I am trying to run a program many times in parallel (with different arguments). I searched online and found that subprocess in python is a good way to do that. My code is the following:

import subprocess
import os

procs = []
i = 0
for model_name in os.listdir(models_path):
    if num_of_procs_running > num_of_procs:
        for p in procs:
        procs = []
        num_of_procs_running = 0
    elif model_name.endswith(".onnx"):
        name, ending = model_name.split(".")
        runner = './SOME_PROGRAM '+str(i)+'> output.txt'
        num_of_procs_running += 1
        print("Total processes:",num_of_procs_running)
for p in procs:

I am getting Segmentation Fault(core dumped) if I am trying to run more than 56 subprocesses. My machine has 56 CPU's and and each CPU has 12 cores. How can I run more than 56 subprocesses, or maybe use threads? Thanks.

  • 1
    Your first step in debugging this needs to be to find a way to reliably trigger the segfault when running your MY_PROGRAM executable directly. Then fire up a debugger (e.g. gdb) and see why it's crashing. Your Python code is not the problem here -- the problem lies in MY_PROGRAM somehow. – Daniel Pryden Aug 28 '18 at 19:43
  • 1
    As an aside: don't use shell=True, especially when you're assembling the arguments manually like this. Just pass a list of arguments directly. – Daniel Pryden Aug 28 '18 at 19:44
  • Is there a reason you do not use name and ending? – David Cullen Aug 28 '18 at 20:12
  • @DavidCullen yes. It is being use in my original code. It's not necessary for this post.. It's one of the arguments sent to the program. – Guy Ohayon Aug 29 '18 at 6:14
  • 2
    @GuyOhayon: Mostly you should avoid passing arguments in one string. Why launch a whole separate process (the shell) just to parse a string into a list of strings for you? And if you accidentally assemble the string incorrectly, the shell could execute arbitrary commands you didn't expect, whereas if you pass a list of strings, that doesn't happen. But addressing your other comment: can you reproduce exactly the same command line in both cases? Can you try otherwise to reproduce the environment (match up env vars, redirect or close stdin/stdout, etc.)? – Daniel Pryden Aug 29 '18 at 12:12

1) As @danielpryden already suggested don't invoke a shell:

import subprocess

# bad (mocking your code)
p = subprocess.Popen("echo 1 > output.txt", shell=True)

# better
fp = open("output.txt", "w")
p = subprocess.Popen(["echo", "1"], stdout=fp)

p.wait() # or do something else
fp.close() # remember to close file

2) When reaching the maximum number of threads, it waits until all threads have finished, quite inefficent. What you seemingly try to achieve is exactly what multiprocessing.pool.Pool does:

from multiprocessing.pool import Pool

# mocking your code
modules = ["mod1.onnx", "mod2.onnx"]

def run(module):
  print("running", module)

# use the maximum number of threads by default
with Pool() as pool:
  pool.map(run, modules)

3) The segmentation fault isn't caused by your Python application, but rather from whatever program you try to execute. If it's C++ have a look at std::thread::hardware_concurrency; You need to change the program code not your python script.

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