriptor in the FIFO when the park bit is set
assign read_command_valid = (stop == 0) & (sw_reset == 0) & (stop_issuing_commands == 0) &
(read_command_empty == 0) & (read_command_empty_d1 == 0) & (read_command_empty_d2 == 0); // command buffer has two cycles of latency so the empty deassertion need to delayed two cycles but asserted in zero cycles, the time between commands will be at least 2 cycles so this delay is only needed coming out of the empty condition
assign issue_read_descriptor = (read_command_valid == 1) & (read_command_ready == 1);
assign pop_read_fifo = (issue_read_descriptor == 1) & (read_park_enable == 0); // don't want to pop the fifo if we are in parked mode
// write buffer flow control
assign push_write_fifo = 0;
assign write_park_enable = 0;
assign write_command_valid = 0;
assign issue_write_descriptor = 0;
assign pop_write_fifo = 0;
end
else // ST-->MM
begin
// information for the CSR or response blocks to use
assign sequence_number = {write_sequence_number_d1, 16'h0000};
assign transfer_complete_IRQ_mask = write_transfer_complete_IRQ_mask_d1;
assign early_termination_IRQ_mask = write_early_termination_IRQ_mask_d1;
assign error_IRQ_mask = write_error_IRQ_mask_d1;
assign waitrequest = (write_command_full == 1);
// read buffer flow control
assign push_read_fifo = 0;
assign read_park_enable = 0;
assign read_command_valid = 0;
assign issue_read_descriptor = 0;
assign pop_read_fifo = 0;
// write buffer flow control
assign push_write_fifo = go_bit;
assign write_park_enable = (write_park == 1) & (write_command_used == 1); // we want to keep the descriptor in the FIFO when the park bit is set
assign write_command_valid = (stop == 0) & (sw_reset == 0) & (stop_issuing_commands == 0) &
(write_command_empty == 0) & (write_command_empty_d1 == 0) & (write_command_empty_d2 == 0); // command buffer has two cycles of latency so the empty deassertion need to delayed two cycles but asserted in zero cycles, the time between commands will be at least 2 cycles so this delay is only needed coming out of the empty condition
assign issue_write_descriptor = (write_command_valid == 1) & (write_command_ready == 1);
assign pop_write_fifo = (issue_write_descriptor == 1) & (write_park_enable == 0); // don't want to pop the fifo if we are in parked mode
end
endgenerate
generate // go bit is in a different location depending on the width of the slave port
if (DATA_WIDTH == 256)
begin
assign go_bit = (writedata[255] == 1) & (write == 1) & (byteenable[31] == 1) & (waitrequest == 0);
end
else
begin
assign go_bit = (writedata[127] == 1) & (write == 1) & (byteenable[15] == 1) & (waitrequest == 0);
end
endgenerate
/**************************************** End Combinational Signals ************************************************/
endmodule
|
module STATE_LOGIC_v8_2 (O, I0, I1, I2, I3, I4, I5);
parameter INIT = 64'h0000000000000000;
input I0, I1, I2, I3, I4, I5;
output O;
reg O;
reg tmp;
always @( I5 or I4 or I3 or I2 or I1 or I0 ) begin
tmp = I0 ^ I1 ^ I2 ^ I3 ^ I4 ^ I5;
if ( tmp == 0 || tmp == 1)
O = INIT[{I5, I4, I3, I2, I1, I0}];
end
endmodule
|
module beh_vlog_muxf7_v8_2 (O, I0, I1, S);
output O;
reg O;
input I0, I1, S;
always @(I0 or I1 or S)
if (S)
O = I1;
else
O = I0;
endmodule
|
module beh_vlog_ff_clr_v8_2 (Q, C, CLR, D);
parameter INIT = 0;
localparam FLOP_DELAY = 100;
output Q;
input C, CLR, D;
reg Q;
initial Q= 1'b0;
always @(posedge C )
if (CLR)
Q<= 1'b0;
else
Q<= #FLOP_DELAY D;
endmodule
|
module beh_vlog_ff_pre_v8_2 (Q, C, D, PRE);
parameter INIT = 0;
localparam FLOP_DELAY = 100;
output Q;
input C, D, PRE;
reg Q;
initial Q= 1'b0;
always @(posedge C )
if (PRE)
Q <= 1'b1;
else
Q <= #FLOP_DELAY D;
endmodule
|
module beh_vlog_ff_ce_clr_v8_2 (Q, C, CE, CLR, D);
parameter INIT = 0;
localparam FLOP_DELAY = 100;
output Q;
input C, CE, CLR, D;
reg Q;
initial Q= 1'b0;
always @(posedge C )
if (CLR)
Q <= 1'b0;
else if (CE)
Q <= #FLOP_DELAY D;
endmodule
|
module write_netlist_v8_2
#(
parameter C_AXI_TYPE = 0
)
(
S_ACLK, S_ARESETN, S_AXI_AWVALID, S_AXI_WVALID, S_AXI_BREADY,
w_last_c, bready_timeout_c, aw_ready_r, S_AXI_WREADY, S_AXI_BVALID,
S_AXI_WR_EN, addr_en_c, incr_addr_c, bvalid_c
);
input S_ACLK;
input S_ARESETN;
input S_AXI_AWVALID;
input S_AXI_WVALID;
input S_AXI_BREADY;
input w_last_c;
input bready_timeout_c;
output aw_ready_r;
output S_AXI_WREADY;
output S_AXI_BVALID;
output S_AXI_WR_EN;
output addr_en_c;
output incr_addr_c;
output bvalid_c;
//-------------------------------------------------------------------------
//AXI LITE
//-------------------------------------------------------------------------
generate if (C_AXI_TYPE == 0 ) begin : gbeh_axi_lite_sm
wire w_ready_r_7;
wire w_ready_c;
wire aw_ready_c;
wire NlwRenamedSignal_bvalid_c;
wire NlwRenamedSignal_incr_addr_c;
wire present_state_FSM_FFd3_13;
wire present_state_FSM_FFd2_14;
wire present_state_FSM_FFd1_15;
wire present_state_FSM_FFd4_16;
wire present_state_FSM_FFd4_In;
wire present_state_FSM_FFd3_In;
wire present_state_FSM_FFd2_In;
wire present_state_FSM_FFd1_In;
wire present_state_FSM_FFd4_In1_21;
wire [0:0] Mmux_aw_ready_c ;
begin
assign
S_AXI_WREADY = w_ready_r_7,
S_AXI_BVALID = NlwRenamedSignal_incr_addr_c,
S_AXI_WR_EN = NlwRenamedSignal_bvalid_c,
incr_addr_c = NlwRenamedSignal_incr_addr_c,
bvalid_c = NlwRenamedSignal_bvalid_c;
assign NlwRenamedSignal_incr_addr_c = 1'b0;
beh_vlog_ff_clr_v8_2 #(
.INIT (1'b0))
aw_ready_r_2 (
.C ( S_ACLK),
.CLR ( S_ARESETN),
.D ( aw_ready_c),
.Q ( aw_ready_r)
);
beh_vlog_ff_clr_v8_2 #(
.INIT (1'b0))
w_ready_r (
.C ( S_ACLK),
.CLR ( S_ARESETN),
.D ( w_ready_c),
.Q ( w_ready_r_7)
);
beh_vlog_ff_pre_v8_2 #(
.INIT (1'b1))
present_state_FSM_FFd4 (
.C ( S_ACLK),
.D ( present_state_FSM_FFd4_In),
.PRE ( S_ARESETN),
.Q ( present_state_FSM_FFd4_16)
);
beh_vlog_ff_clr_v8_2 #(
.INIT (1'b0))
present_state_FSM_FFd3 (
.C ( S_ACLK),
.CLR ( S_ARESETN),
.D ( present_state_FSM_FFd3_In),
.Q ( present_state_FSM_FFd3_13)
);
beh_vlog_ff_clr_v8_2 #(
.INIT (1'b0))
present_state_FSM_FFd2 (
.C ( S_ACLK),
.CLR ( S_ARESETN),
.D ( present_state_FSM_FFd2_In),
.Q ( present_state_FSM_FFd2_14)
);
beh_vlog_ff_clr_v8_2 #(
.INIT (1'b0))
present_state_FSM_FFd1 (
.C ( S_ACLK),
.CLR ( S_ARESETN),
.D ( present_state_FSM_FFd1_In),
.Q ( present_state_FSM_FFd1_15)
);
STATE_LOGIC_v8_2 #(
.INIT (64'h0000000055554440))
present_state_FSM_FFd3_In1 (
.I0 ( S_AXI_WVALID),
.I1 ( S_AXI_AWVALID),
.I2 ( present_state_FSM_FFd2_14),
.I3 ( present_state_FSM_FFd4_16),
.I4 ( present_state_FSM_FFd3_13),
.I5 (1'b0),
.O ( present_state_FSM_FFd3_In)
);
STATE_LOGIC_v8_2 #(
.INIT (64'h0000000088880800))
present_state_FSM_FFd2_In1 (
.I0 ( S_AXI_AWVALID),
.I1 ( S_AXI_WVALID),
.I2 ( bready_timeout_c),
.I3 ( present_state_FSM_FFd2_14),
.I4 ( present_state_FSM_FFd4_16),
.I5 (1'b0),
.O ( present_state_FSM_FFd2_In)
);
STATE_LOGIC_v8_2 #(
.INIT (64'h00000000AAAA2000))
Mmux_addr_en_c_0_1 (
.I0 ( S_AXI_AWVALID),
.I1 ( bready_timeout_c),
.I2 ( present_state_FSM_FFd2_14),
.I3 ( S_AXI_WVALID),
.I4 ( present_state_FSM_FFd4_16),
.I5 (1'b0),
.O ( addr_en_c)
);
STATE_LOGIC_v8_2 #(
.INIT (64'hF5F07570F5F05500))
Mmux_w_ready_c_0_1 (
.I0 ( S_AXI_WVALID),
.I1 ( bready_timeout_c),
.I2 ( S_AXI_AWVALID),
.I3 ( present_state_FSM_FFd3_13),
.I4 ( present_state_FSM_FFd4_16),
.I5 ( present_state_FSM_FFd2_14),
.O ( w_ready_c)
);
STATE_LOGIC_v8_2 #(
.INIT (64'h88808880FFFF8880))
present_state_FSM_FFd1_In1 (
.I0 ( S_AXI_WVALID),
.I1 ( bready_timeout_c),
.I2 ( present_state_FSM_FFd3_13),
.I3 ( present_state_FSM_FFd2_14),
.I4 ( present_state_FSM_FFd1_15),
.I5 ( S_AXI_BREADY),
.O ( present_state_FSM_FFd1_In)
);
STATE_LOGIC_v8_2 #(
.INIT (64'h00000000000000A8))
Mmux_S_AXI_WR_EN_0_1 (
.I0 ( S_AXI_WVALID),
.I1 ( present_state_FSM_FFd2_14),
.I2 ( present_state_FSM_FFd3_13),
.I3 (1'b0),
.I4 (1'b0),
.I5 (1'b0),
.O ( NlwRenamedSignal_bvalid_c)
);
STATE_LOGIC_v8_2 #(
.INIT (64'h2F0F27072F0F2200))
present_state_FSM_FFd4_In1 (
.I0 ( S_AXI_WVALID),
.I1 ( bready_timeout_c),
.I2 ( S_AXI_AWVALID),
.I3 ( present_state_FSM_FFd3_13),
.I4 ( present_state_FSM_FFd4_16),
.I5 ( present_state_FSM_FFd2_14),
.O ( present_state_FSM_FFd4_In1_21)
);
STATE_LOGIC_v8_2 #(
.INIT (64'h00000000000000F8))
present_state_FSM_FFd4_In2 (
.I0 ( present_state_FSM_FFd1_15),
.I1 ( S_AXI_BREADY),
.I2 ( present_state_FSM_FFd4_In1_21),
.I3 (1'b0),
.I4 (1'b0),
.I5 (1'b0),
.O ( present_state_FSM_FFd4_In)
);
STATE_LOGIC_v8_2 #(
.INIT (64'h7535753575305500))
Mmux_aw_ready_c_0_1 (
.I0 ( S_AXI_AWVALID),
.I1 ( bready_timeout_c),
.I2 ( S_AXI_WVALID),
.I3 ( present_state_FSM_FFd4_16),
.I4 ( present_state_FSM_FFd3_13),
.I5 ( present_state_FSM_FFd2_14),
.O ( Mmux_aw_ready_c[0])
);
STATE_LOGIC_v8_2 #(
.INIT (64'h00000000000000F8))
Mmux_aw_ready_c_0_2 (
.I0 ( present_state_FSM_FFd1_15),
.I1 ( S_AXI_BREADY),
.I2 ( Mmux_aw_ready_c[0]),
.I3 (1'b0),
.I4 (1'b0),
.I5 (1'b0),
.O ( aw_ready_c)
);
end
end
endgenerate
//---------------------------------------------------------------------
// AXI FULL
//---------------------------------------------------------------------
generate if (C_AXI_TYPE == 1 ) begin : gbeh_axi_full_sm
wire w_ready_r_8;
wire w_ready_c;
wire aw_ready_c;
wire NlwRenamedSig_OI_bvalid_c;
wire present_state_FSM_FFd1_16;
wire present_state_FSM_FFd4_17;
wire present_state_FSM_FFd3_18;
wire present_state_FSM_FFd2_19;
wire present_state_FSM_FFd4_In;
wire present_state_FSM_FFd3_In;
wire present_state_FSM_FFd2_In;
wire present_state_FSM_FFd1_In;
wire present_state_FSM_FFd2_In1_24;
wire present_state_FSM_FFd4_In1_25;
wire N2;
wire N4;
begin
assign
S_AXI_WREADY = w_ready_r_8,
bvalid_c = NlwRenamedSig_OI_bvalid_c,
S_AXI_BVALID = 1'b0;
beh_vlog_ff_clr_v8_2 #(
.INIT (1'b0))
aw_ready_r_2
(
.C ( S_ACLK),
.CLR ( S_ARESETN),
.D ( aw_ready_c),
.Q ( aw_ready_r)
);
beh_vlog_ff_clr_v8_2 #(
.INIT (1'b0))
w_ready_r
(
.C ( S_ACLK),
.CLR ( S_ARESETN),
.D ( w_ready_c),
.Q ( w_ready_r_8)
);
beh_vlog_ff_pre_v8_2 #(
.INIT (1'b1))
present_state_FSM_FFd4
(
.C ( S_ACLK),
.D ( present_state_FSM_FFd4_In),
.PRE ( S_ARESETN),
.Q ( present_state_FSM_FFd4_17)
);
beh_vlog_ff_clr_v8_2 #(
.INIT (1'b0))
present_state_FSM_FFd3
(
.C ( S_ACLK),
.CLR ( S_ARESETN),
.D ( present_state_FSM_FFd3_In),
.Q ( present_state_FSM_FFd3_18)
);
beh_vlog_ff_clr_v8_2 #(
.INIT (1'b0))
present_state_FSM_FFd2
(
.C ( S_ACLK),
.CLR ( S_ARESETN),
.D ( present_state_FSM_FFd2_In),
.Q ( present_state_FSM_FFd2_19)
);
beh_vlog_ff_clr_v8_2 #(
.INIT (1'b0))
present_state_FSM_FFd1
(
.C ( S_ACLK),
.CLR ( S_ARESETN),
.D ( present_state_FSM_FFd1_In),
.Q ( present_state_FSM_FFd1_16)
);
STATE_LOGIC_v8_2 #(
.INIT (64'h0000000000005540))
present_state_FSM_FFd3_In1
(
.I0 ( S_AXI_WVALID),
.I1 ( present_state_FSM_FFd4_17),
.I2 ( S_AXI_AWVALID),
.I3 ( present_state_FSM_FFd3_18),
.I4 (1'b0),
.I5 (1'b0),
.O ( present_state_FSM_FFd3_In)
);
STATE_LOGIC_v8_2 #(
