[3] | 1 | MODULE lib_mpp |
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[13] | 2 | !!====================================================================== |
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| 3 | !! *** MODULE lib_mpp *** |
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| 4 | !! Ocean numerics: massively parallel processing librairy |
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| 5 | !!===================================================================== |
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| 6 | #if defined key_mpp_mpi || defined key_mpp_shmem |
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| 7 | !!---------------------------------------------------------------------- |
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| 8 | !! 'key_mpp_mpi' OR MPI massively parallel processing library |
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| 9 | !! 'key_mpp_shmem' SHMEM massively parallel processing library |
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| 10 | !!---------------------------------------------------------------------- |
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| 11 | !! mynode |
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| 12 | !! mpparent |
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| 13 | !! mppshmem |
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| 14 | !! mpp_lnk : generic interface (defined in lbclnk) for : |
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| 15 | !! mpp_lnk_2d, mpp_lnk_3d |
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[473] | 16 | !! mpp_lnk_3d_gather : Message passing manadgement for two 3D arrays |
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[311] | 17 | !! mpp_lnk_e : interface defined in lbclnk |
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[13] | 18 | !! mpplnks |
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| 19 | !! mpprecv |
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| 20 | !! mppsend |
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| 21 | !! mppscatter |
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| 22 | !! mppgather |
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| 23 | !! mpp_isl : generic inteface for : |
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| 24 | !! mppisl_int , mppisl_a_int , mppisl_real, mppisl_a_real |
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| 25 | !! mpp_min : generic interface for : |
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| 26 | !! mppmin_int , mppmin_a_int , mppmin_real, mppmin_a_real |
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| 27 | !! mpp_max : generic interface for : |
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[681] | 28 | !! mppmax_int , mppmax_a_int , mppmax_real, mppmax_a_real |
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[13] | 29 | !! mpp_sum : generic interface for : |
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| 30 | !! mppsum_int , mppsum_a_int , mppsum_real, mppsum_a_real |
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[473] | 31 | !! mpp_minloc |
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| 32 | !! mpp_maxloc |
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[13] | 33 | !! mppsync |
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| 34 | !! mppstop |
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| 35 | !! mppobc : variant of mpp_lnk for open boundaries |
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| 36 | !! mpp_ini_north |
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| 37 | !! mpp_lbc_north |
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[311] | 38 | !! mpp_lbc_north_e : variant of mpp_lbc_north for extra outer halo (nsolv=4) |
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[13] | 39 | !!---------------------------------------------------------------------- |
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| 40 | !! History : |
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| 41 | !! ! 94 (M. Guyon, J. Escobar, M. Imbard) Original code |
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| 42 | !! ! 97 (A.M. Treguier) SHMEM additions |
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| 43 | !! ! 98 (M. Imbard, J. Escobar, L. Colombet ) SHMEM and MPI |
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| 44 | !! 9.0 ! 03 (J.-M. Molines, G. Madec) F90, free form |
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[233] | 45 | !! ! 04 (R. Bourdalle Badie) isend option in mpi |
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| 46 | !! ! 05 (G. Madec, S. Masson) npolj=5,6 F-point & ice cases |
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[532] | 47 | !! ! 05 (R. Redler) Replacement of MPI_COMM_WORLD except for MPI_Abort |
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[13] | 48 | !!---------------------------------------------------------------------- |
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[247] | 49 | !! OPA 9.0 , LOCEAN-IPSL (2005) |
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[888] | 50 | !! $Id$ |
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[247] | 51 | !! This software is governed by the CeCILL licence see modipsl/doc/NEMO_CeCILL.txt |
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[13] | 52 | !!--------------------------------------------------------------------- |
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| 53 | !! * Modules used |
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[473] | 54 | USE dom_oce ! ocean space and time domain |
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| 55 | USE in_out_manager ! I/O manager |
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[3] | 56 | |
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[13] | 57 | IMPLICIT NONE |
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[3] | 58 | |
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[415] | 59 | PRIVATE |
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| 60 | PUBLIC mynode, mpparent, mpp_isl, mpp_min, mpp_max, mpp_sum, mpp_lbc_north |
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[473] | 61 | PUBLIC mpp_lbc_north_e, mpp_minloc, mpp_maxloc, mpp_lnk_3d, mpp_lnk_2d, mpp_lnk_3d_gather, mpp_lnk_2d_e, mpplnks |
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[869] | 62 | PUBLIC mpprecv, mppsend, mppscatter, mppgather, mppobc, mpp_ini_north, mppstop, mppsync, mpp_ini_ice, mpp_comm_free |
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[532] | 63 | #if defined key_oasis3 || defined key_oasis4 |
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[629] | 64 | PUBLIC mppsize, mpprank |
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[532] | 65 | #endif |
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[415] | 66 | |
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[13] | 67 | !! * Interfaces |
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| 68 | !! define generic interface for these routine as they are called sometimes |
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| 69 | !! with scalar arguments instead of array arguments, which causes problems |
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| 70 | !! for the compilation on AIX system as well as NEC and SGI. Ok on COMPACQ |
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[3] | 71 | |
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[13] | 72 | INTERFACE mpp_isl |
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| 73 | MODULE PROCEDURE mppisl_a_int, mppisl_int, mppisl_a_real, mppisl_real |
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| 74 | END INTERFACE |
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| 75 | INTERFACE mpp_min |
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| 76 | MODULE PROCEDURE mppmin_a_int, mppmin_int, mppmin_a_real, mppmin_real |
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| 77 | END INTERFACE |
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| 78 | INTERFACE mpp_max |
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[681] | 79 | MODULE PROCEDURE mppmax_a_int, mppmax_int, mppmax_a_real, mppmax_real |
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[13] | 80 | END INTERFACE |
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| 81 | INTERFACE mpp_sum |
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| 82 | MODULE PROCEDURE mppsum_a_int, mppsum_int, mppsum_a_real, mppsum_real |
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| 83 | END INTERFACE |
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| 84 | INTERFACE mpp_lbc_north |
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| 85 | MODULE PROCEDURE mpp_lbc_north_3d, mpp_lbc_north_2d |
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| 86 | END INTERFACE |
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[181] | 87 | INTERFACE mpp_minloc |
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| 88 | MODULE PROCEDURE mpp_minloc2d ,mpp_minloc3d |
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| 89 | END INTERFACE |
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| 90 | INTERFACE mpp_maxloc |
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| 91 | MODULE PROCEDURE mpp_maxloc2d ,mpp_maxloc3d |
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| 92 | END INTERFACE |
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[3] | 93 | |
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[181] | 94 | |
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[51] | 95 | !! * Share module variables |
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[13] | 96 | LOGICAL, PUBLIC, PARAMETER :: lk_mpp = .TRUE. !: mpp flag |
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| 97 | |
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[51] | 98 | !! The processor number is a required power of two : 1, 2, 4, 8, 16, 32, 64, 128, 256, 512, 1024,... |
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| 99 | INTEGER, PARAMETER :: & |
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[635] | 100 | nprocmax = 2**10 ! maximun dimension |
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[3] | 101 | |
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[51] | 102 | #if defined key_mpp_mpi |
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| 103 | !! ========================= !! |
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| 104 | !! MPI variable definition !! |
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| 105 | !! ========================= !! |
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[389] | 106 | !$AGRIF_DO_NOT_TREAT |
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[51] | 107 | # include <mpif.h> |
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[389] | 108 | !$AGRIF_END_DO_NOT_TREAT |
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[3] | 109 | |
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[51] | 110 | INTEGER :: & |
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[629] | 111 | mppsize, & ! number of process |
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| 112 | mpprank, & ! process number [ 0 - size-1 ] |
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[532] | 113 | mpi_comm_opa ! opa local communicator |
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[3] | 114 | |
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[869] | 115 | ! variables used in case of sea-ice |
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| 116 | INTEGER, PUBLIC :: & ! |
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| 117 | ngrp_ice, & ! group ID for the ice processors (to compute rheology) |
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| 118 | ncomm_ice, & ! communicator made by the processors with sea-ice |
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| 119 | ndim_rank_ice, & ! number of 'ice' processors |
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| 120 | n_ice_root ! number (in the comm_ice) of proc 0 in the ice comm |
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| 121 | INTEGER, DIMENSION(:), ALLOCATABLE :: & |
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| 122 | nrank_ice ! dimension ndim_rank_north, number of the procs belonging to ncomm_north |
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[51] | 123 | ! variables used in case of north fold condition in mpp_mpi with jpni > 1 |
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| 124 | INTEGER :: & ! |
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| 125 | ngrp_world, & ! group ID for the world processors |
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| 126 | ngrp_north, & ! group ID for the northern processors (to be fold) |
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| 127 | ncomm_north, & ! communicator made by the processors belonging to ngrp_north |
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| 128 | ndim_rank_north, & ! number of 'sea' processor in the northern line (can be /= jpni !) |
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| 129 | njmppmax ! value of njmpp for the processors of the northern line |
