I have C++ MPI code that works, in that it compiles and does indeed launch on the specified number of processors (*n*). The problem is that it simply does the same calculation *n* times, rather than doing one calculation *n* times faster.

I have hacked quite a few examples I have found on various sites, and it appears I am missing the proper use of MPI_Send and MPI_Receive, but I can't find an instance these commands that takes a function as input (and am confused as to why these MPI commands would be useful for anything other than functions).

My code is below. Essentially it calls a C++ function I wrote to get Fisher's Exact Test p-value. The random-number bit is just something I put in to test the speed.

What I want is for this program to do is farm out *Fisher.TwoTailed* with each set of random variables (i.e., *A*, *B*, *C*, and *D*) to a different processor, rather than doing the exact same calculation on multiple processors. Thanks in advance for any insight--cheers!

Here is the code:

```
int
main (int argc, char* argv[])
{
int id;
int p;
//
// Initialize MPI.
//
MPI::Init ( argc, argv );
//
// Get the number of processors.
//
p = MPI::COMM_WORLD.Get_size ( );
//
// Get the rank of this processor.
//
id = MPI::COMM_WORLD.Get_rank ( );
FishersExactTest Fishers;
int i = 0;
while (i < 10) {
int A = 0 + rand() % (100 - 0);
int B = 0 + rand() % (100 - 0);
int C = 0 + rand() % (100 - 0);
int D = 0 + rand() % (100 - 0);
cout << Fishers.TwoTailed(A, B, C, D) << endl;
i += 1;
}
MPI::Finalize ( );
return 0;
}
```