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Here is the sample program for multiprocessing using python. I see the memory usage by each process is ~2 to 3 times higher than the memory each process is supposed to use. If I calculate with just one process, the memory used is ~1.3 times more and it goes higher with the number of processes.

For example, for an array of 1000*1000*1000 with float64, it should use the memory of 8Gb, but I see the memory goes upto 25Gb with 8 processors running in parallel! But I read that multiprocessing uses shared memory. So I am not sure where the memory is leaking. Here is the code :

#To use the code, please take care of your RAM.
#If you have higher RAM, kindly try for the bigger arrays to see the difference clearly.

from numpy import *
import multiprocessing as mp

a = arange(0, 2500, 5)
b = arange(0, 2500, 5)
c = arange(0, 2500, 5)  
a0 = 540. #random values
b0 = 26.
c0 = 826.
def rand_function(a, b, c, a0, b0, c0):
    Nloop = 100.
    def loop(Nloop, out):
        res_total = zeros((500, 500, 500), dtype = 'float') 
        n = 1
        while n <= Nloop:
            rad = sqrt((a-a0)**2 + (b-b0)**2 + (c-c0)**2)
            res_total = res_total + rad
            n +=1 
        out.put(res_total)
    out = mp.Queue() 
    jobs = []
    Nprocs = mp.cpu_count()
    print "No. of processors : ", Nprocs
    for i in range(Nprocs):
        p = mp.Process(target = loop, args=(Nloop/Nprocs, out)) 
        jobs.append(p)
        p.start()

    final_result = zeros((500,500,500), dtype = 'float')

    for i in range(Nprocs):
        final_result = final_result + out.get()

    p.join()
test = rand_function(a,b,c,a0, b0, c0)

Can anyone please tell me where the memory is leaking? And how to overcome that? Thank you very much in advance.

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1  
How much do you think it is "supposed to use", and why? –  Janne Karila Feb 27 at 10:37
    
For example, for an array of 1000*1000*1000, it is supposed to use the memory of (1000*1000*1000*8)/(1024**3) Gb for float64. Right? I also verified by giving a.nbytes, you will know the memory used. –  geekygeek Feb 27 at 10:42
    
Just jound this: included into Python 3.4 tracemalloc –  User Feb 27 at 12:32
1  
There exists a res_total array for each process, so with 8 processes you expect to have at least 9 times the size of your data in memory (8 x res_total and 1 final_result). –  moarningsun Feb 27 at 20:26
    
@moarningsun , this is what is bothering me. I don't see 9 times increase of memory but only around 2 to 3 times which I was unable to trace out. So you think it is inevitable? –  geekygeek Feb 27 at 20:52

2 Answers 2

up vote 0 down vote accepted

Some things that use (much) memory:

  1. res_total
  2. The right-hand side of res_total = res_total + rad creates a temporary array that, for a moment, exist simultaneously with res_total. Using += could avoid that.
  3. out.put(res_total) pickles the array, using roughly the same amount of memory.

That should explain why the memory use can be much higher that 1. alone.

share|improve this answer
    
Thanks! 2. Done. But for 3, is there a way to overcome the pickling of out.put(u_total) ?? –  geekygeek Feb 27 at 20:32
1  
@geekygeek You could try to avoid big data in the queue and Use numpy array in shared memory for multiprocessing. –  Janne Karila Feb 28 at 6:39
    
Thanks! And is there a way to avoid initialization of res_total or final_result with an array of zeros? As this is also contributing for the increase in the memory. –  geekygeek Feb 28 at 7:20
    
@geekygeek I don't think creating the array with np.zeros uses more memory than any other way of creating it. –  Janne Karila Feb 28 at 7:30
    
Numpy array in shared memory doesn't work with the larger arrays. bitbucket.org/cleemesser/numpy-sharedmem/overview He says it works for the arrays which use less than 1GB of memory. You have any comments regarding it? –  geekygeek Mar 7 at 9:03

On an unrelated note, if what you want to do is sum a number of arrays in parallel, it's better to use a multiprocessing.Pool so that you don't have to handle the output value of the loop yourself. Also, your code does not assigns the same task to all the different worker processes, I am not sure if that was intentional or not.

import numpy as np
import multiprocessing as mp


def loop(arg):
    max_n, a, b, c, a0, b0, c0 = arg
    res_total = np.zeros(shape, dtype=np.float)
    print 'starting'
    for _ in range(max_n):
        rad = np.sqrt((a - a0) ** 2 + (b - b0) ** 2 + (c - c0) ** 2)
        res_total = res_total + rad
    print 'done'
    return res_total


def rand_function(a, b, c, a0, b0, c0):
    c_cpu = mp.cpu_count()
    n_loop = 10
    print "No. of processors : ", c_cpu
    pool = mp.Pool(c_cpu)
    out = pool.map(loop, [(n_loop / c_cpu, a, b, c, a0, b0, c0) 
                             for _ in range(c_cpu)])

    print 'collating'
    final_result = np.zeros(shape, dtype='float')
    for i in out:
        final_result += i
    print final_result.shape


shape = (50, 50, 50)
rand_function(np.arange(0, 250, 5), np.arange(0, 250, 5), 
                  np.arange(0, 250, 5), 540, 26, 826)

On my machine each worker process user around a gigabyte of memory. Your original code used around 1.4GB per worker to begin with (and then grew to 2GB). I suspect this has to do with the output queue being modified, which trigger the OS's copy-on-write (I am not sure about that though).

share|improve this answer
    
I see multiprocessing.Pool using more memory than multiprocessing.Process. For the smaller arrays, you don't see much differences. If I run the above solution with multiprocessing.Pool like you have given for an array of 500*500*500, I see the memory going upto 18Gb. Whereas with multiprocessing.Process it goes upto 12Gb, which is still high. –  geekygeek Feb 27 at 13:09

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