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| 130 | INTEGER :: & ! |
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[532] | 131 | north_root ! number (in the comm_opa) of proc 0 in the northern comm |
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[51] | 132 | INTEGER, DIMENSION(:), ALLOCATABLE :: & |
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| 133 | nrank_north ! dimension ndim_rank_north, number of the procs belonging to ncomm_north |
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[300] | 134 | CHARACTER (len=1) :: & |
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| 135 | c_mpi_send = 'S' ! type od mpi send/recieve (S=standard, B=bsend, I=isend) |
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| 136 | LOGICAL :: & |
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| 137 | l_isend = .FALSE. ! isend use indicator (T if c_mpi_send='I') |
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[3] | 138 | |
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| 139 | |
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[13] | 140 | #elif defined key_mpp_shmem |
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[51] | 141 | !! ========================= !! |
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| 142 | !! SHMEM variable definition !! |
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| 143 | !! ========================= !! |
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[3] | 144 | # include <fpvm3.h> |
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[51] | 145 | # include <mpp/shmem.fh> |
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[3] | 146 | |
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[51] | 147 | CHARACTER (len=80), PARAMETER :: simfile = 'pvm3_ndim' ! file name |
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| 148 | CHARACTER (len=47), PARAMETER :: executable = 'opa' ! executable name |
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| 149 | CHARACTER, PARAMETER :: opaall = "" ! group name (old def opaall*(*)) |
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[3] | 150 | |
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[51] | 151 | INTEGER, PARAMETER :: & !! SHMEM control print |
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| 152 | mynode_print = 0, & ! flag for print, mynode routine |
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| 153 | mpprecv_print = 0, & ! flag for print, mpprecv routine |
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| 154 | mppsend_print = 0, & ! flag for print, mppsend routine |
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| 155 | mppsync_print = 0, & ! flag for print, mppsync routine |
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| 156 | mppsum_print = 0, & ! flag for print, mpp_sum routine |
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| 157 | mppisl_print = 0, & ! flag for print, mpp_isl routine |
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| 158 | mppmin_print = 0, & ! flag for print, mpp_min routine |
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| 159 | mppmax_print = 0, & ! flag for print, mpp_max routine |
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| 160 | mpparent_print = 0 ! flag for print, mpparent routine |
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[3] | 161 | |
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[51] | 162 | INTEGER, PARAMETER :: & !! Variable definition |
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| 163 | jpvmint = 21 ! ??? |
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[3] | 164 | |
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[51] | 165 | INTEGER, PARAMETER :: & !! Maximum dimension of array to sum on the processors |
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| 166 | jpmsec = 50000, & ! ??? |
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| 167 | jpmpplat = 30, & ! ??? |
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| 168 | jpmppsum = MAX( jpisl*jpisl, jpmpplat*jpk, jpmsec ) ! ??? |
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| 169 | |
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| 170 | INTEGER :: & |
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| 171 | npvm_ipas , & ! pvm initialization flag |
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| 172 | npvm_mytid, & ! pvm tid |
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| 173 | npvm_me , & ! node number [ 0 - nproc-1 ] |
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| 174 | npvm_nproc, & ! real number of nodes |
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| 175 | npvm_inum ! ??? |
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| 176 | INTEGER, DIMENSION(0:nprocmax-1) :: & |
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| 177 | npvm_tids ! tids array [ 0 - nproc-1 ] |
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| 178 | |
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| 179 | INTEGER :: & |
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| 180 | nt3d_ipas , & ! pvm initialization flag |
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| 181 | nt3d_mytid, & ! pvm tid |
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| 182 | nt3d_me , & ! node number [ 0 - nproc-1 ] |
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| 183 | nt3d_nproc ! real number of nodes |
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| 184 | INTEGER, DIMENSION(0:nprocmax-1) :: & |
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| 185 | nt3d_tids ! tids array [ 0 - nproc-1 ] |
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| 186 | |
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| 187 | !! real sum reduction |
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| 188 | INTEGER, DIMENSION(SHMEM_REDUCE_SYNC_SIZE) :: & |
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[3] | 189 | nrs1sync_shmem, & ! |
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| 190 | nrs2sync_shmem |
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[51] | 191 | REAL(wp), DIMENSION( MAX( SHMEM_REDUCE_MIN_WRKDATA_SIZE, jpmppsum/2+1 ) ) :: & |
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[3] | 192 | wrs1wrk_shmem, & ! |
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| 193 | wrs2wrk_shmem ! |
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[51] | 194 | REAL(wp), DIMENSION(jpmppsum) :: & |
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| 195 | wrstab_shmem ! |
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[3] | 196 | |
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[51] | 197 | !! minimum and maximum reduction |
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| 198 | INTEGER, DIMENSION(SHMEM_REDUCE_SYNC_SIZE) :: & |
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[3] | 199 | ni1sync_shmem, & ! |
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| 200 | ni2sync_shmem ! |
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[51] | 201 | REAL(wp), DIMENSION( MAX( SHMEM_REDUCE_MIN_WRKDATA_SIZE, jpmppsum/2+1 ) ) :: & |
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| 202 | wi1wrk_shmem, & ! |
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| 203 | wi2wrk_shmem |
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| 204 | REAL(wp), DIMENSION(jpmppsum) :: & |
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[3] | 205 | wintab_shmem, & ! |
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| 206 | wi1tab_shmem, & ! |
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[51] | 207 | wi2tab_shmem ! |
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[3] | 208 | |
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| 209 | !! value not equal zero for barotropic stream function around islands |
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[51] | 210 | INTEGER, DIMENSION(SHMEM_REDUCE_SYNC_SIZE) :: & |
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[3] | 211 | ni11sync_shmem, & ! |
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| 212 | ni12sync_shmem, & ! |
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| 213 | ni21sync_shmem, & ! |
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| 214 | ni22sync_shmem ! |
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[51] | 215 | REAL(wp), DIMENSION( MAX( SHMEM_REDUCE_MIN_WRKDATA_SIZE, jpmppsum/2+1 ) ) :: & |
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[3] | 216 | wi11wrk_shmem, & ! |
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| 217 | wi12wrk_shmem, & ! |
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| 218 | wi21wrk_shmem, & ! |
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| 219 | wi22wrk_shmem ! |
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[51] | 220 | REAL(wp), DIMENSION(jpmppsum) :: & |
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[3] | 221 | wiltab_shmem , & ! |
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| 222 | wi11tab_shmem, & ! |
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| 223 | wi12tab_shmem, & ! |
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| 224 | wi21tab_shmem, & ! |
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| 225 | wi22tab_shmem |
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| 226 | |
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[51] | 227 | INTEGER, DIMENSION( MAX( SHMEM_REDUCE_MIN_WRKDATA_SIZE, jpmppsum/2+1 ) ) :: & |
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[3] | 228 | ni11wrk_shmem, & ! |
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| 229 | ni12wrk_shmem, & ! |
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| 230 | ni21wrk_shmem, & ! |
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| 231 | ni22wrk_shmem ! |
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[51] | 232 | INTEGER, DIMENSION(jpmppsum) :: & |
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[3] | 233 | niitab_shmem , & ! |
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| 234 | ni11tab_shmem, & ! |
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| 235 | ni12tab_shmem ! |
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[51] | 236 | INTEGER, DIMENSION(SHMEM_REDUCE_SYNC_SIZE) :: & |
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[3] | 237 | nis1sync_shmem, & ! |
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| 238 | nis2sync_shmem ! |
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[51] | 239 | INTEGER, DIMENSION( MAX( SHMEM_REDUCE_MIN_WRKDATA_SIZE, jpmppsum/2+1 ) ) :: & |
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[3] | 240 | nis1wrk_shmem, & ! |
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| 241 | nis2wrk_shmem ! |
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[51] | 242 | INTEGER, DIMENSION(jpmppsum) :: & |
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[3] | 243 | nistab_shmem |
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| 244 | |
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[51] | 245 | !! integer sum reduction |
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| 246 | INTEGER, DIMENSION(SHMEM_REDUCE_SYNC_SIZE) :: & |
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[3] | 247 | nil1sync_shmem, & ! |
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| 248 | nil2sync_shmem ! |
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[51] | 249 | INTEGER, DIMENSION( MAX( SHMEM_REDUCE_MIN_WRKDATA_SIZE, jpmppsum/2+1 ) ) :: & |
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[3] | 250 | nil1wrk_shmem, & ! |
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| 251 | nil2wrk_shmem ! |
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[51] | 252 | INTEGER, DIMENSION(jpmppsum) :: & |
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[3] | 253 | niltab_shmem |
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| 254 | #endif |
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| 255 | |
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[473] | 256 | REAL(wp), DIMENSION(jpi,jprecj,jpk,2,2) :: & |
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| 257 | t4ns, t4sn ! 3d message passing arrays north-south & south-north |
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| 258 | REAL(wp), DIMENSION(jpj,jpreci,jpk,2,2) :: & |
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| 259 | t4ew, t4we ! 3d message passing arrays east-west & west-east |
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| 260 | REAL(wp), DIMENSION(jpi,jprecj,jpk,2,2) :: & |
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| 261 | t4p1, t4p2 ! 3d message passing arrays north fold |
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[51] | 262 | REAL(wp), DIMENSION(jpi,jprecj,jpk,2) :: & |
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[3] | 263 | t3ns, t3sn ! 3d message passing arrays north-south & south-north |
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[51] | 264 | REAL(wp), DIMENSION(jpj,jpreci,jpk,2) :: & |
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[3] | 265 | t3ew, t3we ! 3d message passing arrays east-west & west-east |
