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ALU enable control added, minor fix with RRC
Multiply still to be updated
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2ca1e90a2c
125
alu.v
125
alu.v
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@ -36,76 +36,83 @@ assign JC8 = (Rs1 < 0);
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always @(*)
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begin
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case (opcode)
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6'b000000: alusum = {1'b1, Rd}; // JMP Unconditional Jump, first bit high to indicate jump and passes through Rd
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if(!enable)
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begin
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case (opcode)
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6'b000000: alusum = {1'b1, Rd}; // JMP Unconditional Jump, first bit high to indicate jump and passes through Rd
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6'b000100: alusum = {JC1, Rd}; // JC1 Conditional Jump A < B
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6'b000101: alusum = {JC2, Rd}; // JC2 Conditional Jump A > B
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6'b000110: alusum = {JC3, Rd}; // JC3 Conditional Jump A = B
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6'b000111: alusum = {JC4, Rd}; // JC4 Conditional Jump A = 0
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6'b000100: alusum = {JC1, Rd}; // JC1 Conditional Jump A < B
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6'b000101: alusum = {JC2, Rd}; // JC2 Conditional Jump A > B
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6'b000110: alusum = {JC3, Rd}; // JC3 Conditional Jump A = B
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6'b000111: alusum = {JC4, Rd}; // JC4 Conditional Jump A = 0
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6'b001000: alusum = {JC5, Rd}; // JC5 Conditional Jump A >= B / A !< B
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6'b001001: alusum = {JC6, Rd}; // JC6 Conditional Jump A <= B / A !> B
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6'b001010: alusum = {JC7, Rd}; // JC7 Conditional Jump A != B
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6'b001011: alusum = {JC8, Rd}; // JC8 Conditional Jump A < 0
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6'b001000: alusum = {JC5, Rd}; // JC5 Conditional Jump A >= B / A !< B
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6'b001001: alusum = {JC6, Rd}; // JC6 Conditional Jump A <= B / A !> B
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6'b001010: alusum = {JC7, Rd}; // JC7 Conditional Jump A != B
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6'b001011: alusum = {JC8, Rd}; // JC8 Conditional Jump A < 0
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6'b001100: alusum = {1'b0, Rs1 & Rs2}; // AND Bitwise AND
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6'b001101: alusum = {1'b0, Rs1 | Rs2}; // OR Bitwise OR
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6'b001110: alusum = {1'b0, Rs1 ^ Rs2}; // XOR Bitwise XOR
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6'b001111: alusum = {1'b0, ~Rs1}; // NOT Bitwise NOT
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6'b001100: alusum = {1'b0, Rs1 & Rs2}; // AND Bitwise AND
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6'b001101: alusum = {1'b0, Rs1 | Rs2}; // OR Bitwise OR
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6'b001110: alusum = {1'b0, Rs1 ^ Rs2}; // XOR Bitwise XOR
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6'b001111: alusum = {1'b0, ~Rs1}; // NOT Bitwise NOT
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6'b010000: alusum = {1'b0, ~Rs1 | ~Rs2}; // NND Bitwise NAND
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6'b010001: alusum = {1'b0, ~Rs1 & ~Rs2}; // NOR Bitwise NOR
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6'b010010: alusum = {1'b0, Rs1 ~^ Rs2}; // XNR Bitwise XNOR
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6'b010011: alusum = {1'b0, Rs1}; // MOV Move (Rd = Rs1)
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6'b010000: alusum = {1'b0, ~Rs1 | ~Rs2}; // NND Bitwise NAND
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6'b010001: alusum = {1'b0, ~Rs1 & ~Rs2}; // NOR Bitwise NOR
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6'b010010: alusum = {1'b0, Rs1 ~^ Rs2}; // XNR Bitwise XNOR
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6'b010011: alusum = {1'b0, Rs1}; // MOV Move (Rd = Rs1)
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6'b010100: alusum = {1'b0, Rs1} + {1'b0, Rs2}; // ADD Add (Rd = Rs1 + Rs2)
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6'b010101: alusum = {1'b0, Rs1} + {1'b0, Rs2} + carryin; // ADC Add w/ Carry (Rd = Rs1 + Rs2 + C)
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6'b010110: alusum = {1'b0, Rs1} + {17'b00000000000000001}; // ADO Add 1 (Rd = Rd + 1)
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6'b010111: ;
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6'b010100: alusum = {1'b0, Rs1} + {1'b0, Rs2}; // ADD Add (Rd = Rs1 + Rs2)
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6'b010101: alusum = {1'b0, Rs1} + {1'b0, Rs2} + carryin; // ADC Add w/ Carry (Rd = Rs1 + Rs2 + C)
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6'b010110: alusum = {1'b0, Rs1} + {17'b00000000000000001}; // ADO Add 1 (Rd = Rd + 1)
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6'b010111: ;
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6'b011000: alusum = {1'b0, Rs1} - {1'b0, Rs2}; // SUB Subtract (Rd = Rs1 - Rs2)
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6'b011001: alusum = {1'b0, Rs1} - {1'b0, Rs2} + carryin - {17'b00000000000000001}; // SBC Subtract w/ Carry (Rd = Rs1 - Rs2 + C - 1)
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6'b011010: alusum = {1'b0, Rs1} - {17'b00000000000000001}; // SBO Subtract 1 (Rd = Rd - 1)
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6'b011011: ;
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6'b011000: alusum = {1'b0, Rs1} - {1'b0, Rs2}; // SUB Subtract (Rd = Rs1 - Rs2)
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6'b011001: alusum = {1'b0, Rs1} - {1'b0, Rs2} + carryin - {17'b00000000000000001}; // SBC Subtract w/ Carry (Rd = Rs1 - Rs2 + C - 1)
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6'b011010: alusum = {1'b0, Rs1} - {17'b00000000000000001}; // SBO Subtract 1 (Rd = Rd - 1)
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6'b011011: ;
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6'b011100: // MUL Multiply (Rd = Rs1 * Rs2)
