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I am writing a code for parallelize Jacobi iteration algorithm using C and Open MPI but I faced a deadlock in sending and receiving message from all processes.

Could anyone help me with this issue

Here's the whole code:

    #include <math.h>   //common mathematical functions
    #include <string.h> //common string operations 
    #include <stdio.h>  //standerd I/O
    #include <stdlib.h> //os services (e.g. memory allocation)
    #include "timer.h"  //process execution time
    #include <mpi.h>    //Open MPI
    #define M   4096    //rows
    #define N   4096    //columns

int main(int argc, char** argv)
{
    StartTimer();
    int size, rank, i, j; 
    int local_rows = 0;
    int iter_max = 1000;
    int iter = 0;
    float error = 1.0f;
    const float tol = 1.0e-5f;
    const float pi  = 2.0f * asinf(1.0f);

    MPI_Init(&argc, &argv);//mpi initialization function
    MPI_Comm_size(MPI_COMM_WORLD, &size);//number of processes
    MPI_Comm_rank(MPI_COMM_WORLD, &rank);//rank for each process
    MPI_Request request;
    MPI_Request request1;
    MPI_Status status;
    MPI_Status status1;

    local_rows = (int) floor(N/size);

    float **my_u;//local matrix for each process
    my_u = (float**) malloc((local_rows) * sizeof(float*));//rows initialization of local matrix using dynamic allocation in memory
    //column initialization
    for(j = 0; j < local_rows; j++){
        my_u[j] = (float*) malloc(M * sizeof(float));//columns initialization of local matrix using dynamic allocation in memory
        memset(my_u[j], 0, M * sizeof(float));//set matrix to zero
    }
    float **my_u_temp;//temp local matrix for temp calculations
    my_u_temp = (float**) malloc((local_rows) * sizeof(float*));//rows initialization of temp matrix using dynamic allocation in memory
    //column initialization
    for(j = 0; j < local_rows; j++){
        my_u_temp[j] = (float*) malloc(M * sizeof(float));//columns initialization of temp matrix using dynamic allocation in memory
        memset(my_u_temp[j], 0, M * sizeof(float));//set matrix to zero
    }
    //boundary vector
    float g0[M];
    for(j = 0; j < N; j++){
        g0[j] = sinf(pi * j / (N-1));//initialize the boundary
    }
    //set boundary to the local matrix according to its rank
    //process 0 will start coping from the beginning of the boundary vector up to the local_rows value
    //process 1 will start coping from the end of process 0 and so on.
    for(j = 0; j < local_rows; j++){
        my_u[j][0] = g0[(rank * local_rows) + j];
        my_u[j][M-1] = g0[(rank * local_rows) + j] * expf(-pi);
        my_u_temp[j][0]   = g0[(rank * local_rows) + j];
        my_u_temp[j][M-1] = g0[(rank * local_rows) + j] * expf(-pi);
    }
    //set boundary for temp matrix as well
    //for (j = 1; j < local_rows; j++)
    //{
        //my_u_temp[j][0]   = g0[(rank * local_rows) + j];
      //  my_u_temp[j][M-1] = g0[(rank * local_rows) + j] * expf(-pi);
    //}
    //final result matrix N X M
    float **u;//pointer-pointer-float
    u = (float**) malloc(N * sizeof(float*));//N Rows for gathering all results
    for(j = 0; j < N; j++){
        u[j] = (float*) malloc(M * sizeof(float));
        memset(u[j], 0, M * sizeof(float));
    }
    //boundary initialization 
    for (j = 0; j < N; j++)
    {
        u[j][0] = g0[j];
        u[j][M-1] = g0[j]*expf(-pi);
    }
    float temp_recv_top[M];
    for(j = 0; j < M; j++){
        temp_recv_top[j] = 0.f;//initialize the boundary
    }
    float temp_recv_bottom[M];
    for(j = 0; j < M; j++){
        temp_recv_bottom[j] = 0.f;//initialize the boundary
    }
    //core loop
    float m_error = 0.f;
    while ( error > tol && iter < iter_max ){
        error = 0.f;
        if(rank == 0){
            MPI_Irecv(temp_recv_top, M, MPI_FLOAT, 1, 1, MPI_COMM_WORLD, &request);
            for(j = 1; j < local_rows; j++){
                for(i = 1; i < M-1; i++ ){
                    if(j == local_rows-1){
                        my_u_temp[j][i] = 0.25f * (my_u[j][i+1] + my_u[j][i-1] + my_u[j-1][i] + temp_recv_top[i]);
                    }