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[51] | 266 | REAL(wp), DIMENSION(jpi,jprecj,jpk,2) :: & |
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[3] | 267 | t3p1, t3p2 ! 3d message passing arrays north fold |
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[51] | 268 | REAL(wp), DIMENSION(jpi,jprecj,2) :: & |
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[3] | 269 | t2ns, t2sn ! 2d message passing arrays north-south & south-north |
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[51] | 270 | REAL(wp), DIMENSION(jpj,jpreci,2) :: & |
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[3] | 271 | t2ew, t2we ! 2d message passing arrays east-west & west-east |
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[51] | 272 | REAL(wp), DIMENSION(jpi,jprecj,2) :: & |
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[3] | 273 | t2p1, t2p2 ! 2d message passing arrays north fold |
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[311] | 274 | REAL(wp), DIMENSION(1-jpr2di:jpi+jpr2di,jprecj+jpr2dj,2) :: & |
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| 275 | tr2ns, tr2sn ! 2d message passing arrays north-south & south-north including extra outer halo |
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| 276 | REAL(wp), DIMENSION(1-jpr2dj:jpj+jpr2dj,jpreci+jpr2di,2) :: & |
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| 277 | tr2ew, tr2we ! 2d message passing arrays east-west & west-east including extra outer halo |
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[51] | 278 | !!---------------------------------------------------------------------- |
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[247] | 279 | !! OPA 9.0 , LOCEAN-IPSL (2005) |
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[888] | 280 | !! $Id$ |
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[247] | 281 | !! This software is governed by the CeCILL licence see modipsl/doc/NEMO_CeCILL.txt |
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[51] | 282 | !!--------------------------------------------------------------------- |
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[3] | 283 | |
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| 284 | CONTAINS |
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| 285 | |
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[532] | 286 | FUNCTION mynode(localComm) |
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[51] | 287 | !!---------------------------------------------------------------------- |
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| 288 | !! *** routine mynode *** |
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| 289 | !! |
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| 290 | !! ** Purpose : Find processor unit |
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| 291 | !! |
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| 292 | !!---------------------------------------------------------------------- |
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[3] | 293 | #if defined key_mpp_mpi |
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[51] | 294 | !! * Local variables (MPI version) |
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[532] | 295 | INTEGER :: mynode, ierr, code |
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| 296 | LOGICAL :: mpi_was_called |
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| 297 | INTEGER,OPTIONAL :: localComm |
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[300] | 298 | NAMELIST/nam_mpp/ c_mpi_send |
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[51] | 299 | !!---------------------------------------------------------------------- |
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[181] | 300 | |
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[300] | 301 | WRITE(numout,*) |
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| 302 | WRITE(numout,*) 'mynode : mpi initialisation' |
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| 303 | WRITE(numout,*) '~~~~~~ ' |
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| 304 | WRITE(numout,*) |
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| 305 | |
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| 306 | ! Namelist namrun : parameters of the run |
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| 307 | REWIND( numnam ) |
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| 308 | READ ( numnam, nam_mpp ) |
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| 309 | |
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| 310 | WRITE(numout,*) ' Namelist nam_mpp' |
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| 311 | WRITE(numout,*) ' mpi send type c_mpi_send = ', c_mpi_send |
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| 312 | |
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[392] | 313 | #if defined key_agrif |
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[415] | 314 | IF( Agrif_Root() ) THEN |
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| 315 | #endif |
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[570] | 316 | !!bug RB : should be clean to use Agrif in coupled mode |
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| 317 | #if ! defined key_agrif |
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[532] | 318 | CALL mpi_initialized ( mpi_was_called, code ) |
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| 319 | IF( code /= MPI_SUCCESS ) THEN |
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| 320 | CALL ctl_stop( ' lib_mpp: Error in routine mpi_initialized' ) |
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| 321 | CALL mpi_abort( mpi_comm_world, code, ierr ) |
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| 322 | ENDIF |
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[415] | 323 | |
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[532] | 324 | IF( PRESENT(localComm) .and. mpi_was_called ) THEN |
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| 325 | mpi_comm_opa = localComm |
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| 326 | SELECT CASE ( c_mpi_send ) |
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| 327 | CASE ( 'S' ) ! Standard mpi send (blocking) |
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| 328 | WRITE(numout,*) ' Standard blocking mpi send (send)' |
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| 329 | CASE ( 'B' ) ! Buffer mpi send (blocking) |
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| 330 | WRITE(numout,*) ' Buffer blocking mpi send (bsend)' |
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| 331 | CALL mpi_init_opa( ierr ) |
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| 332 | CASE ( 'I' ) ! Immediate mpi send (non-blocking send) |
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| 333 | WRITE(numout,*) ' Immediate non-blocking send (isend)' |
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| 334 | l_isend = .TRUE. |
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| 335 | CASE DEFAULT |
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| 336 | WRITE(numout,cform_err) |
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| 337 | WRITE(numout,*) ' bad value for c_mpi_send = ', c_mpi_send |
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| 338 | nstop = nstop + 1 |
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| 339 | END SELECT |
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| 340 | ELSE IF ( PRESENT(localComm) .and. .not. mpi_was_called ) THEN |
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| 341 | WRITE(numout,*) ' lib_mpp: You cannot provide a local communicator ' |
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| 342 | WRITE(numout,*) ' without calling MPI_Init before ! ' |
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| 343 | ELSE |
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[570] | 344 | #endif |
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[532] | 345 | SELECT CASE ( c_mpi_send ) |
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| 346 | CASE ( 'S' ) ! Standard mpi send (blocking) |
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| 347 | WRITE(numout,*) ' Standard blocking mpi send (send)' |
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| 348 | CALL mpi_init( ierr ) |
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| 349 | CASE ( 'B' ) ! Buffer mpi send (blocking) |
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| 350 | WRITE(numout,*) ' Buffer blocking mpi send (bsend)' |
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| 351 | CALL mpi_init_opa( ierr ) |
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| 352 | CASE ( 'I' ) ! Immediate mpi send (non-blocking send) |
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| 353 | WRITE(numout,*) ' Immediate non-blocking send (isend)' |
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| 354 | l_isend = .TRUE. |
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| 355 | CALL mpi_init( ierr ) |
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| 356 | CASE DEFAULT |
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| 357 | WRITE(ctmp1,*) ' bad value for c_mpi_send = ', c_mpi_send |
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| 358 | CALL ctl_stop( ctmp1 ) |
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| 359 | END SELECT |
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| 360 | |
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[570] | 361 | #if ! defined key_agrif |
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[532] | 362 | CALL mpi_comm_dup( mpi_comm_world, mpi_comm_opa, code) |
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| 363 | IF( code /= MPI_SUCCESS ) THEN |
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| 364 | CALL ctl_stop( ' lib_mpp: Error in routine mpi_comm_dup' ) |
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| 365 | CALL mpi_abort( mpi_comm_world, code, ierr ) |
---|
| 366 | ENDIF |
---|
| 367 | ! |
---|
| 368 | ENDIF |
---|
[570] | 369 | #endif |
---|
[392] | 370 | #if defined key_agrif |
---|
[532] | 371 | ELSE |
---|
[524] | 372 | SELECT CASE ( c_mpi_send ) |
---|
| 373 | CASE ( 'S' ) ! Standard mpi send (blocking) |
---|
| 374 | WRITE(numout,*) ' Standard blocking mpi send (send)' |
---|
| 375 | CASE ( 'B' ) ! Buffer mpi send (blocking) |
---|
| 376 | WRITE(numout,*) ' Buffer blocking mpi send (bsend)' |
---|
| 377 | CASE ( 'I' ) ! Immediate mpi send (non-blocking send) |
---|
| 378 | WRITE(numout,*) ' Immediate non-blocking send (isend)' |
---|
| 379 | l_isend = .TRUE. |
---|
| 380 | CASE DEFAULT |
---|
| 381 | WRITE(numout,cform_err) |
---|
| 382 | WRITE(numout,*) ' bad value for c_mpi_send = ', c_mpi_send |
---|
| 383 | nstop = nstop + 1 |
---|
| 384 | END SELECT |
---|
[415] | 385 | ENDIF |
---|
[570] | 386 | |
---|
| 387 | mpi_comm_opa = mpi_comm_world |
---|
[415] | 388 | #endif |
---|
[629] | 389 | CALL mpi_comm_rank( mpi_comm_opa, mpprank, ierr ) |
---|
| 390 | CALL mpi_comm_size( mpi_comm_opa, mppsize, ierr ) |
---|
| 391 | mynode = mpprank |
---|
[3] | 392 | #else |
---|
[51] | 393 | !! * Local variables (SHMEM version) |
---|
| 394 | INTEGER :: mynode |
---|
| 395 | INTEGER :: & |
---|
| 396 | imypid, imyhost, ji, info, iparent_tid |
---|
| 397 | !!---------------------------------------------------------------------- |
---|
[3] | 398 | |
---|
[51] | 399 | IF( npvm_ipas /= nprocmax ) THEN |
---|
| 400 | ! --- first passage in mynode |
---|
| 401 | ! ------------- |
---|
| 402 | ! enroll in pvm |
---|
| 403 | ! ------------- |
---|
| 404 | CALL pvmfmytid( npvm_mytid ) |
---|
| 405 | IF( mynode_print /= 0 ) THEN |
---|
[233] | 406 | WRITE(numout,*) 'mynode, npvm_ipas =', npvm_ipas, ' nprocmax=', nprocmax |
---|
| 407 | WRITE(numout,*) 'mynode, npvm_mytid=', npvm_mytid, ' after pvmfmytid' |
---|
[51] | 408 | ENDIF |
---|
[3] | 409 | |
---|
[51] | 410 | ! --------------------------------------------------------------- |
---|
| 411 | ! find out IF i am parent or child spawned processes have parents |
---|
| 412 | ! --------------------------------------------------------------- |
---|
| 413 | CALL mpparent( iparent_tid ) |
---|
| 414 | IF( mynode_print /= 0 ) THEN |
---|
[233] | 415 | WRITE(numout,*) 'mynode, npvm_mytid=', npvm_mytid, & |
---|
[51] | 416 | & ' after mpparent, npvm_tids(0) = ', & |
---|
| 417 | & npvm_tids(0), ' iparent_tid=', iparent_tid |
---|
| 418 | ENDIF |
---|
| 419 | IF( iparent_tid < 0 ) THEN |
---|
[233] | 420 | WRITE(numout,*) 'mynode, npvm_mytid=', npvm_mytid, & |
---|
[51] | 421 | & ' after mpparent, npvm_tids(0) = ', & |
---|
| 422 | & npvm_tids(0), ' iparent_tid=', iparent_tid |
---|
| 423 | npvm_tids(0) = npvm_mytid |
---|
| 424 | npvm_me = 0 |
---|
[635] | 425 | IF( jpnij > nprocmax ) THEN |
---|
[473] | 426 | WRITE(ctmp1,*) 'npvm_mytid=', npvm_mytid, ' too great' |
---|
| 427 | CALL ctl_stop( ctmp1 ) |
---|
| 428 | |
---|
[51] | 429 | ELSE |
---|
[635] | 430 | npvm_nproc = jpnij |
---|
[51] | 431 | ENDIF |
---|
[3] | 432 | |
---|
[51] | 433 | ! ------------------------- |
