I am trying to implement Booth's algorithm (a finite state machine implementation) for a Xilinx FPGA. Basically, at the start signal I will initialize my auxiliary regs, then I will go in state 0, where I will start to compare the 2 bits and do the shifting. I will repeat this until state 4 is reached.
assign Result = P[8:1]; always@(posedge clk or negedge start) if(start == 1) begin // initialize with start values state <= 3'd0; end else if(state == 3'd0 || state == 3'd1 || state == 3'd2 || state == 3'd3) begin // compare bits and shift data end endmodule
clk = 0; a = 4'b0011; b = 4'b0011; b = ~b+1; start = 1; #10; start = 0;
clk becomes ~clk after #5 time units.
I do not own an FPGA, so I cannot test the program (I'll have to test it later at class).
I am testing it with Icarus. The problem is that the auxiliary regs are not initialized before the first posedge of the clock.
What can I do in order to properly initialize my auxiliary variables and to maintain the code to be synthesizable? I've tried using a for loop and an initial begin, and the simulation works fine, but it will not work on the FPGA (because I have to use #delays).