How can I make multiprocessing.pool.map distribute processes in numerical order?

More Info:
I have a program which processes a few thousand data files, making a plot of each one. I'm using a multiprocessing.pool.map to distribute each file to a processor and it works great. Sometimes this takes a long time, and it would be nice to look at the output images as the program is running. This would be a lot easier if the map process distributed the snapshots in order; instead, for the particular run I just executed, the first 8 snapshots analyzed were: 0, 78, 156, 234, 312, 390, 468, 546. Is there a way to make it distribute them more closely to in numerical order?

Here's a sample code which contains the same key elements, and show's the same basic result:

import sys
from multiprocessing import Pool
import time

num_proc  = 4; num_calls = 20; sleeper   = 0.1

def SomeFunc(arg):
    print "%5d" % (arg),
    sys.stdout.flush()     # otherwise doesn't print properly on single line

proc_pool = Pool(num_proc)
proc_pool.map( SomeFunc, range(num_calls) )


   0  4  2  6   1   5   3   7   8  10  12  14  13  11   9  15  16  18  17  19


From @Hayden: Use the 'chunksize' parameter, def map(self, func, iterable, chunksize=None).

More Info:
The chunksize determines how many iterations are allocated to each processor at a time. My example above, for instance, uses a chunksize of 2---which means that each processor goes off and does its thing for 2 iterations of the function, then comes back for more ('check-in'). The trade-off behind chunksize is that there is overhead for the 'check-in' when the processor has to sync up with the others---suggesting you want a large chunksize. On the other hand, if you have large chunks, then one processor might finish its chunk while another-one has a long time left to go---so you should use a small chunksize. I guess the additional useful information is how much range there is, in how long each function call can take. If they really should all take the same amount of time - it's way more efficient to use a large chunk size. On the other hand, if some function calls could take twice as long as others, you want a small chunksize so that processors aren't caught waiting.

For my problem, every function call should take very close to the same amount of time (I think), so if I want the processes to be called in order, I'm going to sacrifice efficiency because of the check-in overhead.

  • What do you use to plot the data?
    – satoru
    Jul 27 '13 at 23:57
  • @Satoru.Logic I don't see how it's relevant, but from inside SomeFunc I would call another function, e.g. PlotFunc() which produces an image with matplotlib and pyplot and saves it to disk. Jul 28 '13 at 0:31
  • Is it possible to do some preprocessing in parallel and then plot in sequence?
    – satoru
    Jul 28 '13 at 0:49
  • Ah, I see - Not really, the majority of computational time is just in reading the files so I would have to wait for 90% of the total-time to be completed before plotting anything. Jul 28 '13 at 1:03

The reason that this occurs is because each process is given a predefined amount of work to do at the start of the call to map which is dependant on the chunksize. We can work out the default chunksize by looking at the source for pool.map

chunksize, extra = divmod(len(iterable), len(self._pool) * 4)
if extra:
  chunksize += 1

So for a range of 20, and with 4 processes, we will get a chunksize of 2.

If we modify your code to reflect this we should get similar results to the results you are getting now:

proc_pool.map(SomeFunc, range(num_calls), chunksize=2)

This yields the output:

0 2 6 4 1 7 5 3 8 10 12 14 9 13 15 11 16 18 17 19

Now, setting the chunksize=1 will ensure that each process within the pool will only be given one task at a time.

proc_pool.map(SomeFunc, range(num_calls), chunksize=1)

This should ensure a reasonably good numerical ordering compared to that when not specifying a chunksize. For example a chunksize of 1 yields the output:

0 1 2 3 4 5 6 7 9 10 8 11 13 12 15 14 16 17 19 18

  • 1
    Awesome! Thanks. Do you have any insights into why they choose this chunksize algorithm? Or in general, what factors should be considered for performance optimization? (It doesn't seem like, in my case, the chunksize would have any effect on performance) Jul 28 '13 at 1:34
  • Can I ask a question? By setting chuncksize = 1, is this pool.map function run algorithm simultaneously? or it will kick off few workers, but they will do things in order? I dont quite understand "block" in the documentation..
    – Oldyoung
    Aug 4 '16 at 15:00

What about changing map to imap:

import os
from multiprocessing import Pool
import time

num_proc = 4
num_calls = 20
sleeper = 0.1

def SomeFunc(arg):
    print "%s %5d" % (os.getpid(), arg)
    return arg

proc_pool = Pool(num_proc)
list(proc_pool.imap(SomeFunc, range(num_calls)))

The reason maybe that the default chunksize of imap is 1, so it may not run as far as map.

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