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Hi all, I have an array of length N, and I'd like to divide it as best as possible between 'size' processors. N/size has a remainder, e.g. 1000 array elements divided by 7 processes, or 14 processes by 3 processes.

I'm aware of at least a couple of ways of work sharing in MPI, such as:

for (i=rank; i<N;i+=size){ a[i] = DO_SOME_WORK } 

However, this does not divide the array into contiguous chunks, which I'd like to do as I believe is faster for IO reasons.

Another one I'm aware of is:

int count = N / size;
int start = rank * count;
int stop = start + count;

// now perform the loop
int nloops = 0;

for (int i=start; i<stop; ++i)
    a[i] = DO_SOME_WORK;

However, with this method, for my first example we get 1000/7 = 142 = count. And so the last rank starts at 852 and ends at 994. The last 6 lines are ignored.

Would be best solution to append something like this to the previous code?

int remainder = N%size;
int start = N-remainder; 
if (rank == 0){
     for (i=start;i<N;i++){
         a[i] = DO_SOME_WORK;

This seems messy, and if its the best solution I'm surprised I haven't seen it elsewhere.

Thanks for any help!

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3 Answers 3

I think that the best solution is to write yourself a little function for splitting work across processes evenly enough. Here's some pseudo-code, I'm sure you can write C (is that C in your question ?) better than I can.

function split_evenly_enough(num_steps, num_processes)
    return = repmat(0, num_processes)  ! pseudo-Matlab for an array of num_processes 0s
    steps_per_process = ceiling(num_steps/num_processes)
    return = steps_per_process - 1 ! set all elements of the return vector to this number
    return(1:mod(num_steps, num_processes)) = steps_per_process  ! some processes have 1 more step
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Consider your "1000 steps and 7 processes" example.

  • simple division won't work because integer division (in C) gives you the floor, and you are left with some remainder: i.e. 1000 / 7 is 142, and there will be 6 doodads hanging out

  • ceiling division has the opposite problem: ceil(1000/7) is 143, but then the last processor overruns the array, or ends up with less to do than the others.

You are asking for a scheme to evenly distribute the remainder over processors. Some processes should have 142, others 143. There must be a more formal approach but considering the attention this question's gotten in the last six months maybe not.

Here's my approach. Every process needs to do this algorithm, and just pick out the answer it needs for itself.

#include <mpi.h>
#include <stdio.h>
#include <stdlib.h>

int main (int argc, char ** argv)
#define NR_ITEMS 1000
    int i, rank, nprocs;;
    int *bins;

    MPI_Init(&argc, &argv);
    MPI_Comm_rank(MPI_COMM_WORLD, &rank);
    MPI_Comm_size(MPI_COMM_WORLD, &nprocs);
    bins = calloc(nprocs, sizeof(int));

    int nr_alloced = 0;
    for (i=0; i<nprocs; i++) {
        remainder = NR_ITEMS - nr_alloced;
        buckets = (nprocs - i);
        /* if you want the "big" buckets up front, do ceiling division */
        bins[i] = remainder / buckets;
        nr_alloced += bins[i];

    if (rank == 0)
        for (i=0; i<nprocs; i++) printf("%d ", bins[i]);

    return 0;
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If I had N tasks and size workers, I would go as follows:

int count = N / size;
int remainder = N % size;
int start, stop;

if (rank < remainder) {
    start = rank * (count + 1);
    stop =  start + count;
} else {
    start = rank * count + remainder;
    stop =  start + count - 1;

for (int i = start; i <= stop; ++i) { a[i] = DO_SOME_WORK(); }
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