/* * ALU */ module ALU( input [31:0] a, b, input [3:0] opcode, output reg [31:0] y ); // Opcodes localparam OP_OR = 4'b0000, // OR OP_AND = 4'b0001, // AND OP_XOR = 4'b0010, // XOR OP_ADD = 4'b0011, // Add OP_SUB = 4'b0100, // Substract OP_SHIFTL = 4'b0101, // Shift left OP_SHIFTR = 4'b0110, // Shift right OP_NOTA = 4'b0111, // ~A OP_MULTS = 4'b1000, // Multiplication signed OP_MULTU = 4'b1001, // Multiplication unsigned OP_SLT = 4'b1010, // Set on less than signed OP_SLTU = 4'b1011, // Set on less than unsigned OP_LOAD = 4'b1100, // Load input B ( y := b ) OP_LOADHI = 4'b1101, // Loadhi input B ( y := {(b<<16), a} ) OP_SHIFTRS = 4'b1110, // Shift right with sign extesion OP_U7 = 4'b1111; // Unimplemented always @ (*) begin case (opcode) OP_OR: y <= a | b; OP_AND: y <= a & b; OP_XOR: y <= a ^ b; OP_ADD: y <= a + b; OP_SUB: y <= a - b; OP_SHIFTL: y <= a << b; OP_SHIFTR: y <= a >> b; OP_NOTA: y <= ~a; OP_MULTS: y <= $signed(a) * $signed(b); OP_MULTU: y <= a * b; OP_SLT: y <= {{31{1'b0}}, ($signed(a) < $signed(b))}; OP_SLTU: y <= {{31{1'b0}}, (a < b)}; OP_LOAD: y <= b; OP_LOADHI: y <= {b[15:0], a[15:0]}; OP_SHIFTRS: y <= $signed(a) >>> b; OP_U7: y <= 32'd0; endcase end endmodule