---|
| 434 | ! start up copies of myself |
---|
| 435 | ! ------------------------- |
---|
| 436 | IF( npvm_nproc > 1 ) THEN |
---|
| 437 | DO ji = 1, npvm_nproc-1 |
---|
| 438 | npvm_tids(ji) = nt3d_tids(ji) |
---|
| 439 | END DO |
---|
| 440 | info=npvm_nproc-1 |
---|
| 441 | |
---|
| 442 | IF( mynode_print /= 0 ) THEN |
---|
[233] | 443 | WRITE(numout,*) 'mynode, npvm_mytid=',npvm_mytid, & |
---|
[51] | 444 | & ' maitre=',executable,' info=', info & |
---|
| 445 | & ,' npvm_nproc=',npvm_nproc |
---|
[233] | 446 | WRITE(numout,*) 'mynode, npvm_mytid=',npvm_mytid, & |
---|
[51] | 447 | & ' npvm_tids ',(npvm_tids(ji),ji=0,npvm_nproc-1) |
---|
| 448 | ENDIF |
---|
[13] | 449 | |
---|
[51] | 450 | ! --------------------------- |
---|
| 451 | ! multicast tids array to children |
---|
| 452 | ! --------------------------- |
---|
| 453 | CALL pvmfinitsend( pvmdefault, info ) |
---|
| 454 | CALL pvmfpack ( jpvmint, npvm_nproc, 1 , 1, info ) |
---|
| 455 | CALL pvmfpack ( jpvmint, npvm_tids , npvm_nproc, 1, info ) |
---|
| 456 | CALL pvmfmcast( npvm_nproc-1, npvm_tids(1), 10, info ) |
---|
| 457 | ENDIF |
---|
| 458 | ELSE |
---|
[3] | 459 | |
---|
[51] | 460 | ! --------------------------------- |
---|
| 461 | ! receive the tids array and set me |
---|
| 462 | ! --------------------------------- |
---|
[233] | 463 | IF( mynode_print /= 0 ) WRITE(numout,*) 'mynode, npvm_mytid=',npvm_mytid, ' pvmfrecv' |
---|
[51] | 464 | CALL pvmfrecv( iparent_tid, 10, info ) |
---|
[233] | 465 | IF( mynode_print /= 0 ) WRITE(numout,*) 'mynode, npvm_mytid=',npvm_mytid, " fin pvmfrecv" |
---|
[51] | 466 | CALL pvmfunpack( jpvmint, npvm_nproc, 1 , 1, info ) |
---|
| 467 | CALL pvmfunpack( jpvmint, npvm_tids , npvm_nproc, 1, info ) |
---|
| 468 | IF( mynode_print /= 0 ) THEN |
---|
[233] | 469 | WRITE(numout,*) 'mynode, npvm_mytid=',npvm_mytid, & |
---|
[51] | 470 | & ' esclave=', executable,' info=', info,' npvm_nproc=',npvm_nproc |
---|
[233] | 471 | WRITE(numout,*) 'mynode, npvm_mytid=', npvm_mytid, & |
---|
[51] | 472 | & 'npvm_tids', ( npvm_tids(ji), ji = 0, npvm_nproc-1 ) |
---|
| 473 | ENDIF |
---|
| 474 | DO ji = 0, npvm_nproc-1 |
---|
| 475 | IF( npvm_mytid == npvm_tids(ji) ) npvm_me = ji |
---|
| 476 | END DO |
---|
| 477 | ENDIF |
---|
[3] | 478 | |
---|
[51] | 479 | ! ------------------------------------------------------------ |
---|
| 480 | ! all nproc tasks are equal now |
---|
| 481 | ! and can address each other by tids(0) thru tids(nproc-1) |
---|
| 482 | ! for each process me => process number [0-(nproc-1)] |
---|
| 483 | ! ------------------------------------------------------------ |
---|
| 484 | CALL pvmfjoingroup ( "bidon", info ) |
---|
| 485 | CALL pvmfbarrier ( "bidon", npvm_nproc, info ) |
---|
| 486 | DO ji = 0, npvm_nproc-1 |
---|
| 487 | IF( ji == npvm_me ) THEN |
---|
| 488 | CALL pvmfjoingroup ( opaall, npvm_inum ) |
---|
[233] | 489 | IF( npvm_inum /= npvm_me ) WRITE(numout,*) 'mynode not arrived in the good order for opaall' |
---|
[51] | 490 | ENDIF |
---|
| 491 | CALL pvmfbarrier( "bidon", npvm_nproc, info ) |
---|
| 492 | END DO |
---|
| 493 | CALL pvmfbarrier( opaall, npvm_nproc, info ) |
---|
| 494 | |
---|
| 495 | ELSE |
---|
| 496 | ! --- other passage in mynode |
---|
| 497 | ENDIF |
---|
| 498 | |
---|
| 499 | npvm_ipas = nprocmax |
---|
| 500 | mynode = npvm_me |
---|
| 501 | imypid = npvm_mytid |
---|
| 502 | imyhost = npvm_tids(0) |
---|
| 503 | IF( mynode_print /= 0 ) THEN |
---|
[233] | 504 | WRITE(numout,*)'mynode: npvm_mytid=', npvm_mytid, ' npvm_me=', npvm_me, & |
---|
[51] | 505 | & ' npvm_nproc=', npvm_nproc , ' npvm_ipas=', npvm_ipas |
---|
| 506 | ENDIF |
---|
[3] | 507 | #endif |
---|
[51] | 508 | END FUNCTION mynode |
---|
[3] | 509 | |
---|
| 510 | |
---|
[51] | 511 | SUBROUTINE mpparent( kparent_tid ) |
---|
| 512 | !!---------------------------------------------------------------------- |
---|
| 513 | !! *** routine mpparent *** |
---|
| 514 | !! |
---|
| 515 | !! ** Purpose : use an pvmfparent routine for T3E (key_mpp_shmem) |
---|
| 516 | !! or only return -1 (key_mpp_mpi) |
---|
| 517 | !!---------------------------------------------------------------------- |
---|
| 518 | !! * Arguments |
---|
| 519 | INTEGER, INTENT(inout) :: kparent_tid ! ??? |
---|
| 520 | |
---|
[13] | 521 | #if defined key_mpp_mpi |
---|
[51] | 522 | ! MPI version : retour -1 |
---|
[3] | 523 | |
---|
[51] | 524 | kparent_tid = -1 |
---|
[3] | 525 | |
---|
| 526 | #else |
---|
[51] | 527 | !! * Local variables (SHMEN onto T3E version) |
---|
| 528 | INTEGER :: & |
---|
| 529 | it3d_my_pe, LEADZ, ji, info |
---|
| 530 | |
---|
| 531 | CALL pvmfmytid( nt3d_mytid ) |
---|
| 532 | CALL pvmfgetpe( nt3d_mytid, it3d_my_pe ) |
---|
| 533 | IF( mpparent_print /= 0 ) THEN |
---|
[233] | 534 | WRITE(numout,*) 'mpparent: nt3d_mytid= ', nt3d_mytid ,' it3d_my_pe=',it3d_my_pe |
---|
[51] | 535 | ENDIF |
---|
| 536 | IF( it3d_my_pe == 0 ) THEN |
---|
| 537 | !-----------------------------------------------------------------! |
---|
| 538 | ! process = 0 => receive other tids ! |
---|
| 539 | !-----------------------------------------------------------------! |
---|
| 540 | kparent_tid = -1 |
---|
| 541 | IF(mpparent_print /= 0 ) THEN |
---|
[233] | 542 | WRITE(numout,*) 'mpparent, nt3d_mytid=',nt3d_mytid ,' kparent_tid=',kparent_tid |
---|
[51] | 543 | ENDIF |
---|
| 544 | ! --- END receive dimension --- |
---|
[635] | 545 | IF( jpnij > nprocmax ) THEN |
---|
[473] | 546 | WRITE(ctmp1,*) 'mytid=',nt3d_mytid,' too great' |
---|
| 547 | CALL ctl_stop( ctmp1 ) |
---|
[51] | 548 | ELSE |
---|
[635] | 549 | nt3d_nproc = jpnij |
---|
[51] | 550 | ENDIF |
---|
| 551 | IF( mpparent_print /= 0 ) THEN |
---|
[233] | 552 | WRITE(numout,*) 'mpparent, nt3d_mytid=', nt3d_mytid , ' nt3d_nproc=', nt3d_nproc |
---|
[51] | 553 | ENDIF |
---|
| 554 | !-------- receive tids from others process -------- |
---|
| 555 | DO ji = 1, nt3d_nproc-1 |
---|
| 556 | CALL pvmfrecv( ji , 100, info ) |
---|
| 557 | CALL pvmfunpack( jpvmint, nt3d_tids(ji), 1, 1, info ) |
---|
| 558 | IF( mpparent_print /= 0 ) THEN |
---|
[233] | 559 | WRITE(numout,*) 'mpparent, nt3d_mytid=', nt3d_mytid , ' receive=', nt3d_tids(ji), ' from = ', ji |
---|
[51] | 560 | ENDIF |
---|
| 561 | END DO |
---|
| 562 | nt3d_tids(0) = nt3d_mytid |
---|
| 563 | IF( mpparent_print /= 0 ) THEN |
---|
[233] | 564 | WRITE(numout,*) 'mpparent, nt3d_mytid=', nt3d_mytid , ' nt3d_tids(ji) =', (nt3d_tids(ji), & |
---|
[51] | 565 | ji = 0, nt3d_nproc-1 ) |
---|
[233] | 566 | WRITE(numout,*) 'mpparent, nt3d_mytid=', nt3d_mytid , ' kparent_tid=', kparent_tid |
---|
[51] | 567 | ENDIF |
---|
[3] | 568 | |
---|
[51] | 569 | ELSE |
---|
| 570 | !!----------------------------------------------------------------! |
---|
| 571 | ! process <> 0 => send other tids ! |
---|
| 572 | !!----------------------------------------------------------------! |
---|
| 573 | kparent_tid = 0 |
---|
| 574 | CALL pvmfinitsend( pvmdataraw, info ) |
---|
| 575 | CALL pvmfpack( jpvmint, nt3d_mytid, 1, 1, info ) |
---|
| 576 | CALL pvmfsend( kparent_tid, 100, info ) |
---|
| 577 | ENDIF |
---|
[3] | 578 | #endif |
---|
| 579 | |
---|
[51] | 580 | END SUBROUTINE mpparent |
---|
[3] | 581 | |
---|
| 582 | #if defined key_mpp_shmem |
---|
| 583 | |
---|
[51] | 584 | SUBROUTINE mppshmem |
---|
| 585 | !!---------------------------------------------------------------------- |
---|
| 586 | !! *** routine mppshmem *** |
---|
| 587 | !! |
---|
| 588 | !! ** Purpose : SHMEM ROUTINE |
---|
| 589 | !! |
---|
| 590 | !!---------------------------------------------------------------------- |
---|
| 591 | nrs1sync_shmem = SHMEM_SYNC_VALUE |
---|
| 592 | nrs2sync_shmem = SHMEM_SYNC_VALUE |
---|
| 593 | nis1sync_shmem = SHMEM_SYNC_VALUE |
---|
| 594 | nis2sync_shmem = SHMEM_SYNC_VALUE |
---|
| 595 | nil1sync_shmem = SHMEM_SYNC_VALUE |
---|
| 596 | nil2sync_shmem = SHMEM_SYNC_VALUE |
---|
| 597 | ni11sync_shmem = SHMEM_SYNC_VALUE |
---|
| 598 | ni12sync_shmem = SHMEM_SYNC_VALUE |
---|
| 599 | ni21sync_shmem = SHMEM_SYNC_VALUE |
---|
| 600 | ni22sync_shmem = SHMEM_SYNC_VALUE |
---|
| 601 | CALL barrier() |
---|
| 602 | |
---|
| 603 | END SUBROUTINE mppshmem |
---|
[3] | 604 | |
---|
| 605 | #endif |
---|
| 606 | |
---|
[888] | 607 | SUBROUTINE mpp_lnk_3d( ptab, cd_type, psgn, cd_mpp, pval ) |
---|
[51] | 608 | !!---------------------------------------------------------------------- |
---|
| 609 | !! *** routine mpp_lnk_3d *** |
---|
| 610 | !! |
---|
| 611 | !! ** Purpose : Message passing manadgement |
---|
| 612 | !! |
---|
| 613 | !! ** Method : Use mppsend and mpprecv function for passing mask |
---|
| 614 | !! between processors following neighboring subdomains. |
---|
| 615 | !! domain parameters |
---|
| 616 | !! nlci : first dimension of the local subdomain |
---|
| 617 | !! nlcj : second dimension of the local subdomain |
---|
| 618 | !! nbondi : mark for "east-west local boundary" |
---|
| 619 | !! nbondj : mark for "north-south local boundary" |
---|
| 620 | !! noea : number for local neighboring processors |
---|
| 621 | !! nowe : number for local neighboring processors |
---|
| 622 | !! noso : number for local neighboring processors |
---|
| 623 | !! nono : number for local neighboring processors |
---|
| 624 | !! |
---|
| 625 | !! ** Action : ptab with update value at its periphery |
---|
| 626 | !! |
---|
| 627 | !!---------------------------------------------------------------------- |
---|
| 628 | !! * Arguments |
---|
| 629 | CHARACTER(len=1) , INTENT( in ) :: & |
---|
[3] | 630 | cd_type ! define the nature of ptab array grid-points |
---|
[51] | 631 | ! ! = T , U , V , F , W points |
---|
| 632 | ! ! = S : T-point, north fold treatment ??? |
---|
| 633 | ! ! = G : F-point, north fold treatment ??? |
---|
| 634 | REAL(wp), INTENT( in ) :: & |
---|
[3] | 635 | psgn ! control of the sign change |
---|
[51] | 636 | ! ! = -1. , the sign is changed if north fold boundary |
---|
| 637 | ! ! = 1. , the sign is kept if north fold boundary |
---|
| 638 | REAL(wp), DIMENSION(jpi,jpj,jpk), INTENT( inout ) :: & |
---|
[3] | 639 | ptab ! 3D array on which the boundary condition is applied |
---|
[473] | 640 | CHARACTER(len=3), INTENT( in ), OPTIONAL :: & |
---|
| 641 | cd_mpp ! fill the overlap area only |
---|
[888] | 642 | REAL(wp) , INTENT(in ), OPTIONAL :: pval ! background value (used at closed boundaries) |
---|
[3] | 643 | |
---|
[51] | 644 | !! * Local variables |
---|
[610] | 645 | INTEGER :: ji, jj, jk, jl ! dummy loop indices |
---|
[51] | 646 | INTEGER :: imigr, iihom, ijhom, iloc, ijt, iju ! temporary integers |
---|
[181] | 647 | INTEGER :: ml_req1, ml_req2, ml_err ! for key_mpi_isend |
---|
| 648 | INTEGER :: ml_stat(MPI_STATUS_SIZE) ! for key_mpi_isend |
---|
[888] | 649 | REAL(wp) :: zland |
---|
[51] | 650 | !!---------------------------------------------------------------------- |
---|
[3] | 651 | |
---|
[51] | 652 | ! 1. standard boundary treatment |
---|
| 653 | ! ------------------------------ |
---|
[3] | 654 | |
---|
[888] | 655 | IF( PRESENT( pval ) ) THEN ! set land value (zero by default) |
---|
| 656 | zland = pval |
---|
| 657 | ELSE |
---|
| 658 | zland = 0.e0 |
---|
| 659 | ENDIF |
---|
| 660 | |
---|
[473] | 661 | IF( PRESENT( cd_mpp ) ) THEN |
---|
[610] | 662 | DO jj = nlcj+1, jpj ! only fill extra allows last line |
---|
[619] | 663 | ptab(1:nlci, jj, :) = ptab(1:nlci, nlej, :) |
---|
[610] | 664 | END DO |
---|
| 665 | DO ji = nlci+1, jpi ! only fill extra allows last column |
---|
[619] | 666 | ptab(ji , : , :) = ptab(nlei , : , :) |
---|
[610] | 667 | END DO |
---|
[473] | 668 | ELSE |
---|
| 669 | |
---|
| 670 | ! ! East-West boundaries |
---|
| 671 | ! ! ==================== |
---|
| 672 | IF( nbondi == 2 .AND. & ! Cyclic east-west |
---|
| 673 | & (nperio == 1 .OR. nperio == 4 .OR. nperio == 6) ) THEN |
---|
| 674 | ptab( 1 ,:,:) = ptab(jpim1,:,:) |
---|
| 675 | ptab(jpi,:,:) = ptab( 2 ,:,:) |
---|
| 676 | |
---|
| 677 | ELSE ! closed |
---|
| 678 | SELECT CASE ( cd_type ) |
---|
| 679 | CASE ( 'T', 'U', 'V', 'W' ) |
---|
[888] | 680 | ptab( 1 :jpreci,:,:) = zland |
---|
| 681 | ptab(nlci-jpreci+1:jpi ,:,:) = zland |
---|
[473] | 682 | CASE ( 'F' ) |
---|
[888] | 683 | ptab(nlci-jpreci+1:jpi ,:,:) = zland |
---|
[473] | 684 | END SELECT |
---|
| 685 | ENDIF |
---|
| 686 | |
---|
| 687 | ! ! North-South boundaries |
---|
| 688 | ! ! ====================== |
---|
[51] | 689 | SELECT CASE ( cd_type ) |
---|
| 690 | CASE ( 'T', 'U', 'V', 'W' ) |
---|
[888] | 691 | ptab(:, 1 :jprecj,:) = zland |
---|
| 692 | ptab(:,nlcj-jprecj+1:jpj ,:) = zland |
---|
[51] | 693 | CASE ( 'F' ) |
---|
[888] | 694 | ptab(:,nlcj-jprecj+1:jpj ,:) = zland |
---|
[473] | 695 | END SELECT |
---|
| 696 | |
---|
[51] | 697 | ENDIF |
---|
[3] | 698 | |
---|
[51] | 699 | ! 2. East and west directions exchange |
---|
| 700 | ! ------------------------------------ |
---|
[3] | 701 | |
---|
[51] | 702 | ! 2.1 Read Dirichlet lateral conditions |
---|
[3] | 703 | |
---|
[51] | 704 | SELECT CASE ( nbondi ) |
---|
| 705 | CASE ( -1, 0, 1 ) ! all exept 2 |
---|
| 706 | iihom = nlci-nreci |
---|
| 707 | DO jl = 1, jpreci |
---|
| 708 | t3ew(:,jl,:,1) = ptab(jpreci+jl,:,:) |
