! !$Id: mod_phys_lmdz_mpi_data.F90 4602 2023-07-03 12:54:38Z acaubel $ ! MODULE mod_phys_lmdz_mpi_data USE lmdz_mpi INTEGER,SAVE :: ii_begin INTEGER,SAVE :: ii_end INTEGER,SAVE :: jj_begin INTEGER,SAVE :: jj_end INTEGER,SAVE :: jj_nb INTEGER,SAVE :: ij_begin INTEGER,SAVE :: ij_end INTEGER,SAVE :: ij_nb INTEGER,SAVE :: klon_mpi_begin INTEGER,SAVE :: klon_mpi_end INTEGER,SAVE :: klon_mpi INTEGER,SAVE,ALLOCATABLE,DIMENSION(:) :: jj_para_nb INTEGER,SAVE,ALLOCATABLE,DIMENSION(:) :: jj_para_begin INTEGER,SAVE,ALLOCATABLE,DIMENSION(:) :: jj_para_end INTEGER,SAVE,ALLOCATABLE,DIMENSION(:) :: ii_para_begin INTEGER,SAVE,ALLOCATABLE,DIMENSION(:) :: ii_para_end INTEGER,SAVE,ALLOCATABLE,DIMENSION(:) :: ij_para_nb INTEGER,SAVE,ALLOCATABLE,DIMENSION(:) :: ij_para_begin INTEGER,SAVE,ALLOCATABLE,DIMENSION(:) :: ij_para_end INTEGER,SAVE,ALLOCATABLE,DIMENSION(:) :: klon_mpi_para_nb INTEGER,SAVE,ALLOCATABLE,DIMENSION(:) :: klon_mpi_para_begin INTEGER,SAVE,ALLOCATABLE,DIMENSION(:) :: klon_mpi_para_end INTEGER,SAVE :: mpi_rank INTEGER,SAVE :: mpi_size INTEGER,SAVE :: mpi_master LOGICAL,SAVE :: is_mpi_root LOGICAL,SAVE :: is_using_mpi LOGICAL,SAVE :: is_north_pole_dyn LOGICAL,SAVE :: is_south_pole_dyn INTEGER,SAVE :: COMM_LMDZ_PHY INTEGER,SAVE :: MPI_REAL_LMDZ ! MPI_REAL8 CONTAINS SUBROUTINE init_phys_lmdz_mpi_data(nbp, nbp_lon, nbp_lat, nbp_lev, grid_type, nvertex, communicator) USE lmdz_mpi IMPLICIT NONE INTEGER,INTENT(IN) :: nbp INTEGER,INTENT(IN) :: nbp_lon INTEGER,INTENT(IN) :: nbp_lat INTEGER,INTENT(IN) :: nbp_lev INTEGER,INTENT(IN) :: communicator INTEGER,INTENT(IN) :: grid_type INTEGER,INTENT(IN) :: nvertex INTEGER,ALLOCATABLE :: distrib(:) INTEGER :: ierr INTEGER :: klon_glo INTEGER :: i is_using_mpi = using_mpi if ((nbp_lon.eq.1).and.(nbp_lat.eq.1)) then ! running 1D column model klon_glo=1 else ! The usual global physics grid: 1 point for each pole and nbp_lon points ! for all other latitudes klon_glo=nbp_lon*(nbp_lat-2)+2 endif COMM_LMDZ_PHY=communicator IF (is_using_mpi) THEN MPI_REAL_LMDZ=MPI_REAL8 CALL MPI_COMM_SIZE(COMM_LMDZ_PHY,mpi_size,ierr) CALL MPI_COMM_RANK(COMM_LMDZ_PHY,mpi_rank,ierr) ELSE mpi_size=1 mpi_rank=0 ENDIF ALLOCATE(distrib(0:mpi_size-1)) IF (is_using_mpi) THEN CALL MPI_ALLGATHER(nbp,1,MPI_INTEGER,distrib,1,MPI_INTEGER,COMM_LMDZ_PHY,ierr) ELSE distrib(:)=nbp ENDIF IF (mpi_rank == 0) THEN mpi_master = 0 is_mpi_root = .true. ENDIF IF (mpi_rank == 0) THEN is_north_pole_dyn = .TRUE. ELSE is_north_pole_dyn = .FALSE. ENDIF IF (mpi_rank == mpi_size-1) THEN is_south_pole_dyn = .TRUE. ELSE is_south_pole_dyn = .FALSE. ENDIF ALLOCATE(jj_para_nb(0:mpi_size-1)) ALLOCATE(jj_para_begin(0:mpi_size-1)) ALLOCATE(jj_para_end(0:mpi_size-1)) ALLOCATE(ij_para_nb(0:mpi_size-1)) ALLOCATE(ij_para_begin(0:mpi_size-1)) ALLOCATE(ij_para_end(0:mpi_size-1)) ALLOCATE(ii_para_begin(0:mpi_size-1)) ALLOCATE(ii_para_end(0:mpi_size-1)) ALLOCATE(klon_mpi_para_nb(0:mpi_size-1)) ALLOCATE(klon_mpi_para_begin(0:mpi_size-1)) ALLOCATE(klon_mpi_para_end(0:mpi_size-1)) klon_mpi_para_nb(0:mpi_size-1)=distrib(0:mpi_size-1) DO