I would like to read and write large data sets in Fortran using MPI-IO. My preferred approach would be to use a MPI type defined with MPI_type_create_subarray with a single dimension to describe the view of each process to the file. My Fortran code thus looks like this:
! A contiguous type to describe the vector per element. ! MPI_TYPE_CONTIGUOUS(COUNT, OLDTYPE, NEWTYPE, IERROR) call MPI_Type_contiguous(nComponents, rk_mpi, & & me%vectype, iError) call MPI_Type_commit( me%vectype, iError ) ! A subarray to describe the view of this process on the file. ! MPI_TYPE_CREATE_SUBARRAY(ndims, array_of_sizes, array_of_subsizes, ! array_of_starts, order, oldtype, newtype, ierror) call MPI_Type_create_subarray( 1, [ globElems ], [ locElems ], & & [ elemOff ], MPI_ORDER_FORTRAN, & & me%vectype, me%ftype, iError)
However, array_of_sizes and array_of_starts, describing global quantities are just "normal" integers in the MPI-Interface. Thus there is a limit at about 2 billion elements with this approach. Is there another interface, which uses MPI_OFFSET_KIND for these global values? The only way to work around this, I see so far, is using the displacement option in the MPI_File_set_view instead of defining the view with the help of the subarray MPI type. However this "feels" wrong. Would you expect a performance impact in either approach for collective IO? Does anybody know, if this interface will change in MPI-3? Maybe I should use some other MPI type?
What is the recommended solution here to write large data files with collective IO efficiently in parallel to disk?