---|
| 709 | t3we(:,jl,:,1) = ptab(iihom +jl,:,:) |
---|
| 710 | END DO |
---|
| 711 | END SELECT |
---|
[3] | 712 | |
---|
[51] | 713 | ! 2.2 Migrations |
---|
[3] | 714 | |
---|
| 715 | #if defined key_mpp_shmem |
---|
[51] | 716 | !! * SHMEM version |
---|
[3] | 717 | |
---|
[51] | 718 | imigr = jpreci * jpj * jpk |
---|
[3] | 719 | |
---|
[51] | 720 | SELECT CASE ( nbondi ) |
---|
| 721 | CASE ( -1 ) |
---|
| 722 | CALL shmem_put( t3we(1,1,1,2), t3we(1,1,1,1), imigr, noea ) |
---|
| 723 | CASE ( 0 ) |
---|
| 724 | CALL shmem_put( t3ew(1,1,1,2), t3ew(1,1,1,1), imigr, nowe ) |
---|
| 725 | CALL shmem_put( t3we(1,1,1,2), t3we(1,1,1,1), imigr, noea ) |
---|
| 726 | CASE ( 1 ) |
---|
| 727 | CALL shmem_put( t3ew(1,1,1,2), t3ew(1,1,1,1), imigr, nowe ) |
---|
| 728 | END SELECT |
---|
[3] | 729 | |
---|
[51] | 730 | CALL barrier() |
---|
| 731 | CALL shmem_udcflush() |
---|
[3] | 732 | |
---|
| 733 | #elif defined key_mpp_mpi |
---|
[51] | 734 | !! * Local variables (MPI version) |
---|
[3] | 735 | |
---|
[51] | 736 | imigr = jpreci * jpj * jpk |
---|
[3] | 737 | |
---|
[51] | 738 | SELECT CASE ( nbondi ) |
---|
| 739 | CASE ( -1 ) |
---|
[181] | 740 | CALL mppsend( 2, t3we(1,1,1,1), imigr, noea, ml_req1 ) |
---|
[51] | 741 | CALL mpprecv( 1, t3ew(1,1,1,2), imigr ) |
---|
[300] | 742 | IF(l_isend) CALL mpi_wait(ml_req1, ml_stat, ml_err) |
---|
[51] | 743 | CASE ( 0 ) |
---|
[181] | 744 | CALL mppsend( 1, t3ew(1,1,1,1), imigr, nowe, ml_req1 ) |
---|
| 745 | CALL mppsend( 2, t3we(1,1,1,1), imigr, noea, ml_req2 ) |
---|
[51] | 746 | CALL mpprecv( 1, t3ew(1,1,1,2), imigr ) |
---|
| 747 | CALL mpprecv( 2, t3we(1,1,1,2), imigr ) |
---|
[300] | 748 | IF(l_isend) CALL mpi_wait(ml_req1, ml_stat, ml_err) |
---|
| 749 | IF(l_isend) CALL mpi_wait(ml_req2, ml_stat, ml_err) |
---|
[51] | 750 | CASE ( 1 ) |
---|
[181] | 751 | CALL mppsend( 1, t3ew(1,1,1,1), imigr, nowe, ml_req1 ) |
---|
[51] | 752 | CALL mpprecv( 2, t3we(1,1,1,2), imigr ) |
---|
[300] | 753 | IF(l_isend) CALL mpi_wait(ml_req1, ml_stat, ml_err) |
---|
[51] | 754 | END SELECT |
---|
[3] | 755 | #endif |
---|
| 756 | |
---|
[51] | 757 | ! 2.3 Write Dirichlet lateral conditions |
---|
[3] | 758 | |
---|
[51] | 759 | iihom = nlci-jpreci |
---|
[3] | 760 | |
---|
[51] | 761 | SELECT CASE ( nbondi ) |
---|
| 762 | CASE ( -1 ) |
---|
| 763 | DO jl = 1, jpreci |
---|
| 764 | ptab(iihom+jl,:,:) = t3ew(:,jl,:,2) |
---|
| 765 | END DO |
---|
| 766 | CASE ( 0 ) |
---|
| 767 | DO jl = 1, jpreci |
---|
| 768 | ptab(jl ,:,:) = t3we(:,jl,:,2) |
---|
| 769 | ptab(iihom+jl,:,:) = t3ew(:,jl,:,2) |
---|
| 770 | END DO |
---|
| 771 | CASE ( 1 ) |
---|
| 772 | DO jl = 1, jpreci |
---|
| 773 | ptab(jl ,:,:) = t3we(:,jl,:,2) |
---|
| 774 | END DO |
---|
| 775 | END SELECT |
---|
[3] | 776 | |
---|
| 777 | |
---|
[51] | 778 | ! 3. North and south directions |
---|
| 779 | ! ----------------------------- |
---|
[3] | 780 | |
---|
[51] | 781 | ! 3.1 Read Dirichlet lateral conditions |
---|
[3] | 782 | |
---|
[51] | 783 | IF( nbondj /= 2 ) THEN |
---|
| 784 | ijhom = nlcj-nrecj |
---|
| 785 | DO jl = 1, jprecj |
---|
| 786 | t3sn(:,jl,:,1) = ptab(:,ijhom +jl,:) |
---|
| 787 | t3ns(:,jl,:,1) = ptab(:,jprecj+jl,:) |
---|
| 788 | END DO |
---|
| 789 | ENDIF |
---|
[3] | 790 | |
---|
[51] | 791 | ! 3.2 Migrations |
---|
[3] | 792 | |
---|
| 793 | #if defined key_mpp_shmem |
---|
[51] | 794 | !! * SHMEM version |
---|
[3] | 795 | |
---|
[51] | 796 | imigr = jprecj * jpi * jpk |
---|
[3] | 797 | |
---|
[51] | 798 | SELECT CASE ( nbondj ) |
---|
| 799 | CASE ( -1 ) |
---|
| 800 | CALL shmem_put( t3sn(1,1,1,2), t3sn(1,1,1,1), imigr, nono ) |
---|
| 801 | CASE ( 0 ) |
---|
| 802 | CALL shmem_put( t3ns(1,1,1,2), t3ns(1,1,1,1), imigr, noso ) |
---|
| 803 | CALL shmem_put( t3sn(1,1,1,2), t3sn(1,1,1,1), imigr, nono ) |
---|
| 804 | CASE ( 1 ) |
---|
| 805 | CALL shmem_put( t3ns(1,1,1,2), t3ns(1,1,1,1), imigr, noso ) |
---|
| 806 | END SELECT |
---|
[3] | 807 | |
---|
[51] | 808 | CALL barrier() |
---|
| 809 | CALL shmem_udcflush() |
---|
[3] | 810 | |
---|
| 811 | #elif defined key_mpp_mpi |
---|
[51] | 812 | !! * Local variables (MPI version) |
---|
| 813 | |
---|
| 814 | imigr=jprecj*jpi*jpk |
---|
[3] | 815 | |
---|
[51] | 816 | SELECT CASE ( nbondj ) |
---|
| 817 | CASE ( -1 ) |
---|
[181] | 818 | CALL mppsend( 4, t3sn(1,1,1,1), imigr, nono, ml_req1 ) |
---|
[51] | 819 | CALL mpprecv( 3, t3ns(1,1,1,2), imigr ) |
---|
[300] | 820 | IF(l_isend) CALL mpi_wait(ml_req1, ml_stat, ml_err) |
---|
[51] | 821 | CASE ( 0 ) |
---|
[181] | 822 | CALL mppsend( 3, t3ns(1,1,1,1), imigr, noso, ml_req1 ) |
---|
| 823 | CALL mppsend( 4, t3sn(1,1,1,1), imigr, nono, ml_req2 ) |
---|
[51] | 824 | CALL mpprecv( 3, t3ns(1,1,1,2), imigr ) |
---|
| 825 | CALL mpprecv( 4, t3sn(1,1,1,2), imigr ) |
---|
[300] | 826 | IF(l_isend) CALL mpi_wait(ml_req1, ml_stat, ml_err) |
---|
| 827 | IF(l_isend) CALL mpi_wait(ml_req2, ml_stat, ml_err) |
---|
[51] | 828 | CASE ( 1 ) |
---|
[181] | 829 | CALL mppsend( 3, t3ns(1,1,1,1), imigr, noso, ml_req1 ) |
---|
[51] | 830 | CALL mpprecv( 4, t3sn(1,1,1,2), imigr ) |
---|
[300] | 831 | IF(l_isend) CALL mpi_wait(ml_req1, ml_stat, ml_err) |
---|
[51] | 832 | END SELECT |
---|
[3] | 833 | |
---|
| 834 | #endif |
---|
| 835 | |
---|
[51] | 836 | ! 3.3 Write Dirichlet lateral conditions |
---|
[3] | 837 | |
---|
[51] | 838 | ijhom = nlcj-jprecj |
---|
[3] | 839 | |
---|
[51] | 840 | SELECT CASE ( nbondj ) |
---|
| 841 | CASE ( -1 ) |
---|
| 842 | DO jl = 1, jprecj |
---|
| 843 | ptab(:,ijhom+jl,:) = t3ns(:,jl,:,2) |
---|
| 844 | END DO |
---|
| 845 | CASE ( 0 ) |
---|
| 846 | DO jl = 1, jprecj |
---|
| 847 | ptab(:,jl ,:) = t3sn(:,jl,:,2) |
---|
| 848 | ptab(:,ijhom+jl,:) = t3ns(:,jl,:,2) |
---|
| 849 | END DO |
---|
| 850 | CASE ( 1 ) |
---|
| 851 | DO jl = 1, jprecj |
---|
| 852 | ptab(:,jl,:) = t3sn(:,jl,:,2) |
---|
| 853 | END DO |
---|
| 854 | END SELECT |
---|
[3] | 855 | |
---|
| 856 | |
---|
[51] | 857 | ! 4. north fold treatment |
---|
| 858 | ! ----------------------- |
---|
[3] | 859 | |
---|
[473] | 860 | IF (PRESENT(cd_mpp)) THEN |
---|
| 861 | ! No north fold treatment (it is assumed to be already OK) |
---|
| 862 | |
---|
| 863 | ELSE |
---|
| 864 | |
---|
[51] | 865 | ! 4.1 treatment without exchange (jpni odd) |
---|
| 866 | ! T-point pivot |
---|
[3] | 867 | |
---|
[51] | 868 | SELECT CASE ( jpni ) |
---|
[3] | 869 | |
---|
[51] | 870 | CASE ( 1 ) ! only one proc along I, no mpp exchange |
---|
[869] | 871 | |
---|
[51] | 872 | SELECT CASE ( npolj ) |
---|
[3] | 873 | |
---|
[233] | 874 | CASE ( 3 , 4 ) ! T pivot |
---|
[51] | 875 | iloc = jpiglo - 2 * ( nimpp - 1 ) |
---|
[3] | 876 | |
---|
[51] | 877 | SELECT CASE ( cd_type ) |
---|
[3] | 878 | |
---|
[51] | 879 | CASE ( 'T' , 'S', 'W' ) |
---|
| 880 | DO jk = 1, jpk |
---|
| 881 | DO ji = 2, nlci |
---|
| 882 | ijt=iloc-ji+2 |
---|
| 883 | ptab(ji,nlcj,jk) = psgn * ptab(ijt,nlcj-2,jk) |
---|
| 884 | END DO |
---|
| 885 | DO ji = nlci/2+1, nlci |
---|
| 886 | ijt=iloc-ji+2 |
---|
| 887 | ptab(ji,nlcj-1,jk) = psgn * ptab(ijt,nlcj-1,jk) |
---|
| 888 | END DO |
---|
| 889 | END DO |
---|
[869] | 890 | |
---|
[51] | 891 | CASE ( 'U' ) |
---|
| 892 | DO jk = 1, jpk |
---|
| 893 | DO ji = 1, nlci-1 |
---|
| 894 | iju=iloc-ji+1 |
---|
| 895 | ptab(ji,nlcj,jk) = psgn * ptab(iju,nlcj-2,jk) |
---|
| 896 | END DO |
---|
| 897 | DO ji = nlci/2, nlci-1 |
---|
| 898 | iju=iloc-ji+1 |
---|
| 899 | ptab(ji,nlcj-1,jk) = psgn * ptab(iju,nlcj-1,jk) |
---|
| 900 | END DO |
---|
| 901 | END DO |
---|
[3] | 902 | |
---|
[51] | 903 | CASE ( 'V' ) |
---|
| 904 | DO jk = 1, jpk |
---|
| 905 | DO ji = 2, nlci |
---|
| 906 | ijt=iloc-ji+2 |
---|
| 907 | ptab(ji,nlcj-1,jk) = psgn * ptab(ijt,nlcj-2,jk) |
---|
| 908 | ptab(ji,nlcj ,jk) = psgn * ptab(ijt,nlcj-3,jk) |
---|
| 909 | END DO |
---|
| 910 | END DO |
---|
[3] | 911 | |
---|
[51] | 912 | CASE ( 'F', 'G' ) |
---|
| 913 | DO jk = 1, jpk |
---|
| 914 | DO ji = 1, nlci-1 |
---|
| 915 | iju=iloc-ji+1 |
---|
[233] | 916 | ptab(ji,nlcj-1,jk) = psgn * ptab(iju,nlcj-2,jk) |
---|
| 917 | ptab(ji,nlcj ,jk) = psgn * ptab(iju,nlcj-3,jk) |
---|
[51] | 918 | END DO |
---|
| 919 | END DO |
---|
| 920 | |
---|
[3] | 921 | END SELECT |
---|
| 922 | |
---|
[233] | 923 | CASE ( 5 , 6 ) ! F pivot |
---|
[51] | 924 | iloc=jpiglo-2*(nimpp-1) |
---|
| 925 | |
---|
| 926 | SELECT CASE ( cd_type ) |
---|
[3] | 927 | |
---|
[51] | 928 | CASE ( 'T' , 'S', 'W' ) |
---|
| 929 | DO jk = 1, jpk |
---|
| 930 | DO ji = 1, nlci |
---|
| 931 | ijt=iloc-ji+1 |
---|
| 932 | ptab(ji,nlcj,jk) = psgn * ptab(ijt,nlcj-1,jk) |
---|
| 933 | END DO |
---|
| 934 | END DO |
---|
[3] | 935 | |
---|
[51] | 936 | CASE ( 'U' ) |
---|
| 937 | DO jk = 1, jpk |
---|
| 938 | DO ji = 1, nlci-1 |
---|
| 939 | iju=iloc-ji |
---|
| 940 | ptab(ji,nlcj,jk) = psgn * ptab(iju,nlcj-1,jk) |
---|
| 941 | END DO |
---|
| 942 | END DO |
---|
[3] | 943 | |
---|
[51] | 944 | CASE ( 'V' ) |
---|
| 945 | DO jk = 1, jpk |
---|
| 946 | DO ji = 1, nlci |
---|
| 947 | ijt=iloc-ji+1 |
---|
| 948 | ptab(ji,nlcj ,jk) = psgn * ptab(ijt,nlcj-2,jk) |
---|
| 949 | END DO |
---|
| 950 | DO ji = nlci/2+1, nlci |
---|
| 951 | ijt=iloc-ji+1 |
---|
| 952 | ptab(ji,nlcj-1,jk) = psgn * ptab(ijt,nlcj-1,jk) |
---|
| 953 | END DO |
---|
| 954 | END DO |
---|
[3] | 955 | |
---|
[51] | 956 | CASE ( 'F', 'G' ) |
---|
| 957 | DO jk = 1, jpk |
---|
| 958 | DO ji = 1, nlci-1 |
---|
| 959 | iju=iloc-ji |
---|
[233] | 960 | ptab(ji,nlcj,jk) = psgn * ptab(iju,nlcj-2,jk) |
---|
[51] | 961 | END DO |
---|
| 962 | DO ji = nlci/2+1, nlci-1 |
---|
| 963 | iju=iloc-ji |
---|
| 964 | ptab(ji,nlcj-1,jk) = psgn * ptab(iju,nlcj-1,jk) |
---|
| 965 | END DO |
---|
| 966 | END DO |
---|
| 967 | END SELECT ! cd_type |
---|
[3] | 968 | |
---|
[51] | 969 | END SELECT ! npolj |
---|
| 970 | |
---|
| 971 | CASE DEFAULT ! more than 1 proc along I |
---|
| 972 | IF ( npolj /= 0 ) CALL mpp_lbc_north (ptab, cd_type, psgn) ! only for northern procs. |
---|
[3] | 973 | |
---|
[51] | 974 | END SELECT ! jpni |
---|
[3] | 975 | |
---|
[473] | 976 | ENDIF |
---|
| 977 | |
---|
[3] | 978 | |
---|
[51] | 979 | ! 5. East and west directions exchange |
---|
| 980 | ! ------------------------------------ |
---|
[3] | 981 | |
---|
[51] | 982 | SELECT CASE ( npolj ) |
---|
[3] | 983 | |
---|
[51] | 984 | CASE ( 3, 4, 5, 6 ) |
---|
[3] | 985 | |
---|
[51] | 986 | ! 5.1 Read Dirichlet lateral conditions |
---|
[3] | 987 | |
---|
[51] | 988 | SELECT CASE ( nbondi ) |
---|
[3] | 989 | |
---|
[51] | 990 | CASE ( -1, 0, 1 ) |
---|
| 991 | iihom = nlci-nreci |
---|
| 992 | DO jl = 1, jpreci |
---|
| 993 | t3ew(:,jl,:,1) = ptab(jpreci+jl,:,:) |
---|
| 994 | t3we(:,jl,:,1) = ptab(iihom +jl,:,:) |
---|
| 995 | END DO |
---|
[3] | 996 | |
---|
[51] | 997 | END SELECT |
---|
[3] | 998 | |
---|
[51] | 999 | ! 5.2 Migrations |
---|
[3] | 1000 | |
---|
| 1001 | #if defined key_mpp_shmem |
---|
[51] | 1002 | !! SHMEM version |
---|
[3] | 1003 | |
---|
[51] | 1004 | imigr = jpreci * jpj * jpk |
---|
[3] | 1005 | |
---|
[51] | 1006 | SELECT CASE ( nbondi ) |
---|
| 1007 | CASE ( -1 ) |
---|
| 1008 | CALL shmem_put( t3we(1,1,1,2), t3we(1,1,1,1), imigr, noea ) |
---|
| 1009 | CASE ( 0 ) |
---|
| 1010 | CALL shmem_put( t3ew(1,1,1,2), t3ew(1,1,1,1), imigr, nowe ) |
---|
| 1011 | CALL shmem_put( t3we(1,1,1,2), t3we(1,1,1,1), imigr, noea ) |
---|
| 1012 | CASE ( 1 ) |
---|
| 1013 | CALL shmem_put( t3ew(1,1,1,2), t3ew(1,1,1,1), imigr, nowe ) |
---|
| 1014 | END SELECT |
---|
[3] | 1015 | |
---|
[51] | 1016 | CALL barrier() |
---|
| 1017 | CALL shmem_udcflush() |
---|
[3] | 1018 | |
---|
| 1019 | #elif defined key_mpp_mpi |
---|
[51] | 1020 | !! MPI version |
---|
[3] | 1021 | |
---|
[51] | 1022 | imigr=jpreci*jpj*jpk |
---|
| 1023 | |
---|
| 1024 | SELECT CASE ( nbondi ) |
---|
| 1025 | CASE ( -1 ) |
---|
[181] | 1026 | CALL mppsend( 2, t3we(1,1,1,1), imigr, noea, ml_req1 ) |
---|
[51] | 1027 | CALL mpprecv( 1, t3ew(1,1,1,2), imigr ) |
---|
[300] | 1028 | IF(l_isend) CALL mpi_wait(ml_req1,ml_stat,ml_err) |
---|
[51] | 1029 | CASE ( 0 ) |
---|
[181] | 1030 | CALL mppsend( 1, t3ew(1,1,1,1), imigr, nowe, ml_req1 ) |
---|
| 1031 | CALL mppsend( 2, t3we(1,1,1,1), imigr, noea, ml_req2 ) |
---|
[51] | 1032 | CALL mpprecv( 1, t3ew(1,1,1,2), imigr ) |
---|
| 1033 | CALL mpprecv( 2, t3we(1,1,1,2), imigr ) |
---|
[300] | 1034 | IF(l_isend) CALL mpi_wait(ml_req1,ml_stat,ml_err) |
---|
| 1035 | IF(l_isend) CALL mpi_wait(ml_req2,ml_stat,ml_err) |
---|
[51] | 1036 | CASE ( 1 ) |
---|
[181] | 1037 | CALL mppsend( 1, t3ew(1,1,1,1), imigr, nowe, ml_req1 ) |
---|
[51] | 1038 | CALL mpprecv( 2, t3we(1,1,1,2), imigr ) |
---|
[300] | 1039 | IF(l_isend) CALL mpi_wait(ml_req1,ml_stat,ml_err) |
---|
[51] | 1040 | END SELECT |
---|
[3] | 1041 | #endif |
---|
| 1042 | |
---|
[51] | 1043 | ! 5.3 Write Dirichlet lateral conditions |
---|
[3] | 1044 | |
---|
[51] | 1045 | iihom = nlci-jpreci |
---|
[3] | 1046 | |
---|
[51] | 1047 | SELECT CASE ( nbondi) |
---|
| 1048 | CASE ( -1 ) |
---|
| 1049 | DO jl = 1, jpreci |
---|
| 1050 | ptab(iihom+jl,:,:) = t3ew(:,jl,:,2) |
---|
| 1051 | END DO |
---|
| 1052 | CASE ( 0 ) |
---|
| 1053 | DO jl = 1, jpreci |
---|
| 1054 | ptab(jl ,:,:) = t3we(:,jl,:,2) |
---|