                    else{
                        my_u_temp[j][i] = 0.25f * (my_u[j][i+1] + my_u[j][i-1] + my_u[j-1][i] + my_u[j+1][i]);
                    }
                    error = fmaxf( error, fabsf(my_u_temp[j][i]-my_u[j][i]));
                }
            }
            for( j = 1; j < local_rows; j++){
                for( i = 1; i < M-1; i++ ){
                    my_u[j][i] = my_u_temp[j][i];    
                }
            }
            MPI_Send(my_u[local_rows-1], M, MPI_FLOAT, 1, 0, MPI_COMM_WORLD);
            MPI_Wait(&request, &status);
        }
        else if(rank == size-1){
            MPI_Irecv(temp_recv_bottom, M, MPI_FLOAT, 1, 1, MPI_COMM_WORLD, &request);
            for(j = 0; j < local_rows-1; j++){
                for(i = 1; i < M-1; i++ ){
                    if(j == 0){
                        my_u_temp[j][i] = 0.25f * (my_u[j][i+1] + my_u[j][i-1] + temp_recv_bottom[i] + my_u[j+1][i]);
                    }
                    else{
                        my_u_temp[j][i] = 0.25f * (my_u[j][i+1] + my_u[j][i-1] + my_u[j-1][i] + my_u[j+1][i]);
                    }
                    error = fmaxf( error, fabsf(my_u_temp[j][i]-my_u[j][i]));
                }
            }
            for( j = 0; j < local_rows-1; j++){
                for( i = 1; i < M-1; i++ ){
                    my_u[j][i] = my_u_temp[j][i];    
                }
            }
            MPI_Send(my_u[0], M, MPI_FLOAT, rank-1, 1, MPI_COMM_WORLD);
            MPI_Wait(&request, &status);
        }
        else{
            MPI_Irecv(temp_recv_bottom, M, MPI_FLOAT, rank-1, 0, MPI_COMM_WORLD, &request);
            MPI_Irecv(temp_recv_top, M, MPI_FLOAT, rank+1, 1, MPI_COMM_WORLD, &request);
            for(j = 0; j < local_rows; j++){
                for(i = 1; i < M-1; i++ ){
                    if(j == 0){
                        my_u_temp[j][i] = 0.25f * (my_u[j][i+1] + my_u[j][i-1] + temp_recv_bottom[i] + my_u[j+1][i]);
                    }
                    else if(j == local_rows - 1){
                        my_u_temp[j][i] = 0.25f * (my_u[j][i+1] + my_u[j][i-1] + my_u[j-1][i] + temp_recv_top[i]);
                    }
                    else{
                        my_u_temp[j][i] = 0.25f * (my_u[j][i+1] + my_u[j][i-1] + my_u[j-1][i] + my_u[j+1][i]);
                    }
                    error = fmaxf( error, fabsf(my_u_temp[j][i]-my_u[j][i]));
                }
            }
            for( j = 0; j < local_rows; j++){
                for( i = 1; i < M-1; i++ ){
                    my_u[j][i] = my_u_temp[j][i];    
                }
            }
            MPI_Send(&my_u[0], M, MPI_FLOAT, rank-1, 2, MPI_COMM_WORLD);
            MPI_Wait(&request, &status);
            MPI_Send(&my_u[local_rows-1], M, MPI_FLOAT, rank+1, 3, MPI_COMM_WORLD);
            MPI_Wait(&request1, &status1);
        }
        MPI_Allgather(my_u, local_rows, MPI_FLOAT, u, N, MPI_FLOAT, MPI_COMM_WORLD);
        MPI_Allreduce(&error, &m_error, 8, MPI_FLOAT, MPI_MAX, MPI_COMM_WORLD);
        error = m_error;

        if(iter % 100 == 0) printf("%5d, %0.6f\n", iter, error);

        iter++;
    }   

    double runtime = GetTimer();
    printf("%d: total: %f s\n",rank, runtime / 1000.f);

MPI_Finalize();
    return 0;

}

Thanks a lot

share|improve this question
1  
You have two MPI_Send operations where you are passing the address of some pointers and not the pointers themselves (several lines above the call to MPI_Allgather). Just a side note: why not simply extend the matrices with one row at the top and one row at the bottom? This will make your code more symmetric as it will make lots of if ... else ... unnecessary. –  Hristo Iliev Oct 9 '12 at 14:00
1  
Besides your code is erroneous - you are using the temporary receive buffers before waiting for the non-blocking receives to finish. The MPI specification says that it is possible for an MPI implementation to postpone the actual data movement until the moment that the operation is tested or waited on. I would recommend that you use MPI_Sendrecv instead. –  Hristo Iliev Oct 9 '12 at 14:12

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