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Problem:

I'm writing MPI programm using MPI C++ binding (MPICH 2). After specific amount of calling function listed below I get deadlock right after calling MPI::COMM::Create method (all running processes terminate).

LOCAL_COMM = LOCAL_COMM.Create(localGroup) in the code, need to be more specific.

My guess is that some kind of overflow appears, but I'm new to MPI programming and can`t find the source of problem. Thanks in advance for any help.

Code:

 Matrix Matrix::operator* (Matrix &M)
{
    //Synchronize all threads
    //COMM_WORLD.Barrier();

    int hisCol = M.myCol;
    int commSize = COMM_WORLD.Get_size();

    //Create local Group and Communicator equal to COMM_WORLD
    Intracomm LOCAL_COMM = COMM_WORLD.Dup();
    Group localGroup(LOCAL_COMM.Get_group());

    //Change locals if required
    if(commSize > myRow) {
        //Make array of ranks to include
        vector<int> masRanks(myRow);
        for(int i = 0; i < myRow; i++)
            masRanks[i] = i;

        //Create new localGroup and LOCAL_COMM
        localGroup = localGroup.Incl(myRow,&masRanks[0]);
        LOCAL_COMM = LOCAL_COMM.Create(localGroup); 
        if(LOCAL_COMM == COMM_NULL) {
            localGroup.Free();
            return Matrix(myRow,hisCol);
        }
        commSize = LOCAL_COMM.Get_size();
    }

    //Calculate number of Rows displacement and amount to Send per Thread
    vector<int> masRows(commSize,0);
    vector<int> amntToSend(commSize,0), amntToRecv(commSize,0);
    int tmpRows = myRow;

    for(int i = commSize; i > 0; i--) {
        masRows[i-1] = ((double)tmpRows / i + 0.5);
        tmpRows -= masRows[i-1];

        amntToSend[i-1] = masRows[i-1] * myCol;
        amntToRecv[i-1] = masRows[i-1] * hisCol;
    }

    //Form array specifying displacement to send to each thread
    vector<int> elemDisp(1,0), elemRecvDisp(1,0);
    if(myRank == 0)         
        for(int i = 1; i < commSize; i++) {
                elemDisp.push_back(amntToSend[i-1] + elemDisp[i-1]);
                elemRecvDisp.push_back(amntToRecv[i-1] + elemRecvDisp[i-1]);
        }

    //Prepare variables and send / receive left and right matrix
    int maxRow = *max_element(masRows.begin(),masRows.end());

    Matr tmpData(maxRow*myCol,0);
    LOCAL_COMM.Scatterv(&data[0],&amntToSend[0],&elemDisp[0],DOUBLE,&tmpData[0],masRows[myRank]*myCol,DOUBLE,0);
    LOCAL_COMM.Bcast(&M.data[0],M.myRow*hisCol,DOUBLE,0);

    //Start evaluation of each element
    Matr resData(masRows[myRank]*hisCol,0);
    for(int row = 0; row < masRows[myRank]; row++)
        for(int i = 0; i < hisCol; i++)
            for(int j = 0; j < myCol; j++)
                resData[row*hisCol + i] += tmpData[row*myCol + j] * M.data[j*hisCol + i];

    //Gather all data at 0-thread
    Matr outData(myRow*hisCol);
    LOCAL_COMM.Gatherv(&resData[0],masRows[myRank]*hisCol,DOUBLE,&outData[0],&amntToRecv[0],&elemRecvDisp[0],DOUBLE,0);

    //Return result Matrix-object
    Matrix resMatr(myRow, hisCol);
    resMatr.data = outData;

    //Free group and communicator
    localGroup.Free();
    LOCAL_COMM.Free();

    return resMatr;
}
share|improve this question
    
What is a "Matr", and what does this constructor do? Matr tmpData(maxRow*myCol,0);. That might be a problem, depending on what that 0 means. I'd suggest you to run this application using valgrind, you will be able to spot buffer overflows and another memory issues easily that way. –  mfontanini Mar 19 '12 at 18:44
    
typedef vector<double> Matr; –  Bonsav Mar 19 '12 at 18:48
    
where does myRow come from? Can you be sure that all MPI processes share the same value for myRow? If not, they won't be building the same local group, and the call to MPI_Comm_create will fail. –  Francesco Mar 19 '12 at 20:04
    
myRow is the amount of Rows in a matrix class, so yes all threads share the same value. Moreover it takes about 2000 function calls (I mean operator*()) to get termination of all processes. –  Bonsav Mar 19 '12 at 21:45
    
If you solved it, make your solution an actual answer and accept it. Don't change your title to include [solved]. –  Bart Mar 20 '12 at 20:24

2 Answers 2

The obvious, but unhelpful, answer is that you have written a program which deadlocks. Arguably this is much easier than writing one which is deadlock-free.

Have you investigated any of the tools which might help you find your problem ? Tools such as:

Vampir

Intel's Trace Analyzer (which may actually be based on Vampir)

or the parallel debuggers

RogueWave's TotalView

Allinea's DDT

At least one of these should be in your parallel programming toolbox.

share|improve this answer
    
Thnx for the links –  Bonsav Mar 20 '12 at 18:52
up vote 0 down vote accepted

I've found that the problem was in a way that I created new Group and Communicator. Perhaps COMM_WORLD.Dup() was the wrong choice from the very beginning since I don`t really know what compiler do with it's value after leaving the function.

Anyway corrected code is listed below.

Fixed Code:

Matrix Matrix::operator* (Matrix &M)
{
    int hisCol = M.myCol;
    int commSize = COMM_WORLD.Get_size();

    //Make array of ranks to include
    vector<int> vRanks;
    for(int i = 0; i < myRow && i < commSize; i++)
        vRanks.push_back(i);

    //Create new LocalGroup and LOCAL_COMM
    Group LocalGroup = COMM_WORLD.Get_group().Incl(vRanks.size(),&vRanks[0]);
    Intracomm LOCAL_COMM = COMM_WORLD.Create(LocalGroup);

    COMM_WORLD.Barrier();

    //Make unused processes quit
    if(LOCAL_COMM == COMM_NULL) {
        LocalGroup.Free();
        return Matrix(myRow,hisCol);
    }
    commSize = LOCAL_COMM.Get_size();

    //The rest is pretty much the same
share|improve this answer

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