.INIT (64'hBF3FBB33AF0FAA00))
Mmux_aw_ready_c_0_2
(
.I0 ( S_AXI_BREADY),
.I1 ( bready_timeout_c),
.I2 ( S_AXI_AWVALID),
.I3 ( present_state_FSM_FFd1_16),
.I4 ( present_state_FSM_FFd4_17),
.I5 ( NlwRenamedSig_OI_bvalid_c),
.O ( aw_ready_c)
);
STATE_LOGIC_v8_2 #(
.INIT (64'hAAAAAAAA20000000))
Mmux_addr_en_c_0_1
(
.I0 ( S_AXI_AWVALID),
.I1 ( bready_timeout_c),
.I2 ( present_state_FSM_FFd2_19),
.I3 ( S_AXI_WVALID),
.I4 ( w_last_c),
.I5 ( present_state_FSM_FFd4_17),
.O ( addr_en_c)
);
STATE_LOGIC_v8_2 #(
.INIT (64'h00000000000000A8))
Mmux_S_AXI_WR_EN_0_1
(
.I0 ( S_AXI_WVALID),
.I1 ( present_state_FSM_FFd2_19),
.I2 ( present_state_FSM_FFd3_18),
.I3 (1'b0),
.I4 (1'b0),
.I5 (1'b0),
.O ( S_AXI_WR_EN)
);
STATE_LOGIC_v8_2 #(
.INIT (64'h0000000000002220))
Mmux_incr_addr_c_0_1
(
.I0 ( S_AXI_WVALID),
.I1 ( w_last_c),
.I2 ( present_state_FSM_FFd2_19),
.I3 ( present_state_FSM_FFd3_18),
.I4 (1'b0),
.I5 (1'b0),
.O ( incr_addr_c)
);
STATE_LOGIC_v8_2 #(
.INIT (64'h0000000000008880))
Mmux_aw_ready_c_0_11
(
.I0 ( S_AXI_WVALID),
.I1 ( w_last_c),
.I2 ( present_state_FSM_FFd2_19),
.I3 ( present_state_FSM_FFd3_18),
.I4 (1'b0),
.I5 (1'b0),
.O ( NlwRenamedSig_OI_bvalid_c)
);
STATE_LOGIC_v8_2 #(
.INIT (64'h000000000000D5C0))
present_state_FSM_FFd2_In1
(
.I0 ( w_last_c),
.I1 ( S_AXI_AWVALID),
.I2 ( present_state_FSM_FFd4_17),
.I3 ( present_state_FSM_FFd3_18),
.I4 (1'b0),
.I5 (1'b0),
.O ( present_state_FSM_FFd2_In1_24)
);
STATE_LOGIC_v8_2 #(
.INIT (64'hFFFFAAAA08AAAAAA))
present_state_FSM_FFd2_In2
(
.I0 ( present_state_FSM_FFd2_19),
.I1 ( S_AXI_AWVALID),
.I2 ( bready_timeout_c),
.I3 ( w_last_c),
.I4 ( S_AXI_WVALID),
.I5 ( present_state_FSM_FFd2_In1_24),
.O ( present_state_FSM_FFd2_In)
);
STATE_LOGIC_v8_2 #(
.INIT (64'h00C0004000C00000))
present_state_FSM_FFd4_In1
(
.I0 ( S_AXI_AWVALID),
.I1 ( w_last_c),
.I2 ( S_AXI_WVALID),
.I3 ( bready_timeout_c),
.I4 ( present_state_FSM_FFd3_18),
.I5 ( present_state_FSM_FFd2_19),
.O ( present_state_FSM_FFd4_In1_25)
);
STATE_LOGIC_v8_2 #(
.INIT (64'h00000000FFFF88F8))
present_state_FSM_FFd4_In2
(
.I0 ( present_state_FSM_FFd1_16),
.I1 ( S_AXI_BREADY),
.I2 ( present_state_FSM_FFd4_17),
.I3 ( S_AXI_AWVALID),
.I4 ( present_state_FSM_FFd4_In1_25),
.I5 (1'b0),
.O ( present_state_FSM_FFd4_In)
);
STATE_LOGIC_v8_2 #(
.INIT (64'h0000000000000007))
Mmux_w_ready_c_0_SW0
(
.I0 ( w_last_c),
.I1 ( S_AXI_WVALID),
.I2 (1'b0),
.I3 (1'b0),
.I4 (1'b0),
.I5 (1'b0),
.O ( N2)
);
STATE_LOGIC_v8_2 #(
.INIT (64'hFABAFABAFAAAF000))
Mmux_w_ready_c_0_Q
(
.I0 ( N2),
.I1 ( bready_timeout_c),
.I2 ( S_AXI_AWVALID),
.I3 ( present_state_FSM_FFd4_17),
.I4 ( present_state_FSM_FFd3_18),
.I5 ( present_state_FSM_FFd2_19),
.O ( w_ready_c)
);
STATE_LOGIC_v8_2 #(
.INIT (64'h0000000000000008))
Mmux_aw_ready_c_0_11_SW0
(
.I0 ( bready_timeout_c),
.I1 ( S_AXI_WVALID),
.I2 (1'b0),
.I3 (1'b0),
.I4 (1'b0),
.I5 (1'b0),
.O ( N4)
);
STATE_LOGIC_v8_2 #(
.INIT (64'h88808880FFFF8880))
present_state_FSM_FFd1_In1
(
.I0 ( w_last_c),
.I1 ( N4),
.I2 ( present_state_FSM_FFd2_19),
.I3 ( present_state_FSM_FFd3_18),
.I4 ( present_state_FSM_FFd1_16),
.I5 ( S_AXI_BREADY),
.O ( present_state_FSM_FFd1_In)
);
end
end
endgenerate
endmodule
|
module read_netlist_v8_2 #(
parameter C_AXI_TYPE = 1,
parameter C_ADDRB_WIDTH = 12
) ( S_AXI_R_LAST_INT, S_ACLK, S_ARESETN, S_AXI_ARVALID,
S_AXI_RREADY,S_AXI_INCR_ADDR,S_AXI_ADDR_EN,
S_AXI_SINGLE_TRANS,S_AXI_MUX_SEL, S_AXI_R_LAST, S_AXI_ARREADY,
S_AXI_RLAST, S_AXI_RVALID, S_AXI_RD_EN, S_AXI_ARLEN);
input S_AXI_R_LAST_INT;
input S_ACLK;
input S_ARESETN;
input S_AXI_ARVALID;
input S_AXI_RREADY;
output S_AXI_INCR_ADDR;
output S_AXI_ADDR_EN;
output S_AXI_SINGLE_TRANS;
output S_AXI_MUX_SEL;
output S_AXI_R_LAST;
output S_AXI_ARREADY;
output S_AXI_RLAST;
output S_AXI_RVALID;
output S_AXI_RD_EN;
input [7:0] S_AXI_ARLEN;
wire present_state_FSM_FFd1_13 ;
wire present_state_FSM_FFd2_14 ;
wire gaxi_full_sm_outstanding_read_r_15 ;
wire gaxi_full_sm_ar_ready_r_16 ;
wire gaxi_full_sm_r_last_r_17 ;
wire NlwRenamedSig_OI_gaxi_full_sm_r_valid_r ;
wire gaxi_full_sm_r_valid_c ;
wire S_AXI_RREADY_gaxi_full_sm_r_valid_r_OR_9_o ;
wire gaxi_full_sm_ar_ready_c ;
wire gaxi_full_sm_outstanding_read_c ;
wire NlwRenamedSig_OI_S_AXI_R_LAST ;
wire S_AXI_ARLEN_7_GND_8_o_equal_1_o ;
wire present_state_FSM_FFd2_In ;
wire present_state_FSM_FFd1_In ;
wire Mmux_S_AXI_R_LAST13 ;
wire N01 ;
wire N2 ;
wire Mmux_gaxi_full_sm_ar_ready_c11 ;
wire N4 ;
wire N8 ;
wire N9 ;
wire N10 ;
wire N11 ;
wire N12 ;
wire N13 ;
assign
S_AXI_R_LAST = NlwRenamedSig_OI_S_AXI_R_LAST,
S_AXI_ARREADY = gaxi_full_sm_ar_ready_r_16,
S_AXI_RLAST = gaxi_full_sm_r_last_r_17,
S_AXI_RVALID = NlwRenamedSig_OI_gaxi_full_sm_r_valid_r;
beh_vlog_ff_clr_v8_2 #(
.INIT (1'b0))
gaxi_full_sm_outstanding_read_r (
.C (S_ACLK),
.CLR(S_ARESETN),
.D(gaxi_full_sm_outstanding_read_c),
.Q(gaxi_full_sm_outstanding_read_r_15)
);
beh_vlog_ff_ce_clr_v8_2 #(
.INIT (1'b0))
gaxi_full_sm_r_valid_r (
.C (S_ACLK),
.CE (S_AXI_RREADY_gaxi_full_sm_r_valid_r_OR_9_o),
.CLR (S_ARESETN),
.D (gaxi_full_sm_r_valid_c),
.Q (NlwRenamedSig_OI_gaxi_full_sm_r_valid_r)
);
beh_vlog_ff_clr_v8_2 #(
.INIT (1'b0))
gaxi_full_sm_ar_ready_r (
.C (S_ACLK),
.CLR (S_ARESETN),
.D (gaxi_full_sm_ar_ready_c),
.Q (gaxi_full_sm_ar_ready_r_16)
);
beh_vlog_ff_ce_clr_v8_2 #(
.INIT(1'b0))
gaxi_full_sm_r_last_r (
.C (S_ACLK),
.CE (S_AXI_RREADY_gaxi_full_sm_r_valid_r_OR_9_o),
.CLR (S_ARESETN),
.D (NlwRenamedSig_OI_S_AXI_R_LAST),
.Q (gaxi_full_sm_r_last_r_17)
);
beh_vlog_ff_clr_v8_2 #(
.INIT (1'b0))
present_state_FSM_FFd2 (
.C ( S_ACLK),
.CLR ( S_ARESETN),
.D ( present_state_FSM_FFd2_In),
.Q ( present_state_FSM_FFd2_14)
);
beh_vlog_ff_clr_v8_2 #(
.INIT (1'b0))
present_state_FSM_FFd1 (
.C (S_ACLK),
.CLR (S_ARESETN),
.D (present_state_FSM_FFd1_In),
.Q (present_state_FSM_FFd1_13)
);
STATE_LOGIC_v8_2 #(
.INIT (64'h000000000000000B))
S_AXI_RREADY_gaxi_full_sm_r_valid_r_OR_9_o1 (
.I0 ( S_AXI_RREADY),
.I1 ( NlwRenamedSig_OI_gaxi_full_sm_r_valid_r),
.I2 (1'b0),
.I3 (1'b0),
.I4 (1'b0),
.I5 (1'b0),
.O (S_AXI_RREADY_gaxi_full_sm_r_valid_r_OR_9_o)
);
STATE_LOGIC_v8_2 #(
.INIT (64'h0000000000000008))
Mmux_S_AXI_SINGLE_TRANS11 (
.I0 (S_AXI_ARVALID),
.I1 (S_AXI_ARLEN_7_GND_8_o_equal_1_o),
.I2 (1'b0),
.I3 (1'b0),
.I4 (1'b0),
.I5 (1'b0),
.O (S_AXI_SINGLE_TRANS)
);
STATE_LOGIC_v8_2 #(
.INIT (64'h0000000000000004))
Mmux_S_AXI_ADDR_EN11 (
.I0 (present_state_FSM_FFd1_13),
.I1 (S_AXI_ARVALID),
.I2 (1'b0),
.I3 (1'b0),
.I4 (1'b0),
.I5 (1'b0),
.O (S_AXI_ADDR_EN)
);
STATE_LOGIC_v8_2 #(
.INIT (64'hECEE2022EEEE2022))
present_state_FSM_FFd2_In1 (
.I0 ( S_AXI_ARVALID),
.I1 ( present_state_FSM_FFd1_13),
.I2 ( S_AXI_RREADY),
.I3 ( S_AXI_ARLEN_7_GND_8_o_equal_1_o),
.I4 ( present_state_FSM_FFd2_14),
.I5 ( NlwRenamedSig_OI_gaxi_full_sm_r_valid_r),
.O ( present_state_FSM_FFd2_In)
);
STATE_LOGIC_v8_2 #(
.INIT (64'h0000000044440444))
Mmux_S_AXI_R_LAST131 (
.I0 ( present_state_FSM_FFd1_13),
.I1 ( S_AXI_ARVALID),
.I2 ( present_state_FSM_FFd2_14),
.I3 ( NlwRenamedSig_OI_gaxi_full_sm_r_valid_r),
.I4 ( S_AXI_RREADY),
.I5 (1'b0),
.O ( Mmux_S_AXI_R_LAST13)
);
STATE_LOGIC_v8_2 #(
.INIT (64'h4000FFFF40004000))
Mmux_S_AXI_INCR_ADDR11 (
.I0 ( S_AXI_R_LAST_INT),
.I1 ( S_AXI_RREADY_gaxi_full_sm_r_valid_r_OR_9_o),
.I2 ( present_state_FSM_FFd2_14),
.I3 ( present_state_FSM_FFd1_13),
.I4 ( S_AXI_ARLEN_7_GND_8_o_equal_1_o),
.I5 ( Mmux_S_AXI_R_LAST13),
.O ( S_AXI_INCR_ADDR)
);
STATE_LOGIC_v8_2 #(
.INIT (64'h00000000000000FE))
S_AXI_ARLEN_7_GND_8_o_equal_1_o_7_SW0 (
.I0 ( S_AXI_ARLEN[2]),
.I1 ( S_AXI_ARLEN[1]),
.I2 ( S_AXI_ARLEN[0]),
.I3 ( 1'b0),
.I4 ( 1'b0),
.I5 ( 1'b0),
.O ( N01)
);
STATE_LOGIC_v8_2 #(
.INIT (64'h0000000000000001))
S_AXI_ARLEN_7_GND_8_o_equal_1_o_7_Q (
.I0 ( S_AXI_ARLEN[7]),
.I1 ( S_AXI_ARLEN[6]),
.I2 ( S_AXI_ARLEN[5]),
.I3 ( S_AXI_ARLEN[4]),
.I4 ( S_AXI_ARLEN[3]),
.I5 ( N01),
.O ( S_AXI_ARLEN_7_GND_8_o_equal_1_o)
);
STATE_LOGIC_v8_2 #(
.INIT (64'h0000000000000007))
Mmux_gaxi_full_sm_outstanding_read_c1_SW0 (
.I0 ( S_AXI_ARVALID),
.I1 ( S_AXI_ARLEN_7_GND_8_o_equal_1_o),
.I2 ( 1'b0),
.I3 ( 1'b0),
.I4 ( 1'b0),
.I5 ( 1'b0),
.O ( N2)
);
STATE_LOGIC_v8_2 #(
.INIT (64'h0020000002200200))
Mmux_gaxi_full_sm_outstanding_read_c1 (
.I0 ( NlwRenamedSig_OI_gaxi_full_sm_r_valid_r),
.I1 ( S_AXI_RREADY),
.I2 ( present_state_FSM_FFd1_13),
.I3 ( present_state_FSM_FFd2_14),
.I4 ( gaxi_full_sm_outstanding_read_r_15),
.I5 ( N2),
.O ( gaxi_full_sm_outstanding_read_c)
);
STATE_LOGIC_v8_2 #(
.INIT (64'h0000000000004555))
Mmux_gaxi_full_sm_ar_ready_c12 (
.I0 ( S_AXI_ARVALID),
.I1 ( S_AXI_RREADY),
.I2 ( present_state_FSM_FFd2_14),
.I3 ( NlwRenamedSig_OI_gaxi_full_sm_r_valid_r),
.I4 ( 1'b0),
.I5 ( 1'b0),
.O ( Mmux_gaxi_full_sm_ar_ready_c11)
);
STATE_LOGIC_v8_2 #(
.INIT (64'h00000000000000EF))
Mmux_S_AXI_R_LAST11_SW0 (
.I0 ( S_AXI_ARLEN_7_GND_8_o_equal_1_o),
.I1 ( S_AXI_RREADY),
.I2 ( NlwRenamedSig_OI_gaxi_full_sm_r_valid_r),
.I3 ( 1'b0),
.I4 ( 1'b0),
.I5 ( 1'b0),
.O ( N4)
);
STATE_LOGIC_v8_2 #(
.INIT (64'hFCAAFC0A00AA000A))
Mmux_S_AXI_R_LAST11 (
.I0 ( S_AXI_ARVALID),
.I1 ( gaxi_full_sm_outstanding_read_r_15),
.I2 ( present_state_FSM_FFd2_14),
.I3 ( present_state_FSM_FFd1_13),
.I4 ( N4),
.I5 ( S_AXI_RREADY_gaxi_full_sm_r_valid_r_OR_9_o),
.O ( gaxi_full_sm_r_valid_c)
);
STATE_LOGIC_v8_2 #(
.INIT (64'h00000000AAAAAA08))
S_AXI_MUX_SEL1 (
.I0 (present_state_FSM_FFd1_13),
.I1 (NlwRenamedSig_OI_gaxi_full_sm_r_valid_r),
.I2 (S_AXI_RREADY),
.I3 (present_state_FSM_FFd2_14),
.I4 (gaxi_full_sm_outstanding_read_r_15),
.I5 (1'b0),
.O (S_AXI_MUX_SEL)
);
STATE_LOGIC_v8_2 #(
.INIT (64'hF3F3F755A2A2A200))
Mmux_S_AXI_RD_EN11 (
.I0 ( present_state_FSM_FFd1_13),
.I1 ( NlwRenamedSig_OI_gaxi_full_sm_r_valid_r),
.I2 ( S_AXI_RREADY),
.I3 ( gaxi_full_sm_outstanding_read_r_15),
.I4 ( present_state_FSM_FFd2_14),
.I5 ( S_AXI_ARVALID),
.O ( S_AXI_RD_EN)
);
beh_vlog_muxf7_v8_2 present_state_FSM_FFd1_In3 (
.I0 ( N8),
.I1 ( N9),
.S ( present_state_FSM_FFd1_13),
.O ( present_state_FSM_FFd1_In)
);
STATE_LOGIC_v8_2 #(
.INIT (64'h000000005410F4F0))
present_state_FSM_FFd1_In3_F (
.I0 ( S_AXI_RREADY),
.I1 ( present_state_FSM_FFd2_14),
.I2 ( S_AXI_ARVALID),
.I3 ( NlwRenamedSig_OI_gaxi_full_sm_r_valid_r),
.I4 ( S_AXI_ARLEN_7_GND_8_o_equal_1_o),
.I5 ( 1'b0),
.O ( N8)
);
STATE_LOGIC_v8_2 #(
.INIT (64'h0000000072FF7272))
present_state_FSM_FFd1_In3_G (
.I0 ( present_state_FSM_FFd2_14),
.I1 ( S_AXI_R_LAST_INT),
.I2 ( gaxi_full_sm_outstanding_read_r_15),
.I3 ( S_AXI_RREADY),
.I4 ( NlwRenamedSig_OI_gaxi_full_sm_r_valid_r),
.I5 ( 1'b0),
.O ( N9)
);
beh_vlog_muxf7_v8_2 Mmux_gaxi_full_sm_ar_ready_c14 (
.I0 ( N10),
.I1 ( N11),
.S ( present_state_FSM_FFd1_13),
.O ( gaxi_full_sm_ar_ready_c)
);
STATE_LOGIC_v8_2 #(
.INIT (64'h00000000FFFF88A8))
Mmux_gaxi_full_sm_ar_ready_c14_F (
.I0 ( S_AXI_ARLEN_7_GND_8_o_equal_1_o),
.I1 ( S_AXI_RREADY),
.I2 ( present_state_FSM_FFd2_14),
.I3 ( NlwRenamedSig_OI_gaxi_full_sm_r_valid_r),
