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  small matrix A.bin of dimension 100 × 50
  small matrix B.bin of dimension 50 × 100
  large matrix A.bin of dimension 1000 × 500
  large matrix B.bin of dimension 500 × 1000

An MPI program should be implemented such that it can
• accept two file names at run-time,
• let process 0 read the A and B matrices from the two data files,
• let process 0 distribute the pieces of A and B to all the other processes,
• involve all the processes to carry out the the chosen parallel algorithm
for matrix multiplication C = A * B ,
• let process 0 gather, from all the other processes, the different pieces
of C ,
• let process 0 write out the entire C matrix to a data file.

int main(int argc, char *argv[]) {

  printf("Oblig 2 \n");
  double **matrixa;
  double **matrixb;
  int ma,na,my_ma,my_na;
  int mb,nb,my_mb,my_nb;
  int i,j,k;
  int myrank,numprocs;
  int konstanta,konstantb;


  if(myrank==0) {
    read_matrix_binaryformat ("small_matrix_A.bin", &matrixa, &ma, &na);
    read_matrix_binaryformat ("small_matrix_B.bin", &matrixb, &mb, &nb);

  //mpi broadcast



  int resta = ma % numprocs;//rest antall som har den største verdien
  //int restb = mb % numprocs;
  if (myrank == 0) {
    printf("ma : %d",ma);
    printf("mb : %d",mb);


  if (resta == 0) {
    my_ma = ma / numprocs;
    printf("null rest\n ");
  } else {
    if (myrank < resta) {
      my_ma = ma / numprocs + 1;//husk + 1 
    } else {
      my_ma = ma / numprocs;    //heltalls divisjon gir nedre verdien !

  my_na = na;
  my_nb = nb;

  double **myblock = malloc(my_ma*sizeof(double*));
  for(i=0;i<na;i++) {
    myblock[i] = malloc(my_na*sizeof(double));

  //send_cnt for scatterv
  int* send_cnta = (int*)malloc(numprocs*sizeof(int));//array med antall elementer sendt til hver prosess array[i] = antall elementer , i er process
  int tot_elemsa = my_ma*my_na;
  MPI_Allgather(&tot_elemsa,1,MPI_INT,&send_cnta[0],1,MPI_INT,MPI_COMM_WORLD);//arrays i c må sendes &array[0]

  //send_disp for scatterv

    int* send_dispa = (int*)malloc(numprocs*sizeof(int)); //hvorfor trenger disp
    // int* send_dispb = (int*)malloc(numprocs*sizeof(int));
    //disp hvor i imagechars første element til hver prosess skal til

    if(resta==0) {
    } else if(myrank<=resta) {
      if(myrank<resta) {    
      } else {//my_rank == rest


    if (myrank>resta){



     printf("print2: %d" , myrank);

    //recv_buffer for scatterv
    double *recv_buffera=malloc((my_ma*my_na)*sizeof(double));

    MPI_Scatterv(&matrixa[0], &send_cnta[0], &send_dispa[0], MPI_UNSIGNED_CHAR, &recv_buffera[0], my_ma*my_na, MPI_UNSIGNED_CHAR, 0, MPI_COMM_WORLD);

    for(i=0; i<my_ma; i++) {
      for(j=0; j<my_na; j++) {
    myblock[i][j]=recv_buffera[i*my_na + j];


    return 0;

OLD:I get three type of errors. I can get scatterv count error, segmentationfault 11, or the processes just get stuck. It seems to be random which error I get. I run the code with 2 procs each time. When it gets stuck it gets stuck before the printf("print2: %d" , myrank);. When my friend runs the code on his own computer also with two prosesses, he does not get past by the first MPI_Bcast. Nothing is printed out when he runs it. Here is a link for the errors I get: http://justpaste.it/zs0

UPDATED PROBLEM: Now I get only a segmentation fault after " printf("print2: %d" , myrank); " before the scatterv call. EVEN if I remove all the code after the printf statement I get the segmentation fault, but only if I run the code for more than two procs.

share|improve this question
Looks like your matrices are arrays of pointers to each row. This doesn't work with MPI. You sould allocate matrices as one big block of data. Honestly, I don't understand why all those allgathers when you can just repeat the computations in each process... If Open MPI gets stuck after one communication operation, that might be a sign of networking issue: stackoverflow.com/a/10473106/1374437 –  Hristo Iliev May 17 '12 at 18:36
myblock is being allocated over and over again on top of itself on every process. –  Eric May 17 '12 at 18:47

1 Answer 1

I'm having a little difficulty tracing what you were trying to do. I think you're making the scatterv call more complicated than it needs to be though. Here's a snippet I had from a similar assignment this year. Hopefully it's a clearer example of how scatterv works.

