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[/] [a-z80/] [trunk/] [cpu/] [alu/] [test_core.sv] - Rev 14
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//==============================================================
// Test ALU core
//==============================================================
`timescale 100 ns/ 100 ns
module test_core;
// ----------------- INPUT -----------------
reg [3:0] op1_sig; // Operand 1
reg [3:0] op2_sig; // Operand 2
reg cy_in_sig; // Carry in (to slice D)
reg R_sig; // Operation control "R"
reg S_sig; // Operation control "S"
reg V_sig; // Operation control "V"
// ----------------- OUTPUT -----------------
wire cy_out_sig; // Carry out (from slice A)
wire vf_out_sig; // Overflow out
wire [3:0] result_sig; // Result bits
// ----------------- TEST -------------------
`define CHECK(arg) \
assert(result_sig==arg);
initial begin
//------------------------------------------------------------
// Test ADD/ADC: R=0 S=0 V=0 Cin for ADC operation
R_sig = 0;
S_sig = 0;
V_sig = 0;
op1_sig = 4'h0; // 0 + 0 + 0 = 0
op2_sig = 4'h0;
cy_in_sig = 0;
#1 `CHECK(4'h0);
cy_in_sig = 1; // 0 + 0 + 1 = 1
#1 `CHECK(4'h1);
op1_sig = 4'h2; // 2 + 8 + 0 = A
op2_sig = 4'h8;
cy_in_sig = 0;
#1 `CHECK(4'hA);
cy_in_sig = 1; // 2 + 8 + 1 = B
#1 `CHECK(4'hB);
op1_sig = 4'hB; // B + 4 + 0 = F
op2_sig = 4'h4;
cy_in_sig = 0;
#1 `CHECK(4'hF);
cy_in_sig = 1; // B + 4 + 1 = 0 + CY
#1 `CHECK(4'h0);
op1_sig = 4'hD; // D + 6 + 0 = 3 + CY
op2_sig = 4'h6;
cy_in_sig = 0;
#1 `CHECK(4'h3);
cy_in_sig = 1; // D + 6 + 1 = 4 + CY
#1 `CHECK(4'h4);
//------------------------------------------------------------
// Test XOR: R=1 S=0 V=0 Cin=0
#1
R_sig = 1;
S_sig = 0;
V_sig = 0;
cy_in_sig = 0;
op1_sig = 4'h0; // 0 ^ 0 = 0
op2_sig = 4'h0;
#1 `CHECK(4'h0);
op1_sig = 4'h3; // 3 ^ C = F
op2_sig = 4'hC;
#1 `CHECK(4'hF);
op1_sig = 4'h6; // 6 ^ 3 = 5
op2_sig = 4'h3;
#1 `CHECK(4'h5);
op1_sig = 4'hF; // F ^ F = 0
op2_sig = 4'hF;
#1 `CHECK(4'h0);
//------------------------------------------------------------
// Test AND: R=0 S=1 V=0 Cin=1
#1
R_sig = 0;
S_sig = 1;
V_sig = 0;
cy_in_sig = 1;
op1_sig = 4'h0; // 0 & 0 = 0
op2_sig = 4'h0;
#1 `CHECK(4'h0);
op1_sig = 4'h3; // 3 & C = 0
op2_sig = 4'hC;
#1 `CHECK(4'h0);
op1_sig = 4'h6; // 6 & 3 = 2
op2_sig = 4'h3;
#1 `CHECK(4'h2);
op1_sig = 4'hF; // F & F = F
op2_sig = 4'hF;
#1 `CHECK(4'hF);
//------------------------------------------------------------
// Test OR: R=1 S=1 V=1 Cin=0
#1
R_sig = 1;
S_sig = 1;
V_sig = 1;
cy_in_sig = 0;
op1_sig = 4'h0; // 0 | 0 = 0
op2_sig = 4'h0;
#1 `CHECK(4'h0);
op1_sig = 4'h3; // 3 | C = F
op2_sig = 4'hC;
#1 `CHECK(4'hF);
op1_sig = 4'h6; // 6 | 3 = 7
op2_sig = 4'h3;
#1 `CHECK(4'h7);
op1_sig = 4'hF; // F | F = F
op2_sig = 4'hF;
#1 `CHECK(4'hf);
#1 $display("End of test");
end
//--------------------------------------------------------------
// Instantiate ALU core block
//--------------------------------------------------------------
alu_core alu_core_inst
(
.cy_in(cy_in_sig) , // input cy_in_sig
.op1(op1_sig[3:0]) , // input [3:0] op1_sig
.op2(op2_sig[3:0]) , // input [3:0] op2_sig
.S(S_sig) , // input S_sig
.V(V_sig) , // input V_sig
.R(R_sig) , // input R_sig
.cy_out(cy_out_sig) , // output cy_out_sig
.vf_out(vf_out_sig) , // output vf_out_sig
.result(result_sig[3:0]) // output [3:0] result_sig
);
endmodule
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