module alu ( input [3:0] op, input [15:0] x, input [15:0] y, output [15:0] result, output zero, output carry ); // op: // 0000: result = x + y // 0001: result = x - y // 0010: result = x * y // 0011: result = x / y // 0100: result = x & y // 0101: result = x | y // 0110: result = x ^ y // 0111: result = x // 1000: result = x << y (zero extend) // 1001: result = x << y (one extend) // 1010: result = x << y (extend with last bit) // 1011: result = x << y (barrel shift) // 1100: result = x >> y (zero extend) // 1101: result = x >> y (one extend) // 1110: result = x >> y (extend with sign bit) // 1111: result = x >> y (barrel shift) wire [16:0] sum; wire [16:0] prod; wire [16:0] quot; wire [15:0] anded; wire [15:0] ored; wire [15:0] xored; wire [15:0] shifted; wire issum; assign issum = ~|(op[3:1]); assign sum = x + (op[0] ? ~y + 1 : y); assign prod = x * y; assign quot = x / y; assign anded = x & y; assign ored = x | y; assign xored = x ^ y; shifter shifter_inst ( .v(x), .by(y), .dir(op[2]), .extend(op[1:0]), .result(shifted) ); assign result = issum ? sum[15:0] : op == 4'b0010 ? prod[15:0] : op == 4'b0011 ? quot[15:0] : op == 4'b0100 ? anded : op == 4'b0101 ? ored : op == 4'b0110 ? xored : op == 4'b0111 ? x : shifted; assign zero = ~(|result); assign carry = issum ? sum[16] : 1'b0; endmodule