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I have implemented one-producer-multiple-consumer pattern using Python's multiprocessing package. The consumers should put the results in a dictionary. The keys of this dictionary are words and the values are big Scipy sparse matrix. Each consumer adds its value for each word it sees to the main vector for that word in the shared dictionary.

I have used Manager.dict() to implement this shared dictionary but it is very slow. cpu-utilization is about 15% for each process and it is just a little bit better than a single process. Each consumer fetches an item from the shared dictionary, adds a sparse matrix to the value of that item and updates the item in the shared dictionary.

Is there any more efficient solution?

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memcache - memcached.org – Torxed Mar 27 '14 at 10:57
up vote 3 down vote accepted
import memcache

memc = memcache.Client(['127.0.0.1:11211'], debug=1);
memc.set('top10candytypes', {1 : 2, "3" : [4,5,6]})

bestCandy = memc.get('top10candytypes')
print(bestCandy)

I'm no expert on memcache because i've just started to use it myself. But it's handy as hell if you have multiple threads needing to access the same data or if you simply need to store things efficiently without running out of ram.

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1  
I guess it shouldn't be too difficult to overcome the the unicode problem by using another encoding for the strings (UTF-8?). I am sceptical as to whether memcache is going to be any quicker than python multiprocessing Manager for this use case. Does anyone have benchmarks? I am curious as I have done similar stuff and the only fast solution I found was to use shared memory with Multiprocessing Arrays but this felt quite messy. – John Greenall Mar 27 '14 at 12:09
1  
yea doing yourstring.decode('utf-8') should be enough, altho I really don't get why that would be a problem because what Python does is using cPickle in order to store the variables in its original object form, there for you could theoreticly memcache a class object and return it as it were before stored. Or you could JSON-ify the data before or alter this neat code snippet to do the unicode converting prior to storing the data: code.activestate.com/recipes/… memcache is the fastest storing system there is except for raw variables in memory. – Torxed Mar 27 '14 at 12:32
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@Torxed I think your dictionary solution is fine but only works with Threads not Processes (unless you use a Manager). Another multiprocessing pattern I often use is to have main thread allocate work via one Queue and collect results from another Queue, so that the dictionary only gets assembled in the main thread. This is slow when you start passing large amounts of data but then if that is the case then your stuff is probably bounded as much by cache as CPU cycles. In these cases, as you say, optimization probably needs to be done at a lower level eg with Cython / openMP – John Greenall Mar 27 '14 at 13:37
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@user956730 Sounds like exactly the kind of task that MapReduce was designed for! – John Greenall Mar 28 '14 at 8:16
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@user956730 Realize this is a bit late but I just came across joblib today and thought it provided some interesting suggestions to solve the problems we were discussing - in particular writing Cython functions with no_gil flag and mmapping large arrays on disk to share between processes: pythonhosted.org/joblib/parallel.html – John Greenall Apr 3 '14 at 8:39

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