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I'd like to run multiple instances of program.py simultaneously, while limiting the number of instances running at the same time (e.g. to the number of CPU cores available on my system). For example, if I have 10 cores and have to do 1000 runs of program.py in total, only 10 instances will be created and running at any given time.

I've tried using the multiprocessing module, multithreading, and using queues, but there's nothing that seemed to me to lend itself to an easy implementation. The biggest problem I have is finding a way to limit the number of processes running simultaneously. This is important because if I create 1000 processes at once, it becomes equivalent to a fork bomb. I don't need the results returned from the processes programmatically (they output to disk), and the processes all run independently of each other.

Can anyone please give me suggestions or an example of how I could implement this in python, or even bash? I'd post the code I've written so far using queues, but it doesn't work as intended and might already be down the wrong path.

Many thanks.

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Have you tried Python process pools? –  C2H5OH Aug 16 '12 at 23:04
The simplest way to do this is to create a "controller" program that creates the multiprocessing.pool and spawns the worker (program.py) threads, reallocating work as instances finish. –  jozzas Aug 16 '12 at 23:04
Thanks, I'll try this; in my first attempt for some reason I came to the conclusion that multiprocessing.pool wasn't what I wanted, but now it seems right. So in this case, worker threads would just spawn program.py (as a thread? with subprocess.Popen)? Could you please post a rough example or template implementation I could follow? –  steadfast Aug 16 '12 at 23:14
Like most of the Python docs, there is example code for using them a bit further down the page. –  g.d.d.c Aug 16 '12 at 23:32
So something like: pool = multiprocessing.Pool(10) pool.map(func, 1000) What I don't get is what to make func? Am I calling program.py with subprocess.Popen, or is there a better way? Seems somehow redundant to import both subprocess and multiprocessing. Thanks. –  steadfast Aug 17 '12 at 0:00

3 Answers 3

I know you mentioned that the Pool.map approach doesn't make much sense to you. The map is just an easy way to give it a source of work, and a callable to apply to each of the items. The func for the map could be any entry point to do the actual work on the given arg.

If that doesn't seem right for you, I have a pretty detailed answer over here about using a Producer-Consumer pattern: http://stackoverflow.com/a/11196615/496445

Essentially, you create a Queue, and start N number of workers. Then you either feed the queue from the main thread, or create a Producer process that feeds the queue. The workers just keep taking work from the queue and there will never be more concurrent work happening than the number of processes you have started.

You also have the option of putting a limit on the queue, so that it blocks the producer when there is already too much outstanding work, if you need to put constraints also on the speed and resources that the producer consumes.

The work function that gets called can do anything you want. This can be a wrapper around some system command, or it can import your python lib and run the main routine. There are specific process management systems out there which let you set up configs to run your arbitrary executables under limited resources, but this is just a basic python approach to doing it.

Snippets from that other answer of mine:

Basic Pool:

from multiprocessing import Pool

def do_work(val):
    # could instantiate some other library class,
    # call out to the file system,
    # or do something simple right here.
    return "FOO: %s" % val

pool = Pool(4)
work = get_work_args()
results = pool.map(do_work, work)

Using a process manager and producer

from multiprocessing import Process, Manager
import time
import itertools

def do_work(in_queue, out_list):
    while True:
        item = in_queue.get()

        # exit signal 
        if item == None:

        # fake work
        result = item


if __name__ == "__main__":
    num_workers = 4

    manager = Manager()
    results = manager.list()
    work = manager.Queue(num_workers)

    # start for workers    
    pool = []
    for i in xrange(num_workers):
        p = Process(target=do_work, args=(work, results))

    # produce data
    # this could also be started in a producer process
    # instead of blocking
    iters = itertools.chain(get_work_args(), (None,)*num_workers)
    for item in iters:

    for p in pool:

    print results
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Very good example, I improved it by getting the number of CPUS like they explain in stackoverflow.com/questions/6905264/… and so I could dinamically set num_workers based on the CPUs of the machine. –  Jose Luis de la Rosa Aug 17 '14 at 16:23

You should use a process supervisor. One approach would be using the API provided by Circus to do that "programatically", the documentation site is now offline but I think its just a temporary problem, anyway, you can use the Circus to handle this. Another approach would be using the supervisord and setting the parameter numprocs of the process to the number of cores you have.

An example using Circus:

from circus import get_arbiter

arbiter = get_arbiter("myprogram", numprocesses=3)
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Bash script rather than Python, but I use it often for simple parallel processing:

#!/usr/bin/env bash
 nprocs=$(pgrep -f $procName | wc -l)
 while [ $nprocs -gt $MAXPROCS ]; do
  sleep $SLEEPTIME
  nprocs=$(pgrep -f $procName | wc -l)
for file in ./data/*.txt; do
 ./$procName $file &

Or for very simple cases, another option is xargs where P sets the number of procs

find ./data/ | grep txt | xargs -P10 -I SUB ./myPython.py SUB 
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