.I4 ( Mmux_gaxi_full_sm_ar_ready_c11),
.I5 ( 1'b0),
.O ( N10)
);
STATE_LOGIC_v8_2 #(
.INIT (64'h000000008D008D8D))
Mmux_gaxi_full_sm_ar_ready_c14_G (
.I0 ( present_state_FSM_FFd2_14),
.I1 ( S_AXI_R_LAST_INT),
.I2 ( gaxi_full_sm_outstanding_read_r_15),
.I3 ( S_AXI_RREADY),
.I4 ( NlwRenamedSig_OI_gaxi_full_sm_r_valid_r),
.I5 ( 1'b0),
.O ( N11)
);
beh_vlog_muxf7_v8_2 Mmux_S_AXI_R_LAST1 (
.I0 ( N12),
.I1 ( N13),
.S ( present_state_FSM_FFd1_13),
.O ( NlwRenamedSig_OI_S_AXI_R_LAST)
);
STATE_LOGIC_v8_2 #(
.INIT (64'h0000000088088888))
Mmux_S_AXI_R_LAST1_F (
.I0 ( S_AXI_ARLEN_7_GND_8_o_equal_1_o),
.I1 ( S_AXI_ARVALID),
.I2 ( present_state_FSM_FFd2_14),
.I3 ( S_AXI_RREADY),
.I4 ( NlwRenamedSig_OI_gaxi_full_sm_r_valid_r),
.I5 ( 1'b0),
.O ( N12)
);
STATE_LOGIC_v8_2 #(
.INIT (64'h00000000E400E4E4))
Mmux_S_AXI_R_LAST1_G (
.I0 ( present_state_FSM_FFd2_14),
.I1 ( gaxi_full_sm_outstanding_read_r_15),
.I2 ( S_AXI_R_LAST_INT),
.I3 ( S_AXI_RREADY),
.I4 ( NlwRenamedSig_OI_gaxi_full_sm_r_valid_r),
.I5 ( 1'b0),
.O ( N13)
);
endmodule
|
module blk_mem_axi_write_wrapper_beh_v8_2
# (
// AXI Interface related parameters start here
parameter C_INTERFACE_TYPE = 0, // 0: Native Interface; 1: AXI Interface
parameter C_AXI_TYPE = 0, // 0: AXI Lite; 1: AXI Full;
parameter C_AXI_SLAVE_TYPE = 0, // 0: MEMORY SLAVE; 1: PERIPHERAL SLAVE;
parameter C_MEMORY_TYPE = 0, // 0: SP-RAM, 1: SDP-RAM; 2: TDP-RAM; 3: DP-ROM;
parameter C_WRITE_DEPTH_A = 0,
parameter C_AXI_AWADDR_WIDTH = 32,
parameter C_ADDRA_WIDTH = 12,
parameter C_AXI_WDATA_WIDTH = 32,
parameter C_HAS_AXI_ID = 0,
parameter C_AXI_ID_WIDTH = 4,
// AXI OUTSTANDING WRITES
parameter C_AXI_OS_WR = 2
)
(
// AXI Global Signals
input S_ACLK,
input S_ARESETN,
// AXI Full/Lite Slave Write Channel (write side)
input [C_AXI_ID_WIDTH-1:0] S_AXI_AWID,
input [C_AXI_AWADDR_WIDTH-1:0] S_AXI_AWADDR,
input [8-1:0] S_AXI_AWLEN,
input [2:0] S_AXI_AWSIZE,
input [1:0] S_AXI_AWBURST,
input S_AXI_AWVALID,
output S_AXI_AWREADY,
input S_AXI_WVALID,
output S_AXI_WREADY,
output reg [C_AXI_ID_WIDTH-1:0] S_AXI_BID = 0,
output S_AXI_BVALID,
input S_AXI_BREADY,
// Signals for BMG interface
output [C_ADDRA_WIDTH-1:0] S_AXI_AWADDR_OUT,
output S_AXI_WR_EN
);
localparam FLOP_DELAY = 100; // 100 ps
localparam C_RANGE = ((C_AXI_WDATA_WIDTH == 8)?0:
((C_AXI_WDATA_WIDTH==16)?1:
((C_AXI_WDATA_WIDTH==32)?2:
((C_AXI_WDATA_WIDTH==64)?3:
((C_AXI_WDATA_WIDTH==128)?4:
((C_AXI_WDATA_WIDTH==256)?5:0))))));
wire bvalid_c ;
reg bready_timeout_c = 0;
wire [1:0] bvalid_rd_cnt_c;
reg bvalid_r = 0;
reg [2:0] bvalid_count_r = 0;
reg [((C_AXI_TYPE == 1 && C_AXI_SLAVE_TYPE == 0)?
C_AXI_AWADDR_WIDTH:C_ADDRA_WIDTH)-1:0] awaddr_reg = 0;
reg [1:0] bvalid_wr_cnt_r = 0;
reg [1:0] bvalid_rd_cnt_r = 0;
wire w_last_c ;
wire addr_en_c ;
wire incr_addr_c ;
wire aw_ready_r ;
wire dec_alen_c ;
reg bvalid_d1_c = 0;
reg [7:0] awlen_cntr_r = 0;
reg [7:0] awlen_int = 0;
reg [1:0] awburst_int = 0;
integer total_bytes = 0;
integer wrap_boundary = 0;
integer wrap_base_addr = 0;
integer num_of_bytes_c = 0;
integer num_of_bytes_r = 0;
// Array to store BIDs
reg [C_AXI_ID_WIDTH-1:0] axi_bid_array[3:0] ;
wire S_AXI_BVALID_axi_wr_fsm;
//-------------------------------------
//AXI WRITE FSM COMPONENT INSTANTIATION
//-------------------------------------
write_netlist_v8_2 #(.C_AXI_TYPE(C_AXI_TYPE)) axi_wr_fsm
(
.S_ACLK(S_ACLK),
.S_ARESETN(S_ARESETN),
.S_AXI_AWVALID(S_AXI_AWVALID),
.aw_ready_r(aw_ready_r),
.S_AXI_WVALID(S_AXI_WVALID),
.S_AXI_WREADY(S_AXI_WREADY),
.S_AXI_BREADY(S_AXI_BREADY),
.S_AXI_WR_EN(S_AXI_WR_EN),
.w_last_c(w_last_c),
.bready_timeout_c(bready_timeout_c),
.addr_en_c(addr_en_c),
.incr_addr_c(incr_addr_c),
.bvalid_c(bvalid_c),
.S_AXI_BVALID (S_AXI_BVALID_axi_wr_fsm)
);
//Wrap Address boundary calculation
always@(*) begin
num_of_bytes_c = 2**((C_AXI_TYPE == 1 && C_AXI_SLAVE_TYPE == 0)?S_AXI_AWSIZE:0);
total_bytes = (num_of_bytes_r)*(awlen_int+1);
wrap_base_addr = ((awaddr_reg)/((total_bytes==0)?1:total_bytes))*(total_bytes);
wrap_boundary = wrap_base_addr+total_bytes;
end
//-------------------------------------------------------------------------
// BMG address generation
//-------------------------------------------------------------------------
always @(posedge S_ACLK or S_ARESETN) begin
if (S_ARESETN == 1'b1) begin
awaddr_reg <= 0;
num_of_bytes_r <= 0;
awburst_int <= 0;
end else begin
if (addr_en_c == 1'b1) begin
awaddr_reg <= #FLOP_DELAY S_AXI_AWADDR ;
num_of_bytes_r <= num_of_bytes_c;
awburst_int <= ((C_AXI_TYPE == 1 && C_AXI_SLAVE_TYPE == 0)?S_AXI_AWBURST:2'b01);
end else if (incr_addr_c == 1'b1) begin
if (awburst_int == 2'b10) begin
if(awaddr_reg == (wrap_boundary-num_of_bytes_r)) begin
awaddr_reg <= wrap_base_addr;
end else begin
awaddr_reg <= awaddr_reg + num_of_bytes_r;
end
end else if (awburst_int == 2'b01 || awburst_int == 2'b11) begin
awaddr_reg <= awaddr_reg + num_of_bytes_r;
end
end
end
end
assign S_AXI_AWADDR_OUT = ((C_AXI_TYPE == 1 && C_AXI_SLAVE_TYPE == 0)?
awaddr_reg[C_AXI_AWADDR_WIDTH-1:C_RANGE]:awaddr_reg);
//-------------------------------------------------------------------------
// AXI wlast generation
//-------------------------------------------------------------------------
always @(posedge S_ACLK or S_ARESETN) begin
if (S_ARESETN == 1'b1) begin
awlen_cntr_r <= 0;
awlen_int <= 0;
end else begin
if (addr_en_c == 1'b1) begin
awlen_int <= #FLOP_DELAY (C_AXI_TYPE == 0?0:S_AXI_AWLEN) ;
awlen_cntr_r <= #FLOP_DELAY (C_AXI_TYPE == 0?0:S_AXI_AWLEN) ;
end else if (dec_alen_c == 1'b1) begin
awlen_cntr_r <= #FLOP_DELAY awlen_cntr_r - 1 ;
end
end
end
assign w_last_c = (awlen_cntr_r == 0 && S_AXI_WVALID == 1'b1)?1'b1:1'b0;
assign dec_alen_c = (incr_addr_c | w_last_c);
//-------------------------------------------------------------------------
// Generation of bvalid counter for outstanding transactions
//-------------------------------------------------------------------------
always @(posedge S_ACLK or S_ARESETN) begin
if (S_ARESETN == 1'b1) begin
bvalid_count_r <= 0;
end else begin
// bvalid_count_r generation
if (bvalid_c == 1'b1 && bvalid_r == 1'b1 && S_AXI_BREADY == 1'b1) begin
bvalid_count_r <= #FLOP_DELAY bvalid_count_r ;
end else if (bvalid_c == 1'b1) begin
bvalid_count_r <= #FLOP_DELAY bvalid_count_r + 1 ;
end else if (bvalid_r == 1'b1 && S_AXI_BREADY == 1'b1 && bvalid_count_r != 0) begin
bvalid_count_r <= #FLOP_DELAY bvalid_count_r - 1 ;
end
end
end
//-------------------------------------------------------------------------
// Generation of bvalid when BID is used
//-------------------------------------------------------------------------
generate if (C_HAS_AXI_ID == 1) begin:gaxi_bvalid_id_r
always @(posedge S_ACLK or S_ARESETN) begin
if (S_ARESETN == 1'b1) begin
bvalid_r <= 0;
bvalid_d1_c <= 0;
end else begin
// Delay the generation o bvalid_r for generation for BID
bvalid_d1_c <= bvalid_c;
//external bvalid signal generation
if (bvalid_d1_c == 1'b1) begin
bvalid_r <= #FLOP_DELAY 1'b1 ;
end else if (bvalid_count_r <= 1 && S_AXI_BREADY == 1'b1) begin
bvalid_r <= #FLOP_DELAY 0 ;
end
end
end
end
endgenerate
//-------------------------------------------------------------------------
// Generation of bvalid when BID is not used
//-------------------------------------------------------------------------
generate if(C_HAS_AXI_ID == 0) begin:gaxi_bvalid_noid_r
always @(posedge S_ACLK or S_ARESETN) begin
if (S_ARESETN == 1'b1) begin
bvalid_r <= 0;
end else begin
//external bvalid signal generation
if (bvalid_c == 1'b1) begin
bvalid_r <= #FLOP_DELAY 1'b1 ;
end else if (bvalid_count_r <= 1 && S_AXI_BREADY == 1'b1) begin
bvalid_r <= #FLOP_DELAY 0 ;
end
end
end
end
endgenerate
//-------------------------------------------------------------------------
// Generation of Bready timeout
//-------------------------------------------------------------------------
always @(bvalid_count_r) begin
// bready_timeout_c generation
if(bvalid_count_r == C_AXI_OS_WR-1) begin
bready_timeout_c <= 1'b1;
end else begin
bready_timeout_c <= 1'b0;
end
end
//-------------------------------------------------------------------------
// Generation of BID
//-------------------------------------------------------------------------
generate if(C_HAS_AXI_ID == 1) begin:gaxi_bid_gen
always @(posedge S_ACLK or S_ARESETN) begin
if (S_ARESETN == 1'b1) begin
bvalid_wr_cnt_r <= 0;
bvalid_rd_cnt_r <= 0;
end else begin
// STORE AWID IN AN ARRAY
if(bvalid_c == 1'b1) begin
bvalid_wr_cnt_r <= bvalid_wr_cnt_r + 1;
end
// generate BID FROM AWID ARRAY
bvalid_rd_cnt_r <= #FLOP_DELAY bvalid_rd_cnt_c ;
S_AXI_BID <= axi_bid_array[bvalid_rd_cnt_c];
end
end
assign bvalid_rd_cnt_c = (bvalid_r == 1'b1 && S_AXI_BREADY == 1'b1)?bvalid_rd_cnt_r+1:bvalid_rd_cnt_r;
//-------------------------------------------------------------------------
// Storing AWID for generation of BID
//-------------------------------------------------------------------------
always @(posedge S_ACLK or S_ARESETN) begin
if(S_ARESETN == 1'b1) begin
axi_bid_array[0] = 0;
axi_bid_array[1] = 0;
axi_bid_array[2] = 0;
axi_bid_array[3] = 0;
end else if(aw_ready_r == 1'b1 && S_AXI_AWVALID == 1'b1) begin
axi_bid_array[bvalid_wr_cnt_r] <= S_AXI_AWID;
end
end
end
endgenerate
assign S_AXI_BVALID = bvalid_r;
assign S_AXI_AWREADY = aw_ready_r;
endmodule
|
module blk_mem_axi_read_wrapper_beh_v8_2
# (
//// AXI Interface related parameters start here
parameter C_INTERFACE_TYPE = 0,
parameter C_AXI_TYPE = 0,
parameter C_AXI_SLAVE_TYPE = 0,
parameter C_MEMORY_TYPE = 0,
parameter C_WRITE_WIDTH_A = 4,
parameter C_WRITE_DEPTH_A = 32,
parameter C_ADDRA_WIDTH = 12,
parameter C_AXI_PIPELINE_STAGES = 0,
parameter C_AXI_ARADDR_WIDTH = 12,
parameter C_HAS_AXI_ID = 0,
parameter C_AXI_ID_WIDTH = 4,
parameter C_ADDRB_WIDTH = 12
)
(
//// AXI Global Signals
input S_ACLK,
input S_ARESETN,
//// AXI Full/Lite Slave Read (Read side)
input [C_AXI_ARADDR_WIDTH-1:0] 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 S_AXI_RLAST,
output S_AXI_RVALID,
input S_AXI_RREADY,
input [C_AXI_ID_WIDTH-1:0] S_AXI_ARID,
output reg [C_AXI_ID_WIDTH-1:0] S_AXI_RID = 0,
//// AXI Full/Lite Read Address Signals to BRAM
output [C_ADDRB_WIDTH-1:0] S_AXI_ARADDR_OUT,
output S_AXI_RD_EN
);
localparam FLOP_DELAY = 100; // 100 ps
localparam C_RANGE = ((C_WRITE_WIDTH_A == 8)?0:
((C_WRITE_WIDTH_A==16)?1:
((C_WRITE_WIDTH_A==32)?2:
((C_WRITE_WIDTH_A==64)?3:
((C_WRITE_WIDTH_A==128)?4:
((C_WRITE_WIDTH_A==256)?5:0))))));
reg [C_AXI_ID_WIDTH-1:0] ar_id_r=0;
wire addr_en_c;
wire rd_en_c;
wire incr_addr_c;
wire single_trans_c;
wire dec_alen_c;
wire mux_sel_c;
wire r_last_c;
wire r_last_int_c;
wire [C_ADDRB_WIDTH-1 : 0] araddr_out;
reg [7:0] arlen_int_r=0;
reg [7:0] arlen_cntr=8'h01;
reg [1:0] arburst_int_c=0;
reg [1:0] arburst_int_r=0;
reg [((C_AXI_TYPE == 1 && C_AXI_SLAVE_TYPE == 0)?