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begin
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// mul1 = Rs1;
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// mul2 = Rs2;
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alusum[16] = 1'b0;
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{mulextra, alusum[15:0]} = Rs1 * Rs2;
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end
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6'b011101: // MLA Multiply and Add (Rd = Rs2 + (Rd * Rs1))
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begin
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// mul1 = Rs1;
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// mul2 = Rs2;
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alusum[16] = 1'b0;
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{mulextra, alusum[15:0]} = (Rd * Rs1) + Rs2;
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end
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6'b011110: // MLS Multiply and Subtract (Rd = Rs2 - (Rd * Rs1)[15:0])
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begin
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// mul1 = Rs1;
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// mul2 = Rs2;
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alusum = {1'b0, Rs2 - (Rd * Rs1)};
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end
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6'b011111: alusum = mulextra; // MRT Retrieve Multiply MSBs (Rd = MSBs)
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6'b011100: // MUL Multiply (Rd = Rs1 * Rs2)
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begin
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// mul1 = Rs1;
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// mul2 = Rs2;
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alusum[16] = 1'b0;
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{mulextra, alusum[15:0]} = Rs1 * Rs2;
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end
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6'b011101: // MLA Multiply and Add (Rd = Rs2 + (Rd * Rs1))
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begin
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// mul1 = Rs1;
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// mul2 = Rs2;
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alusum[16] = 1'b0;
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{mulextra, alusum[15:0]} = (Rd * Rs1) + Rs2;
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end
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6'b011110: // MLS Multiply and Subtract (Rd = Rs2 - (Rd * Rs1)[15:0])
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begin
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// mul1 = Rs1;
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// mul2 = Rs2;
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alusum = {1'b0, Rs2 - (Rd * Rs1)};
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end
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6'b011111: alusum = mulextra; // MRT Retrieve Multiply MSBs (Rd = MSBs)
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6'b100000: alusum = {1'b0, Rs1 << Rs2}; // LSL Logical Shift Left (Rd = Rs1 shifted left by value of Rs2)
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6'b100001: alusum = {1'b0, Rs1 >> Rs2}; // LSR Logical Shift Right (Rd = Rs1 shifted right by value of Rs2)
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6'b100010: alusum = {Rs1[15], Rs1 >>> Rs2}; // ASR Arithmetic Shift Right (Rd = Rs1 shifted right by value of Rs2, maintaining sign bit)
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6'b100011: ;
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6'b100000: alusum = {1'b0, Rs1 << Rs2}; // LSL Logical Shift Left (Rd = Rs1 shifted left by value of Rs2)
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6'b100001: alusum = {1'b0, Rs1 >> Rs2}; // LSR Logical Shift Right (Rd = Rs1 shifted right by value of Rs2)
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6'b100010: alusum = {Rs1[15], Rs1 >>> Rs2}; // ASR Arithmetic Shift Right (Rd = Rs1 shifted right by value of Rs2, maintaining sign bit)
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6'b100011: ;
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6'b100100: alusum = {1'b0, (Rs1 >> Rs2[3:0]) | (Rs1 << (16 - Rs2[3:0]))}; // ROR Shift Right Loop (Rd = Rs1 shifted right by Rs2, but Rs1[0] -> Rs1[15])
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6'b100101: alusum = ({Rs1, carryin} >> Rs2[3:0]) | ({Rs1, carryin} << (17 - (Rs2 % 17)));// RRC Shift Right Loop w/ Carry (Rd = Rs1 shifted right by Rs2, but Rs1[0] -> Carry & Carry -> Rs1[15])
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6'b100110: ;
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6'b100111: ;
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6'b100100: alusum = {1'b0, (Rs1 >> Rs2[3:0]) | (Rs1 << (16 - Rs2[3:0]))}; // ROR Shift Right Loop (Rd = Rs1 shifted right by Rs2, but Rs1[0] -> Rs1[15])
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6'b100101: alusum = ({Rs1, carryin} >> (Rs2 % 17)) | ({Rs1, carryin} << (17 - (Rs2 % 17)));// RRC Shift Right Loop w/ Carry (Rd = Rs1 shifted right by Rs2, but Rs1[0] -> Carry & Carry -> Rs1[15])
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6'b100110: ;
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6'b100111: ;
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6'b111110: ; // NOP No Operation (Do Nothing for a cycle)
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6'b111111: ; // STP Stop (Program Ends)
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6'b111110: ; // NOP No Operation (Do Nothing for a cycle)
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6'b111111: ; // STP Stop (Program Ends)
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default: ; // During Load & Store as well as undefined opcodes
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endcase;
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default: ; // During Load & Store as well as undefined opcodes
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endcase;
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end
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else
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begin
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alusum = {1'b0, 16'h0000}; // Bring output low during Load/Store so it does not interfere
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end
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end
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/*
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