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I am confused with Python multiprocessing.

I am trying to speed up a function which process strings from a database but I must have misunderstood how multiprocessing works because the function takes longer when given to a pool of workers than with “normal processing”.

Here an example of what I am trying to achieve.

from time import clock, time
from multiprocessing import Pool, freeze_support

from random import choice

def foo(x):
    TupWerteMany = []
    for i in range(0,len(x)):
         TupWerte = []
          s = list(x[i][3])
          NewValue = choice(s)+choice(s)+choice(s)+choice(s)
          TupWerte = tuple(TupWerte)

     return TupWerteMany

 if __name__ == '__main__':
     start_time = time()
     List = [(u'1', u'aa', u'Jacob', u'Emily'),
        (u'2', u'bb', u'Ethan', u'Kayla')]
     List1 = List*1000000

     # METHOD 1 : NORMAL (takes 20 seconds) 
     x2 = foo(List1)
     print x2[1:3]

     # METHOD 2 : APPLY_ASYNC (takes 28 seconds)
     #    pool = Pool(4)
     #    Werte = pool.apply_async(foo, args=(List1,))
     #    x2 = Werte.get()
     #    print '--------'
     #    print x2[1:3]
     #    print '--------'

     # METHOD 3: MAP (!! DOES NOT WORK !!)

     #    pool = Pool(4)
     #    Werte =, args=(List1,))
     #    x2 = Werte.get()
     #    print '--------'
     #    print x2[1:3]
     #    print '--------'

     print 'Time Elaspse: ', time() - start_time

My questions:

  1. Why does apply_async takes longer than the “normal way” ?
  2. What I am doing wrong with map?
  3. Does it makes sense to speed up such tasks with multiprocessing at all?
  4. Finally: after all I have read here, I am wondering if multiprocessing in python works on windows at all ?
share|improve this question
(1) has been addressed many times, the short story is that concurrency is not a magic go-faster pixie dust, it has overhead and is also limited by processor count and how much resources the OS can give away. I'd go search a link but these things are quite hard to search for. – delnan Aug 24 '12 at 20:15
Thanks Delnan. Please trust that I searched extensively before asking the question. I understand your point but hope that someone out there may have a "concrete" answer to this particular case. – user1043144 Aug 24 '12 at 20:23
@user1043144: How does the time change when you vary the number of processes in the pool? – Joel Cornett Aug 24 '12 at 20:25
actually no difference. I must have made a mistake somewhere. – user1043144 Aug 24 '12 at 20:27
The reason your map doesn't work is that you have the arguments wrong; there is no args argument. It would be, List1) (just like the bultin map), but foo actually wants a list. You should either change foo to just the inner-loop part or do something like, (List1[i:i+10] for i in xrange(len(List1), None, None, 10)). – Dougal Aug 24 '12 at 20:39
up vote 2 down vote accepted

So your first problem is that there is no actual parallelism happening in foo(x), you are passing the entire list to the function once.

1) The idea of a process pool is to have many processes doing computations on separate bits of some data.

 jobs = 4
 size = len(List1)
 pool = Pool(4)
 results = []
 # split the list into 4 equally sized chunks and submit those to the pool
 heads = range(size/jobs, size, size/jobs) + [size]
 tails = range(0,size,size/jobs)
 for tail,head in zip(tails, heads):
      werte = pool.apply_async(foo, args=(List1[tail:head],))

 pool.join() # wait for the pool to be done

 for result in results:
      werte = result.get() # get the return value from the sub jobs

This will only give you an actual speedup if the time it takes to process each chunk is greater than the time it takes to launch the process, in the case of four processes and four jobs to be done, of course these dynamics change if you've got 4 processes and 100 jobs to be done. Remember that you are creating a completely new python interpreter four times, this isn't free.

2) The problem you have with map is that it applies foo to EVERY element in List1 in a separate process, this will take quite a while. So if you're pool has 4 processes map will pop an item of the list four times and send it to a process to be dealt with - wait for process to finish - pop some more stuff of the list - wait for the process to finish. This makes sense only if processing a single item takes a long time, like for instance if every item is a file name pointing to a one gigabyte text file. But as it stands map will just take a single string of the list and pass it to foo where as apply_async takes a slice of the list. Try the following code

def foo(thing):
    print thing

map(foo, ['a','b','c','d'])

That's the built-in python map and will run a single process, but the idea is exactly the same for the multiprocess version.

Added as per J.F.Sebastian's comment: You can however use the chunksize argument to map to specify an approximate size of for each chunk., List1, chunksize=size/jobs) 

I don't know though if there is a problem with map on Windows as I don't have one available for testing.

3) yes, given that your problem is big enough to justify forking out new python interpreters

4) can't give you a definitive answer on that as it depends on the number of cores/processors etc. but in general it should be fine on Windows.

share|improve this answer
Also, for smaller set sof operations that don't cost much, the overhead in setting up the multiprocessing stuff is greater than any speedups you get – reptilicus Aug 24 '12 at 20:26
thanks. This is just an example I created. My actual problem involves huge data sets. – user1043144 Aug 24 '12 at 20:30 doesn't launch a new process each time; it reuses the four (or however many) created by the Pool. It does pickle/unpickle the arguments each time, however. – Dougal Aug 24 '12 at 20:36
I never said it launches a new process – Matti Lyra Aug 24 '12 at 20:37
@user1043144 if by huge you mean HUUGEE!! you might want to consider not loading in the data in the main process but in foo, you could possibly use mmap to only load that part of the file(s) that is actually needed. Loading and passing around all that data will also cost you, so depending on what huge is there could be some significant savings had there as well. – Matti Lyra Aug 24 '12 at 20:40

On question (2) With the guidance of Dougal and Matti, I figured out what's went wrong. The original foo function processes a list of lists, while map requires a function to process single elements.

The new function should be

def foo2 (x):
    TupWerte = []
    s = list(x[3])
    NewValue = choice(s)+choice(s)+choice(s)+choice(s)
    TupWerte = tuple(TupWerte)
    return TupWerte

and the block to call it :

jobs = 4
size = len(List1)
pool = Pool()
#Werte =, List1, chunksize=size/jobs)
Werte =, List1)
print Werte[1:3]

Thanks to all of you who helped me understand this.

Results of all methods: for List * 2 Mio records: normal 13.3 seconds , parallel with async: 7.5 seconds, parallel with with map with chuncksize : 7.3, without chunksize 5.2 seconds

share|improve this answer

Here's a generic multiprocessing template if you are interested.

import multiprocessing as mp
import time

def worker(x):
    print "x= %s, x squared = %s" % (x, x*x)
    return x*x

def apply_async():
    pool = mp.Pool()
    for i in range(100):
        pool.apply_async(worker, args = (i, ))

if __name__ == '__main__':

And the output looks like this:

x= 0, x squared = 0
x= 1, x squared = 1
x= 2, x squared = 4
x= 3, x squared = 9
x= 4, x squared = 16
x= 6, x squared = 36
x= 5, x squared = 25
x= 7, x squared = 49
x= 8, x squared = 64
x= 10, x squared = 100
x= 11, x squared = 121
x= 9, x squared = 81
x= 12, x squared = 144

As you can see, the numbers are not in order, as they are being executed asynchronously.

share|improve this answer
How is this related to the question? A generic mp template can be found in the docs as well? – Matti Lyra Aug 24 '12 at 20:41
b/c they weren't even using the multiprocessing the correct way in the question. This is a proper way to do it, the poster can use it to rewrite their function correctly for gods sake. – reptilicus Aug 24 '12 at 20:46

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