i=0,mpi_size-1 IF (i==0) THEN klon_mpi_para_begin(i)=1 ELSE klon_mpi_para_begin(i)=klon_mpi_para_end(i-1)+1 ENDIF klon_mpi_para_end(i)=klon_mpi_para_begin(i)+klon_mpi_para_nb(i)-1 ENDDO DO i=0,mpi_size-1 IF (i==0) THEN ij_para_begin(i) = 1 ELSE ij_para_begin(i) = klon_mpi_para_begin(i)+nbp_lon-1 ENDIF jj_para_begin(i) = (ij_para_begin(i)-1)/nbp_lon + 1 ii_para_begin(i) = MOD(ij_para_begin(i)-1,nbp_lon) + 1 ij_para_end(i) = klon_mpi_para_end(i)+nbp_lon-1 jj_para_end(i) = (ij_para_end(i)-1)/nbp_lon + 1 ii_para_end(i) = MOD(ij_para_end(i)-1,nbp_lon) + 1 ij_para_nb(i) = ij_para_end(i)-ij_para_begin(i)+1 jj_para_nb(i) = jj_para_end(i)-jj_para_begin(i)+1 ENDDO ii_begin = ii_para_begin(mpi_rank) ii_end = ii_para_end(mpi_rank) jj_begin = jj_para_begin(mpi_rank) jj_end = jj_para_end(mpi_rank) jj_nb = jj_para_nb(mpi_rank) ij_begin = ij_para_begin(mpi_rank) ij_end = ij_para_end(mpi_rank) ij_nb = ij_para_nb(mpi_rank) klon_mpi_begin = klon_mpi_para_begin(mpi_rank) klon_mpi_end = klon_mpi_para_end(mpi_rank) klon_mpi = klon_mpi_para_nb(mpi_rank) CALL Print_module_data #ifdef INCA CALL init_inca_para( & nbp_lon,nbp_lat,nbp_lev,klon_glo,mpi_size, & distrib,nvertex, grid_type,communicator) #endif END SUBROUTINE Init_phys_lmdz_mpi_data SUBROUTINE print_module_data USE print_control_mod, ONLY: lunout IMPLICIT NONE ! INCLUDE "iniprint.h" WRITE(lunout,*) 'ii_begin =', ii_begin WRITE(lunout,*) 'ii_end =', ii_end WRITE(lunout,*) 'jj_begin =',jj_begin WRITE(lunout,*) 'jj_end =', jj_end WRITE(lunout,*) 'jj_nb =', jj_nb WRITE(lunout,*) 'ij_begin =', ij_begin WRITE(lunout,*) 'ij_end =', ij_end WRITE(lunout,*) 'ij_nb =', ij_nb WRITE(lunout,*) 'klon_mpi_begin =', klon_mpi_begin WRITE(lunout,*) 'klon_mpi_end =', klon_mpi_end WRITE(lunout,*) 'klon_mpi =', klon_mpi WRITE(lunout,*) 'jj_para_nb =', jj_para_nb WRITE(lunout,*) 'jj_para_begin =', jj_para_begin WRITE(lunout,*) 'jj_para_end =', jj_para_end WRITE(lunout,*) 'ii_para_begin =', ii_para_begin WRITE(lunout,*) 'ii_para_end =', ii_para_end WRITE(lunout,*) 'ij_para_nb =', ij_para_nb WRITE(lunout,*) 'ij_para_begin =', ij_para_begin WRITE(lunout,*) 'ij_para_end =', ij_para_end WRITE(lunout,*) 'klon_mpi_para_nb =', klon_mpi_para_nb WRITE(lunout,*) 'klon_mpi_para_begin =', klon_mpi_para_begin WRITE(lunout,*) 'klon_mpi_para_end =', klon_mpi_para_end WRITE(lunout,*) 'mpi_rank =', mpi_rank WRITE(lunout,*) 'mpi_size =', mpi_size WRITE(lunout,*) 'mpi_master =', mpi_master WRITE(lunout,*) 'is_mpi_root =', is_mpi_root WRITE(lunout,*) 'is_north_pole =', is_north_pole_dyn WRITE(lunout,*) 'is_south_pole =', is_south_pole_dyn WRITE(lunout,*) 'COMM_LMDZ_PHY =', COMM_LMDZ_PHY END SUBROUTINE print_module_data END MODULE mod_phys_lmdz_mpi_data