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When running a large number of tasks (with large parameters) using Pool.apply_async, the processes are allocated and go to a waiting state, and there is no limit for the number of waiting processes. This can end up by eating all memory, as in the example below:

import multiprocessing
import numpy as np

def f(a,b):
    return np.linalg.solve(a,b)

def test():

    p = multiprocessing.Pool()
    for _ in range(1000):
        p.apply_async(f, (np.random.rand(1000,1000),np.random.rand(1000)))
    p.close()
    p.join()

if __name__ == '__main__':
    test()

I'm searching for a way to limit the waiting queue, in such a way that there is only a limited number of waiting processes, and Pool.apply_async is blocked while the waiting queue is full.

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Nice example (+1). –  mgilson Jun 15 '12 at 18:54

2 Answers 2

up vote 3 down vote accepted

multiprocessing.Pool has a _taskqueue member of type multiprocessing.Queue, which takes an optional maxsize parameter; unfortunately it constructs it without the maxsize parameter set.

I'd recommend subclassing multiprocessing.Pool with a copy-paste of multiprocessing.Pool.__init__ that passes maxsize to _taskqueue constructor.

Monkey-patching the object (either the pool or the queue) would also work, but you'd have to monkeypatch pool._taskqueue._maxsize and pool._taskqueue._sem so it would be quite brittle:

pool._taskqueue._maxsize = maxsize
pool._taskqueue._sem = BoundedSemaphore(maxsize)
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I'm using Python 2.7.3, and the _taskqueue is of type Queue.Queue. It means it is a simple Queue, and not a multiprocessing.Queue. Subclassing multiprocessing.Pool and overriding init works fine, but monkey-patching the object is not working as expected. However, this is the hack that I was searching for, thanks. –  André Panisson Jun 15 '12 at 22:43

You could add explicit Queue with maxsize parameter and use queue.put() instead of pool.apply_async() in this case. Then worker processes could:

for a, b in iter(queue.get, sentinel):
    # process it

If you want to limit the number of created input arguments/results that are in memory to approximately the number of active worker processes then you could use pool.imap*() methods:

#!/usr/bin/env python
import multiprocessing
import numpy as np

def f(a_b):
    return np.linalg.solve(*a_b)

def main():
    args = ((np.random.rand(1000,1000), np.random.rand(1000))
            for _ in range(1000))
    p = multiprocessing.Pool()
    for result in p.imap_unordered(f, args, chunksize=1):
        pass
    p.close()
    p.join()

if __name__ == '__main__':
    main()
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