module mips_cpu_regfile( input logic clk, //clock input for triggering write port input logic[4:0] readreg1, //read port 1 register selector input logic[4:0] readreg2, //read port 2 register selector input logic[4:0] writereg, //write port register selector input logic[31:0] writedata, //write port input data input logic regwrite, //enable line for write port input[5:0] opcode, //opcode input for controlling partial load weirdness output logic[31:0] readdata1, //read port 1 output output logic[31:0] readdata2, //read port 2 output input logic[1:0] vaddr, //partial read offset from ALUout output logic[31:0] regv0 //debug output of $v0 or $2 (third register in file/ first register for returning function results) ); reg[31:0] memory [31:0]; //32 register slots, 32-bits wide initial begin integer i; //Initialise to zero by default for (i = 0; i < 32; i++) begin memory[i] = 0; end end assign regv0 = memory[2]; //assigning debug $v0 line to $2 of memory assign readdata1 = memory[readreg1]; //combinatorially output register value based on read port 1 selector assign readdata2 = memory[readreg2]; //combinatorially output register value based on read port 2 selector always_ff @(negedge clk) begin if (writereg == 5'b00000) begin // skip writing if rd is $0 end else if (regwrite) begin case (opcode) 6'b100000: begin //lb, load byte case (vaddr) 2'b00: memory[writereg] <= {{24{writedata[7]}}, writedata[7:0]}; 2'b01: memory[writereg] <= {{24{writedata[15]}}, writedata[15:8]}; 2'b10: memory[writereg] <= {{24{writedata[23]}}, writedata[23:16]}; 2'b11: memory[writereg] <= {{24{writedata[31]}}, writedata[31:24]}; endcase // readdata1[1:0] end 6'b100100: begin //lbu, load byte unsigned case (vaddr) 2'b00: memory[writereg] <= {{24{1'b0}}, writedata[7:0]}; 2'b01: memory[writereg] <= {{24{1'b0}}, writedata[15:8]}; 2'b10: memory[writereg] <= {{24{1'b0}}, writedata[23:16]}; 2'b11: memory[writereg] <= {{24{1'b0}}, writedata[31:24]}; endcase // readdata1[1:0] end 6'b100001: begin //lh, load half-word case (vaddr]) // must be half-word aligned, readdata1[0] = 0 2'b00: memory[writereg] <= {{16{writedata[15]}}, writedata[15:0]}; 2'b10: memory[writereg] <= {{16{writedata[31]}}, writedata[31:16]}; endcase // readdata1[1:0] end 6'b100101: begin //lhu, load half-word unsigned case (vaddr) // must be half-word aligned, readdata1[0] = 0 2'b00: memory[writereg] <= {{16{1'b0}}, writedata[15:0]}; 2'b10: memory[writereg] <= {{16{1'b0}}, writedata[31:16]}; endcase // readdata1[1:0] end 6'b100010: begin //lwl, load word left case (vaddr) 2'b00: memory[writereg][31:24] <= writedata[7:0]; 2'b01: memory[writereg][31:16] <= writedata[15:0]; 2'b10: memory[writereg][31:8] <= writedata[23:0]; 2'b11: memory[writereg][31:0] <= writedata[31:0]; endcase // readdata1[1:0] end 6'b100110: begin //lwr, load word right case (vaddr) 2'b00: memory[writereg][31:0] <= writedata[31:0]; 2'b01: memory[writereg][23:0] <= writedata[31:8]; 2'b10: memory[writereg][15:0] <= writedata[31:16]; 2'b11: memory[writereg][7:0] <= writedata[31:24]; endcase // readdata1[1:0] end default: begin memory[writereg] <= writedata; //most instructions end endcase // opcode end end endmodule