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I am looking for a definitive answer to MATLAB's parfor for Python (Scipy, Numpy).

Is there a solution similar to parfor? If not, what is the complication for creating one?

UPDATE: Here is a typical numerical computation code that I need speeding up

import numpy as np

N = 2000
output = np.zeros([N,N])
for i in range(N):
    for j in range(N):
        output[i,j] = HeavyComputationThatIsThreadSafe(i,j)

An example of a heavy computation function is:

import scipy.optimize

def HeavyComputationThatIsThreadSafe(i,j):
    n = i * j

    return scipy.optimize.anneal(lambda x: np.sum((x-np.arange(n)**2)), np.random.random((n,1)))[0][0,0]
share|improve this question
up vote 12 down vote accepted

There are many Python frameworks for parallel computing. The one I happen to like most is IPython, but I don't know too much about any of the others. In IPython, one analogue to parfor would be or some of the other constructs in the documentation on quick and easy parallelism.

share|improve this answer
+1 Didn't know about client.MultiEngineClient even though I do use IPython. Thanks for the steer! – David Heffernan Jan 13 '11 at 16:46
It is not apparent to me whether I can run a code sped up with IPython parallel computing framework in script mode, i.e. not running through ipython. – Dat Chu Jan 13 '11 at 17:17
@Dat Chu: Of course you can. Just write the commands you would type at the prompt in a file an run it with Python. (Is this what you are asking for?) – Sven Marnach Jan 13 '11 at 18:05
Up-to-date link to the documentation on quick and easy parallelism. – tsh Aug 30 '11 at 13:41
@tsh: Thanks for the update. – Sven Marnach Aug 31 '11 at 18:47

The one built-in to python would be multiprocessing docs are here. I always use multiprocessing.Pool with as many workers as processors. Then whenever I need to do a for-loop like structure I use Pool.imap

As long as the body of your function does not depend on any previous iteration then you should have near linear speed-up. This also requires that your inputs and outputs are pickle-able but this is pretty easy to ensure for standard types.

UPDATE: Some code for your updated function just to show how easy it is:

from multiprocessing import Pool
from itertools import product

output = np.zeros((N,N))
pool = Pool() #defaults to number of available CPU's
chunksize = 20 #this may take some guessing ... take a look at the docs to decide
for ind, res in enumerate(pool.imap(Fun, product(xrange(N), xrange(N))), chunksize):
    output.flat[ind] = res
share|improve this answer
You should replace output[ind] by output.flat[ind] to make the code work. (output is a two-dimensional array and would need two indices.) – Sven Marnach Jan 17 '11 at 6:57
@Sven: Thanks ... that comes from switching between matlab and python all the time. – JudoWill Jan 17 '11 at 17:38

I've always used Parallel Python but it's not a complete analog since I believe it typically uses separate processes which can be expensive on certain operating systems. Still, if the body of your loops are chunky enough then this won't matter and can actually have some benefits.

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