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
period = 5.0;
clk = 1'b0;
#(period/2) clk = !clk;
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.