C_AXI_ARADDR_WIDTH:C_ADDRA_WIDTH)-1:0] araddr_reg =0;
integer num_of_bytes_c = 0;
integer total_bytes = 0;
integer num_of_bytes_r = 0;
integer wrap_base_addr_r = 0;
integer wrap_boundary_r = 0;
reg [7:0] arlen_int_c=0;
integer total_bytes_c = 0;
integer wrap_base_addr_c = 0;
integer wrap_boundary_c = 0;
assign dec_alen_c = incr_addr_c | r_last_int_c;
read_netlist_v8_2
#(.C_AXI_TYPE (1),
.C_ADDRB_WIDTH (C_ADDRB_WIDTH))
axi_read_fsm (
.S_AXI_INCR_ADDR(incr_addr_c),
.S_AXI_ADDR_EN(addr_en_c),
.S_AXI_SINGLE_TRANS(single_trans_c),
.S_AXI_MUX_SEL(mux_sel_c),
.S_AXI_R_LAST(r_last_c),
.S_AXI_R_LAST_INT(r_last_int_c),
//// AXI Global Signals
.S_ACLK(S_ACLK),
.S_ARESETN(S_ARESETN),
//// AXI Full/Lite Slave Read (Read side)
.S_AXI_ARLEN(S_AXI_ARLEN),
.S_AXI_ARVALID(S_AXI_ARVALID),
.S_AXI_ARREADY(S_AXI_ARREADY),
.S_AXI_RLAST(S_AXI_RLAST),
.S_AXI_RVALID(S_AXI_RVALID),
.S_AXI_RREADY(S_AXI_RREADY),
//// AXI Full/Lite Read Address Signals to BRAM
.S_AXI_RD_EN(rd_en_c)
);
always@(*) begin
num_of_bytes_c = 2**((C_AXI_TYPE == 1 && C_AXI_SLAVE_TYPE == 0)?S_AXI_ARSIZE:0);
total_bytes = (num_of_bytes_r)*(arlen_int_r+1);
wrap_base_addr_r = ((araddr_reg)/(total_bytes==0?1:total_bytes))*(total_bytes);
wrap_boundary_r = wrap_base_addr_r+total_bytes;
//////// combinatorial from interface
arlen_int_c = (C_AXI_TYPE == 0?0:S_AXI_ARLEN);
total_bytes_c = (num_of_bytes_c)*(arlen_int_c+1);
wrap_base_addr_c = ((S_AXI_ARADDR)/(total_bytes_c==0?1:total_bytes_c))*(total_bytes_c);
wrap_boundary_c = wrap_base_addr_c+total_bytes_c;
arburst_int_c = ((C_AXI_TYPE == 1 && C_AXI_SLAVE_TYPE == 0)?S_AXI_ARBURST:1);
end
////-------------------------------------------------------------------------
//// BMG address generation
////-------------------------------------------------------------------------
always @(posedge S_ACLK or S_ARESETN) begin
if (S_ARESETN == 1'b1) begin
araddr_reg <= 0;
arburst_int_r <= 0;
num_of_bytes_r <= 0;
end else begin
if (incr_addr_c == 1'b1 && addr_en_c == 1'b1 && single_trans_c == 1'b0) begin
arburst_int_r <= arburst_int_c;
num_of_bytes_r <= num_of_bytes_c;
if (arburst_int_c == 2'b10) begin
if(S_AXI_ARADDR == (wrap_boundary_c-num_of_bytes_c)) begin
araddr_reg <= wrap_base_addr_c;
end else begin
araddr_reg <= S_AXI_ARADDR + num_of_bytes_c;
end
end else if (arburst_int_c == 2'b01 || arburst_int_c == 2'b11) begin
araddr_reg <= S_AXI_ARADDR + num_of_bytes_c;
end
end else if (addr_en_c == 1'b1) begin
araddr_reg <= S_AXI_ARADDR;
num_of_bytes_r <= num_of_bytes_c;
arburst_int_r <= arburst_int_c;
end else if (incr_addr_c == 1'b1) begin
if (arburst_int_r == 2'b10) begin
if(araddr_reg == (wrap_boundary_r-num_of_bytes_r)) begin
araddr_reg <= wrap_base_addr_r;
end else begin
araddr_reg <= araddr_reg + num_of_bytes_r;
end
end else if (arburst_int_r == 2'b01 || arburst_int_r == 2'b11) begin
araddr_reg <= araddr_reg + num_of_bytes_r;
end
end
end
end
assign araddr_out = ((C_AXI_TYPE == 1 && C_AXI_SLAVE_TYPE == 0)?araddr_reg[C_AXI_ARADDR_WIDTH-1:C_RANGE]:araddr_reg);
////-----------------------------------------------------------------------
//// Counter to generate r_last_int_c from registered ARLEN - AXI FULL FSM
////-----------------------------------------------------------------------
always @(posedge S_ACLK or S_ARESETN) begin
if (S_ARESETN == 1'b1) begin
arlen_cntr <= 8'h01;
arlen_int_r <= 0;
end else begin
if (addr_en_c == 1'b1 && dec_alen_c == 1'b1 && single_trans_c == 1'b0) begin
arlen_int_r <= (C_AXI_TYPE == 0?0:S_AXI_ARLEN) ;
arlen_cntr <= S_AXI_ARLEN - 1'b1;
end else if (addr_en_c == 1'b1) begin
arlen_int_r <= (C_AXI_TYPE == 0?0:S_AXI_ARLEN) ;
arlen_cntr <= (C_AXI_TYPE == 0?0:S_AXI_ARLEN) ;
end else if (dec_alen_c == 1'b1) begin
arlen_cntr <= arlen_cntr - 1'b1 ;
end
else begin
arlen_cntr <= arlen_cntr;
end
end
end
assign r_last_int_c = (arlen_cntr == 0 && S_AXI_RREADY == 1'b1)?1'b1:1'b0;
////------------------------------------------------------------------------
//// AXI FULL FSM
//// Mux Selection of ARADDR
//// ARADDR is driven out from the read fsm based on the mux_sel_c
//// Based on mux_sel either ARADDR is given out or the latched ARADDR is
//// given out to BRAM
////------------------------------------------------------------------------
assign S_AXI_ARADDR_OUT = (mux_sel_c == 1'b0)?((C_AXI_TYPE == 1 && C_AXI_SLAVE_TYPE == 0)?S_AXI_ARADDR[C_AXI_ARADDR_WIDTH-1:C_RANGE]:S_AXI_ARADDR):araddr_out;
////------------------------------------------------------------------------
//// Assign output signals - AXI FULL FSM
////------------------------------------------------------------------------
assign S_AXI_RD_EN = rd_en_c;
generate if (C_HAS_AXI_ID == 1) begin:gaxi_bvalid_id_r
always @(posedge S_ACLK or S_ARESETN) begin
if (S_ARESETN == 1'b1) begin
S_AXI_RID <= 0;
ar_id_r <= 0;
end else begin
if (addr_en_c == 1'b1 && rd_en_c == 1'b1) begin
S_AXI_RID <= S_AXI_ARID;
ar_id_r <= S_AXI_ARID;
end else if (addr_en_c == 1'b1 && rd_en_c == 1'b0) begin
ar_id_r <= S_AXI_ARID;
end else if (rd_en_c == 1'b1) begin
S_AXI_RID <= ar_id_r;
end
end
end
end
endgenerate
endmodule
|
module blk_mem_axi_regs_fwd_v8_2
#(parameter C_DATA_WIDTH = 8
)(
input ACLK,
input ARESET,
input S_VALID,
output S_READY,
input [C_DATA_WIDTH-1:0] S_PAYLOAD_DATA,
output M_VALID,
input M_READY,
output reg [C_DATA_WIDTH-1:0] M_PAYLOAD_DATA
);
reg [C_DATA_WIDTH-1:0] STORAGE_DATA;
wire S_READY_I;
reg M_VALID_I;
reg [1:0] ARESET_D;
//assign local signal to its output signal
assign S_READY = S_READY_I;
assign M_VALID = M_VALID_I;
always @(posedge ACLK) begin
ARESET_D <= {ARESET_D[0], ARESET};
end
//Save payload data whenever we have a transaction on the slave side
always @(posedge ACLK or ARESET) begin
if (ARESET == 1'b1) begin
STORAGE_DATA <= 0;
end else begin
if(S_VALID == 1'b1 && S_READY_I == 1'b1 ) begin
STORAGE_DATA <= S_PAYLOAD_DATA;
end
end
end
always @(posedge ACLK) begin
M_PAYLOAD_DATA = STORAGE_DATA;
end
//M_Valid set to high when we have a completed transfer on slave side
//Is removed on a M_READY except if we have a new transfer on the slave side
always @(posedge ACLK or ARESET_D) begin
if (ARESET_D != 2'b00) begin
M_VALID_I <= 1'b0;
end else begin
if (S_VALID == 1'b1) begin
//Always set M_VALID_I when slave side is valid
M_VALID_I <= 1'b1;
end else if (M_READY == 1'b1 ) begin
//Clear (or keep) when no slave side is valid but master side is ready
M_VALID_I <= 1'b0;
end
end
end
//Slave Ready is either when Master side drives M_READY or we have space in our storage data
assign S_READY_I = (M_READY || (!M_VALID_I)) && !(|(ARESET_D));
endmodule
|
module BLK_MEM_GEN_v8_2_output_stage
#(parameter C_FAMILY = "virtex7",
parameter C_XDEVICEFAMILY = "virtex7",
parameter C_RST_TYPE = "SYNC",
parameter C_HAS_RST = 0,
parameter C_RSTRAM = 0,
parameter C_RST_PRIORITY = "CE",
parameter C_INIT_VAL = "0",
parameter C_HAS_EN = 0,
parameter C_HAS_REGCE = 0,
parameter C_DATA_WIDTH = 32,
parameter C_ADDRB_WIDTH = 10,
parameter C_HAS_MEM_OUTPUT_REGS = 0,
parameter C_USE_SOFTECC = 0,
parameter C_USE_ECC = 0,
parameter NUM_STAGES = 1,
parameter C_EN_ECC_PIPE = 0,
parameter FLOP_DELAY = 100
)
(
input CLK,
input RST,
input EN,
input REGCE,
input [C_DATA_WIDTH-1:0] DIN_I,
output reg [C_DATA_WIDTH-1:0] DOUT,
input SBITERR_IN_I,
input DBITERR_IN_I,
output reg SBITERR,
output reg DBITERR,
input [C_ADDRB_WIDTH-1:0] RDADDRECC_IN_I,
input ECCPIPECE,
output reg [C_ADDRB_WIDTH-1:0] RDADDRECC
);
//******************************
// Port and Generic Definitions
//******************************
//////////////////////////////////////////////////////////////////////////
// Generic Definitions
//////////////////////////////////////////////////////////////////////////
// C_FAMILY,C_XDEVICEFAMILY: Designates architecture targeted. The following
// options are available - "spartan3", "spartan6",
// "virtex4", "virtex5", "virtex6" and "virtex6l".
// C_RST_TYPE : Type of reset - Synchronous or Asynchronous
// C_HAS_RST : Determines the presence of the RST port
// C_RSTRAM : Determines if special reset behavior is used
// C_RST_PRIORITY : Determines the priority between CE and SR
// C_INIT_VAL : Initialization value
// C_HAS_EN : Determines the presence of the EN port
// C_HAS_REGCE : Determines the presence of the REGCE port
// C_DATA_WIDTH : Memory write/read width
// C_ADDRB_WIDTH : Width of the ADDRB input port
// C_HAS_MEM_OUTPUT_REGS : Designates the use of a register at the output
// of the RAM primitive
// C_USE_SOFTECC : Determines if the Soft ECC feature is used or
// not. Only applicable Spartan-6
// C_USE_ECC : Determines if the ECC feature is used or
// not. Only applicable for V5 and V6
// NUM_STAGES : Determines the number of output stages
// FLOP_DELAY : Constant delay for register assignments
//////////////////////////////////////////////////////////////////////////
// Port Definitions
//////////////////////////////////////////////////////////////////////////
// CLK : Clock to synchronize all read and write operations
// RST : Reset input to reset memory outputs to a user-defined
// reset state
// EN : Enable all read and write operations
// REGCE : Register Clock Enable to control each pipeline output
// register stages
// DIN : Data input to the Output stage.
// DOUT : Final Data output
// SBITERR_IN : SBITERR input signal to the Output stage.
// SBITERR : Final SBITERR Output signal.
// DBITERR_IN : DBITERR input signal to the Output stage.
// DBITERR : Final DBITERR Output signal.
// RDADDRECC_IN : RDADDRECC input signal to the Output stage.
// RDADDRECC : Final RDADDRECC Output signal.
//////////////////////////////////////////////////////////////////////////
// Fix for CR-509792
localparam REG_STAGES = (NUM_STAGES < 2) ? 1 : NUM_STAGES-1;
// Declare the pipeline registers
// (includes mem output reg, mux pipeline stages, and mux output reg)
reg [C_DATA_WIDTH*REG_STAGES-1:0] out_regs;
reg [C_ADDRB_WIDTH*REG_STAGES-1:0] rdaddrecc_regs;
reg [REG_STAGES-1:0] sbiterr_regs;
reg [REG_STAGES-1:0] dbiterr_regs;
reg [C_DATA_WIDTH*8-1:0] init_str = C_INIT_VAL;
reg [C_DATA_WIDTH-1:0] init_val ;
//*********************************************
// Wire off optional inputs based on parameters
//*********************************************
wire en_i;
wire regce_i;
wire rst_i;
// Internal signals
reg [C_DATA_WIDTH-1:0] DIN;
reg [C_ADDRB_WIDTH-1:0] RDADDRECC_IN;
reg SBITERR_IN;
reg DBITERR_IN;
// Internal enable for output registers is tied to user EN or '1' depending
// on parameters
assign en_i = (C_HAS_EN==0 || EN);
// Internal register enable for output registers is tied to user REGCE, EN or
// '1' depending on parameters
// For V4 ECC, REGCE is always 1
// Virtex-4 ECC Not Yet Supported
assign regce_i = ((C_HAS_REGCE==1) && REGCE) ||
((C_HAS_REGCE==0) && (C_HAS_EN==0 || EN));
//Internal SRR is tied to user RST or '0' depending on parameters
assign rst_i = (C_HAS_RST==1) && RST;
//****************************************************
// Power on: load up the output registers and latches
//****************************************************
initial begin
if (!($sscanf(init_str, "%h", init_val))) begin
init_val = 0;
end
DOUT = init_val;
RDADDRECC = 0;
SBITERR = 1'b0;
DBITERR = 1'b0;
DIN = {(C_DATA_WIDTH){1'b0}};
RDADDRECC_IN = 0;
SBITERR_IN = 0;
DBITERR_IN = 0;
// This will be one wider than need, but 0 is an error
out_regs = {(REG_STAGES+1){init_val}};
rdaddrecc_regs = 0;
sbiterr_regs = {(REG_STAGES+1){1'b0}};
dbiterr_regs = {(REG_STAGES+1){1'b0}};
end
//***********************************************
// NUM_STAGES = 0 (No output registers. RAM only)
//***********************************************
generate if (NUM_STAGES == 0) begin : zero_stages
always @* begin
DOUT = DIN;
RDADDRECC = RDADDRECC_IN;
SBITERR = SBITERR_IN;
DBITERR = DBITERR_IN;
end
end
endgenerate
generate if (C_EN_ECC_PIPE == 0) begin : no_ecc_pipe_reg
always @* begin
DIN = DIN_I;
SBITERR_IN = SBITERR_IN_I;
DBITERR_IN = DBITERR_IN_I;
RDADDRECC_IN = RDADDRECC_IN_I;
end
end
endgenerate
generate if (C_EN_ECC_PIPE == 1) begin : with_ecc_pipe_reg
always @(posedge CLK) begin
if(ECCPIPECE == 1) begin
DIN <= #FLOP_DELAY DIN_I;
SBITERR_IN <= #FLOP_DELAY SBITERR_IN_I;
DBITERR_IN <= #FLOP_DELAY DBITERR_IN_I;
RDADDRECC_IN <= #FLOP_DELAY RDADDRECC_IN_I;
end
end
end
endgenerate
//***********************************************
// NUM_STAGES = 1
// (Mem Output Reg only or Mux Output Reg only)
//***********************************************
// Possible valid combinations:
// Note: C_HAS_MUX_OUTPUT_REGS_*=0 when (C_RSTRAM_*=1)
// +-----------------------------------------+
// | C_RSTRAM_* | Reset Behavior |
// +----------------+------------------------+
// | 0 | Normal Behavior |
// +----------------+------------------------+
// | 1 | Special Behavior |
// +----------------+------------------------+
//
// Normal = REGCE gates reset, as in the case of all families except S3ADSP.
