The issue I am trying to resolve is the following:

The C++ serial code I have computes across a large 2D matrix. To optimize this process, I wish to split this large 2D matrix and run on 4 nodes (say) using MPI. The only communication that occurs between nodes is the sharing of edge values at the end of each time step. Every node shares the edge array data, A[i][j], with its neighbor.

Based on reading about MPI, I have the following scheme to be implemented.

if (myrank == 0)
 for (i= 0 to x)
 for (y= 0 to y)
  MPI_SEND(A[x][0], A[x][1], A[x][2], Destination= 1.....)
  MPI_RECEIVE(B[0][0], B[0][1]......Sender = 1.....)

if (myrank == 1)
for (i = x+1 to xx)
for (y = 0 to y)
 MPI_SEND(B[x][0], B[x][1], B[x][2], Destination= 0.....)
 MPI_RECEIVE(A[0][0], A[0][1]......Sender = 1.....)

I wanted to know if my approach is correct and also would appreciate any guidance on other MPI functions too look into for implementation.

Thanks, Ashwin.

up vote 28 down vote accepted

Just to amplify Joel's points a bit:

This goes much easier if you allocate your arrays so that they're contiguous (something C's "multidimensional arrays" don't give you automatically:)

int **alloc_2d_int(int rows, int cols) {
    int *data = (int *)malloc(rows*cols*sizeof(int));
    int **array= (int **)malloc(rows*sizeof(int*));
    for (int i=0; i<rows; i++)
        array[i] = &(data[cols*i]);

    return array;

int **A;
A = alloc_2d_init(N,M);

Then, you can do sends and recieves of the entire NxM array with

MPI_Send(&(A[0][0]), N*M, MPI_INT, destination, tag, MPI_COMM_WORLD);

and when you're done, free the memory with


Also, MPI_Recv is a blocking recieve, and MPI_Send can be a blocking send. One thing that means, as per Joel's point, is that you definately don't need Barriers. Further, it means that if you have a send/recieve pattern as above, you can get yourself into a deadlock situation -- everyone is sending, no one is recieving. Safer is:

if (myrank == 0) {
   MPI_Send(&(A[0][0]), N*M, MPI_INT, 1, tagA, MPI_COMM_WORLD);
   MPI_Recv(&(B[0][0]), N*M, MPI_INT, 1, tagB, MPI_COMM_WORLD, &status);
} else if (myrank == 1) {
   MPI_Recv(&(A[0][0]), N*M, MPI_INT, 0, tagA, MPI_COMM_WORLD, &status);
   MPI_Send(&(B[0][0]), N*M, MPI_INT, 0, tagB, MPI_COMM_WORLD);

Another, more general, approach is to use MPI_Sendrecv:

int *sendptr, *recvptr;
int neigh = MPI_PROC_NULL;

if (myrank == 0) {
   sendptr = &(A[0][0]);
   recvptr = &(B[0][0]);
   neigh = 1;
} else {
   sendptr = &(B[0][0]);
   recvptr = &(A[0][0]);
   neigh = 0;
MPI_Sendrecv(sendptr, N*M, MPI_INT, neigh, tagA, recvptr, N*M, MPI_INT, neigh, tagB, MPI_COMM_WORLD, &status);

or nonblocking sends and/or recieves.

  • Definitively use the contiguous multiarray, it is really the way to go. Also +1 on Sendrecv – Joel Falcou May 5 '11 at 17:22
  • 1
    Not two alternativs -- you'd use both, an allocation routine like the above to ensure your array is contiguous in memory, and then using Send and Recieve on that whole structure, and probably with the order flipped as above. – Jonathan Dursi May 5 '11 at 19:11
  • I was looking at this code to resolve the memory leak issue. One question i had was, why do you not talk about explicitly de-allocating memory here? Are there conditions where this is explicit vs. implicit OR perhaps it just depends on one's code i suppose? – Ashmohan Jun 27 '11 at 21:35
  • No, I just didn't include that; I've updated it above. – Jonathan Dursi May 4 '13 at 20:59
  • 2
    C's multi-dimensional arrays are a contiguous block of memory; if you allocate double d[50][50];, that is a contiguous block of memory. One way of handling dynamically allocated 'pseudo-2D' arrays allocates a chunk of pointers and a separate (usually discontiguous) set of memory blocks, one per row. See the discussion at How does C allocate space for a 2D (3D...) array when using malloc? – Jonathan Leffler Jul 24 '13 at 23:55

First you don't need that much barrier Second, you should really send your data as a single block as multiple send/receive blocking their way will result in poor performances.

  • 1
    Your data should be in a contiguous block of memory. Then just MPI_send the whole block at once – Joel Falcou May 5 '11 at 18:02

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