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I am attempting to have two long running operations run simultaneously in python. They both operate on the same data set, but do not modify it. I have found that a threaded implementation runs slower than simply running them one after the other.

I have created a simplified example to show what I am experiencing.

Running this code, and commenting line 46 (causing it to perform the operation threaded), results in a runtime on my machine of around 1:01 (minute:seconds). I see two CPUs run at around 50% for the full run time.

Commenting out line 47 (causing sequential calculations) results in a runtime of around 35 seconds, with 1 CPU being pegged at 100% for the full runtime.
Both runs result in the both full calculations being completed.

from datetime import datetime
import threading

class num:
    def __init__(self):
        self._num = 0

    def increment(self):
        self._num += 1

    def getValue(self):
        return self._num

class incrementNumber(threading.Thread):
    def __init__(self, number):
        self._number = number

    def run(self):

    def incrementProcess(self):
        for i in range(50000000):

def runThreaded(x, y):

def runNonThreaded(x, y):

def main():
    t = datetime.now()

    x = num()
    y = num()
    incrementX = incrementNumber(x)
    incrementY = incrementNumber(y)

    runThreaded(incrementX, incrementY)
    #runNonThreaded(incrementX, incrementY)

    print x.getValue(), y.getValue()
    print datetime.now() - t

if __name__=="__main__":
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2 Answers 2

up vote 4 down vote accepted

CPython has a so-called Global Interpreter Lock, which means that only one Python statement can run at a time even when multithreading. You might want to look into multiprocessing, which avoids this constraint.

The GIL means that Python multithreading is only useful for I/O-bound operations, other things that wait for stuff to happen, or if you're calling a C extension that releases the GIL while doing work.

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I don't use Python anyway, but I don't see why that miserable mutex is necessary anyway. Couldn't Python store a context object or pointer thereto in thread-local storage, ot find some other way for each thread to have its very own interpreter instance? –  Martin James Apr 17 '12 at 17:50
To repeat myself from below: There are implementations of Python without a GIL. As to 'each thread having its very own interpreter instance' - that's what multiprocessing (mentioned in the answer) does. –  Lattyware Apr 17 '12 at 17:52
Some developers do not want to share their 5GB data buffer with another process! Anywy, as you say, it seems that there are indeed GILless pythons, so my answer is misleading, if not actually wrong. –  Martin James Apr 17 '12 at 18:06
I'm afraid it is wrong - Python is the language, which doesn't specify anything. CPython has a GIL, but that's an implementation detail, not a part of the language itself, so you can't say 'Python is rubbish at multi-threading'. It's CPython with the issue. While it's true a lot of people think of them as synonymous, they are not. –  Lattyware Apr 17 '12 at 18:09

Python is rubbish at multithreading. Google for 'GIL'

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I think what you meant here was "CPython is rubbish at multithreading" - there are implementations of Python without a GIL. And even with CPython, there are ways around this (like multiprocessing). –  Lattyware Apr 17 '12 at 17:49
OK, yes, sure, obviously you can use a separate process, with all that that entails for inter-process comms vs. inter-thred comms <g> –  Martin James Apr 17 '12 at 18:04
Is appears that there are GILless pythons in the wild, so my answer is, err... 'economical with the truth' –  Martin James Apr 17 '12 at 18:07
I did link to one in my comment. –  Lattyware Apr 17 '12 at 18:08
Its still a blanket statement, which isn't good. Even with multithreading you can't say python is just generally rubbish at it. Its rubbish under the context of CPU-bound activity. –  jdi Apr 17 '12 at 18:14

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