| 1055 | ptab(iihom+jl,:,:) = t3ew(:,jl,:,2) |
---|
| 1056 | END DO |
---|
| 1057 | CASE ( 1 ) |
---|
| 1058 | DO jl = 1, jpreci |
---|
| 1059 | ptab(jl ,:,:) = t3we(:,jl,:,2) |
---|
| 1060 | END DO |
---|
| 1061 | END SELECT |
---|
[3] | 1062 | |
---|
[51] | 1063 | END SELECT ! npolj |
---|
[3] | 1064 | |
---|
[51] | 1065 | END SUBROUTINE mpp_lnk_3d |
---|
[3] | 1066 | |
---|
| 1067 | |
---|
[888] | 1068 | SUBROUTINE mpp_lnk_2d( pt2d, cd_type, psgn, cd_mpp, pval ) |
---|
[51] | 1069 | !!---------------------------------------------------------------------- |
---|
| 1070 | !! *** routine mpp_lnk_2d *** |
---|
| 1071 | !! |
---|
| 1072 | !! ** Purpose : Message passing manadgement for 2d array |
---|
| 1073 | !! |
---|
| 1074 | !! ** Method : Use mppsend and mpprecv function for passing mask |
---|
| 1075 | !! between processors following neighboring subdomains. |
---|
| 1076 | !! domain parameters |
---|
| 1077 | !! nlci : first dimension of the local subdomain |
---|
| 1078 | !! nlcj : second dimension of the local subdomain |
---|
| 1079 | !! nbondi : mark for "east-west local boundary" |
---|
| 1080 | !! nbondj : mark for "north-south local boundary" |
---|
| 1081 | !! noea : number for local neighboring processors |
---|
| 1082 | !! nowe : number for local neighboring processors |
---|
| 1083 | !! noso : number for local neighboring processors |
---|
| 1084 | !! nono : number for local neighboring processors |
---|
| 1085 | !! |
---|
| 1086 | !!---------------------------------------------------------------------- |
---|
| 1087 | !! * Arguments |
---|
| 1088 | CHARACTER(len=1) , INTENT( in ) :: & |
---|
[3] | 1089 | cd_type ! define the nature of pt2d array grid-points |
---|
[51] | 1090 | ! ! = T , U , V , F , W |
---|
| 1091 | ! ! = S : T-point, north fold treatment |
---|
| 1092 | ! ! = G : F-point, north fold treatment |
---|
| 1093 | ! ! = I : sea-ice velocity at F-point with index shift |
---|
| 1094 | REAL(wp), INTENT( in ) :: & |
---|
[3] | 1095 | psgn ! control of the sign change |
---|
[51] | 1096 | ! ! = -1. , the sign is changed if north fold boundary |
---|
| 1097 | ! ! = 1. , the sign is kept if north fold boundary |
---|
| 1098 | REAL(wp), DIMENSION(jpi,jpj), INTENT( inout ) :: & |
---|
[3] | 1099 | pt2d ! 2D array on which the boundary condition is applied |
---|
[473] | 1100 | CHARACTER(len=3), INTENT( in ), OPTIONAL :: & |
---|
| 1101 | cd_mpp ! fill the overlap area only |
---|
[888] | 1102 | REAL(wp) , INTENT(in ), OPTIONAL :: pval ! background value (used at closed boundaries) |
---|
[3] | 1103 | |
---|
[51] | 1104 | !! * Local variables |
---|
| 1105 | INTEGER :: ji, jj, jl ! dummy loop indices |
---|
| 1106 | INTEGER :: & |
---|
[3] | 1107 | imigr, iihom, ijhom, & ! temporary integers |
---|
| 1108 | iloc, ijt, iju ! " " |
---|
[181] | 1109 | INTEGER :: ml_req1, ml_req2, ml_err ! for key_mpi_isend |
---|
| 1110 | INTEGER :: ml_stat(MPI_STATUS_SIZE) ! for key_mpi_isend |
---|
[888] | 1111 | REAL(wp) :: zland |
---|
[51] | 1112 | !!---------------------------------------------------------------------- |
---|
[3] | 1113 | |
---|
[888] | 1114 | IF( PRESENT( pval ) ) THEN ! set land value (zero by default) |
---|
| 1115 | zland = pval |
---|
| 1116 | ELSE |
---|
| 1117 | zland = 0.e0 |
---|
| 1118 | ENDIF |
---|
| 1119 | |
---|
[51] | 1120 | ! 1. standard boundary treatment |
---|
| 1121 | ! ------------------------------ |
---|
[473] | 1122 | IF (PRESENT(cd_mpp)) THEN |
---|
[610] | 1123 | DO jj = nlcj+1, jpj ! only fill extra allows last line |
---|
[619] | 1124 | pt2d(1:nlci, jj) = pt2d(1:nlci, nlej) |
---|
[610] | 1125 | END DO |
---|
| 1126 | DO ji = nlci+1, jpi ! only fill extra allows last column |
---|
[619] | 1127 | pt2d(ji , : ) = pt2d(nlei , : ) |
---|
[610] | 1128 | END DO |
---|
[473] | 1129 | ELSE |
---|
[3] | 1130 | |
---|
[473] | 1131 | ! ! East-West boundaries |
---|
| 1132 | ! ! ==================== |
---|
| 1133 | IF( nbondi == 2 .AND. & ! Cyclic east-west |
---|
| 1134 | & (nperio == 1 .OR. nperio == 4 .OR. nperio == 6) ) THEN |
---|
| 1135 | pt2d( 1 ,:) = pt2d(jpim1,:) |
---|
| 1136 | pt2d(jpi,:) = pt2d( 2 ,:) |
---|
[3] | 1137 | |
---|
[473] | 1138 | ELSE ! ... closed |
---|
| 1139 | SELECT CASE ( cd_type ) |
---|
| 1140 | CASE ( 'T', 'U', 'V', 'W' , 'I' ) |
---|
[888] | 1141 | pt2d( 1 :jpreci,:) = zland |
---|
| 1142 | pt2d(nlci-jpreci+1:jpi ,:) = zland |
---|
[473] | 1143 | CASE ( 'F' ) |
---|
[888] | 1144 | pt2d(nlci-jpreci+1:jpi ,:) = zland |
---|
[473] | 1145 | END SELECT |
---|
| 1146 | ENDIF |
---|
| 1147 | |
---|
| 1148 | ! ! North-South boundaries |
---|
| 1149 | ! ! ====================== |
---|
[51] | 1150 | SELECT CASE ( cd_type ) |
---|
| 1151 | CASE ( 'T', 'U', 'V', 'W' , 'I' ) |
---|
[888] | 1152 | pt2d(:, 1 :jprecj) = zland |
---|
| 1153 | pt2d(:,nlcj-jprecj+1:jpj ) = zland |
---|
[51] | 1154 | CASE ( 'F' ) |
---|
[888] | 1155 | pt2d(:,nlcj-jprecj+1:jpj ) = zland |
---|
[51] | 1156 | END SELECT |
---|
[473] | 1157 | |
---|
[51] | 1158 | ENDIF |
---|
[3] | 1159 | |
---|
| 1160 | |
---|
[51] | 1161 | ! 2. East and west directions |
---|
| 1162 | ! --------------------------- |
---|
[3] | 1163 | |
---|
[51] | 1164 | ! 2.1 Read Dirichlet lateral conditions |
---|
[3] | 1165 | |
---|
[51] | 1166 | SELECT CASE ( nbondi ) |
---|
| 1167 | CASE ( -1, 0, 1 ) ! all except 2 |
---|
| 1168 | iihom = nlci-nreci |
---|
| 1169 | DO jl = 1, jpreci |
---|
| 1170 | t2ew(:,jl,1) = pt2d(jpreci+jl,:) |
---|
| 1171 | t2we(:,jl,1) = pt2d(iihom +jl,:) |
---|
| 1172 | END DO |
---|
| 1173 | END SELECT |
---|
[3] | 1174 | |
---|
[51] | 1175 | ! 2.2 Migrations |
---|
[3] | 1176 | |
---|
| 1177 | #if defined key_mpp_shmem |
---|
[51] | 1178 | !! * SHMEM version |
---|
[3] | 1179 | |
---|
[51] | 1180 | imigr = jpreci * jpj |
---|
[3] | 1181 | |
---|
[51] | 1182 | SELECT CASE ( nbondi ) |
---|
| 1183 | CASE ( -1 ) |
---|
| 1184 | CALL shmem_put( t2we(1,1,2), t2we(1,1,1), imigr, noea ) |
---|
| 1185 | CASE ( 0 ) |
---|
| 1186 | CALL shmem_put( t2ew(1,1,2), t2ew(1,1,1), imigr, nowe ) |
---|
| 1187 | CALL shmem_put( t2we(1,1,2), t2we(1,1,1), imigr, noea ) |
---|
| 1188 | CASE ( 1 ) |
---|
| 1189 | CALL shmem_put( t2ew(1,1,2), t2ew(1,1,1), imigr, nowe ) |
---|
| 1190 | END SELECT |
---|
[3] | 1191 | |
---|
[51] | 1192 | CALL barrier() |
---|
| 1193 | CALL shmem_udcflush() |
---|
[3] | 1194 | |
---|
| 1195 | #elif defined key_mpp_mpi |
---|
[51] | 1196 | !! * MPI version |
---|
[3] | 1197 | |
---|
[51] | 1198 | imigr = jpreci * jpj |
---|
[3] | 1199 | |
---|
[51] | 1200 | SELECT CASE ( nbondi ) |
---|
| 1201 | CASE ( -1 ) |
---|
[181] | 1202 | CALL mppsend( 2, t2we(1,1,1), imigr, noea, ml_req1 ) |
---|
[51] | 1203 | CALL mpprecv( 1, t2ew(1,1,2), imigr ) |
---|
[300] | 1204 | IF(l_isend) CALL mpi_wait(ml_req1,ml_stat,ml_err) |
---|
[51] | 1205 | CASE ( 0 ) |
---|
[181] | 1206 | CALL mppsend( 1, t2ew(1,1,1), imigr, nowe, ml_req1 ) |
---|
| 1207 | CALL mppsend( 2, t2we(1,1,1), imigr, noea, ml_req2 ) |
---|
[51] | 1208 | CALL mpprecv( 1, t2ew(1,1,2), imigr ) |
---|
| 1209 | CALL mpprecv( 2, t2we(1,1,2), imigr ) |
---|
[300] | 1210 | IF(l_isend) CALL mpi_wait(ml_req1,ml_stat,ml_err) |
---|
| 1211 | IF(l_isend) CALL mpi_wait(ml_req2,ml_stat,ml_err) |
---|
[51] | 1212 | CASE ( 1 ) |
---|
[181] | 1213 | CALL mppsend( 1, t2ew(1,1,1), imigr, nowe, ml_req1 ) |
---|
[51] | 1214 | CALL mpprecv( 2, t2we(1,1,2), imigr ) |
---|
[300] | 1215 | IF(l_isend) CALL mpi_wait(ml_req1,ml_stat,ml_err) |
---|
[51] | 1216 | END SELECT |
---|
[3] | 1217 | |
---|
| 1218 | #endif |
---|
| 1219 | |
---|
[51] | 1220 | ! 2.3 Write Dirichlet lateral conditions |
---|
[3] | 1221 | |
---|
[51] | 1222 | iihom = nlci - jpreci |
---|
| 1223 | SELECT CASE ( nbondi ) |
---|
| 1224 | CASE ( -1 ) |
---|
| 1225 | DO jl = 1, jpreci |
---|
| 1226 | pt2d(iihom+jl,:) = t2ew(:,jl,2) |
---|
| 1227 | END DO |
---|
| 1228 | CASE ( 0 ) |
---|
| 1229 | DO jl = 1, jpreci |
---|
| 1230 | pt2d(jl ,:) = t2we(:,jl,2) |
---|
| 1231 | pt2d(iihom+jl,:) = t2ew(:,jl,2) |
---|
| 1232 | END DO |
---|
| 1233 | CASE ( 1 ) |
---|
| 1234 | DO jl = 1, jpreci |
---|
| 1235 | pt2d(jl ,:) = t2we(:,jl,2) |
---|
| 1236 | END DO |
---|
| 1237 | END SELECT |
---|
[3] | 1238 | |
---|
| 1239 | |
---|
[51] | 1240 | ! 3. North and south directions |
---|
| 1241 | ! ----------------------------- |
---|
[3] | 1242 | |
---|
[51] | 1243 | ! 3.1 Read Dirichlet lateral conditions |
---|
[3] | 1244 | |
---|
[51] | 1245 | IF( nbondj /= 2 ) THEN |
---|
| 1246 | ijhom = nlcj-nrecj |
---|
| 1247 | DO jl = 1, jprecj |
---|
| 1248 | t2sn(:,jl,1) = pt2d(:,ijhom +jl) |
---|
| 1249 | t2ns(:,jl,1) = pt2d(:,jprecj+jl) |
---|
| 1250 | END DO |
---|
| 1251 | ENDIF |
---|
[3] | 1252 | |
---|
[51] | 1253 | ! 3.2 Migrations |
---|
[3] | 1254 | |
---|
| 1255 | #if defined key_mpp_shmem |
---|
[51] | 1256 | !! * SHMEM version |
---|
[3] | 1257 | |
---|
[51] | 1258 | imigr = jprecj * jpi |
---|
[3] | 1259 | |
---|
[51] | 1260 | SELECT CASE ( nbondj ) |
---|
| 1261 | CASE ( -1 ) |
---|
| 1262 | CALL shmem_put( t2sn(1,1,2), t2sn(1,1,1), imigr, nono ) |
---|
| 1263 | CASE ( 0 ) |
---|
| 1264 | CALL shmem_put( t2ns(1,1,2), t2ns(1,1,1), imigr, noso ) |
---|
| 1265 | CALL shmem_put( t2sn(1,1,2), t2sn(1,1,1), imigr, nono ) |
---|
| 1266 | CASE ( 1 ) |
---|
| 1267 | CALL shmem_put( t2ns(1,1,2), t2ns(1,1,1), imigr, noso ) |
---|
| 1268 | END SELECT |
---|
| 1269 | CALL barrier() |
---|
| 1270 | CALL shmem_udcflush() |
---|
[3] | 1271 | |
---|
| 1272 | #elif defined key_mpp_mpi |
---|
[51] | 1273 | !! * MPI version |
---|
[3] | 1274 | |
---|
[51] | 1275 | imigr = jprecj * jpi |
---|
[3] | 1276 | |
---|
[51] | 1277 | SELECT CASE ( nbondj ) |
---|
| 1278 | CASE ( -1 ) |
---|
[181] | 1279 | CALL mppsend( 4, t2sn(1,1,1), imigr, nono, ml_req1 ) |
---|
[51] | 1280 | CALL mpprecv( 3, t2ns(1,1,2), imigr ) |
---|
[300] | 1281 | IF(l_isend) CALL mpi_wait(ml_req1,ml_stat,ml_err) |
---|
[51] | 1282 | CASE ( 0 ) |
---|
[181] | 1283 | CALL mppsend( 3, t2ns(1,1,1), imigr, noso, ml_req1 ) |
---|
| 1284 | CALL mppsend( 4, t2sn(1,1,1), imigr, nono, ml_req2 ) |
---|
[51] | 1285 | CALL mpprecv( 3, t2ns(1,1,2), imigr ) |
---|
| 1286 | CALL mpprecv( 4, t2sn(1,1,2), imigr ) |
---|
[300] | 1287 | IF(l_isend) CALL mpi_wait(ml_req1,ml_stat,ml_err) |
---|
| 1288 | IF(l_isend) CALL mpi_wait(ml_req2,ml_stat,ml_err) |
---|
[51] | 1289 | CASE ( 1 ) |
---|
[181] | 1290 | CALL mppsend( 3, t2ns(1,1,1), imigr, noso, ml_req1 ) |
---|
[51] | 1291 | CALL mpprecv( 4, t2sn(1,1,2), imigr ) |
---|
[300] | 1292 | IF(l_isend) CALL mpi_wait(ml_req1,ml_stat,ml_err) |
---|
[51] | 1293 | END SELECT |
---|
| 1294 | |
---|
[3] | 1295 | #endif |
---|
| 1296 | |
---|
[51] | 1297 | ! 3.3 Write Dirichlet lateral conditions |
---|
[3] | 1298 | |
---|
[51] | 1299 | ijhom = nlcj - jprecj |
---|
[3] | 1300 | |
---|
[51] | 1301 | SELECT CASE ( nbondj ) |
---|
| 1302 | CASE ( -1 ) |
---|
| 1303 | DO jl = 1, jprecj |
---|
| 1304 | pt2d(:,ijhom+jl) = t2ns(:,jl,2) |
---|
| 1305 | END DO |
---|
| 1306 | CASE ( 0 ) |
---|
| 1307 | DO jl = 1, jprecj |
---|
| 1308 | pt2d(:,jl ) = t2sn(:,jl,2) |
---|
| 1309 | pt2d(:,ijhom+jl) = t2ns(:,jl,2) |
---|
| 1310 | END DO |
---|
| 1311 | CASE ( 1 ) |
---|
| 1312 | DO jl = 1, jprecj |
---|
| 1313 | pt2d(:,jl ) = t2sn(:,jl,2) |
---|
| 1314 | END DO |
---|
| 1315 | END SELECT |
---|
| 1316 | |
---|
[3] | 1317 | |
---|
[51] | 1318 | ! 4. north fold treatment |
---|
| 1319 | ! ----------------------- |
---|
| 1320 | |
---|
[473] | 1321 | IF (PRESENT(cd_mpp)) THEN |
---|
| 1322 | ! No north fold treatment (it is assumed to be already OK) |
---|
| 1323 | |
---|
| 1324 | ELSE |
---|
| 1325 | |
---|
[51] | 1326 | ! 4.1 treatment without exchange (jpni odd) |
---|
| 1327 | |
---|
| 1328 | SELECT CASE ( jpni ) |
---|
| 1329 | |
---|
| 1330 | CASE ( 1 ) ! only one proc along I, no mpp exchange |
---|
| 1331 | |
---|
| 1332 | SELECT CASE ( npolj ) |
---|
| 1333 | |
---|
[233] | 1334 | CASE ( 3 , 4 ) ! T pivot |
---|
[51] | 1335 | iloc = jpiglo - 2 * ( nimpp - 1 ) |
---|
| 1336 | |
---|
| 1337 | SELECT CASE ( cd_type ) |
---|
| 1338 | |
---|
| 1339 | CASE ( 'T' , 'S', 'W' ) |
---|
| 1340 | DO ji = 2, nlci |
---|
| 1341 | ijt=iloc-ji+2 |
---|
| 1342 | pt2d(ji,nlcj) = psgn * pt2d(ijt,nlcj-2) |
---|
| 1343 | END DO |
---|
| 1344 | DO ji = nlci/2+1, nlci |
---|
| 1345 | ijt=iloc-ji+2 |
---|
| 1346 | pt2d(ji,nlcj-1) = psgn * pt2d(ijt,nlcj-1) |
---|
| 1347 | END DO |
---|
| 1348 | |
---|
| 1349 | CASE ( 'U' ) |
---|
| 1350 | DO ji = 1, nlci-1 |
---|
| 1351 | iju=iloc-ji+1 |
---|
| 1352 | pt2d(ji,nlcj) = psgn * pt2d(iju,nlcj-2) |
---|
| 1353 | END DO |
---|
| 1354 | DO ji = nlci/2, nlci-1 |
---|
| 1355 | iju=iloc-ji+1 |
---|
| 1356 | pt2d(ji,nlcj-1) = psgn * pt2d(iju,nlcj-1) |
---|
| 1357 | END DO |
---|
| 1358 | |
---|
| 1359 | CASE ( 'V' ) |
---|
| 1360 | DO ji = 2, nlci |
---|
| 1361 | ijt=iloc-ji+2 |
---|
| 1362 | pt2d(ji,nlcj-1) = psgn * pt2d(ijt,nlcj-2) |
---|
| 1363 | pt2d(ji,nlcj ) = psgn * pt2d(ijt,nlcj-3) |
---|
| 1364 | END DO |
---|
| 1365 | |
---|
| 1366 | CASE ( 'F', 'G' ) |
---|
| 1367 | DO ji = 1, nlci-1 |
---|
| 1368 | iju=iloc-ji+1 |
---|
[233] | 1369 | pt2d(ji,nlcj-1) = psgn * pt2d(iju,nlcj-2) |
---|
| 1370 | pt2d(ji,nlcj ) = psgn * pt2d(iju,nlcj-3) |
---|
[51] | 1371 | END DO |
