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I am working on an Fortan code that already uses MPI.

Now, I am facing a situation, where a set of data grows very large but is same for every process, so I would prefer to store it in memory only once per node and all processes on one node access the same data.

Storing it once for every process would go beyond the available RAM.

Is it somehow possible to achieve something like that with openMP?

Data sharing per node is the only thing I would like to have, no other per node paralellisation required, because this is already done via MPI.

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Yes, what you want to do is possible and it is often called hybridisation, a mating, if you will, of MPI and OpenMP. Use your favourite search engine to learn more. Here on SO look for some of the answers from Hristo Iliev and Jonathan Dursi, I'm sure they've both covered the topic and when those guys cover a topic it stays covered. –  High Performance Mark Jul 17 at 7:28
    
I guess the problem will be how to do it without also parallelizing all the computations with OpenMP. –  Vladimir F Jul 17 at 7:31
    
Thanks for the suggestions! And yes, what Vladimir F pointed out, this is exactly what I am thinking about, data sharing but NO further parallelization. I will have a closer look at hybridisation then. –  chris Jul 17 at 8:47

1 Answer 1

up vote 6 down vote accepted

You don't need to implement a hybrid MPI+OpenMP code if it is only for sharing a chunk of data. What you actually have to do is:

1) Split the world communicator into groups that span the same host/node. That is really easy if your MPI library implements MPI-3.0 - all you need to do is call MPI_COMM_SPLIT_TYPE with split_type set to MPI_COMM_TYPE_SHARED:

USE mpi_f08

TYPE(MPI_Comm) :: hostcomm

CALL MPI_Comm_split_type(MPI_COMM_WORLD, MPI_COMM_TYPE_SHARED, 0, &
                         MPI_INFO_NULL, hostcomm)

MPI-2.2 or earlier does not provide the MPI_COMM_SPLIT_TYPE operation and one has to get somewhat creative. You could for example use my simple split-by-host implementation that can be found on Github here.

2) Now that processes that reside on the same node are part of the same communicator hostcomm, they can create a block of shared memory and use it to exchange data. Again, MPI-3.0 provides an (relatively) easy and portable way to do that:

USE mpi_f08
USE, INTRINSIC :: ISO_C_BINDING, ONLY : C_PTR, C_F_POINTER

INTEGER :: hostrank

INTEGER(KIND=MPI_ADDRESS_KIND) :: size
INTEGER :: disp_unit
TYPE(C_PTR) :: baseptr
TYPE(MPI_Win) :: win

TYPE(MY_DATA_TYPE), POINTER :: shared_data

! We only want one process per host to allocate memory
! Set size to 0 in all processes but one
CALL MPI_Comm_rank(hostcomm, hostrank)
if (hostrank == 0) then
   size = 10000000 ! Put the actual data size here
else
   size = 0
end if
disp_unit = 1
CALL MPI_Win_allocate_shared(size, disp_unit, MPI_INFO_NULL, &
                             hostcomm, baseptr, win)

! Obtain the location of the memory segment
if (hostrank /= 0) then
   CALL MPI_Win_shared_query(win, 0, size, disp_unit, baseptr)
end if

! baseptr can now be associated with a Fortran pointer
! and thus used to access the shared data
CALL C_F_POINTER(baseptr, shared_data)

! Use shared_data as if it was ALLOCATE'd
! ...

! Destroy the shared memory window
CALL MPI_Win_free(win)

The way that code works is that it uses the MPI-3.0 functionality for allocating shared memory windows. MPI_WIN_ALLOCATE_SHARED allocates a chunk of shared memory in each process. Since you want to share one block of data, it only makes sense to allocate it in a single process and not have it spread across the processes, therefore size is set to 0 for all but one ranks while making the call. MPI_WIN_SHARED_QUERY is used to find out the address at which that shared memory block is mapped in the virtual address space of the calling process. One the address is known, the C pointer can be associated with a Fortran pointer using the C_F_POINTER() subroutine and the latter can be used to access the shared memory. Once done, the shared memory has to be freed by destroying the shared memory window with MPI_WIN_FREE.

MPI-2.2 or earlier does not provide shared memory windows. In that case one has to use the OS-dependent APIs for creation of shared memory blocks, e.g. the standard POSIX sequence shm_open() / ftruncate() / mmap(). A utility C function callable from Fortran has to be written in order to perform those operations. See that code for some inspiration. The void * returned by mmap() can be passed directly to the Fortran code in a C_PTR type variable that can be then associated with a Fortran pointer.

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Wow, that sounds really promising! Thanks a lot! I have to work through this. Small additional question: are there MPI-3 implementations that are usable for production? Edit: nevermind open-mpi as full MPI-3 standard support –  chris Jul 17 at 11:06
    
MPICH also supports full MPI-3. I believe some of the vendor implementations also support it or will very soon as well. –  Wesley Bland Jul 17 at 15:40
    
MPI-3.0 support in Open MPI is present in the 1.8 series that still haven't quite lived up to the "stable release" label. –  Hristo Iliev Jul 17 at 17:26

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