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I am writing a code which uses a multiplier module which returns weird answers when one of the inputs is a negative number. I am guessing this has to do with how Verilog treats signed numbers and the module is not storing the result properly in the 'reg signed out' decleration. All my input/output/wire/reg declarations are signed, so I am not sure what I am missing and what else I need to do to tell Verilog to take care of this. Sorry for the beginner question!

For example,

When X[0] is 1610 and Theta1[1] is -123, the result I am getting from the multiplier module is: 6914897148530

Here are the relevant parts of my code:

module mult(in1, in2, out, mult_start); // multiplication module

input signed    [32-1:0]    in1, in2;
input               mult_start;

output      signed [64-1:0] out;
reg         signed [64-1:0] out;

always @(in1 or in2 or mult_start)
    if (mult_start)
        out <= (in1 * in2) & {64{1'b1}};
        out <= out;

module child_one (clk, rst_b, sig_start, Input_X, Input_Theta1)

// Internal Variables Memory
reg signed [`REG_LENGTH-1:0] Theta1 [0:217-1];
reg signed [`REG_LENGTH-1:0] X [0:216-1];
wire signed [`OUT_LENGTH-1:0] prod_1 [0:217-1];
reg signed [`OUT_LENGTH-1:0] prod_sum;
wire signed [`OUT_LENGTH-1:0] sig_result;

mult mult_001 (X[0], Theta1[1], prod_1[1], mult_start); 
mult mult_002 (X[1], Theta1[2], prod_1[2], mult_start); 
mult mult_003 (X[2], Theta1[3], prod_1[3], mult_start); 
mult mult_004 (X[3], Theta1[4], prod_1[4], mult_start); 

always @(posedge clk or negedge rst_b)
    if (sig_start == 1) 
        if (state == 4'b0000)
            state <= 4'b0001; // initialize state variable to zero
            k <= 0;
            result_done <= 0;
            index <= 0;
        else if (state == 4'b0001) // Start Multiplication Operation
            k               <= result_done ?      0     : k + 1;
            result_done     <= result_done ?      1     : (k == 10);
            state       <= result_done ?      4'b0010   : 4'b0001;
            mult_start  <= result_done ?      1'b1  : 1'b0; 
        //mult_start <= 1'b1;
        //state <= 4'b0010;
        else if (state == 4'b0010) // Stop Multiplication Operation
            k <= 0;
            result_done <= 0;
            mult_start <= 0;
            state <= 4'b0011;




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I don't know Verilog at all and I don't know why this question is tagged VHDL, but I cannot see how assigning to Theta1[0] affects any of the multiplier modules at all. –  Brian Drummond Mar 3 '13 at 13:32
sorry about both those things. The Theta1[0] example was something I added at the end to show the problem I was having n I didn't paste it properly. As for the vhdl tag, that was cos I thought the problem I am having is a hardware language issue and someone who knew HDLs could let me know what I am missing with regards to signed, two's complement, sign extend, or something like that... –  Faisal Rasool Mar 3 '13 at 21:47
That's OK. I hear enough odd things about Verilog that I decided to avoid it - including that it does unsigned arithmetic by default; and signed and unsigned multiplication are somewhat different processes. All I can suggest is to create a testbench for the multiplier module and work on it in isolation - simplify it to "out <= (in1 * in2)", add assert/report to see its internals, or additional output ports for intermediate signals, until you understand it and it does what you expect - then add back in any other functionality you need. In VHDL, numeric_std.signed would make this module easy. –  Brian Drummond Mar 3 '13 at 21:56
thanks for the suggestion about writing a testbench for the multiplier module. i tried a bunch of cases in the testbench and it worked through some trial and error! it was an issue of sign extension. –  Faisal Rasool Mar 4 '13 at 6:13
If you solved your problem, consider posting your solution as an answer and ticking the 'accept' checkbox. Then we know it's been solved. Thanks! –  Tim Mar 4 '13 at 20:00

1 Answer 1

up vote 2 down vote accepted

Thanks for all the help and suggestions. Writing a separate testbench for the mult module helped arrive at a solution.

My issue was in the mult module. Since my inputs are 32 bits long, the mult output would be 32*2+1 = 65 bits long. My output port 'out' was only assigned to be 64 bits long which resulted in a sign issue when the answer was a negative number. Assigning it to be 65 bits long took care of my problem.

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