Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

This is a simple question that has been bothering me for a while now.

I am attempting to rewrite my code to be parallel, and in the process I need to split up a sum to be done on multiple nodes and then add those small sums together. The piece that I am working with is this:

def pia(n, i):
        k = 0
        lsum = 0
        while k < n:
                p = (n-k)
                ld = (8.0*k+i)
                ln = pow(16.0, p, ld)
                lsum += (ln/ld)
                k += 1
        return lsum

where n is the limit and i is an integer. Does anyone have some hints on how to split this up and get the same result in the end?

Edit: For those asking, I'm not using pow() but a custom version to do it efficiently with floating point:

def ssp(b, n, m):
    ssp = 1
    while n>0:
            if n % 2 == 1:
                    ssp = (b*ssp) % m
            b = (b**2) % m
            n = n // 2
    return ssp
share|improve this question
What's this supposed to do? The only thing that jumps out at me is that you used a while loop instead of for k in xrange(n), so you're probably still learning the basics. –  user2357112 Aug 7 '13 at 16:45
Wait, this doesn't even run. 3-argument pow requires integer arguments. –  user2357112 Aug 7 '13 at 16:47
It isn't worth parallelizing if n is not in the range of millions or greater. –  Bakuriu Aug 7 '13 at 16:50
@user2357112 Before Python 2.2 it didn't. This code is either ancient, or there is an import of pow from somewhere else that's not being shown. –  Lukas Graf Aug 7 '13 at 16:50
Also, this is for use of calculating Pi to the millions of digits, to be run on a cluster of Raspberry Pis. –  Killasin Aug 7 '13 at 16:56

2 Answers 2

Since the only variable that's used from one pass to the next is k, and k just increments by one each time, it's easy to split the calculation.

If you also pass k into pia, then you'll have both a definable starting and ending points, and you can split this up into as many pieces as you want, and at the end, add all the results together. So something like:

# instead of pia(20000, i), use pia(n, i, k) and run
result = pia(20000, i, 10000) + pia(10000, i, 0)

Also, since n is used to both set the limits and in the calculation directly, these two uses need to be split.

from math import pow

def pia(nlimit, ncalc, i, k):
        lsum = 0
        while k < nlimit:
                p = ncalc-k
                ld = 8.0*k+i
                ln = ssp(16., p, ld)
                lsum += ln/ld
                k += 1
        return lsum

if __name__=="__main__":
    i, ncalc = 5, 10
    print pia(10, ncalc, i, 0)
    print pia(5, ncalc, i, 0) + pia(10, ncalc, i, 5)
share|improve this answer
Implementing it this way produces a problem. Let's say your version is dubbed spia. spia(5,5,0)+spia(10,5,5) does not equal spia(10,5,0). –  Killasin Aug 7 '13 at 17:48
OK, I fixed it. –  tom10 Aug 7 '13 at 18:31

Looks like I found a way. What I did was in the sum I had each node calculate a portion (ex. node one calculates k=1, node 2 k=2, node 3 k=3, node 4 k=4, node 1 k=5...) and then gathered them up and added them.

share|improve this answer
what's f=1, f=2, etc? –  tom10 Aug 7 '13 at 19:07
f=k, sorry. fixing it. –  Killasin Aug 7 '13 at 19:33
OK, but then you're going back and forth for each calculation, and this will be millions of times, and it could take longer than the single processor calculation. Sorry to plug my own solution here, but with it, you only communicate once per node for the entire calculation. Anyway, I'll be interested to see whether you really gain something with this approach. –  tom10 Aug 7 '13 at 20:12

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.