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219 lines
5 KiB
Verilog
219 lines
5 KiB
Verilog
module mips_cpu_alu(
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input logic[31:0] A, //Bus A - Input from the Readdata1 output from the reg file which corresponds to rs.
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input logic[31:0] B, //Bus B - Input from the Readdata2 output from the reg file which corresponds to rt. Or from the 16-bit immediate sign extended to 32-bit value taken from Instr[15-0].
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input logic [4:0] ALUOp, // 5-bit output from Control that tells the alu what operation to do from a list of 20 distinct alu operations(see below).
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input logic [4:0] shamt, //5-bit input used to specify shift amount for shift operations. Taken directly from the R-type instruction (Non-Variable) or from
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output logic ALUCond, //If a relevant condition is met, this output goes high(Active High). Note: Relevant as in related to current condition being tested.
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output logic signed[31:0] ALURes // The ouput of the ALU
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);
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/*
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Alu Operations:
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-Manipulation Operations: They perform an operation on a value(s) and have an output to ALURes.
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- Addition (unsigned)
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- Subtraction (unsigned)
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- Multiplication
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- Division
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- Bitwise AND
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- Bitwise OR
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- Bitwise XOR
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- Shift Left Logical
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- Shift Left Logical Variable
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- Shift Right Logical
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- Shift Right Logical Variable
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- Shift Right Arithmetic
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- Shift Right Arithmetic Variable
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- Set On Less Than (signed)
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- Set On Less Than Unsigned
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- Multiplication (unsigned)
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- Division (unsigned)
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-Condtional Check Operations: They check conditions and have an output to ALUCond
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- Equality (=) (signed)
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- Less Than (<) (signed)
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- Less Than or Equal To (<=) (signed)
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- Greater Than (>) (signed)
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- Greater Than or Equal to (>=) (signed)
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- Negative Equality(=/=) (signed)
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-Implementation Operation: A design choice used for implmentation.
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- Pass-through (Used to implement MTHI and MTLO, as these instructions do not need the ALU but the alu is in the pathway to the regfile, so the register value simply passes through.)
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*/
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typedef enum logic [4:0]{ //Enum list to use words instead of numbers when refering to operations.
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ADD = 5'd0,
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SUB = 5'd1,
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MUL = 5'd2,//signed multiply
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DIV = 5'd3,//signed divide
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AND = 5'd4,
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OR = 5'd5,
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XOR = 5'd6,
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SLL = 5'd7,
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SLLV = 5'd8,
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SRL = 5'd9,
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SRLV = 5'd10,
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SRA = 5'd11,
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SRAV = 5'd12,
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EQ = 5'd13,
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LES = 5'd14,
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LEQ = 5'd15,
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GRT = 5'd16,
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GEQ = 5'd17,
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NEQ = 5'd18,
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PAS = 5'd19,
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SLT = 5'd20,//signed compare
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SLTU = 5'd21,//unsigned compare
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MULU = 5'd22,//unsigned divide
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DIVU = 5'd23//unsigned multiply
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} Ops;
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Ops ALUOps; //Note confusing naming to avoid potential duplicate variable naming errors, as a result of enum implemetnation.
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assign ALUOps = ALUOp;
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always_comb begin
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case(ALUOps)
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ADD: begin
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ALURes = $signed(A) + $signed(B);
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end
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SUB: begin
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ALURes = $signed(A) - $signed(B) ;
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end
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MUL: begin
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ALURes = $signed(A) * $signed(B);
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end
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DIV: begin
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ALURes = $signed(A) / $signed(B);
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end
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AND: begin
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ALURes = A & B;
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end
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OR: begin
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ALURes = A | B;
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end
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XOR: begin
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ALURes = A^B;
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end
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SLL: begin
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ALURes = B << shamt;
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end
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SLLV: begin
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ALURes = B << A;
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end
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SRL: begin
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ALURes = B >> shamt;
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end
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SRLV: begin
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ALURes = B >> A;
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end
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SRA: begin
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ALURes = B >>> shamt;
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end
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SRAV: begin
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ALURes = B >>> A;
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end
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EQ: begin
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if ($signed(A) == $signed(B)) begin
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ALUCond = 1;
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end
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else begin
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ALUCond = 0;
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end
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end
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LES: begin
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if ($signed(A) < $signed(B)) begin
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ALUCond = 1;
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end
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else begin
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ALUCond = 0;
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end
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end
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LEQ: begin
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if ($signed(A) <= $signed(B)) begin
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ALUCond = 1;
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end
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else begin
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ALUCond = 0;
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end
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end
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GRT: begin
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if ($signed(A) > $signed(B)) begin
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ALUCond = 1;
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end
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else begin
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ALUCond = 0;
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end
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end
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GEQ: begin
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if ($signed(A) >= $signed(B)) begin
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ALUCond = 1;
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end
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else begin
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ALUCond = 0;
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end
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end
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NEQ: begin
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if ($signed(A) != $signed(B)) begin
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ALUCond = 1;
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end
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else begin
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ALUCond = 0;
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end
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end
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PAS: begin
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ALURes = A;
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end
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SLT: begin
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if ($signed(A) < $signed(B)) begin
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ALURes = 1;
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end
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end
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SLTU: begin
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if (A < B) begin
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ALURes = 1;
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end
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end
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MULU: begin
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ALURes = A * B;
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end
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DIVU: begin
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ALURes = A / B;
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end
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endcase
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end
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endmodule |