// Special = EN gates reset, as in the case of S3ADSP.
generate if (NUM_STAGES == 1 &&
(C_RSTRAM == 0 || (C_RSTRAM == 1 && (C_XDEVICEFAMILY != "spartan3adsp" && C_XDEVICEFAMILY != "aspartan3adsp" )) ||
C_HAS_MEM_OUTPUT_REGS == 0 || C_HAS_RST == 0))
begin : one_stages_norm
always @(posedge CLK) begin
if (C_RST_PRIORITY == "CE") begin //REGCE has priority
if (regce_i && rst_i) begin
DOUT <= #FLOP_DELAY init_val;
RDADDRECC <= #FLOP_DELAY 0;
SBITERR <= #FLOP_DELAY 1'b0;
DBITERR <= #FLOP_DELAY 1'b0;
end else if (regce_i) begin
DOUT <= #FLOP_DELAY DIN;
RDADDRECC <= #FLOP_DELAY RDADDRECC_IN;
SBITERR <= #FLOP_DELAY SBITERR_IN;
DBITERR <= #FLOP_DELAY DBITERR_IN;
end //Output signal assignments
end else begin //RST has priority
if (rst_i) begin
DOUT <= #FLOP_DELAY init_val;
RDADDRECC <= #FLOP_DELAY RDADDRECC_IN;
SBITERR <= #FLOP_DELAY 1'b0;
DBITERR <= #FLOP_DELAY 1'b0;
end else if (regce_i) begin
DOUT <= #FLOP_DELAY DIN;
RDADDRECC <= #FLOP_DELAY RDADDRECC_IN;
SBITERR <= #FLOP_DELAY SBITERR_IN;
DBITERR <= #FLOP_DELAY DBITERR_IN;
end //Output signal assignments
end //end Priority conditions
end //end RST Type conditions
end //end one_stages_norm generate statement
endgenerate
// Special Reset Behavior for S3ADSP
generate if (NUM_STAGES == 1 && C_RSTRAM == 1 && (C_XDEVICEFAMILY =="spartan3adsp" || C_XDEVICEFAMILY =="aspartan3adsp"))
begin : one_stage_splbhv
always @(posedge CLK) begin
if (en_i && rst_i) begin
DOUT <= #FLOP_DELAY init_val;
end else if (regce_i && !rst_i) begin
DOUT <= #FLOP_DELAY DIN;
end //Output signal assignments
end //end CLK
end //end one_stage_splbhv generate statement
endgenerate
//************************************************************
// NUM_STAGES > 1
// Mem Output Reg + Mux Output Reg
// or
// Mem Output Reg + Mux Pipeline Stages (>0) + Mux Output Reg
// or
// Mux Pipeline Stages (>0) + Mux Output Reg
//*************************************************************
generate if (NUM_STAGES > 1) begin : multi_stage
//Asynchronous Reset
always @(posedge CLK) begin
if (C_RST_PRIORITY == "CE") begin //REGCE has priority
if (regce_i && rst_i) begin
DOUT <= #FLOP_DELAY init_val;
RDADDRECC <= #FLOP_DELAY 0;
SBITERR <= #FLOP_DELAY 1'b0;
DBITERR <= #FLOP_DELAY 1'b0;
end else if (regce_i) begin
DOUT <= #FLOP_DELAY
out_regs[C_DATA_WIDTH*(NUM_STAGES-2)+:C_DATA_WIDTH];
RDADDRECC <= #FLOP_DELAY rdaddrecc_regs[C_ADDRB_WIDTH*(NUM_STAGES-2)+:C_ADDRB_WIDTH];
SBITERR <= #FLOP_DELAY sbiterr_regs[NUM_STAGES-2];
DBITERR <= #FLOP_DELAY dbiterr_regs[NUM_STAGES-2];
end //Output signal assignments
end else begin //RST has priority
if (rst_i) begin
DOUT <= #FLOP_DELAY init_val;
RDADDRECC <= #FLOP_DELAY 0;
SBITERR <= #FLOP_DELAY 1'b0;
DBITERR <= #FLOP_DELAY 1'b0;
end else if (regce_i) begin
DOUT <= #FLOP_DELAY
out_regs[C_DATA_WIDTH*(NUM_STAGES-2)+:C_DATA_WIDTH];
RDADDRECC <= #FLOP_DELAY rdaddrecc_regs[C_ADDRB_WIDTH*(NUM_STAGES-2)+:C_ADDRB_WIDTH];
SBITERR <= #FLOP_DELAY sbiterr_regs[NUM_STAGES-2];
DBITERR <= #FLOP_DELAY dbiterr_regs[NUM_STAGES-2];
end //Output signal assignments
end //end Priority conditions
// Shift the data through the output stages
if (en_i) begin
out_regs <= #FLOP_DELAY (out_regs << C_DATA_WIDTH) | DIN;
rdaddrecc_regs <= #FLOP_DELAY (rdaddrecc_regs << C_ADDRB_WIDTH) | RDADDRECC_IN;
sbiterr_regs <= #FLOP_DELAY (sbiterr_regs << 1) | SBITERR_IN;
dbiterr_regs <= #FLOP_DELAY (dbiterr_regs << 1) | DBITERR_IN;
end
end //end CLK
end //end multi_stage generate statement
endgenerate
endmodule
|
module BLK_MEM_GEN_v8_2_softecc_output_reg_stage
#(parameter C_DATA_WIDTH = 32,
parameter C_ADDRB_WIDTH = 10,
parameter C_HAS_SOFTECC_OUTPUT_REGS_B= 0,
parameter C_USE_SOFTECC = 0,
parameter FLOP_DELAY = 100
)
(
input CLK,
input [C_DATA_WIDTH-1:0] DIN,
output reg [C_DATA_WIDTH-1:0] DOUT,
input SBITERR_IN,
input DBITERR_IN,
output reg SBITERR,
output reg DBITERR,
input [C_ADDRB_WIDTH-1:0] RDADDRECC_IN,
output reg [C_ADDRB_WIDTH-1:0] RDADDRECC
);
//******************************
// Port and Generic Definitions
//******************************
//////////////////////////////////////////////////////////////////////////
// Generic Definitions
//////////////////////////////////////////////////////////////////////////
// C_DATA_WIDTH : Memory write/read width
// C_ADDRB_WIDTH : Width of the ADDRB input port
// C_HAS_SOFTECC_OUTPUT_REGS_B : Designates the use of a register at the output
// of the RAM primitive
// C_USE_SOFTECC : Determines if the Soft ECC feature is used or
// not. Only applicable Spartan-6
// FLOP_DELAY : Constant delay for register assignments
//////////////////////////////////////////////////////////////////////////
// Port Definitions
//////////////////////////////////////////////////////////////////////////
// CLK : Clock to synchronize all read and write operations
// DIN : Data input to the Output stage.
// DOUT : Final Data output
// SBITERR_IN : SBITERR input signal to the Output stage.
// SBITERR : Final SBITERR Output signal.
// DBITERR_IN : DBITERR input signal to the Output stage.
// DBITERR : Final DBITERR Output signal.
// RDADDRECC_IN : RDADDRECC input signal to the Output stage.
// RDADDRECC : Final RDADDRECC Output signal.
//////////////////////////////////////////////////////////////////////////
reg [C_DATA_WIDTH-1:0] dout_i = 0;
reg sbiterr_i = 0;
reg dbiterr_i = 0;
reg [C_ADDRB_WIDTH-1:0] rdaddrecc_i = 0;
//***********************************************
// NO OUTPUT REGISTERS.
//***********************************************
generate if (C_HAS_SOFTECC_OUTPUT_REGS_B==0) begin : no_output_stage
always @* begin
DOUT = DIN;
RDADDRECC = RDADDRECC_IN;
SBITERR = SBITERR_IN;
DBITERR = DBITERR_IN;
end
end
endgenerate
//***********************************************
// WITH OUTPUT REGISTERS.
//***********************************************
generate if (C_HAS_SOFTECC_OUTPUT_REGS_B==1) begin : has_output_stage
always @(posedge CLK) begin
dout_i <= #FLOP_DELAY DIN;
rdaddrecc_i <= #FLOP_DELAY RDADDRECC_IN;
sbiterr_i <= #FLOP_DELAY SBITERR_IN;
dbiterr_i <= #FLOP_DELAY DBITERR_IN;
end
always @* begin
DOUT = dout_i;
RDADDRECC = rdaddrecc_i;
SBITERR = sbiterr_i;
DBITERR = dbiterr_i;
end //end always
end //end in_or_out_stage generate statement
endgenerate
endmodule
|
module
//***************************************************************
// Port A
assign rsta_outp_stage = RSTA & (~SLEEP);
BLK_MEM_GEN_v8_2_output_stage
#(.C_FAMILY (C_FAMILY),
.C_XDEVICEFAMILY (C_XDEVICEFAMILY),
.C_RST_TYPE ("SYNC"),
.C_HAS_RST (C_HAS_RSTA),
.C_RSTRAM (C_RSTRAM_A),
.C_RST_PRIORITY (C_RST_PRIORITY_A),
.C_INIT_VAL (C_INITA_VAL),
.C_HAS_EN (C_HAS_ENA),
.C_HAS_REGCE (C_HAS_REGCEA),
.C_DATA_WIDTH (C_READ_WIDTH_A),
.C_ADDRB_WIDTH (C_ADDRB_WIDTH),
.C_HAS_MEM_OUTPUT_REGS (C_HAS_MEM_OUTPUT_REGS_A),
.C_USE_SOFTECC (C_USE_SOFTECC),
.C_USE_ECC (C_USE_ECC),
.NUM_STAGES (NUM_OUTPUT_STAGES_A),
.C_EN_ECC_PIPE (0),
.FLOP_DELAY (FLOP_DELAY))
reg_a
(.CLK (CLKA),
.RST (rsta_outp_stage),//(RSTA),
.EN (ENA),
.REGCE (REGCEA),
.DIN_I (memory_out_a),
.DOUT (DOUTA),
.SBITERR_IN_I (1'b0),
.DBITERR_IN_I (1'b0),
.SBITERR (),
.DBITERR (),
.RDADDRECC_IN_I ({C_ADDRB_WIDTH{1'b0}}),
.ECCPIPECE (1'b0),
.RDADDRECC ()
);
assign rstb_outp_stage = RSTB & (~SLEEP);
// Port B
BLK_MEM_GEN_v8_2_output_stage
#(.C_FAMILY (C_FAMILY),
.C_XDEVICEFAMILY (C_XDEVICEFAMILY),
.C_RST_TYPE ("SYNC"),
.C_HAS_RST (C_HAS_RSTB),
.C_RSTRAM (C_RSTRAM_B),
.C_RST_PRIORITY (C_RST_PRIORITY_B),
.C_INIT_VAL (C_INITB_VAL),
.C_HAS_EN (C_HAS_ENB),
.C_HAS_REGCE (C_HAS_REGCEB),
.C_DATA_WIDTH (C_READ_WIDTH_B),
.C_ADDRB_WIDTH (C_ADDRB_WIDTH),
.C_HAS_MEM_OUTPUT_REGS (C_HAS_MEM_OUTPUT_REGS_B),
.C_USE_SOFTECC (C_USE_SOFTECC),
.C_USE_ECC (C_USE_ECC),
.NUM_STAGES (NUM_OUTPUT_STAGES_B),
.C_EN_ECC_PIPE (C_EN_ECC_PIPE),
.FLOP_DELAY (FLOP_DELAY))
reg_b
(.CLK (CLKB),
.RST (rstb_outp_stage),//(RSTB),
.EN (ENB),
.REGCE (REGCEB),
.DIN_I (memory_out_b),
.DOUT (dout_i),
.SBITERR_IN_I (sbiterr_in),
.DBITERR_IN_I (dbiterr_in),
.SBITERR (sbiterr_i),
.DBITERR (dbiterr_i),
.RDADDRECC_IN_I (rdaddrecc_in),
.ECCPIPECE (ECCPIPECE),
.RDADDRECC (rdaddrecc_i)
);
//***************************************************************
// Instantiate the Input and Output register stages
//***************************************************************
BLK_MEM_GEN_v8_2_softecc_output_reg_stage
#(.C_DATA_WIDTH (C_READ_WIDTH_B),
.C_ADDRB_WIDTH (C_ADDRB_WIDTH),
.C_HAS_SOFTECC_OUTPUT_REGS_B (C_HAS_SOFTECC_OUTPUT_REGS_B),
.C_USE_SOFTECC (C_USE_SOFTECC),
.FLOP_DELAY (FLOP_DELAY))
has_softecc_output_reg_stage
(.CLK (CLKB),
.DIN (dout_i),
.DOUT (DOUTB),
.SBITERR_IN (sbiterr_i),
.DBITERR_IN (dbiterr_i),
.SBITERR (sbiterr_sdp),
.DBITERR (dbiterr_sdp),
.RDADDRECC_IN (rdaddrecc_i),
.RDADDRECC (rdaddrecc_sdp)
);
//****************************************************
// Synchronous collision checks
//****************************************************
// CR 780544 : To make verilog model's collison warnings in consistant with
// vhdl model, the non-blocking assignments are replaced with blocking
// assignments.