---|
| 1372 | |
---|
| 1373 | CASE ( 'I' ) ! ice U-V point |
---|
| 1374 | pt2d(2,nlcj) = psgn * pt2d(3,nlcj-1) |
---|
| 1375 | DO ji = 3, nlci |
---|
| 1376 | iju = iloc - ji + 3 |
---|
| 1377 | pt2d(ji,nlcj) = psgn * pt2d(iju,nlcj-1) |
---|
| 1378 | END DO |
---|
| 1379 | |
---|
| 1380 | END SELECT |
---|
| 1381 | |
---|
[233] | 1382 | CASE ( 5 , 6 ) ! F pivot |
---|
[51] | 1383 | iloc=jpiglo-2*(nimpp-1) |
---|
| 1384 | |
---|
| 1385 | SELECT CASE (cd_type ) |
---|
| 1386 | |
---|
| 1387 | CASE ( 'T', 'S', 'W' ) |
---|
| 1388 | DO ji = 1, nlci |
---|
| 1389 | ijt=iloc-ji+1 |
---|
| 1390 | pt2d(ji,nlcj) = psgn * pt2d(ijt,nlcj-1) |
---|
| 1391 | END DO |
---|
| 1392 | |
---|
| 1393 | CASE ( 'U' ) |
---|
| 1394 | DO ji = 1, nlci-1 |
---|
| 1395 | iju=iloc-ji |
---|
| 1396 | pt2d(ji,nlcj) = psgn * pt2d(iju,nlcj-1) |
---|
| 1397 | END DO |
---|
[3] | 1398 | |
---|
[51] | 1399 | CASE ( 'V' ) |
---|
| 1400 | DO ji = 1, nlci |
---|
| 1401 | ijt=iloc-ji+1 |
---|
| 1402 | pt2d(ji,nlcj ) = psgn * pt2d(ijt,nlcj-2) |
---|
| 1403 | END DO |
---|
| 1404 | DO ji = nlci/2+1, nlci |
---|
| 1405 | ijt=iloc-ji+1 |
---|
| 1406 | pt2d(ji,nlcj-1) = psgn * pt2d(ijt,nlcj-1) |
---|
| 1407 | END DO |
---|
| 1408 | |
---|
| 1409 | CASE ( 'F', 'G' ) |
---|
| 1410 | DO ji = 1, nlci-1 |
---|
| 1411 | iju=iloc-ji |
---|
[233] | 1412 | pt2d(ji,nlcj) = psgn * pt2d(iju,nlcj-2) |
---|
[51] | 1413 | END DO |
---|
| 1414 | DO ji = nlci/2+1, nlci-1 |
---|
| 1415 | iju=iloc-ji |
---|
| 1416 | pt2d(ji,nlcj-1) = psgn * pt2d(iju,nlcj-1) |
---|
| 1417 | END DO |
---|
| 1418 | |
---|
| 1419 | CASE ( 'I' ) ! ice U-V point |
---|
[888] | 1420 | pt2d( 2 ,nlcj) = zland |
---|
[233] | 1421 | DO ji = 2 , nlci-1 |
---|
| 1422 | ijt = iloc - ji + 2 |
---|
[51] | 1423 | pt2d(ji,nlcj)= 0.5 * ( pt2d(ji,nlcj-1) + psgn * pt2d(ijt,nlcj-1) ) |
---|
| 1424 | END DO |
---|
| 1425 | |
---|
| 1426 | END SELECT ! cd_type |
---|
| 1427 | |
---|
| 1428 | END SELECT ! npolj |
---|
[3] | 1429 | |
---|
[51] | 1430 | CASE DEFAULT ! more than 1 proc along I |
---|
| 1431 | IF( npolj /= 0 ) CALL mpp_lbc_north( pt2d, cd_type, psgn ) ! only for northern procs. |
---|
[3] | 1432 | |
---|
[51] | 1433 | END SELECT ! jpni |
---|
[3] | 1434 | |
---|
[473] | 1435 | ENDIF |
---|
[3] | 1436 | |
---|
[51] | 1437 | ! 5. East and west directions |
---|
| 1438 | ! --------------------------- |
---|
[3] | 1439 | |
---|
[51] | 1440 | SELECT CASE ( npolj ) |
---|
[3] | 1441 | |
---|
[51] | 1442 | CASE ( 3, 4, 5, 6 ) |
---|
[3] | 1443 | |
---|
[51] | 1444 | ! 5.1 Read Dirichlet lateral conditions |
---|
[3] | 1445 | |
---|
[51] | 1446 | SELECT CASE ( nbondi ) |
---|
| 1447 | CASE ( -1, 0, 1 ) |
---|
| 1448 | iihom = nlci-nreci |
---|
| 1449 | DO jl = 1, jpreci |
---|
| 1450 | DO jj = 1, jpj |
---|
| 1451 | t2ew(jj,jl,1) = pt2d(jpreci+jl,jj) |
---|
| 1452 | t2we(jj,jl,1) = pt2d(iihom +jl,jj) |
---|
| 1453 | END DO |
---|
| 1454 | END DO |
---|
| 1455 | END SELECT |
---|
[3] | 1456 | |
---|
[51] | 1457 | ! 5.2 Migrations |
---|
[3] | 1458 | |
---|
| 1459 | #if defined key_mpp_shmem |
---|
[51] | 1460 | !! * SHMEM version |
---|
[3] | 1461 | |
---|
[51] | 1462 | imigr=jpreci*jpj |
---|
[3] | 1463 | |
---|
[51] | 1464 | SELECT CASE ( nbondi ) |
---|
| 1465 | CASE ( -1 ) |
---|
| 1466 | CALL shmem_put( t2we(1,1,2), t2we(1,1,1), imigr, noea ) |
---|
| 1467 | CASE ( 0 ) |
---|
| 1468 | CALL shmem_put( t2ew(1,1,2), t2ew(1,1,1), imigr, nowe ) |
---|
| 1469 | CALL shmem_put( t2we(1,1,2), t2we(1,1,1), imigr, noea ) |
---|
| 1470 | CASE ( 1 ) |
---|
| 1471 | CALL shmem_put( t2ew(1,1,2), t2ew(1,1,1), imigr, nowe ) |
---|
| 1472 | END SELECT |
---|
[3] | 1473 | |
---|
[51] | 1474 | CALL barrier() |
---|
| 1475 | CALL shmem_udcflush() |
---|
| 1476 | |
---|
[3] | 1477 | #elif defined key_mpp_mpi |
---|
[51] | 1478 | !! * MPI version |
---|
| 1479 | |
---|
| 1480 | imigr=jpreci*jpj |
---|
| 1481 | |
---|
| 1482 | SELECT CASE ( nbondi ) |
---|
| 1483 | CASE ( -1 ) |
---|
[181] | 1484 | CALL mppsend( 2, t2we(1,1,1), imigr, noea, ml_req1 ) |
---|
[51] | 1485 | CALL mpprecv( 1, t2ew(1,1,2), imigr ) |
---|
[300] | 1486 | IF(l_isend) CALL mpi_wait(ml_req1,ml_stat,ml_err) |
---|
[51] | 1487 | CASE ( 0 ) |
---|
[181] | 1488 | CALL mppsend( 1, t2ew(1,1,1), imigr, nowe, ml_req1 ) |
---|
| 1489 | CALL mppsend( 2, t2we(1,1,1), imigr, noea, ml_req2 ) |
---|
[51] | 1490 | CALL mpprecv( 1, t2ew(1,1,2), imigr ) |
---|
| 1491 | CALL mpprecv( 2, t2we(1,1,2), imigr ) |
---|
[300] | 1492 | IF(l_isend) CALL mpi_wait(ml_req1,ml_stat,ml_err) |
---|
| 1493 | IF(l_isend) CALL mpi_wait(ml_req2,ml_stat,ml_err) |
---|
[51] | 1494 | CASE ( 1 ) |
---|
[181] | 1495 | CALL mppsend( 1, t2ew(1,1,1), imigr, nowe, ml_req1 ) |
---|
[51] | 1496 | CALL mpprecv( 2, t2we(1,1,2), imigr ) |
---|
[300] | 1497 | IF(l_isend) CALL mpi_wait(ml_req1,ml_stat,ml_err) |
---|
[51] | 1498 | END SELECT |
---|
[3] | 1499 | #endif |
---|
| 1500 | |
---|
[51] | 1501 | ! 5.3 Write Dirichlet lateral conditions |
---|
| 1502 | |
---|
| 1503 | iihom = nlci - jpreci |
---|
| 1504 | |
---|
| 1505 | SELECT CASE ( nbondi ) |
---|
| 1506 | CASE ( -1 ) |
---|
| 1507 | DO jl = 1, jpreci |
---|
| 1508 | pt2d(iihom+jl,:) = t2ew(:,jl,2) |
---|
| 1509 | END DO |
---|
| 1510 | CASE ( 0 ) |
---|
| 1511 | DO jl = 1, jpreci |
---|
| 1512 | pt2d(jl ,:) = t2we(:,jl,2) |
---|
| 1513 | pt2d(iihom+jl,:) = t2ew(:,jl,2) |
---|
| 1514 | END DO |
---|
| 1515 | CASE ( 1 ) |
---|
| 1516 | DO jl = 1, jpreci |
---|
| 1517 | pt2d(jl,:) = t2we(:,jl,2) |
---|
| 1518 | END DO |
---|
| 1519 | END SELECT |
---|
| 1520 | |
---|
| 1521 | END SELECT ! npolj |
---|
| 1522 | |
---|
| 1523 | END SUBROUTINE mpp_lnk_2d |
---|
[3] | 1524 | |
---|
| 1525 | |
---|
[473] | 1526 | SUBROUTINE mpp_lnk_3d_gather( ptab1, cd_type1, ptab2, cd_type2, psgn ) |
---|
| 1527 | !!---------------------------------------------------------------------- |
---|
| 1528 | !! *** routine mpp_lnk_3d_gather *** |
---|
| 1529 | !! |
---|
| 1530 | !! ** Purpose : Message passing manadgement for two 3D arrays |
---|
| 1531 | !! |
---|
| 1532 | !! ** Method : Use mppsend and mpprecv function for passing mask |
---|
| 1533 | !! between processors following neighboring subdomains. |
---|
| 1534 | !! domain parameters |
---|
| 1535 | !! nlci : first dimension of the local subdomain |
---|
| 1536 | !! nlcj : second dimension of the local subdomain |
---|
| 1537 | !! nbondi : mark for "east-west local boundary" |
---|
| 1538 | !! nbondj : mark for "north-south local boundary" |
---|
| 1539 | !! noea : number for local neighboring processors |
---|
| 1540 | !! nowe : number for local neighboring processors |
---|
| 1541 | !! noso : number for local neighboring processors |
---|
| 1542 | !! nono : number for local neighboring processors |
---|
| 1543 | !! |
---|
| 1544 | !! ** Action : ptab1 and ptab2 with update value at its periphery |
---|
| 1545 | !! |
---|
| 1546 | !!---------------------------------------------------------------------- |
---|
| 1547 | !! * Arguments |
---|
| 1548 | CHARACTER(len=1) , INTENT( in ) :: & |
---|
| 1549 | cd_type1, cd_type2 ! define the nature of ptab array grid-points |
---|
| 1550 | ! ! = T , U , V , F , W points |
---|
| 1551 | ! ! = S : T-point, north fold treatment ??? |
---|
| 1552 | ! ! = G : F-point, north fold treatment ??? |
---|
| 1553 | REAL(wp), INTENT( in ) :: & |
---|
| 1554 | psgn ! control of the sign change |
---|
| 1555 | ! ! = -1. , the sign is changed if north fold boundary |
---|
| 1556 | ! ! = 1. , the sign is kept if north fold boundary |
---|
| 1557 | REAL(wp), DIMENSION(jpi,jpj,jpk), INTENT( inout ) :: & |
---|
| 1558 | ptab1, ptab2 ! 3D array on which the boundary condition is applied |
---|
| 1559 | |
---|
| 1560 | !! * Local variables |
---|
| 1561 | INTEGER :: ji, jk, jl ! dummy loop indices |
---|
| 1562 | INTEGER :: imigr, iihom, ijhom, iloc, ijt, iju ! temporary integers |
---|
| 1563 | INTEGER :: ml_req1, ml_req2, ml_err ! for key_mpi_isend |
---|
| 1564 | INTEGER :: ml_stat(MPI_STATUS_SIZE) ! for key_mpi_isend |
---|
| 1565 | !!---------------------------------------------------------------------- |
---|
| 1566 | |
---|
| 1567 | ! 1. standard boundary treatment |
---|
| 1568 | ! ------------------------------ |
---|
| 1569 | ! ! East-West boundaries |
---|
| 1570 | ! ! ==================== |
---|
| 1571 | IF( nbondi == 2 .AND. & ! Cyclic east-west |
---|
| 1572 | & (nperio == 1 .OR. nperio == 4 .OR. nperio == 6) ) THEN |
---|
| 1573 | ptab1( 1 ,:,:) = ptab1(jpim1,:,:) |
---|
| 1574 | ptab1(jpi,:,:) = ptab1( 2 ,:,:) |
---|
| 1575 | ptab2( 1 ,:,:) = ptab2(jpim1,:,:) |
---|
| 1576 | ptab2(jpi,:,:) = ptab2( 2 ,:,:) |
---|
| 1577 | |
---|
| 1578 | ELSE ! closed |
---|
| 1579 | SELECT CASE ( cd_type1 ) |
---|
| 1580 | CASE ( 'T', 'U', 'V', 'W' ) |
---|
| 1581 | ptab1( 1 :jpreci,:,:) = 0.e0 |
---|
| 1582 | ptab1(nlci-jpreci+1:jpi ,:,:) = 0.e0 |
---|
| 1583 | CASE ( 'F' ) |
---|
| 1584 | ptab1(nlci-jpreci+1:jpi ,:,:) = 0.e0 |
---|
| 1585 | END SELECT |
---|
| 1586 | SELECT CASE ( cd_type2 ) |
---|
| 1587 | CASE ( 'T', 'U', 'V', 'W' ) |
---|
| 1588 | ptab2( 1 :jpreci,:,:) = 0.e0 |
---|
| 1589 | ptab2(nlci-jpreci+1:jpi ,:,:) = 0.e0 |
---|
| 1590 | CASE ( 'F' ) |
---|
| 1591 | ptab2(nlci-jpreci+1:jpi ,:,:) = 0.e0 |
---|
| 1592 | END SELECT |
---|
| 1593 | ENDIF |
---|
| 1594 | |
---|
| 1595 | ! ! North-South boundaries |
---|
| 1596 | ! ! ====================== |
---|
| 1597 | SELECT CASE ( cd_type1 ) |
---|
| 1598 | CASE ( 'T', 'U', 'V', 'W' ) |
---|
| 1599 | ptab1(:, 1 :jprecj,:) = 0.e0 |
---|
| 1600 | ptab1(:,nlcj-jprecj+1:jpj ,:) = 0.e0 |
---|
| 1601 | CASE ( 'F' ) |
---|
| 1602 | ptab1(:,nlcj-jprecj+1:jpj ,:) = 0.e0 |
---|
| 1603 | END SELECT |
---|
| 1604 | |
---|
| 1605 | SELECT CASE ( cd_type2 ) |
---|
| 1606 | CASE ( 'T', 'U', 'V', 'W' ) |
---|
| 1607 | ptab2(:, 1 :jprecj,:) = 0.e0 |
---|
| 1608 | ptab2(:,nlcj-jprecj+1:jpj ,:) = 0.e0 |
---|
| 1609 | CASE ( 'F' ) |
---|
| 1610 | ptab2(:,nlcj-jprecj+1:jpj ,:) = 0.e0 |
---|
| 1611 | END SELECT |
---|
| 1612 | |
---|
| 1613 | |
---|
| 1614 | ! 2. East and west directions exchange |
---|
| 1615 | ! ------------------------------------ |
---|
| 1616 | |
---|
| 1617 | ! 2.1 Read Dirichlet lateral conditions |
---|
| 1618 | |
---|
| 1619 | SELECT CASE ( nbondi ) |
---|
| 1620 | CASE ( -1, 0, 1 ) ! all exept 2 |
---|
| 1621 | iihom = nlci-nreci |
---|
| 1622 | DO jl = 1, jpreci |
---|
| 1623 | t4ew(:,jl,:,1,1) = ptab1(jpreci+jl,:,:) |
---|
| 1624 | t4we(:,jl,:,1,1) = ptab1(iihom +jl,:,:) |
---|
| 1625 | t4ew(:,jl,:,2,1) = ptab2(jpreci+jl,:,:) |
---|
| 1626 | t4we(:,jl,:,2,1) = ptab2(iihom +jl,:,:) |
---|
| 1627 | END DO |
---|
| 1628 | END SELECT |
---|
| 1629 | |
---|
| 1630 | ! 2.2 Migrations |
---|
| 1631 | |
---|
| 1632 | #if defined key_mpp_shmem |
---|
| 1633 | !! * SHMEM version |
---|
| 1634 | |
---|
| 1635 | imigr = jpreci * jpj * jpk *2 |
---|
| 1636 | |
---|
| 1637 | SELECT CASE ( nbondi ) |
---|
| 1638 | CASE ( -1 ) |
---|
| 1639 | CALL shmem_put( t4we(1,1,1,1,2), t4we(1,1,1,1,1), imigr, noea ) |
---|
| 1640 | CASE ( 0 ) |
---|
| 1641 | CALL shmem_put( t4ew(1,1,1,1,2), t4ew(1,1,1,1,1), imigr, nowe ) |
---|
| 1642 | CALL shmem_put( t4we(1,1,1,1,2), t4we(1,1,1,1,1), imigr, noea ) |
---|
| 1643 | CASE ( 1 ) |
---|
| 1644 | CALL shmem_put( t4ew(1,1,1,1,2), t4ew(1,1,1,1,1), imigr, nowe ) |
---|
| 1645 | END SELECT |
---|
| 1646 | |
---|
| 1647 | CALL barrier() |
---|
| 1648 | CALL shmem_udcflush() |
---|
| 1649 | |
---|
| 1650 | #elif defined key_mpp_mpi |
---|
| 1651 | !! * Local variables (MPI version) |
---|
| 1652 | |
---|
| 1653 | imigr = jpreci * jpj * jpk *2 |
---|
| 1654 | |
---|
| 1655 | SELECT CASE ( nbondi ) |
---|
| 1656 | CASE ( -1 ) |
---|
| 1657 | CALL mppsend( 2, t4we(1,1,1,1,1), imigr, noea, ml_req1 ) |
---|
| 1658 | CALL mpprecv( 1, t4ew(1,1,1,1,2), imigr ) |
---|
| 1659 | IF(l_isend) CALL mpi_wait(ml_req1, ml_stat, ml_err) |
---|
| 1660 | CASE ( 0 ) |
---|
| 1661 | CALL mppsend( 1, t4ew(1,1,1,1,1), imigr, nowe, ml_req1 ) |
---|
| 1662 | CALL mppsend( 2, t4we(1,1,1,1,1), imigr, noea, ml_req2 ) |
---|
| 1663 | CALL mpprecv( 1, t4ew(1,1,1,1,2), imigr ) |
---|
| 1664 | CALL mpprecv( 2, t4we(1,1,1,1,2), imigr ) |
---|
| 1665 | IF(l_isend) CALL mpi_wait(ml_req1, ml_stat, ml_err) |
---|
| 1666 | IF(l_isend) CALL mpi_wait(ml_req2, ml_stat, ml_err) |
---|
| 1667 | CASE ( 1 ) |
---|
| 1668 | CALL mppsend( 1, t4ew(1,1,1,1,1), imigr, nowe, ml_req1 ) |
---|
| 1669 | CALL mpprecv( 2, t4we(1,1,1,1,2), imigr ) |
---|
| 1670 | IF(l_isend) CALL mpi_wait(ml_req1, ml_stat, ml_err) |
---|
| 1671 | END SELECT |
---|
| 1672 | #endif |
---|
| 1673 | |
---|
| 1674 | ! 2.3 Write Dirichlet lateral conditions |
---|
| 1675 | |
---|
| 1676 | iihom = nlci-jpreci |
---|
| 1677 | |
---|
| 1678 | SELECT CASE ( nbondi ) |
---|
| 1679 | CASE ( -1 ) |
---|
| 1680 | DO jl = 1, jpreci |
---|
| 1681 | ptab1(iihom+jl,:,:) = t4ew(:,jl,:,1,2) |
---|
| 1682 | ptab2(iihom+jl,:,:) = t4ew(:,jl,:,2,2) |
---|
| 1683 | END DO |
---|
| 1684 | CASE ( 0 ) |
---|
| 1685 | DO jl = 1, jpreci |
---|
| 1686 | ptab1(jl ,:,:) = t4we(:,jl,:,1,2) |
---|
| 1687 | ptab1(iihom+jl,:,:) = t4ew(:,jl,:,1,2) |
---|
| 1688 | ptab2(jl ,:,:) = t4we(:,jl,:,2,2) |
---|
| 1689 | ptab2(iihom+jl,:,:) = t4ew(:,jl,:,2,2) |
