ALU 用のテスト ベンチを作成しようとしていますが。それが機能するように書かれているかどうかはわかりません。たとえば、またはを使用する必要がありますdut
かuut
? 入力を正しく初期化しましたか? 出力波形はまっすぐです (各ビット X と 1 つの 0 で変化しません)。
module Alu_test();
reg [7:0]pc;
reg [3:0] CCRin;
reg rst,clk;
reg [3:0] opcode;
reg[7:0] ra;
reg[7:0] rb;
reg [7:0] in_port;
reg[7:0] SP; //= 255
wire[7:0] SP_out;
wire [7:0] out_port;
wire[255:0] dmem;
wire[7:0] ra_out;
wire[7:0] rb_out;
wire [3:0] CCRo;
wire [7:0] npc;
ALU dut(opcode,ra,rb,ra_out,rb_out,rst,clk,pc,npc,CCRin,CCRo,SP,SP_out,in_port,out_port,dmem);
initial
begin
rst = 0;
clk = 0;
opcode = 0;
SP = 255;
CCRin = 0;
pc = 0;
in_port = 0;
ra = 0;
rb = 0;
#5
forever
#5 clk = ~clk;
#50
#5 opcode[3:0] = 4'b0000; //nop
#5 opcode[3:0] = 4'b0100; //add
ra =1;
rb =1;
#5 opcode[3:0] = 4'b0111; //shift left
ra =1;
rb =0;
#5 opcode[3:0] = 4'b1010; //push
ra =1;
rb =2;
end
endmodule
これがモジュールです
module ALU(opcode,ra,rb,ra_out,rb_out,rst,clk,pc,npc,CCRin,CCRo,SP,SP_out,in_port,out_port,dmem);
wire [7:0] res; // result
input wire [7:0]pc;
output reg [7:0] npc;
input rst,clk;
input wire [3:0] opcode;
input wire[7:0] ra;
input wire[7:0] rb;
output reg[7:0] ra_out;
output reg[7:0] rb_out;
input wire[7:0] SP; // testbench haygebli SP el mafroud yeb2a = 255
output reg[7:0] SP_out;
input wire [7:0] in_port;
output reg [7:0] out_port;
output reg[255:0] dmem;
input wire [3:0] CCRin;
output reg [3:0] CCRo;
wire co;
wire cin;
wire [7:0] result; //total result
always @(posedge clk)
begin
SP_out = SP;
end
assign result = alu_out(ra,rb,cin);
assign res = result[1:0];
assign co = result[2];
function [8:0] alu_out;
input [1:0] ra,rb;
input cin;
case (opcode)
0: ;
4: assign alu_out = ra + rb;
5: assign alu_out = ra - rb;
6: assign alu_out = ~(ra & rb);
7: assign alu_out = {ra[7:0],cin};
8: assign alu_out = {ra[0],cin,ra[7:1]};
10: if (ra == 1)
begin
dmem[SP_out] = rb;
SP_out = SP_out-1;
end
else
begin
SP_out = SP_out +1;
rb_out = dmem[SP_out];
end
11: assign out_port = ra;
12: assign ra_out = in_port;
13: assign ra_out = rb;
default: begin
alu_out = 8'bxxxxxxxx;
end
endcase
endfunction
always@(posedge clk)
begin
if (res == 0)
CCRo[0] = 1;
else if ( res < 0)
CCRo[1] = 1;
else if (co == 1)
CCRo[2] = 1;
else if ( res < 0 & res > result)
CCRo[3] = 1;
else
CCRo = CCRin;
if (res)
ra_out = res;
npc = pc+1;
end
endmodule