  * Scatter A to All Processes
  *   - Using Scatterv for versatility.

  int *send_counts;                // Send Counts
  int *displacements;              // Send Offsets
  int chunk;                       // Number of Rows per Process (- Root)
  int chunk_size;                  // Number of Doubles per Chunk
  int remainder;                   // Number of Rows for Root Process
  double * rbuffer;                // Receive Buffer

  // Do Some Math
  chunk = m / (p - 1);
  remainder = m % (p - 1);
  chunk_size = chunk * n;

  // Setup Send Counts
  send_counts = malloc(p * sizeof(int));
  send_counts[0] = remainder * n;
  for (i = 1; i < p; i++)
    send_counts[i] = chunk_size;

  // Setup Displacements
  displacements = malloc(p * sizeof(int));
  displacements[0] = 0;
  for (i = 1; i < p; i++)
    displacements[i] = (remainder * n) + ((i - 1) * chunk_size);  

  // Allocate Receive Buffer
  rbuffer = malloc(send_counts[my_rank] * sizeof(double));

  // Scatter A Over All Processes!
  MPI_Scatterv(A,                      // A
               send_counts,            // Array of counts [int]
               displacements,          // Array of displacements [int]
               MPI_DOUBLE,             // Sent Data Type
               rbuffer,                // Receive Buffer
               send_counts[my_rank],   // Receive Count - Per Process
               MPI_DOUBLE,             // Received Data Type
               root,                   // Root
               comm);                  // Comm World


Also, this causes a segfault on my machine, no mpi... Pretty sure it's the way myblock is being allocated. You should do what @Hristo suggested in the comments. Allocate both matrices and the resultant matrix as flat arrays. That would eliminate the use of double pointers and make your life a whole lot simpler.

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

void main ()

    int na = 5;
    int my_ma = 5;
    int my_na = 5;
    int i;
    int j;

  double **myblock = malloc(my_ma*sizeof(double*));
  for(i=0;i<na;i++) {
    myblock = malloc(my_na*sizeof(double));

  unsigned char *recv_buffera=malloc((my_ma*my_na)*sizeof(unsigned char));

  for(i=0; i<my_ma; i++) {
    for(j=0; j<my_na; j++) {
      myblock[i][j]=(float)recv_buffera[i*my_na + j];


Try allocating more like this:

  // Allocate A, b, and y. Generate random A and b
  double *buff=0;
  if (my_rank==0)
      int A_size = m*n, b_size = n, y_size = m;
      int size = (A_size+b_size+y_size)*sizeof(double);
      buff = (double*)malloc(size);
      if (buff==NULL) 
      printf("Process %d failed to allocate %d bytes\n", my_rank, size);
      return 1;
      // Set pointers
      A = buff; b = A+m*n; y = b+n;
      // Generate matrix and vector
      genMatrix(m, n, A);
      genVector(n, b);
share|improve this answer
It's a matter of random where the start of matrixa is allocated in the memory page. If is near the beginning then MPI_Scatterv can read enough to send garbage to the first process that then proceeds to the part where myblock is used and segfaults there. In the other case the master process reads past the page and segfaults in MPI_Scatterv. –  Hristo Iliev May 17 '12 at 19:24
Yep. Allocating the matrices as a large block would solve a lot of problems. You're absolutely right. –  Eric May 17 '12 at 19:27
I dicovered the error. I wrote double *myblock = malloc(my_masizeof(double*)); for(i=0;i<na;i++) { myblock = malloc(my_nasizeof(double)); Should have been myblock[i] = malloc(my_nasizeof(double)); What a silly mistake :/ } –  footman May 17 '12 at 19:40
I mentioned that way up on your post. Glad it works for you now. I still think you're making it way harder than it needs to be. Best of luck. –  Eric May 17 '12 at 19:44
Thanks for the help. Yeah I see now you mentioned how I am supposed to allocate myblock but I didnt notice it. It is just working when I run for two processes, but I still get errors when I run for more than two. I am trying to understand the other things you wrote to help me. –  footman May 17 '12 at 19:58

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