8 Bit Array Multiplier Verilog Code May 2026

// Generate partial products: pp[i][j] = A[i] & B[j] genvar i, j; generate for (i = 0; i < 8; i = i + 1) begin : pp_gen for (j = 0; j < 8; j = j + 1) begin : bit_gen assign pp[i][j] = A[i] & B[j]; end end endgenerate

integer i, j; initial begin $monitor("Time=%0t | A=%d B=%d | Product=%d (expected %d)", $time, A, B, P, A*B); for (i = 0; i < 256; i = i + 1) begin for (j = 0; j < 256; j = j + 1) begin A = i; B = j; #10; if (P !== A*B) begin $display("ERROR: %d * %d = %d, but got %d", A, B, A*B, P); $finish; end end end $display("All tests passed."); $finish; end endmodule Running the testbench yields correct multiplication for all 65,536 input combinations. Example: 8 bit array multiplier verilog code

// Row 1: half adder at LSB, rest pass carry/sum assign sum[0][0] = pp[1][0]; assign carry[0][0] = 1'b0; // Not used // Generate partial products: pp[i][j] = A[i] &