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I currently have a shortest path algorithm that receives as inputs the Graph and a Node of origin, and returns the costs for all nodes in the graph plus the tree (precedents for each node). The graph is a dictionary, so are the costs AND the tree.

Since I have to compute the shortest path trees with origins in all nodes, it is only natural to do it in parallel (as the trees are independent of each other).

I'm doing it with the use of a pool of workers using the multiprocessing and appending the results to a list (so I want a list of dictionaries).

It runs without errors, but the interesting part is that the processing time does not change with the number of workers (NO CHANGE AT ALL).

Any insight on why does that happen will be mostly appreciated. Code follows below.

from LoadData import *
from ShortestPathTree import shortestPath
from time import clock, sleep
from multiprocessing import Pool, Process, cpu_count, Queue

def funcao(G,i):
    costs, pred=shortestPath(G,i)
    return pred

def main():

    #loads the graph
    G = load_graph(graph)

    # loads the relevant nodes (CENTROIDS)
    DEST = load_relevant_nodes(destinations)

    f = open('output_parallel.out','w')


    def adder(value):

    #for i in range(len(DEST)):
    for i in range(486):
        pool.apply_async(funcao, args=(G,DEST[i]), callback=adder)


    print clock()-start
    print >> f, resultados
    print >> f, 'seconds: '+ str(clock()-start)
share|improve this question
Is it any faster if you replace pool=Pool() with pool=Pool(processes=4)? – Sam Mussmann Nov 8 '12 at 1:16
It's not likely, but it's possible that everything's serializing on, say, the apply_async callback. Try imap_unordered or map_async instead. Actually, it looks like you're just manually emulating map, so, even simpler, just try that… – abarnert Nov 8 '12 at 1:38
Also, can you give us a complete runnable sample that doesn't require your custom loading and graph processing code, but does demonstrate your problem? I tried to fake out those functions, and my version very definitely seems to be a problem with your use of apply_async (it takes 1.12s with pool=1, 1.14s with pool=4… but when I switch to map it's 0.83s with pool=1, 0.41s with pool=4), but it's hard to guess whether that's true for your test case. – abarnert Nov 8 '12 at 1:53
@abarnert, I tried to use map, but could not figure out how to provide both arguments to the function (kept getting an error that the number of arguments to the function was wrong). Can you provide the test code you used? – PCamargo Nov 8 '12 at 6:16
Two more questions to rule out more unlikely but not impossible causes: First, how long does one call of funcao take, and what platform are you on? If the algorithm is short enough, and you're on a platform with slow process startup and teardown (like Windows), it's conceivable that starting 8 processes instead of 1 (or 0) is enough to counter the benefits of running the jobs in parallel. Second, is funcao actually CPU-bound, or is most of its time spent waiting elsewhere? (Even if it's not doing any obvious I/O, using enough memory to swap can make you disk bound…) – abarnert Nov 8 '12 at 6:57

It turned out that @abarnert nailed it on the head on he asked how long did each call take. There was a problem in the data being entered that made each call EXTREMELY easy to answer, so the overhead of sending the tasks for multiple workers compensated the improvement in performance.

The results I get now that the input data was corrected are:

1 core: 185.0s 2 cores: 111.2s 3 cores: 96.6s 4 cores: 87.5s

Running on a Dual Core Hyperthreaded i7 620M Lenovo T410 laptop (Win 7 64 bits, Python 2.7.3)

Thanks to @abarnert for the GREAT insight!

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