# Timing issue in Verilog

I am new to verilog and I am working on verilg code that defines two modules. The first module calculates the mod of 2 numbers and the second uses the result to do some operation on it.

The result was wrong and has alot of don't care values because the same clk was used in both modules. Any suggestion please for synchronisation.

The mod module

``````module mod(m,a,b);
input  [15:0] a,b;
output [15:0] m;

reg [31:0] mod;
reg [31:0] mul;

integer i;

always @* begin
mul = a*b;
mod = 32'h80008000;
for(i=0;i<16;i=i+1) begin
if(mul > mod) begin
mul = mul - mod;
mod = mod >> 1;
end
else begin
mod = mod >> 1;
end
end
assign m=mul[15:0];
endmodule
``````

Part of the top module:

``````initial begin
keyp <= 2'b10;
shift <= 1'b0;
end

always @(posedge clk) begin
case (keyp)
2'b10: begin
key[127:64] <= {k1,k0};
keyp        <= 2'b01;
end
2'b01: begin
key[63:0] <= {k1,k0};
keyp      <= 2'b00;
shift     <= 1'b1;
end
//default: keyp <=2'b00;
endcase
else if (shift) begin
//shift key for first round
temp[24:0]    <= key[127:103];
key[127:25]   <= key[102:0];
key [24:0]    <= temp [24:0];
shift         <= 1'b0;
end
end

assign w1[2*SIZE-1:SIZE]   = d1+key[2*SIZE-1:SIZE];
assign w1[3*SIZE-1:2*SIZE] = d2+key[3*SIZE-1:2*SIZE];

mod mod1( w1[SIZE-1:0],        d0, key[SIZE-1:0]       );
mod mod2( w1[4*SIZE-1:3*SIZE], d3, key[4*SIZE-1:3*SIZE]);
``````
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x's are referred to as do not cares in casex statements or Karnaugh maps, here they represent unknown values. Unknown values can come from a value not being initialised (reset) or multiple (conflicting) drivers.

The mod module contains this section of code:

``````always @* begin
mul = a*b;
mod = 32'h80008000;
for(i=0;i<16;i=i+1) begin
if(mul > mod) begin
mul = mul - mod;
mod = mod >> 1;
end
else begin
mod = mod >> 1;
end
end
``````

`always @*` is a combinatorial block, you assign mul multiple times only the last assignment will have any effect.

The use of a for loop here makes it look like you are trying to reuse variables, as you would in c. Remember that we are describing hardware and that the value is intended to exist somewhere as flip flops or wires between modules and can only hold a single value in any given clock cycle.

In the combinatorial block you have `mul = mul - mod;` that is mul defining itself this will not work, you need to add a flip flop to break the loop.

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