generate if (!C_DISABLE_WARN_BHV_COLL && C_COMMON_CLK) begin : sync_coll
always @(posedge CLKA) begin
// Possible collision if both are enabled and the addresses match
if (ena_i && enb_i) begin
if (wea_i || web_i) begin
is_collision = collision_check(ADDRA, wea_i, ADDRB, web_i);
end else begin
is_collision = 0;
end
end else begin
is_collision = 0;
end
// If the write port is in READ_FIRST mode, there is no collision
if (C_WRITE_MODE_A=="READ_FIRST" && wea_i && !web_i) begin
is_collision = 0;
end
if (C_WRITE_MODE_B=="READ_FIRST" && web_i && !wea_i) begin
is_collision = 0;
end
// Only flag if one of the accesses is a write
if (is_collision && (wea_i || web_i)) begin
$fwrite(COLLFILE, "%0s collision detected at time: %0d, ",
C_CORENAME, $time);
$fwrite(COLLFILE, "A %0s address: %0h, B %0s address: %0h\n",
wea_i ? "write" : "read", ADDRA,
web_i ? "write" : "read", ADDRB);
end
end
//****************************************************
// Asynchronous collision checks
//****************************************************
end else if (!C_DISABLE_WARN_BHV_COLL && !C_COMMON_CLK) begin : async_coll
// Delay A and B addresses in order to mimic setup/hold times
wire [C_ADDRA_WIDTH-1:0] #COLL_DELAY addra_delay = ADDRA;
wire [0:0] #COLL_DELAY wea_delay = wea_i;
wire #COLL_DELAY ena_delay = ena_i;
wire [C_ADDRB_WIDTH-1:0] #COLL_DELAY addrb_delay = ADDRB;
wire [0:0] #COLL_DELAY web_delay = web_i;
wire #COLL_DELAY enb_delay = enb_i;
// Do the checks w/rt A
always @(posedge CLKA) begin
// Possible collision if both are enabled and the addresses match
if (ena_i && enb_i) begin
if (wea_i || web_i) begin
is_collision_a = collision_check(ADDRA, wea_i, ADDRB, web_i);
end else begin
is_collision_a = 0;
end
end else begin
is_collision_a = 0;
end
if (ena_i && enb_delay) begin
if(wea_i || web_delay) begin
is_collision_delay_a = collision_check(ADDRA, wea_i, addrb_delay,
web_delay);
end else begin
is_collision_delay_a = 0;
end
end else begin
is_collision_delay_a = 0;
end
// Only flag if B access is a write
if (is_collision_a && web_i) begin
$fwrite(COLLFILE, "%0s collision detected at time: %0d, ",
C_CORENAME, $time);
$fwrite(COLLFILE, "A %0s address: %0h, B write address: %0h\n",
wea_i ? "write" : "read", ADDRA, ADDRB);
end else if (is_collision_delay_a && web_delay) begin
$fwrite(COLLFILE, "%0s collision detected at time: %0d, ",
C_CORENAME, $time);
$fwrite(COLLFILE, "A %0s address: %0h, B write address: %0h\n",
wea_i ? "write" : "read", ADDRA, addrb_delay);
end
end
// Do the checks w/rt B
always @(posedge CLKB) begin
// Possible collision if both are enabled and the addresses match
if (ena_i && enb_i) begin
if (wea_i || web_i) begin
is_collision_b = collision_check(ADDRA, wea_i, ADDRB, web_i);
end else begin
is_collision_b = 0;
end
end else begin
is_collision_b = 0;
end
if (ena_delay && enb_i) begin
if (wea_delay || web_i) begin
is_collision_delay_b = collision_check(addra_delay, wea_delay, ADDRB,
web_i);
end else begin
is_collision_delay_b = 0;
end
end else begin
is_collision_delay_b = 0;
end
// Only flag if A access is a write
if (is_collision_b && wea_i) begin
$fwrite(COLLFILE, "%0s collision detected at time: %0d, ",
C_CORENAME, $time);
$fwrite(COLLFILE, "A write address: %0h, B %s address: %0h\n",
ADDRA, web_i ? "write" : "read", ADDRB);
end else if (is_collision_delay_b && wea_delay) begin
$fwrite(COLLFILE, "%0s collision detected at time: %0d, ",
C_CORENAME, $time);
$fwrite(COLLFILE, "A write address: %0h, B %s address: %0h\n",
addra_delay, web_i ? "write" : "read", ADDRB);
end
end
end
endgenerate
endmodule
|
module blk_mem_gen_v8_2
#(parameter C_CORENAME = "blk_mem_gen_v8_2",
parameter C_FAMILY = "virtex7",
parameter C_XDEVICEFAMILY = "virtex7",
parameter C_ELABORATION_DIR = "",
parameter C_INTERFACE_TYPE = 0,
parameter C_USE_BRAM_BLOCK = 0,
parameter C_CTRL_ECC_ALGO = "NONE",
parameter C_ENABLE_32BIT_ADDRESS = 0,
parameter C_AXI_TYPE = 0,
parameter C_AXI_SLAVE_TYPE = 0,
parameter C_HAS_AXI_ID = 0,
parameter C_AXI_ID_WIDTH = 4,
parameter C_MEM_TYPE = 2,
parameter C_BYTE_SIZE = 9,
parameter C_ALGORITHM = 1,
parameter C_PRIM_TYPE = 3,
parameter C_LOAD_INIT_FILE = 0,
parameter C_INIT_FILE_NAME = "",
parameter C_INIT_FILE = "",
parameter C_USE_DEFAULT_DATA = 0,
parameter C_DEFAULT_DATA = "0",
//parameter C_RST_TYPE = "SYNC",
parameter C_HAS_RSTA = 0,
parameter C_RST_PRIORITY_A = "CE",
parameter C_RSTRAM_A = 0,
parameter C_INITA_VAL = "0",
parameter C_HAS_ENA = 1,
parameter C_HAS_REGCEA = 0,
parameter C_USE_BYTE_WEA = 0,
parameter C_WEA_WIDTH = 1,
parameter C_WRITE_MODE_A = "WRITE_FIRST",
parameter C_WRITE_WIDTH_A = 32,
parameter C_READ_WIDTH_A = 32,
parameter C_WRITE_DEPTH_A = 64,
parameter C_READ_DEPTH_A = 64,
parameter C_ADDRA_WIDTH = 5,
parameter C_HAS_RSTB = 0,
parameter C_RST_PRIORITY_B = "CE",
parameter C_RSTRAM_B = 0,
parameter C_INITB_VAL = "",
parameter C_HAS_ENB = 1,
parameter C_HAS_REGCEB = 0,
parameter C_USE_BYTE_WEB = 0,
parameter C_WEB_WIDTH = 1,
parameter C_WRITE_MODE_B = "WRITE_FIRST",
parameter C_WRITE_WIDTH_B = 32,
parameter C_READ_WIDTH_B = 32,
parameter C_WRITE_DEPTH_B = 64,
parameter C_READ_DEPTH_B = 64,
parameter C_ADDRB_WIDTH = 5,
parameter C_HAS_MEM_OUTPUT_REGS_A = 0,
parameter C_HAS_MEM_OUTPUT_REGS_B = 0,
parameter C_HAS_MUX_OUTPUT_REGS_A = 0,
parameter C_HAS_MUX_OUTPUT_REGS_B = 0,
parameter C_HAS_SOFTECC_INPUT_REGS_A = 0,
parameter C_HAS_SOFTECC_OUTPUT_REGS_B= 0,
parameter C_MUX_PIPELINE_STAGES = 0,
parameter C_USE_SOFTECC = 0,
parameter C_USE_ECC = 0,
parameter C_EN_ECC_PIPE = 0,
parameter C_HAS_INJECTERR = 0,
parameter C_SIM_COLLISION_CHECK = "NONE",
parameter C_COMMON_CLK = 1,
parameter C_DISABLE_WARN_BHV_COLL = 0,
parameter C_EN_SLEEP_PIN = 0,
parameter C_DISABLE_WARN_BHV_RANGE = 0,
parameter C_COUNT_36K_BRAM = "",
parameter C_COUNT_18K_BRAM = "",
parameter C_EST_POWER_SUMMARY = ""
)
(input clka,
input rsta,
input ena,
input regcea,
input [C_WEA_WIDTH-1:0] wea,
input [C_ADDRA_WIDTH-1:0] addra,
input [C_WRITE_WIDTH_A-1:0] dina,
output [C_READ_WIDTH_A-1:0] douta,
input clkb,
input rstb,
input enb,
input regceb,
input [C_WEB_WIDTH-1:0] web,
input [C_ADDRB_WIDTH-1:0] addrb,
input [C_WRITE_WIDTH_B-1:0] dinb,
output [C_READ_WIDTH_B-1:0] doutb,
input injectsbiterr,
input injectdbiterr,
output sbiterr,
output dbiterr,
output [C_ADDRB_WIDTH-1:0] rdaddrecc,
input eccpipece,
input sleep,
//AXI BMG Input and Output Port Declarations
//AXI Global Signals
input s_aclk,
input s_aresetn,
//AXI Full/lite slave write (write side)
input [C_AXI_ID_WIDTH-1:0] 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 [C_WRITE_WIDTH_A-1:0] s_axi_wdata,
input [C_WEA_WIDTH-1:0] s_axi_wstrb,
input s_axi_wlast,
input s_axi_wvalid,
output s_axi_wready,
output [C_AXI_ID_WIDTH-1:0] s_axi_bid,
output [1:0] s_axi_bresp,
output s_axi_bvalid,
input s_axi_bready,
//AXI Full/lite slave read (write side)
input [C_AXI_ID_WIDTH-1:0] 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 [C_AXI_ID_WIDTH-1:0] s_axi_rid,
output [C_WRITE_WIDTH_B-1:0] s_axi_rdata,
output [1:0] s_axi_rresp,
output s_axi_rlast,
output s_axi_rvalid,
input s_axi_rready,
//AXI Full/lite sideband signals
input s_axi_injectsbiterr,
input s_axi_injectdbiterr,
output s_axi_sbiterr,
output s_axi_dbiterr,
output [C_ADDRB_WIDTH-1:0] s_axi_rdaddrecc
);
//******************************
// Port and Generic Definitions
//******************************
//////////////////////////////////////////////////////////////////////////
// Generic Definitions
//////////////////////////////////////////////////////////////////////////
// C_CORENAME : Instance name of the Block Memory Generator core
// C_FAMILY,C_XDEVICEFAMILY: Designates architecture targeted. The following
// options are available - "spartan3", "spartan6",
// "virtex4", "virtex5", "virtex6" and "virtex6l".
// C_MEM_TYPE : Designates memory type.
// It can be
// 0 - Single Port Memory
// 1 - Simple Dual Port Memory
// 2 - True Dual Port Memory
// 3 - Single Port Read Only Memory
// 4 - Dual Port Read Only Memory
// C_BYTE_SIZE : Size of a byte (8 or 9 bits)
// C_ALGORITHM : Designates the algorithm method used
// for constructing the memory.
// It can be Fixed_Primitives, Minimum_Area or
// Low_Power
// C_PRIM_TYPE : Designates the user selected primitive used to
// construct the memory.
//
// C_LOAD_INIT_FILE : Designates the use of an initialization file to
// initialize memory contents.
// C_INIT_FILE_NAME : Memory initialization file name.
// C_USE_DEFAULT_DATA : Designates whether to fill remaining
// initialization space with default data
// C_DEFAULT_DATA : Default value of all memory locations
// not initialized by the memory
// initialization file.
// C_RST_TYPE : Type of reset - Synchronous or Asynchronous
// C_HAS_RSTA : Determines the presence of the RSTA port
// C_RST_PRIORITY_A : Determines the priority between CE and SR for
// Port A.
// C_RSTRAM_A : Determines if special reset behavior is used for
// Port A
// C_INITA_VAL : The initialization value for Port A
// C_HAS_ENA : Determines the presence of the ENA port
// C_HAS_REGCEA : Determines the presence of the REGCEA port
// C_USE_BYTE_WEA : Determines if the Byte Write is used or not.
// C_WEA_WIDTH : The width of the WEA port
// C_WRITE_MODE_A : Configurable write mode for Port A. It can be
// WRITE_FIRST, READ_FIRST or NO_CHANGE.
// C_WRITE_WIDTH_A : Memory write width for Port A.
// C_READ_WIDTH_A : Memory read width for Port A.
// C_WRITE_DEPTH_A : Memory write depth for Port A.
// C_READ_DEPTH_A : Memory read depth for Port A.
// C_ADDRA_WIDTH : Width of the ADDRA input port
// C_HAS_RSTB : Determines the presence of the RSTB port
// C_RST_PRIORITY_B : Determines the priority between CE and SR for
// Port B.
// C_RSTRAM_B : Determines if special reset behavior is used for
// Port B
// C_INITB_VAL : The initialization value for Port B
// C_HAS_ENB : Determines the presence of the ENB port
// C_HAS_REGCEB : Determines the presence of the REGCEB port
// C_USE_BYTE_WEB : Determines if the Byte Write is used or not.
// C_WEB_WIDTH : The width of the WEB port
// C_WRITE_MODE_B : Configurable write mode for Port B. It can be
// WRITE_FIRST, READ_FIRST or NO_CHANGE.
// C_WRITE_WIDTH_B : Memory write width for Port B.
// C_READ_WIDTH_B : Memory read width for Port B.
// C_WRITE_DEPTH_B : Memory write depth for Port B.
// C_READ_DEPTH_B : Memory read depth for Port B.
// C_ADDRB_WIDTH : Width of the ADDRB input port
// C_HAS_MEM_OUTPUT_REGS_A : Designates the use of a register at the output
// of the RAM primitive for Port A.
// C_HAS_MEM_OUTPUT_REGS_B : Designates the use of a register at the output
// of the RAM primitive for Port B.
// C_HAS_MUX_OUTPUT_REGS_A : Designates the use of a register at the output
// of the MUX for Port A.
// C_HAS_MUX_OUTPUT_REGS_B : Designates the use of a register at the output
// of the MUX for Port B.
// C_HAS_SOFTECC_INPUT_REGS_A :
// C_HAS_SOFTECC_OUTPUT_REGS_B :
// C_MUX_PIPELINE_STAGES : Designates the number of pipeline stages in
// between the muxes.
// C_USE_SOFTECC : Determines if the Soft ECC feature is used or
// not. Only applicable Spartan-6
// C_USE_ECC : Determines if the ECC feature is used or
// not. Only applicable for V5 and V6
// C_HAS_INJECTERR : Determines if the error injection pins
// are present or not. If the ECC feature
// is not used, this value is defaulted to
// 0, else the following are the allowed
// values:
// 0 : No INJECTSBITERR or INJECTDBITERR pins
// 1 : Only INJECTSBITERR pin exists
// 2 : Only INJECTDBITERR pin exists
// 3 : Both INJECTSBITERR and INJECTDBITERR pins exist
// C_SIM_COLLISION_CHECK : Controls the disabling of Unisim model collision
// warnings. It can be "ALL", "NONE",
// "Warnings_Only" or "Generate_X_Only".
// C_COMMON_CLK : Determins if the core has a single CLK input.
// C_DISABLE_WARN_BHV_COLL : Controls the Behavioral Model Collision warnings
// C_DISABLE_WARN_BHV_RANGE: Controls the Behavioral Model Out of Range
// warnings
//////////////////////////////////////////////////////////////////////////
// Port Definitions
//////////////////////////////////////////////////////////////////////////
// CLKA : Clock to synchronize all read and write operations of Port A.
// RSTA : Reset input to reset memory outputs to a user-defined
// reset state for Port A.
// ENA : Enable all read and write operations of Port A.
// REGCEA : Register Clock Enable to control each pipeline output
// register stages for Port A.
// WEA : Write Enable to enable all write operations of Port A.
// ADDRA : Address of Port A.
// DINA : Data input of Port A.
// DOUTA : Data output of Port A.
// CLKB : Clock to synchronize all read and write operations of Port B.
// RSTB : Reset input to reset memory outputs to a user-defined
// reset state for Port B.
// ENB : Enable all read and write operations of Port B.
// REGCEB : Register Clock Enable to control each pipeline output
// register stages for Port B.
// WEB : Write Enable to enable all write operations of Port B.
// ADDRB : Address of Port B.
// DINB : Data input of Port B.
// DOUTB : Data output of Port B.
// INJECTSBITERR : Single Bit ECC Error Injection Pin.
// INJECTDBITERR : Double Bit ECC Error Injection Pin.
// SBITERR : Output signal indicating that a Single Bit ECC Error has been
// detected and corrected.
// DBITERR : Output signal indicating that a Double Bit ECC Error has been
// detected.
// RDADDRECC : Read Address Output signal indicating address at which an
// ECC error has occurred.
