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I want to parallelize an numerical integration function. I want to use this function in the middle of calculation. The work before should be done in root process. Is this possible to do in MPI?

 double integral_count_MPI(double (*function)(double) , double beginX, double endX, int      count)
 {
    double step, result;
    int i;
    if (endX - beginX <= 0) return 0;
    step = (endX - beginX) / count;
    result = 0;

    double *input = (double*)malloc((count+1) *sizeof(double));
    for (i = 0; i <= count; i ++)
    {
       input[i] = beginX + i*step;
    }
    // Calculate and gather
 }

EDIT

algorithm:

  1 process calculation;
while:
  1 process calculation;
  integration very complex function with many processes;
  1 process calculation;
end while;
1 process calculation;
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1  
Yes, it is. I hope you to not expect me to write the code for you? –  gg.kaspersky Dec 16 '12 at 10:28

2 Answers 2

up vote 2 down vote accepted

MPI provides various means to build libraries that use it "behind the scenes". For starters, you can initialise MPI on demand. MPI-2 modified the requirements for calling MPI_Init so every compliant implementation should be able to correctly initialise with NULL arguments to MPI_Init (because the actual program arguments might not be available to the library). Since MPI should only be initialised once, the library must check if it was already initialised by calling MPI_Initialized. The code basically looks like this:

void library_init(void)
{
   int flag;

   MPI_Initialized(&flag);
   if (!inited)
   {
      MPI_Init(NULL, NULL);
      atexit(library_onexit);
   }
}

The initialisation code also registers an exit handler by calling atexit() from the C standard library. Within this exit handler it finalises the MPI library if it not already finalised. Failure to do so might result in mpiexec terminating the whole MPI job with a message that at least one process has exited without finalising MPI:

void library_onexit(void)
{
   int flag;

   MPI_Finalized(&flag);
   if (!flag)
      MPI_Finalize();
}

This arrangement allows you to write your integral_count_MPI function simply like:

double integral_count_MPI(...)
{
    library_init();

    ... MPI computations ...
}

integral_count_MPI will demand-initialise the MPI library on the first call. Later calls will not result in reinitialisation because of the way library_init is written. Also no explicit finalisation is necessary - the exit handler will take care.

Note that you will still need to launch the code via the MPI process launcher (mpirun, mpiexec, etc.) and will have to be careful with doing I/O, since the serial part of the code would execute in each instance. Many MPI-enabled libraries provide their own I/O routines for that purpose that filter on the process rank and allow only rank 0 to perform the actual I/O. You can also use the dynamic process management facilities of MPI to spawn additional processes on demand, but that would require that you abstract a huge portion of the process management into the library that performs the integration, which would make it quite complex (and the code of your main program would look awkward).

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It's amazing!! I'll try this solution in the evening. Hope it works. –  T_T Dec 16 '12 at 13:38
    
@T_T, also note another part of the beauty of this concept: the library would not install an exit handler if MPI was already initialised in the main program. It means that you can safely put your own MPI_Init() ... MPI_Finalize() calls in main and it would still function correctly (but not if you call MPI_Finalize() and then again call integral_count_MPI). –  Hristo Iliev Dec 16 '12 at 13:46
    
Are there others side effects besides I/O ? –  T_T Dec 16 '12 at 16:49
    
One more question. The processes created with MPI continue execution a code outside the function. Can it be fixed? –  T_T Dec 16 '12 at 17:15
    
@T_T, well, I/O is the only true side effect that a program can have, sans using some kernel magic to crash or trash the system :) You could either query the library for "master mode" (basically a boolean function that returns the comparison of the current rank with 0) and skip parts of the code if not master. –  Hristo Iliev Dec 16 '12 at 22:08

You can find the MPI documentation here

Basically, the logic is the following:

int main()
{
    MPI_INIT(...);
    MPI_Comm_size(...);    //get the number of processes
    MPI_Comm_rank(...);    //get my rank

    if (rank == 0)     //master process
    {
        for (i = 1; i < n; i++)
            MPI_Send(...) //Send interval data specific to i process

        double result = 0;
        for (i = 1; i < n; i++)
        {
            double part_result;

            MPI_Recv(&part_result, ...) //Receive partial results from slaves

            result += part_result;
        }

        // Print result
    }
    else               //slave process
    {
        MPI_Recv(...)  //Receive interval data from master (rank 0 process)

        double result = integral_count_MPI(...);

        MPI_Send(...)  // Send results to master
    }

    MPI_FINALIZE(...);
}
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Thank you for your answer. I must call this function not once. Is it normal to Initialize and finalize MPI several times? –  T_T Dec 16 '12 at 11:36
1  
No, it is not. Once you called MPI_Finalize, no other MPI calls are allowed (save for a few exceptions, see the documentation). –  suszterpatt Dec 16 '12 at 11:38
    
No. This is your program source code. When running mpirun -np x ./program, mpi will spawn x processes from it. So you design your code from one process's perspective, so you don't need to call integral_count_MPI multiple times (from one process). integral_count_MPI will be called in each process, but each process will call it with different interval parameters (those that you'll pass to them), so it will compute a specific part of task. That's the whole point. –  gg.kaspersky Dec 16 '12 at 11:40
    
The documentation describes one-files examples. I have a complex program. And I can't Initialize MPI in main function. That's the problem. –  T_T Dec 16 '12 at 11:43
    
Please describe what your complex program does. –  gg.kaspersky Dec 16 '12 at 11:54

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