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# MPI parallelize one function

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;
``````
-
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

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).

-
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(...);
}
``````
-
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
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