//////////////////////////////////////////////////////////////////////////
wire SBITERR;
wire DBITERR;
wire S_AXI_AWREADY;
wire S_AXI_WREADY;
wire S_AXI_BVALID;
wire S_AXI_ARREADY;
wire S_AXI_RLAST;
wire S_AXI_RVALID;
wire S_AXI_SBITERR;
wire S_AXI_DBITERR;
wire [C_WEA_WIDTH-1:0] WEA = wea;
wire [C_ADDRA_WIDTH-1:0] ADDRA = addra;
wire [C_WRITE_WIDTH_A-1:0] DINA = dina;
wire [C_READ_WIDTH_A-1:0] DOUTA;
wire [C_WEB_WIDTH-1:0] WEB = web;
wire [C_ADDRB_WIDTH-1:0] ADDRB = addrb;
wire [C_WRITE_WIDTH_B-1:0] DINB = dinb;
wire [C_READ_WIDTH_B-1:0] DOUTB;
wire [C_ADDRB_WIDTH-1:0] RDADDRECC;
wire [C_AXI_ID_WIDTH-1:0] S_AXI_AWID = s_axi_awid;
wire [31:0] S_AXI_AWADDR = s_axi_awaddr;
wire [7:0] S_AXI_AWLEN = s_axi_awlen;
wire [2:0] S_AXI_AWSIZE = s_axi_awsize;
wire [1:0] S_AXI_AWBURST = s_axi_awburst;
wire [C_WRITE_WIDTH_A-1:0] S_AXI_WDATA = s_axi_wdata;
wire [C_WEA_WIDTH-1:0] S_AXI_WSTRB = s_axi_wstrb;
wire [C_AXI_ID_WIDTH-1:0] S_AXI_BID;
wire [1:0] S_AXI_BRESP;
wire [C_AXI_ID_WIDTH-1:0] S_AXI_ARID = s_axi_arid;
wire [31:0] S_AXI_ARADDR = s_axi_araddr;
wire [7:0] S_AXI_ARLEN = s_axi_arlen;
wire [2:0] S_AXI_ARSIZE = s_axi_arsize;
wire [1:0] S_AXI_ARBURST = s_axi_arburst;
wire [C_AXI_ID_WIDTH-1:0] S_AXI_RID;
wire [C_WRITE_WIDTH_B-1:0] S_AXI_RDATA;
wire [1:0] S_AXI_RRESP;
wire [C_ADDRB_WIDTH-1:0] S_AXI_RDADDRECC;
// Added to fix the simulation warning #CR731605
wire [C_WEB_WIDTH-1:0] WEB_parameterized = 0;
wire ECCPIPECE;
wire SLEEP;
assign CLKA = clka;
assign RSTA = rsta;
assign ENA = ena;
assign REGCEA = regcea;
assign CLKB = clkb;
assign RSTB = rstb;
assign ENB = enb;
assign REGCEB = regceb;
assign INJECTSBITERR = injectsbiterr;
assign INJECTDBITERR = injectdbiterr;
assign ECCPIPECE = eccpipece;
assign SLEEP = sleep;
assign sbiterr = SBITERR;
assign dbiterr = DBITERR;
assign S_ACLK = s_aclk;
assign S_ARESETN = s_aresetn;
assign S_AXI_AWVALID = s_axi_awvalid;
assign s_axi_awready = S_AXI_AWREADY;
assign S_AXI_WLAST = s_axi_wlast;
assign S_AXI_WVALID = s_axi_wvalid;
assign s_axi_wready = S_AXI_WREADY;
assign s_axi_bvalid = S_AXI_BVALID;
assign S_AXI_BREADY = s_axi_bready;
assign S_AXI_ARVALID = s_axi_arvalid;
assign s_axi_arready = S_AXI_ARREADY;
assign s_axi_rlast = S_AXI_RLAST;
assign s_axi_rvalid = S_AXI_RVALID;
assign S_AXI_RREADY = s_axi_rready;
assign S_AXI_INJECTSBITERR = s_axi_injectsbiterr;
assign S_AXI_INJECTDBITERR = s_axi_injectdbiterr;
assign s_axi_sbiterr = S_AXI_SBITERR;
assign s_axi_dbiterr = S_AXI_DBITERR;
assign doutb = DOUTB;
assign douta = DOUTA;
assign rdaddrecc = RDADDRECC;
assign s_axi_bid = S_AXI_BID;
assign s_axi_bresp = S_AXI_BRESP;
assign s_axi_rid = S_AXI_RID;
assign s_axi_rdata = S_AXI_RDATA;
assign s_axi_rresp = S_AXI_RRESP;
assign s_axi_rdaddrecc = S_AXI_RDADDRECC;
localparam FLOP_DELAY = 100; // 100 ps
reg injectsbiterr_in;
reg injectdbiterr_in;
reg rsta_in;
reg ena_in;
reg regcea_in;
reg [C_WEA_WIDTH-1:0] wea_in;
reg [C_ADDRA_WIDTH-1:0] addra_in;
reg [C_WRITE_WIDTH_A-1:0] dina_in;
wire [C_ADDRA_WIDTH-1:0] s_axi_awaddr_out_c;
wire [C_ADDRB_WIDTH-1:0] s_axi_araddr_out_c;
wire s_axi_wr_en_c;
wire s_axi_rd_en_c;
wire s_aresetn_a_c;
wire [7:0] s_axi_arlen_c ;
wire [C_AXI_ID_WIDTH-1 : 0] s_axi_rid_c;
wire [C_WRITE_WIDTH_B-1 : 0] s_axi_rdata_c;
wire [1:0] s_axi_rresp_c;
wire s_axi_rlast_c;
wire s_axi_rvalid_c;
wire s_axi_rready_c;
wire regceb_c;
localparam C_AXI_PAYLOAD = (C_HAS_MUX_OUTPUT_REGS_B == 1)?C_WRITE_WIDTH_B+C_AXI_ID_WIDTH+3:C_AXI_ID_WIDTH+3;
wire [C_AXI_PAYLOAD-1 : 0] s_axi_payload_c;
wire [C_AXI_PAYLOAD-1 : 0] m_axi_payload_c;
//**************
// log2roundup
//**************
function integer log2roundup (input integer data_value);
integer width;
integer cnt;
begin
width = 0;
if (data_value > 1) begin
for(cnt=1 ; cnt < data_value ; cnt = cnt * 2) begin
width = width + 1;
end //loop
end //if
log2roundup = width;
end //log2roundup
endfunction
//**************
// log2int
//**************
function integer log2int (input integer data_value);
integer width;
integer cnt;
begin
width = 0;
cnt= data_value;
for(cnt=data_value ; cnt >1 ; cnt = cnt / 2) begin
width = width + 1;
end //loop
log2int = width;
end //log2int
endfunction
//**************************************************************************
// FUNCTION : divroundup
// Returns the ceiling value of the division
// Data_value - the quantity to be divided, dividend
// Divisor - the value to divide the data_value by
//**************************************************************************
function integer divroundup (input integer data_value,input integer divisor);
integer div;
begin
div = data_value/divisor;
if ((data_value % divisor) != 0) begin
div = div+1;
end //if
divroundup = div;
end //if
endfunction
localparam AXI_FULL_MEMORY_SLAVE = ((C_AXI_SLAVE_TYPE == 0 && C_AXI_TYPE == 1)?1:0);
localparam C_AXI_ADDR_WIDTH_MSB = C_ADDRA_WIDTH+log2roundup(C_WRITE_WIDTH_A/8);
localparam C_AXI_ADDR_WIDTH = C_AXI_ADDR_WIDTH_MSB;
//Data Width Number of LSB address bits to be discarded
//1 to 16 1
//17 to 32 2
//33 to 64 3
//65 to 128 4
//129 to 256 5
//257 to 512 6
//513 to 1024 7
// The following two constants determine this.
localparam LOWER_BOUND_VAL = (log2roundup(divroundup(C_WRITE_WIDTH_A,8) == 0))?0:(log2roundup(divroundup(C_WRITE_WIDTH_A,8)));
localparam C_AXI_ADDR_WIDTH_LSB = ((AXI_FULL_MEMORY_SLAVE == 1)?0:LOWER_BOUND_VAL);
localparam C_AXI_OS_WR = 2;
//***********************************************
// INPUT REGISTERS.
//***********************************************
generate if (C_HAS_SOFTECC_INPUT_REGS_A==0) begin : no_softecc_input_reg_stage
always @* begin
injectsbiterr_in = INJECTSBITERR;
injectdbiterr_in = INJECTDBITERR;
rsta_in = RSTA;
ena_in = ENA;
regcea_in = REGCEA;
wea_in = WEA;
addra_in = ADDRA;
dina_in = DINA;
end //end always
end //end no_softecc_input_reg_stage
endgenerate
generate if (C_HAS_SOFTECC_INPUT_REGS_A==1) begin : has_softecc_input_reg_stage
always @(posedge CLKA) begin
injectsbiterr_in <= #FLOP_DELAY INJECTSBITERR;
injectdbiterr_in <= #FLOP_DELAY INJECTDBITERR;
rsta_in <= #FLOP_DELAY RSTA;
ena_in <= #FLOP_DELAY ENA;
regcea_in <= #FLOP_DELAY REGCEA;
wea_in <= #FLOP_DELAY WEA;
addra_in <= #FLOP_DELAY ADDRA;
dina_in <= #FLOP_DELAY DINA;
end //end always
end //end input_reg_stages generate statement
endgenerate
generate if ((C_INTERFACE_TYPE == 0) && (C_ENABLE_32BIT_ADDRESS == 0)) begin : native_mem_module
BLK_MEM_GEN_v8_2_mem_module
#(.C_CORENAME (C_CORENAME),
.C_FAMILY (C_FAMILY),
.C_XDEVICEFAMILY (C_XDEVICEFAMILY),
.C_MEM_TYPE (C_MEM_TYPE),
.C_BYTE_SIZE (C_BYTE_SIZE),
.C_ALGORITHM (C_ALGORITHM),
.C_USE_BRAM_BLOCK (C_USE_BRAM_BLOCK),
.C_PRIM_TYPE (C_PRIM_TYPE),
.C_LOAD_INIT_FILE (C_LOAD_INIT_FILE),
.C_INIT_FILE_NAME (C_INIT_FILE_NAME),
.C_INIT_FILE (C_INIT_FILE),
.C_USE_DEFAULT_DATA (C_USE_DEFAULT_DATA),
.C_DEFAULT_DATA (C_DEFAULT_DATA),
.C_RST_TYPE ("SYNC"),
.C_HAS_RSTA (C_HAS_RSTA),
.C_RST_PRIORITY_A (C_RST_PRIORITY_A),
.C_RSTRAM_A (C_RSTRAM_A),
.C_INITA_VAL (C_INITA_VAL),
.C_HAS_ENA (C_HAS_ENA),
.C_HAS_REGCEA (C_HAS_REGCEA),
.C_USE_BYTE_WEA (C_USE_BYTE_WEA),
.C_WEA_WIDTH (C_WEA_WIDTH),
.C_WRITE_MODE_A (C_WRITE_MODE_A),
.C_WRITE_WIDTH_A (C_WRITE_WIDTH_A),
.C_READ_WIDTH_A (C_READ_WIDTH_A),
.C_WRITE_DEPTH_A (C_WRITE_DEPTH_A),
.C_READ_DEPTH_A (C_READ_DEPTH_A),
.C_ADDRA_WIDTH (C_ADDRA_WIDTH),
.C_HAS_RSTB (C_HAS_RSTB),
.C_RST_PRIORITY_B (C_RST_PRIORITY_B),
.C_RSTRAM_B (C_RSTRAM_B),
.C_INITB_VAL (C_INITB_VAL),
.C_HAS_ENB (C_HAS_ENB),
.C_HAS_REGCEB (C_HAS_REGCEB),
.C_USE_BYTE_WEB (C_USE_BYTE_WEB),
.C_WEB_WIDTH (C_WEB_WIDTH),
.C_WRITE_MODE_B (C_WRITE_MODE_B),
.C_WRITE_WIDTH_B (C_WRITE_WIDTH_B),
.C_READ_WIDTH_B (C_READ_WIDTH_B),
.C_WRITE_DEPTH_B (C_WRITE_DEPTH_B),
.C_READ_DEPTH_B (C_READ_DEPTH_B),
.C_ADDRB_WIDTH (C_ADDRB_WIDTH),
.C_HAS_MEM_OUTPUT_REGS_A (C_HAS_MEM_OUTPUT_REGS_A),
.C_HAS_MEM_OUTPUT_REGS_B (C_HAS_MEM_OUTPUT_REGS_B),
.C_HAS_MUX_OUTPUT_REGS_A (C_HAS_MUX_OUTPUT_REGS_A),
.C_HAS_MUX_OUTPUT_REGS_B (C_HAS_MUX_OUTPUT_REGS_B),
.C_HAS_SOFTECC_INPUT_REGS_A (C_HAS_SOFTECC_INPUT_REGS_A),
.C_HAS_SOFTECC_OUTPUT_REGS_B (C_HAS_SOFTECC_OUTPUT_REGS_B),
.C_MUX_PIPELINE_STAGES (C_MUX_PIPELINE_STAGES),
.C_USE_SOFTECC (C_USE_SOFTECC),
.C_USE_ECC (C_USE_ECC),
.C_HAS_INJECTERR (C_HAS_INJECTERR),
.C_SIM_COLLISION_CHECK (C_SIM_COLLISION_CHECK),
.C_COMMON_CLK (C_COMMON_CLK),
.FLOP_DELAY (FLOP_DELAY),
.C_DISABLE_WARN_BHV_COLL (C_DISABLE_WARN_BHV_COLL),
.C_EN_ECC_PIPE (C_EN_ECC_PIPE),
.C_DISABLE_WARN_BHV_RANGE (C_DISABLE_WARN_BHV_RANGE))
blk_mem_gen_v8_2_inst
(.CLKA (CLKA),
.RSTA (rsta_in),
.ENA (ena_in),
.REGCEA (regcea_in),
.WEA (wea_in),
.ADDRA (addra_in),
.DINA (dina_in),
.DOUTA (DOUTA),
.CLKB (CLKB),
.RSTB (RSTB),
.ENB (ENB),
.REGCEB (REGCEB),
.WEB (WEB),
.ADDRB (ADDRB),
.DINB (DINB),
.DOUTB (DOUTB),
.INJECTSBITERR (injectsbiterr_in),
.INJECTDBITERR (injectdbiterr_in),
.ECCPIPECE (ECCPIPECE),
.SLEEP (SLEEP),
.SBITERR (SBITERR),
.DBITERR (DBITERR),
.RDADDRECC (RDADDRECC)
);
end
endgenerate
generate if((C_INTERFACE_TYPE == 0) && (C_ENABLE_32BIT_ADDRESS == 1)) begin : native_mem_mapped_module
localparam C_ADDRA_WIDTH_ACTUAL = log2roundup(C_WRITE_DEPTH_A);
localparam C_ADDRB_WIDTH_ACTUAL = log2roundup(C_WRITE_DEPTH_B);
localparam C_ADDRA_WIDTH_MSB = C_ADDRA_WIDTH_ACTUAL+log2int(C_WRITE_WIDTH_A/8);
localparam C_ADDRB_WIDTH_MSB = C_ADDRB_WIDTH_ACTUAL+log2int(C_WRITE_WIDTH_B/8);
// localparam C_ADDRA_WIDTH_MSB = C_ADDRA_WIDTH_ACTUAL+log2roundup(C_WRITE_WIDTH_A/8);
// localparam C_ADDRB_WIDTH_MSB = C_ADDRB_WIDTH_ACTUAL+log2roundup(C_WRITE_WIDTH_B/8);
localparam C_MEM_MAP_ADDRA_WIDTH_MSB = C_ADDRA_WIDTH_MSB;
localparam C_MEM_MAP_ADDRB_WIDTH_MSB = C_ADDRB_WIDTH_MSB;
// Data Width Number of LSB address bits to be discarded
// 1 to 16 1
// 17 to 32 2
// 33 to 64 3
// 65 to 128 4
// 129 to 256 5
// 257 to 512 6
// 513 to 1024 7
// The following two constants determine this.
