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Updated alu to feed only positive values to multiply block
When both values are positive/negative the positive result from the multiply block is correct. When only one is negative, the result is inverted.
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alu.v
62
alu.v
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@ -1,4 +1,4 @@
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module alu (enable, Rs1, Rs2, Rd, opcode, mulresult, exec2, stackout, mul1, mul2, Rout, jump, carry);
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module alu (enable, Rs1, Rs2, Rd, opcode, mulresult, exec2, stackout, mul1, mul2, Rout, jump, carry, jumpflags);
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input enable; // active LOW, disables the ALU during load/store operations so that undefined behaviour does not occur
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input signed [15:0] Rd; // input destination register
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@ -14,6 +14,7 @@ output reg signed [15:0] mul2; // second number to be multiplied
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output signed [15:0] Rout; // value to be saved to destination register
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output jump; // tells decoder whether Jump condition is true
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output reg carry; // Internal carry register that is updated during appropriate opcodes, also provides output for debugging
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output [7:0] jumpflags;
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reg signed [16:0] alusum; // extra bit to hold carry from operations other than Multiply
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assign Rout = alusum [15:0];
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@ -30,8 +31,9 @@ assign JC5 = (Rs1 >= Rs2);
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assign JC6 = (Rs1 <= Rs2);
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assign JC7 = (Rs1 != Rs2);
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assign JC8 = (Rs1 < 0);
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assign jumpflags = {JC1, JC2, JC3, JC4, JC5, JC6, JC7, JC8};
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always @(*)
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always @(opcode, mulresult)
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begin
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if(!enable) begin
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case (opcode)
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@ -87,31 +89,65 @@ always @(*)
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6'b011100: begin // MUL Multiply (Rd = Rs1 * Rs2)
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if(!exec2) begin
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mul1 = Rs1;
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mul2 = Rs2;
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if(Rs1[15]) begin
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mul1 = ~Rs1 + {16'h0001};
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end
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else begin
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mul1 = Rs1;
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end
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if(Rs2[15]) begin
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mul2 = ~Rs2 + {16'h0001};
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end
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else begin
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mul2 = Rs2;
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end
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alusum = 17'b00000000000000000;
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carry = (Rs1[15]^Rs2[15]) ? 1'b1 : 1'b0;
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end
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else begin
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alusum[16] = 1'b0;
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{mulextra, alusum[15:0]} = mulresult;
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{mulextra, alusum[15:0]} = (carry) ? ~mulresult + 32'h00000001 : mulresult;
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end
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end
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6'b011101: begin // MLA Multiply and Add (Rd = Rs2 + (Rd * Rs1))
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if(!exec2) begin
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mul1 = Rs1;
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mul2 = Rs2;
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if(Rd[15]) begin
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mul1 = ~Rd + {16'h0001};
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end
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else begin
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mul1 = Rd;
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end
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if(Rs1[15]) begin
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mul2 = ~Rs1 + {16'h0001};
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end
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else begin
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mul2 = Rs1;
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end
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alusum = 17'b00000000000000000;
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carry = (Rs1[15]^Rs2[15]) ? 1'b1 : 1'b0;
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end
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else begin
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alusum[16] = 1'b0;
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{mulextra, alusum[15:0]} = mulresult + {16'h0000, Rs2};
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{mulextra, alusum[15:0]} = (carry) ? ~mulresult + 32'h00000001 + {16'h0000, Rs2} : mulresult + {16'h0000, Rs2};
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end
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end
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6'b011110: begin // MLS Multiply and Subtract (Rd = Rs2 - (Rd * Rs1)[15:0])
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if(!exec2) begin
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mul1 = Rs1;
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mul2 = Rs2;
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if(Rd[15]) begin
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mul1 = ~Rd + {16'h0001};
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end
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else begin
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mul1 = Rd;
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end
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if(Rs1[15]) begin
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mul2 = ~Rs1 + {16'h0001};
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end
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else begin
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mul2 = Rs1;
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end
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alusum = 17'b00000000000000000;
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carry = (Rs1[15]^Rs2[15]) ? 1'b1 : 1'b0;
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end
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else begin
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alusum = {1'b0, Rs2 - mulresult[15:0]};
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alusum = (carry) ? {1'b0, Rs2 - (~mulresult[15:0] + 16'h0001)} : {1'b0, Rs2 - mulresult[15:0]};
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end
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end
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6'b011111: alusum = mulextra; // MRT Retrieve Multiply MSBs (Rd = MSBs)
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