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Is it efficient to calculate many results in parallel with multiprocessing.Pool.map() in a situation where each input value is large (say 500 MB), but where input values general contain the same large object? I am afraid that the way multiprocessing works is by sending a pickled version of each input value to each worker process in the pool. If no optimization is performed, this would mean sending a lot of data for each input value in map(). Is this the case? I quickly had a look at the multiprocessing code but did not find anything obvious.

More generally, what simple parallelization strategy would you recommend so as to do a map() on say 10,000 values, each of them being a tuple (vector, very_large_matrix), where the vectors are always different, but where there are say only 5 different very large matrices?

PS: the big input matrices actually appear "progressively": 2,000 vectors are first sent along with the first matrix, then 2,000 vectors are sent with the second matrix, etc.

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I think that Python multiprocessing: sharing a large read-only object between processes? might have the answers you're looking for. –  Rik Poggi Apr 20 '12 at 8:22
    
Thanks for your input. The difference between the question you refer to and this one is that the large matrices are essentially input values for map (the question linked to only uses a single, big object). Furthermore, it does not look like any of the solutions in the top answer is adapted to the case of this question. –  EOL Apr 20 '12 at 8:28

2 Answers 2

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I think that the obvious solution is to send a reference to the very_large_matrix instead of a clone of the object itself? If there are only five big matrices, create them in the main process. Then when the multiprocessing.Pool is instantiated it will create a number of child processes that clones the parent process' address space. That means that if there are six processes in the pool, there will be (1 + 6) * 5 different matrices in memory simultaneously.

So in the main process create a lookup of all unique matrices:

matrix_lookup = {1 : matrix(...), 2 : matrix(...), ...}

Then pass the index of each matrix in the matrix_lookup along with the vectors to the worker processes:

p = Pool(6)
pool.map(func, [(vector, 1), (vector, 2), (vector, 1), ...])
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This sounds like a good idea. I have one question though: will the dreaded copy on write curse eventually force a copy of each large matrix in each process? I have read that Python's object reference counts are stored along with the object: incrementing the reference count through referring to an object copies the whole object into the forked process (under most operating systems–Windows is worse, if I understand correctly). –  EOL Apr 21 '12 at 3:24
    
Yes, the dreaded copy on write will do that. However, having 5*(P+1) matrices in memory (where P is the number of processes in the pool) is significantly less than one matrix for each item in the list passed to map(). –  Björn Lindqvist Apr 22 '12 at 18:44
    
Thanks for the confirmation about copy-on-write. I'm not sure I understand why "item in the list passed to map()" use "significantly more" memory than having 5*(P+1) matrices in memory. In fact, the memory footprint of the list is essentially the size of the 5 matrices, which is less that the size of 5*(P+1) matrices (the reason is that Python internally uses pointers to the 5 matrices). –  EOL Apr 23 '12 at 3:57

I hit a similar issue: parallelizing calculations on a big dataset. As you mentioned multiprocessing.Pool.map pickles the arguments. What I did was to implement my own fork() wrapper that only pickles the return values back to the parent process, hence avoiding pickling the arguments. And a parallel map() on top of the wrapper.

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Did all your processes end up duplicating your big dataset? If I understand correctly, you had one big dataset: the question is about having a few big sets (there are already solutions available for a single big dataset at stackoverflow.com/q/659865/1132524–you might even want to add yours). –  EOL Apr 21 '12 at 3:33
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PS: Here is a reference to this "copy on write" memory duplication for read-only objects: stackoverflow.com/a/660026/42973. –  EOL Apr 21 '12 at 3:48
    
That's a good point about python reference counts causing copying pages in the forked child. –  Maxim Yegorushkin Apr 21 '12 at 5:23

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