localparam MEM_MAP_LOWER_BOUND_VAL_A = (log2int(divroundup(C_WRITE_WIDTH_A,8)==0)) ? 0:(log2int(divroundup(C_WRITE_WIDTH_A,8)));
localparam MEM_MAP_LOWER_BOUND_VAL_B = (log2int(divroundup(C_WRITE_WIDTH_A,8)==0)) ? 0:(log2int(divroundup(C_WRITE_WIDTH_A,8)));
localparam C_MEM_MAP_ADDRA_WIDTH_LSB = MEM_MAP_LOWER_BOUND_VAL_A;
localparam C_MEM_MAP_ADDRB_WIDTH_LSB = MEM_MAP_LOWER_BOUND_VAL_B;
wire [C_ADDRB_WIDTH_ACTUAL-1 :0] rdaddrecc_i;
wire [C_ADDRB_WIDTH-1:C_MEM_MAP_ADDRB_WIDTH_MSB] msb_zero_i;
wire [C_MEM_MAP_ADDRB_WIDTH_LSB-1:0] lsb_zero_i;
assign msb_zero_i = 0;
assign lsb_zero_i = 0;
assign RDADDRECC = {msb_zero_i,rdaddrecc_i,lsb_zero_i};
BLK_MEM_GEN_v8_2_mem_module
#(.C_CORENAME (C_CORENAME),
.C_FAMILY (C_FAMILY),
.C_XDEVICEFAMILY (C_XDEVICEFAMILY),
.C_MEM_TYPE (C_MEM_TYPE),
.C_BYTE_SIZE (C_BYTE_SIZE),
.C_USE_BRAM_BLOCK (C_USE_BRAM_BLOCK),
.C_ALGORITHM (C_ALGORITHM),
.C_PRIM_TYPE (C_PRIM_TYPE),
.C_LOAD_INIT_FILE (C_LOAD_INIT_FILE),
.C_INIT_FILE_NAME (C_INIT_FILE_NAME),
.C_INIT_FILE (C_INIT_FILE),
.C_USE_DEFAULT_DATA (C_USE_DEFAULT_DATA),
.C_DEFAULT_DATA (C_DEFAULT_DATA),
.C_RST_TYPE ("SYNC"),
.C_HAS_RSTA (C_HAS_RSTA),
.C_RST_PRIORITY_A (C_RST_PRIORITY_A),
.C_RSTRAM_A (C_RSTRAM_A),
.C_INITA_VAL (C_INITA_VAL),
.C_HAS_ENA (C_HAS_ENA),
.C_HAS_REGCEA (C_HAS_REGCEA),
.C_USE_BYTE_WEA (C_USE_BYTE_WEA),
.C_WEA_WIDTH (C_WEA_WIDTH),
.C_WRITE_MODE_A (C_WRITE_MODE_A),
.C_WRITE_WIDTH_A (C_WRITE_WIDTH_A),
.C_READ_WIDTH_A (C_READ_WIDTH_A),
.C_WRITE_DEPTH_A (C_WRITE_DEPTH_A),
.C_READ_DEPTH_A (C_READ_DEPTH_A),
.C_ADDRA_WIDTH (C_ADDRA_WIDTH_ACTUAL),
.C_HAS_RSTB (C_HAS_RSTB),
.C_RST_PRIORITY_B (C_RST_PRIORITY_B),
.C_RSTRAM_B (C_RSTRAM_B),
.C_INITB_VAL (C_INITB_VAL),
.C_HAS_ENB (C_HAS_ENB),
.C_HAS_REGCEB (C_HAS_REGCEB),
.C_USE_BYTE_WEB (C_USE_BYTE_WEB),
.C_WEB_WIDTH (C_WEB_WIDTH),
.C_WRITE_MODE_B (C_WRITE_MODE_B),
.C_WRITE_WIDTH_B (C_WRITE_WIDTH_B),
.C_READ_WIDTH_B (C_READ_WIDTH_B),
.C_WRITE_DEPTH_B (C_WRITE_DEPTH_B),
.C_READ_DEPTH_B (C_READ_DEPTH_B),
.C_ADDRB_WIDTH (C_ADDRB_WIDTH_ACTUAL),
.C_HAS_MEM_OUTPUT_REGS_A (C_HAS_MEM_OUTPUT_REGS_A),
.C_HAS_MEM_OUTPUT_REGS_B (C_HAS_MEM_OUTPUT_REGS_B),
.C_HAS_MUX_OUTPUT_REGS_A (C_HAS_MUX_OUTPUT_REGS_A),
.C_HAS_MUX_OUTPUT_REGS_B (C_HAS_MUX_OUTPUT_REGS_B),
.C_HAS_SOFTECC_INPUT_REGS_A (C_HAS_SOFTECC_INPUT_REGS_A),
.C_HAS_SOFTECC_OUTPUT_REGS_B (C_HAS_SOFTECC_OUTPUT_REGS_B),
.C_MUX_PIPELINE_STAGES (C_MUX_PIPELINE_STAGES),
.C_USE_SOFTECC (C_USE_SOFTECC),
.C_USE_ECC (C_USE_ECC),
.C_HAS_INJECTERR (C_HAS_INJECTERR),
.C_SIM_COLLISION_CHECK (C_SIM_COLLISION_CHECK),
.C_COMMON_CLK (C_COMMON_CLK),
.FLOP_DELAY (FLOP_DELAY),
.C_DISABLE_WARN_BHV_COLL (C_DISABLE_WARN_BHV_COLL),
.C_EN_ECC_PIPE (C_EN_ECC_PIPE),
.C_DISABLE_WARN_BHV_RANGE (C_DISABLE_WARN_BHV_RANGE))
blk_mem_gen_v8_2_inst
(.CLKA (CLKA),
.RSTA (rsta_in),
.ENA (ena_in),
.REGCEA (regcea_in),
.WEA (wea_in),
.ADDRA (addra_in[C_MEM_MAP_ADDRA_WIDTH_MSB-1:C_MEM_MAP_ADDRA_WIDTH_LSB]),
.DINA (dina_in),
.DOUTA (DOUTA),
.CLKB (CLKB),
.RSTB (RSTB),
.ENB (ENB),
.REGCEB (REGCEB),
.WEB (WEB),
.ADDRB (ADDRB[C_MEM_MAP_ADDRB_WIDTH_MSB-1:C_MEM_MAP_ADDRB_WIDTH_LSB]),
.DINB (DINB),
.DOUTB (DOUTB),
.INJECTSBITERR (injectsbiterr_in),
.INJECTDBITERR (injectdbiterr_in),
.ECCPIPECE (ECCPIPECE),
.SLEEP (SLEEP),
.SBITERR (SBITERR),
.DBITERR (DBITERR),
.RDADDRECC (rdaddrecc_i)
);
end
endgenerate
generate if (C_HAS_MEM_OUTPUT_REGS_B == 0 && C_HAS_MUX_OUTPUT_REGS_B == 0 ) begin : no_regs
assign S_AXI_RDATA = s_axi_rdata_c;
assign S_AXI_RLAST = s_axi_rlast_c;
assign S_AXI_RVALID = s_axi_rvalid_c;
assign S_AXI_RID = s_axi_rid_c;
assign S_AXI_RRESP = s_axi_rresp_c;
assign s_axi_rready_c = S_AXI_RREADY;
end
endgenerate
generate if (C_HAS_MEM_OUTPUT_REGS_B == 1) begin : has_regceb
assign regceb_c = s_axi_rvalid_c && s_axi_rready_c;
end
endgenerate
generate if (C_HAS_MEM_OUTPUT_REGS_B == 0) begin : no_regceb
assign regceb_c = REGCEB;
end
endgenerate
generate if (C_HAS_MUX_OUTPUT_REGS_B == 1) begin : only_core_op_regs
assign s_axi_payload_c = {s_axi_rid_c,s_axi_rdata_c,s_axi_rresp_c,s_axi_rlast_c};
assign S_AXI_RID = m_axi_payload_c[C_AXI_PAYLOAD-1 : C_AXI_PAYLOAD-C_AXI_ID_WIDTH];
assign S_AXI_RDATA = m_axi_payload_c[C_AXI_PAYLOAD-C_AXI_ID_WIDTH-1 : C_AXI_PAYLOAD-C_AXI_ID_WIDTH-C_WRITE_WIDTH_B];
assign S_AXI_RRESP = m_axi_payload_c[2:1];
assign S_AXI_RLAST = m_axi_payload_c[0];
end
endgenerate
generate if (C_HAS_MEM_OUTPUT_REGS_B == 1) begin : only_emb_op_regs
assign s_axi_payload_c = {s_axi_rid_c,s_axi_rresp_c,s_axi_rlast_c};
assign S_AXI_RDATA = s_axi_rdata_c;
assign S_AXI_RID = m_axi_payload_c[C_AXI_PAYLOAD-1 : C_AXI_PAYLOAD-C_AXI_ID_WIDTH];
assign S_AXI_RRESP = m_axi_payload_c[2:1];
assign S_AXI_RLAST = m_axi_payload_c[0];
end
endgenerate
generate if (C_HAS_MUX_OUTPUT_REGS_B == 1 || C_HAS_MEM_OUTPUT_REGS_B == 1) begin : has_regs_fwd
blk_mem_axi_regs_fwd_v8_2
#(.C_DATA_WIDTH (C_AXI_PAYLOAD))
axi_regs_inst (
.ACLK (S_ACLK),
.ARESET (s_aresetn_a_c),
.S_VALID (s_axi_rvalid_c),
.S_READY (s_axi_rready_c),
.S_PAYLOAD_DATA (s_axi_payload_c),
.M_VALID (S_AXI_RVALID),
.M_READY (S_AXI_RREADY),
.M_PAYLOAD_DATA (m_axi_payload_c)
);
end
endgenerate
generate if (C_INTERFACE_TYPE == 1) begin : axi_mem_module
assign s_aresetn_a_c = !S_ARESETN;
assign S_AXI_BRESP = 2'b00;
assign s_axi_rresp_c = 2'b00;
assign s_axi_arlen_c = (C_AXI_TYPE == 1)?S_AXI_ARLEN:8'h0;
blk_mem_axi_write_wrapper_beh_v8_2
#(.C_INTERFACE_TYPE (C_INTERFACE_TYPE),
.C_AXI_TYPE (C_AXI_TYPE),
.C_AXI_SLAVE_TYPE (C_AXI_SLAVE_TYPE),
.C_MEMORY_TYPE (C_MEM_TYPE),
.C_WRITE_DEPTH_A (C_WRITE_DEPTH_A),
.C_AXI_AWADDR_WIDTH ((AXI_FULL_MEMORY_SLAVE == 1)?C_AXI_ADDR_WIDTH:C_AXI_ADDR_WIDTH-C_AXI_ADDR_WIDTH_LSB),
.C_HAS_AXI_ID (C_HAS_AXI_ID),
.C_AXI_ID_WIDTH (C_AXI_ID_WIDTH),
.C_ADDRA_WIDTH (C_ADDRA_WIDTH),
.C_AXI_WDATA_WIDTH (C_WRITE_WIDTH_A),
.C_AXI_OS_WR (C_AXI_OS_WR))
axi_wr_fsm (
// AXI Global Signals
.S_ACLK (S_ACLK),
.S_ARESETN (s_aresetn_a_c),
// AXI Full/Lite Slave Write interface
.S_AXI_AWADDR (S_AXI_AWADDR[C_AXI_ADDR_WIDTH_MSB-1:C_AXI_ADDR_WIDTH_LSB]),
.S_AXI_AWLEN (S_AXI_AWLEN),
.S_AXI_AWID (S_AXI_AWID),
.S_AXI_AWSIZE (S_AXI_AWSIZE),
.S_AXI_AWBURST (S_AXI_AWBURST),
.S_AXI_AWVALID (S_AXI_AWVALID),
.S_AXI_AWREADY (S_AXI_AWREADY),
.S_AXI_WVALID (S_AXI_WVALID),
.S_AXI_WREADY (S_AXI_WREADY),
.S_AXI_BVALID (S_AXI_BVALID),
.S_AXI_BREADY (S_AXI_BREADY),
.S_AXI_BID (S_AXI_BID),
// Signals for BRAM interfac(
.S_AXI_AWADDR_OUT (s_axi_awaddr_out_c),
.S_AXI_WR_EN (s_axi_wr_en_c)
);
blk_mem_axi_read_wrapper_beh_v8_2
#(.C_INTERFACE_TYPE (C_INTERFACE_TYPE),
.C_AXI_TYPE (C_AXI_TYPE),
.C_AXI_SLAVE_TYPE (C_AXI_SLAVE_TYPE),
.C_MEMORY_TYPE (C_MEM_TYPE),
.C_WRITE_WIDTH_A (C_WRITE_WIDTH_A),
.C_ADDRA_WIDTH (C_ADDRA_WIDTH),
.C_AXI_PIPELINE_STAGES (1),
.C_AXI_ARADDR_WIDTH ((AXI_FULL_MEMORY_SLAVE == 1)?C_AXI_ADDR_WIDTH:C_AXI_ADDR_WIDTH-C_AXI_ADDR_WIDTH_LSB),
.C_HAS_AXI_ID (C_HAS_AXI_ID),
.C_AXI_ID_WIDTH (C_AXI_ID_WIDTH),
.C_ADDRB_WIDTH (C_ADDRB_WIDTH))
axi_rd_sm(
//AXI Global Signals
.S_ACLK (S_ACLK),
.S_ARESETN (s_aresetn_a_c),
//AXI Full/Lite Read Side
.S_AXI_ARADDR (S_AXI_ARADDR[C_AXI_ADDR_WIDTH_MSB-1:C_AXI_ADDR_WIDTH_LSB]),
.S_AXI_ARLEN (s_axi_arlen_c),
.S_AXI_ARSIZE (S_AXI_ARSIZE),
.S_AXI_ARBURST (S_AXI_ARBURST),
.S_AXI_ARVALID (S_AXI_ARVALID),
.S_AXI_ARREADY (S_AXI_ARREADY),
.S_AXI_RLAST (s_axi_rlast_c),
.S_AXI_RVALID (s_axi_rvalid_c),
.S_AXI_RREADY (s_axi_rready_c),
.S_AXI_ARID (S_AXI_ARID),
.S_AXI_RID (s_axi_rid_c),
//AXI Full/Lite Read FSM Outputs
.S_AXI_ARADDR_OUT (s_axi_araddr_out_c),
.S_AXI_RD_EN (s_axi_rd_en_c)
);
BLK_MEM_GEN_v8_2_mem_module
#(.C_CORENAME (C_CORENAME),
.C_FAMILY (C_FAMILY),
.C_XDEVICEFAMILY (C_XDEVICEFAMILY),
.C_MEM_TYPE (C_MEM_TYPE),
.C_BYTE_SIZE (C_BYTE_SIZE),
.C_USE_BRAM_BLOCK (C_USE_BRAM_BLOCK),
.C_ALGORITHM (C_ALGORITHM),
.C_PRIM_TYPE (C_PRIM_TYPE),
.C_LOAD_INIT_FILE (C_LOAD_INIT_FILE),
.C_INIT_FILE_NAME (C_INIT_FILE_NAME),
.C_INIT_FILE (C_INIT_FILE),
.C_USE_DEFAULT_DATA (C_USE_DEFAULT_DATA),
.C_DEFAULT_DATA (C_DEFAULT_DATA),
.C_RST_TYPE ("SYNC"),
.C_HAS_RSTA (C_HAS_RSTA),
.C_RST_PRIORITY_A (C_RST_PRIORITY_A),
.C_RSTRAM_A (C_RSTRAM_A),
.C_INITA_VAL (C_INITA_VAL),
.C_HAS_ENA (1),
.C_HAS_REGCEA (C_HAS_REGCEA),
.C_USE_BYTE_WEA (1),
.C_WEA_WIDTH (C_WEA_WIDTH),
.C_WRITE_MODE_A (C_WRITE_MODE_A),
.C_WRITE_WIDTH_A (C_WRITE_WIDTH_A),
.C_READ_WIDTH_A (C_READ_WIDTH_A),
.C_WRITE_DEPTH_A (C_WRITE_DEPTH_A),
.C_READ_DEPTH_A (C_READ_DEPTH_A),
.C_ADDRA_WIDTH (C_ADDRA_WIDTH),
.C_HAS_RSTB (C_HAS_RSTB),
.C_RST_PRIORITY_B (C_RST_PRIORITY_B),
.C_RSTRAM_B (C_RSTRAM_B),
.C_INITB_VAL (C_INITB_VAL),
.C_HAS_ENB (1),
.C_HAS_REGCEB (C_HAS_MEM_OUTPUT_REGS_B),
.C_USE_BYTE_WEB (1),
.C_WEB_WIDTH (C_WEB_WIDTH),
.C_WRITE_MODE_B (C_WRITE_MODE_B),
.C_WRITE_WIDTH_B (C_WRITE_WIDTH_B),
.C_READ_WIDTH_B (C_READ_WIDTH_B),
.C_WRITE_DEPTH_B (C_WRITE_DEPTH_B),
.C_READ_DEPTH_B (C_READ_DEPTH_B),
.C_ADDRB_WIDTH (C_ADDRB_WIDTH),
.C_HAS_MEM_OUTPUT_REGS_A (0),
.C_HAS_MEM_OUTPUT_REGS_B (C_HAS_MEM_OUTPUT_REGS_B),
.C_HAS_MUX_OUTPUT_REGS_A (0),
.C_HAS_MUX_OUTPUT_REGS_B (0),
.C_HAS_SOFTECC_INPUT_REGS_A (C_HAS_SOFTECC_INPUT_REGS_A),
.C_HAS_SOFTECC_OUTPUT_REGS_B (C_HAS_SOFTECC_OUTPUT_REGS_B),
.C_MUX_PIPELINE_STAGES (C_MUX_PIPELINE_STAGES),
.C_USE_SOFTECC (C_USE_SOFTECC),
.C_USE_ECC (C_USE_ECC),
.C_HAS_INJECTERR (C_HAS_INJECTERR),
.C_SIM_COLLISION_CHECK (C_SIM_COLLISION_CHECK),
.C_COMMON_CLK (C_COMMON_CLK),
.FLOP_DELAY (FLOP_DELAY),
.C_DISABLE_WARN_BHV_COLL (C_DISABLE_WARN_BHV_COLL),
.C_EN_ECC_PIPE (0),
.C_DISABLE_WARN_BHV_RANGE (C_DISABLE_WARN_BHV_RANGE))
blk_mem_gen_v8_2_inst
(.CLKA (S_ACLK),
.RSTA (s_aresetn_a_c),
.ENA (s_axi_wr_en_c),
.REGCEA (regcea_in),
.WEA (S_AXI_WSTRB),
.ADDRA (s_axi_awaddr_out_c),
.DINA (S_AXI_WDATA),
.DOUTA (DOUTA),
.CLKB (S_ACLK),
.RSTB (s_aresetn_a_c),
.ENB (s_axi_rd_en_c),
.REGCEB (regceb_c),
.WEB (WEB_parameterized),
.ADDRB (s_axi_araddr_out_c),
.DINB (DINB),
.DOUTB (s_axi_rdata_c),
.INJECTSBITERR (injectsbiterr_in),
.INJECTDBITERR (injectdbiterr_in),
.SBITERR (SBITERR),
.DBITERR (DBITERR),
.ECCPIPECE (1'b0),
.SLEEP (1'b0),
.RDADDRECC (RDADDRECC)
);
end
endgenerate
endmodule
|
module STATE_LOGIC_v8_2 (O, I0, I1, I2, I3, I4, I5);
parameter INIT = 64'h0000000000000000;
input I0, I1, I2, I3, I4, I5;
output O;
reg O;
reg tmp;
always @( I5 or I4 or I3 or I2 or I1 or I0 ) begin
tmp = I0 ^ I1 ^ I2 ^ I3 ^ I4 ^ I5;
if ( tmp == 0 || tmp == 1)
O = INIT[{I5, I4, I3, I2, I1, I0}];
end
endmodule
|
module beh_vlog_muxf7_v8_2 (O, I0, I1, S);
output O;
reg O;
input I0, I1, S;
always @(I0 or I1 or S)
if (S)
O = I1;
else
O = I0;
endmodule
|
module beh_vlog_ff_clr_v8_2 (Q, C, CLR, D);
parameter INIT = 0;
localparam FLOP_DELAY = 100;
output Q;
input C, CLR, D;
reg Q;
initial Q= 1'b0;
always @(posedge C )
if (CLR)
Q<= 1'b0;
else
Q<= #FLOP_DELAY D;
endmodule
|
module beh_vlog_ff_pre_v8_2 (Q, C, D, PRE);
parameter INIT = 0;
localparam FLOP_DELAY = 100;
output Q;
input C, D, PRE;
reg Q;
initial Q= 1'b0;
always @(posedge C )
if (PRE)
Q <= 1'b1;
else
Q <= #FLOP_DELAY D;
endmodule
|
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