# Debugging combinational logic loops in Icarus Verilog

I'm using Icarus verilog to simulate a reasonably complex design. I find that in some rare cases my simulation gets "stuck", i.e., the clock doesn't tick any more and none of the signals appear to change. I suspect this is because I have a combinational logic loop somewhere in my design. The problem, of course, is that I have no idea where.

Is there a systematic method debugging this? I'm just staring really hard at the code, but I'm unable to make any progress. Any suggestions on things I could try are much appreciated.

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When you run a simulation, dump a VCD file. If you have an infinite loop, you will see the VCD file size continue to grow without a new time being written to the file. Times are indicated by `#` at the beginning of a line. You will be able to determine which signals are changing without time advancing.

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good to know this tech besides using the step function in commercial simulators. –  Wei Song May 10 '12 at 13:43
Thanks for the answer, but the simulation time isn't advancing for me. There's nothing after the last #<time> statement. –  Pramod May 10 '12 at 14:48
Are you looking at the VCD file while the simulation is still running? –  toolic May 10 '12 at 15:03

IMO, most of the time infinite loops happen is with clock generation. Especially if you've them set up to generate variable frequencies. For example, if you've a clock set up like this:

```````timescale 1ns / 1ns
real period;
reg clk;

initial begin
period = 5.0;
clk = 1'b0;
forever begin
#(period/2) clk = !clk;
end
end
``````

If you change `period` then infinite loops can happen if you change `period` to 0.0 accidentally.

Even trickier, sometimes `period / 2` can fall outside of your timescale precision. For example, if you set `period = 1.0`, then `period / 2` is 0.5, and since your time precision is 1ns, this will snap to 0, causing infinite loops. If I suspect this, I usually put a guard on the time just before I go into the delay (again, careful with precision...) .

``````...
half_period_ns = period_ns / 2.0;
if( half_period_ns == 0 )
half_period_ns = 1;
#(half_period_ns) clk = !clk;
...
``````

Another thing to do is to run the simulation in interactive mode and randomly Ctrl-C, type in the command to ask the simulator where it's at (simulator specific, sadly, but in Incisive it's `where` I think), and resume the sim. Do this a few times and you'll be able to get an idea of code is taking up all the simulator's time.

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