---|
| 1690 | END DO |
---|
| 1691 | CASE ( 1 ) |
---|
| 1692 | DO jl = 1, jpreci |
---|
| 1693 | ptab1(jl ,:,:) = t4we(:,jl,:,1,2) |
---|
| 1694 | ptab2(jl ,:,:) = t4we(:,jl,:,2,2) |
---|
| 1695 | END DO |
---|
| 1696 | END SELECT |
---|
| 1697 | |
---|
| 1698 | |
---|
| 1699 | ! 3. North and south directions |
---|
| 1700 | ! ----------------------------- |
---|
| 1701 | |
---|
| 1702 | ! 3.1 Read Dirichlet lateral conditions |
---|
| 1703 | |
---|
| 1704 | IF( nbondj /= 2 ) THEN |
---|
| 1705 | ijhom = nlcj-nrecj |
---|
| 1706 | DO jl = 1, jprecj |
---|
| 1707 | t4sn(:,jl,:,1,1) = ptab1(:,ijhom +jl,:) |
---|
| 1708 | t4ns(:,jl,:,1,1) = ptab1(:,jprecj+jl,:) |
---|
| 1709 | t4sn(:,jl,:,2,1) = ptab2(:,ijhom +jl,:) |
---|
| 1710 | t4ns(:,jl,:,2,1) = ptab2(:,jprecj+jl,:) |
---|
| 1711 | END DO |
---|
| 1712 | ENDIF |
---|
| 1713 | |
---|
| 1714 | ! 3.2 Migrations |
---|
| 1715 | |
---|
| 1716 | #if defined key_mpp_shmem |
---|
| 1717 | !! * SHMEM version |
---|
| 1718 | |
---|
| 1719 | imigr = jprecj * jpi * jpk * 2 |
---|
| 1720 | |
---|
| 1721 | SELECT CASE ( nbondj ) |
---|
| 1722 | CASE ( -1 ) |
---|
| 1723 | CALL shmem_put( t4sn(1,1,1,1,2), t4sn(1,1,1,1,1), imigr, nono ) |
---|
| 1724 | CASE ( 0 ) |
---|
| 1725 | CALL shmem_put( t4ns(1,1,1,1,2), t4ns(1,1,1,1,1), imigr, noso ) |
---|
| 1726 | CALL shmem_put( t4sn(1,1,1,1,2), t4sn(1,1,1,1,1), imigr, nono ) |
---|
| 1727 | CASE ( 1 ) |
---|
| 1728 | CALL shmem_put( t4ns(1,1,1,1,2), t4ns(1,1,1,1;,1), imigr, noso ) |
---|
| 1729 | END SELECT |
---|
| 1730 | |
---|
| 1731 | CALL barrier() |
---|
| 1732 | CALL shmem_udcflush() |
---|
| 1733 | |
---|
| 1734 | #elif defined key_mpp_mpi |
---|
| 1735 | !! * Local variables (MPI version) |
---|
| 1736 | |
---|
| 1737 | imigr=jprecj * jpi * jpk * 2 |
---|
| 1738 | |
---|
| 1739 | SELECT CASE ( nbondj ) |
---|
| 1740 | CASE ( -1 ) |
---|
| 1741 | CALL mppsend( 4, t4sn(1,1,1,1,1), imigr, nono, ml_req1 ) |
---|
| 1742 | CALL mpprecv( 3, t4ns(1,1,1,1,2), imigr ) |
---|
| 1743 | IF(l_isend) CALL mpi_wait(ml_req1, ml_stat, ml_err) |
---|
| 1744 | CASE ( 0 ) |
---|
| 1745 | CALL mppsend( 3, t4ns(1,1,1,1,1), imigr, noso, ml_req1 ) |
---|
| 1746 | CALL mppsend( 4, t4sn(1,1,1,1,1), imigr, nono, ml_req2 ) |
---|
| 1747 | CALL mpprecv( 3, t4ns(1,1,1,1,2), imigr ) |
---|
| 1748 | CALL mpprecv( 4, t4sn(1,1,1,1,2), imigr ) |
---|
| 1749 | IF(l_isend) CALL mpi_wait(ml_req1, ml_stat, ml_err) |
---|
| 1750 | IF(l_isend) CALL mpi_wait(ml_req2, ml_stat, ml_err) |
---|
| 1751 | CASE ( 1 ) |
---|
| 1752 | CALL mppsend( 3, t4ns(1,1,1,1,1), imigr, noso, ml_req1 ) |
---|
| 1753 | CALL mpprecv( 4, t4sn(1,1,1,1,2), imigr ) |
---|
| 1754 | IF(l_isend) CALL mpi_wait(ml_req1, ml_stat, ml_err) |
---|
| 1755 | END SELECT |
---|
| 1756 | |
---|
| 1757 | #endif |
---|
| 1758 | |
---|
| 1759 | ! 3.3 Write Dirichlet lateral conditions |
---|
| 1760 | |
---|
| 1761 | ijhom = nlcj-jprecj |
---|
| 1762 | |
---|
| 1763 | SELECT CASE ( nbondj ) |
---|
| 1764 | CASE ( -1 ) |
---|
| 1765 | DO jl = 1, jprecj |
---|
| 1766 | ptab1(:,ijhom+jl,:) = t4ns(:,jl,:,1,2) |
---|
| 1767 | ptab2(:,ijhom+jl,:) = t4ns(:,jl,:,2,2) |
---|
| 1768 | END DO |
---|
| 1769 | CASE ( 0 ) |
---|
| 1770 | DO jl = 1, jprecj |
---|
| 1771 | ptab1(:,jl ,:) = t4sn(:,jl,:,1,2) |
---|
| 1772 | ptab1(:,ijhom+jl,:) = t4ns(:,jl,:,1,2) |
---|
| 1773 | ptab2(:,jl ,:) = t4sn(:,jl,:,2,2) |
---|
| 1774 | ptab2(:,ijhom+jl,:) = t4ns(:,jl,:,2,2) |
---|
| 1775 | END DO |
---|
| 1776 | CASE ( 1 ) |
---|
| 1777 | DO jl = 1, jprecj |
---|
| 1778 | ptab1(:,jl,:) = t4sn(:,jl,:,1,2) |
---|
| 1779 | ptab2(:,jl,:) = t4sn(:,jl,:,2,2) |
---|
| 1780 | END DO |
---|
| 1781 | END SELECT |
---|
| 1782 | |
---|
| 1783 | |
---|
| 1784 | ! 4. north fold treatment |
---|
| 1785 | ! ----------------------- |
---|
| 1786 | |
---|
| 1787 | ! 4.1 treatment without exchange (jpni odd) |
---|
| 1788 | ! T-point pivot |
---|
| 1789 | |
---|
| 1790 | SELECT CASE ( jpni ) |
---|
| 1791 | |
---|
| 1792 | CASE ( 1 ) ! only one proc along I, no mpp exchange |
---|
| 1793 | |
---|
| 1794 | SELECT CASE ( npolj ) |
---|
| 1795 | |
---|
| 1796 | CASE ( 3 , 4 ) ! T pivot |
---|
| 1797 | iloc = jpiglo - 2 * ( nimpp - 1 ) |
---|
| 1798 | |
---|
| 1799 | SELECT CASE ( cd_type1 ) |
---|
| 1800 | |
---|
| 1801 | CASE ( 'T' , 'S', 'W' ) |
---|
| 1802 | DO jk = 1, jpk |
---|
| 1803 | DO ji = 2, nlci |
---|
| 1804 | ijt=iloc-ji+2 |
---|
| 1805 | ptab1(ji,nlcj,jk) = psgn * ptab1(ijt,nlcj-2,jk) |
---|
| 1806 | END DO |
---|
| 1807 | DO ji = nlci/2+1, nlci |
---|
| 1808 | ijt=iloc-ji+2 |
---|
| 1809 | ptab1(ji,nlcj-1,jk) = psgn * ptab1(ijt,nlcj-1,jk) |
---|
| 1810 | END DO |
---|
| 1811 | END DO |
---|
| 1812 | |
---|
| 1813 | CASE ( 'U' ) |
---|
| 1814 | DO jk = 1, jpk |
---|
| 1815 | DO ji = 1, nlci-1 |
---|
| 1816 | iju=iloc-ji+1 |
---|
| 1817 | ptab1(ji,nlcj,jk) = psgn * ptab1(iju,nlcj-2,jk) |
---|
| 1818 | END DO |
---|
| 1819 | DO ji = nlci/2, nlci-1 |
---|
| 1820 | iju=iloc-ji+1 |
---|
| 1821 | ptab1(ji,nlcj-1,jk) = psgn * ptab1(iju,nlcj-1,jk) |
---|
| 1822 | END DO |
---|
| 1823 | END DO |
---|
| 1824 | |
---|
| 1825 | CASE ( 'V' ) |
---|
| 1826 | DO jk = 1, jpk |
---|
| 1827 | DO ji = 2, nlci |
---|
| 1828 | ijt=iloc-ji+2 |
---|
| 1829 | ptab1(ji,nlcj-1,jk) = psgn * ptab1(ijt,nlcj-2,jk) |
---|
| 1830 | ptab1(ji,nlcj ,jk) = psgn * ptab1(ijt,nlcj-3,jk) |
---|
| 1831 | END DO |
---|
| 1832 | END DO |
---|
| 1833 | |
---|
| 1834 | CASE ( 'F', 'G' ) |
---|
| 1835 | DO jk = 1, jpk |
---|
| 1836 | DO ji = 1, nlci-1 |
---|
| 1837 | iju=iloc-ji+1 |
---|
| 1838 | ptab1(ji,nlcj-1,jk) = psgn * ptab1(iju,nlcj-2,jk) |
---|
| 1839 | ptab1(ji,nlcj ,jk) = psgn * ptab1(iju,nlcj-3,jk) |
---|
| 1840 | END DO |
---|
| 1841 | END DO |
---|
| 1842 | |
---|
| 1843 | END SELECT |
---|
| 1844 | |
---|
| 1845 | SELECT CASE ( cd_type2 ) |
---|
| 1846 | |
---|
| 1847 | CASE ( 'T' , 'S', 'W' ) |
---|
| 1848 | DO jk = 1, jpk |
---|
| 1849 | DO ji = 2, nlci |
---|
| 1850 | ijt=iloc-ji+2 |
---|
| 1851 | ptab2(ji,nlcj,jk) = psgn * ptab2(ijt,nlcj-2,jk) |
---|
| 1852 | END DO |
---|
| 1853 | DO ji = nlci/2+1, nlci |
---|
| 1854 | ijt=iloc-ji+2 |
---|
| 1855 | ptab2(ji,nlcj-1,jk) = psgn * ptab2(ijt,nlcj-1,jk) |
---|
| 1856 | END DO |
---|
| 1857 | END DO |
---|
| 1858 | |
---|
| 1859 | CASE ( 'U' ) |
---|
| 1860 | DO jk = 1, jpk |
---|
| 1861 | DO ji = 1, nlci-1 |
---|
| 1862 | iju=iloc-ji+1 |
---|
| 1863 | ptab2(ji,nlcj,jk) = psgn * ptab2(iju,nlcj-2,jk) |
---|
| 1864 | END DO |
---|
| 1865 | DO ji = nlci/2, nlci-1 |
---|
| 1866 | iju=iloc-ji+1 |
---|
| 1867 | ptab2(ji,nlcj-1,jk) = psgn * ptab2(iju,nlcj-1,jk) |
---|
| 1868 | END DO |
---|
| 1869 | END DO |
---|
| 1870 | |
---|
| 1871 | CASE ( 'V' ) |
---|
| 1872 | DO jk = 1, jpk |
---|
| 1873 | DO ji = 2, nlci |
---|
| 1874 | ijt=iloc-ji+2 |
---|
| 1875 | ptab2(ji,nlcj-1,jk) = psgn * ptab2(ijt,nlcj-2,jk) |
---|
| 1876 | ptab2(ji,nlcj ,jk) = psgn * ptab2(ijt,nlcj-3,jk) |
---|
| 1877 | END DO |
---|
| 1878 | END DO |
---|
| 1879 | |
---|
| 1880 | CASE ( 'F', 'G' ) |
---|
| 1881 | DO jk = 1, jpk |
---|
| 1882 | DO ji = 1, nlci-1 |
---|
| 1883 | iju=iloc-ji+1 |
---|
| 1884 | ptab2(ji,nlcj-1,jk) = psgn * ptab2(iju,nlcj-2,jk) |
---|
| 1885 | ptab2(ji,nlcj ,jk) = psgn * ptab2(iju,nlcj-3,jk) |
---|
| 1886 | END DO |
---|
| 1887 | END DO |
---|
| 1888 | |
---|
| 1889 | END SELECT |
---|
| 1890 | |
---|
| 1891 | CASE ( 5 , 6 ) ! F pivot |
---|
| 1892 | iloc=jpiglo-2*(nimpp-1) |
---|
| 1893 | |
---|
| 1894 | SELECT CASE ( cd_type1 ) |
---|
| 1895 | |
---|
| 1896 | CASE ( 'T' , 'S', 'W' ) |
---|
| 1897 | DO jk = 1, jpk |
---|
| 1898 | DO ji = 1, nlci |
---|
| 1899 | ijt=iloc-ji+1 |
---|
| 1900 | ptab1(ji,nlcj,jk) = psgn * ptab1(ijt,nlcj-1,jk) |
---|
| 1901 | END DO |
---|
| 1902 | END DO |
---|
| 1903 | |
---|
| 1904 | CASE ( 'U' ) |
---|
| 1905 | DO jk = 1, jpk |
---|
| 1906 | DO ji = 1, nlci-1 |
---|
| 1907 | iju=iloc-ji |
---|
| 1908 | ptab1(ji,nlcj,jk) = psgn * ptab1(iju,nlcj-1,jk) |
---|
| 1909 | END DO |
---|
| 1910 | END DO |
---|
| 1911 | |
---|
| 1912 | CASE ( 'V' ) |
---|
| 1913 | DO jk = 1, jpk |
---|
| 1914 | DO ji = 1, nlci |
---|
| 1915 | ijt=iloc-ji+1 |
---|
| 1916 | ptab1(ji,nlcj ,jk) = psgn * ptab1(ijt,nlcj-2,jk) |
---|
| 1917 | END DO |
---|
| 1918 | DO ji = nlci/2+1, nlci |
---|
| 1919 | ijt=iloc-ji+1 |
---|
| 1920 | ptab1(ji,nlcj-1,jk) = psgn * ptab1(ijt,nlcj-1,jk) |
---|
| 1921 | END DO |
---|
| 1922 | END DO |
---|
| 1923 | |
---|
| 1924 | CASE ( 'F', 'G' ) |
---|
| 1925 | DO jk = 1, jpk |
---|
| 1926 | DO ji = 1, nlci-1 |
---|
| 1927 | iju=iloc-ji |
---|
| 1928 | ptab1(ji,nlcj,jk) = psgn * ptab1(iju,nlcj-2,jk) |
---|
| 1929 | END DO |
---|
| 1930 | DO ji = nlci/2+1, nlci-1 |
---|
| 1931 | iju=iloc-ji |
---|
| 1932 | ptab1(ji,nlcj-1,jk) = psgn * ptab1(iju,nlcj-1,jk) |
---|
| 1933 | END DO |
---|
| 1934 | END DO |
---|
| 1935 | END SELECT ! cd_type1 |
---|
| 1936 | |
---|
| 1937 | SELECT CASE ( cd_type2 ) |
---|
| 1938 | |
---|
| 1939 | CASE ( 'T' , 'S', 'W' ) |
---|
| 1940 | DO jk = 1, jpk |
---|
| 1941 | DO ji = 1, nlci |
---|
| 1942 | ijt=iloc-ji+1 |
---|
| 1943 | ptab2(ji,nlcj,jk) = psgn * ptab2(ijt,nlcj-1,jk) |
---|
| 1944 | END DO |
---|
| 1945 | END DO |
---|
| 1946 | |
---|
| 1947 | CASE ( 'U' ) |
---|
| 1948 | DO jk = 1, jpk |
---|
| 1949 | DO ji = 1, nlci-1 |
---|
| 1950 | iju=iloc-ji |
---|
| 1951 | ptab2(ji,nlcj,jk) = psgn * ptab2(iju,nlcj-1,jk) |
---|
| 1952 | END DO |
---|
| 1953 | END DO |
---|
| 1954 | |
---|
| 1955 | CASE ( 'V' ) |
---|
| 1956 | DO jk = 1, jpk |
---|
| 1957 | DO ji = 1, nlci |
---|
| 1958 | ijt=iloc-ji+1 |
---|
| 1959 | ptab2(ji,nlcj ,jk) = psgn * ptab2(ijt,nlcj-2,jk) |
---|
| 1960 | END DO |
---|
| 1961 | DO ji = nlci/2+1, nlci |
---|
| 1962 | ijt=iloc-ji+1 |
---|
| 1963 | ptab2(ji,nlcj-1,jk) = psgn * ptab2(ijt,nlcj-1,jk) |
---|
| 1964 | END DO |
---|
| 1965 | END DO |
---|
| 1966 | |
---|
| 1967 | CASE ( 'F', 'G' ) |
---|
| 1968 | DO jk = 1, jpk |
---|
| 1969 | DO ji = 1, nlci-1 |
---|
| 1970 | iju=iloc-ji |
---|
| 1971 | ptab2(ji,nlcj,jk) = psgn * ptab2(iju,nlcj-2,jk) |
---|
| 1972 | END DO |
---|
| 1973 | DO ji = nlci/2+1, nlci-1 |
---|
| 1974 | iju=iloc-ji |
---|
| 1975 | ptab2(ji,nlcj-1,jk) = psgn * ptab2(iju,nlcj-1,jk) |
---|
| 1976 | END DO |
---|
| 1977 | END DO |
---|
| 1978 | |
---|
| 1979 | END SELECT ! cd_type2 |
---|
| 1980 | |
---|
| 1981 | END SELECT ! npolj |
---|
| 1982 | |
---|
| 1983 | CASE DEFAULT ! more than 1 proc along I |
---|
| 1984 | IF ( npolj /= 0 ) THEN |
---|
| 1985 | CALL mpp_lbc_north (ptab1, cd_type1, psgn) ! only for northern procs. |
---|
| 1986 | CALL mpp_lbc_north (ptab2, cd_type2, psgn) ! only for northern procs. |
---|
| 1987 | ENDIF |
---|
| 1988 | |
---|
| 1989 | END SELECT ! jpni |
---|
| 1990 | |
---|
| 1991 | |
---|
| 1992 | ! 5. East and west directions exchange |
---|
| 1993 | ! ------------------------------------ |
---|
| 1994 | |
---|
| 1995 | SELECT CASE ( npolj ) |
---|
| 1996 | |
---|
| 1997 | CASE ( 3, 4, 5, 6 ) |
---|
| 1998 | |
---|
| 1999 | ! 5.1 Read Dirichlet lateral conditions |
---|
| 2000 | |
---|
| 2001 | SELECT CASE ( nbondi ) |
---|
| 2002 | |
---|
| 2003 | CASE ( -1, 0, 1 ) |
---|
| 2004 | iihom = nlci-nreci |
---|
| 2005 | DO jl = 1, jpreci |
---|
| 2006 | t4ew(:,jl,:,1,1) = ptab1(jpreci+jl,:,:) |
---|
| 2007 | t4we(:,jl,:,1,1) = ptab1(iihom +jl,:,:) |
---|
| 2008 | t4ew(:,jl,:,2,1) = ptab2(jpreci+jl,:,:) |
---|
| 2009 | t4we(:,jl,:,2,1) = ptab2(iihom +jl,:,:) |
---|
| 2010 | END DO |
---|
| 2011 | |
---|
| 2012 | END SELECT |
---|
| 2013 | |
---|
| 2014 | ! 5.2 Migrations |
---|
| 2015 | |
---|
| 2016 | #if defined key_mpp_shmem |
---|
| 2017 | !! SHMEM version |
---|
| 2018 | |
---|
| 2019 | imigr = jpreci * jpj * jpk * 2 |
---|
| 2020 | |
---|
| 2021 | SELECT CASE ( nbondi ) |
---|
| 2022 | CASE ( -1 ) |
---|
| 2023 | CALL shmem_put( t4we(1,1,1,1,2), t4we(1,1,1,1,1), imigr, noea ) |
---|
| 2024 | CASE ( 0 ) |
---|
| 2025 | CALL shmem_put( t4ew(1,1,1,1,2), t4ew(1,1,1,1,1), imigr, nowe ) |
---|
| 2026 | CALL shmem_put( t4we(1,1,1,1,2), t4we(1,1,1,1,1), imigr, noea ) |
---|
| 2027 | CASE ( 1 ) |
---|
| 2028 | CALL shmem_put( t4ew(1,1,1,1,2), t4ew(1,1,1,1,1), imigr, nowe ) |
---|
| 2029 | END SELECT |
---|
| 2030 | |
---|
| 2031 | CALL barrier() |
---|
| 2032 | CALL shmem_udcflush() |
---|
| 2033 | |
---|
| 2034 | #elif defined key_mpp_mpi |
---|
| 2035 | !! MPI version |
---|
| 2036 | |
---|
| 2037 | imigr = jpreci * jpj * jpk * 2 |
---|
| 2038 | |
---|
| 2039 | SELECT CASE ( nbondi ) |
---|
| 2040 | CASE ( -1 ) |
---|
| 2041 | CALL mppsend( 2, t4we(1,1,1,1,1), imigr, noea, ml_req1 ) |
---|
| 2042 | CALL mpprecv( 1, t4ew(1,1,1,1,2), imigr ) |
---|
| 2043 | IF(l_isend) CALL mpi_wait(ml_req1,ml_stat,ml_err) |
---|
| 2044 | CASE ( 0 ) |
---|
| 2045 | CALL mppsend( 1, t4ew(1,1,1,1,1), imigr, nowe, ml_req1 ) |
---|
| 2046 | CALL mppsend( 2, t4we(1,1,1,1,1), imigr, noea, ml_req2 ) |
---|
| 2047 | CALL mpprecv( 1, t4ew(1,1,1,1,2), imigr ) |
---|
| 2048 | CALL mpprecv( 2, t4we(1,1,1,1,2), imigr ) |
---|
| 2049 | IF(l_isend) CALL mpi_wait(ml_req1,ml_stat,ml_err) |
---|
| 2050 | IF(l_isend) CALL mpi_wait(ml_req2,ml_stat,ml_err) |
---|
| 2051 | CASE ( 1 ) |
---|
| 2052 | CALL mppsend( 1, t4ew(1,1,1,1,1), imigr, nowe, ml_req1 ) |
---|
| 2053 | CALL mpprecv( 2, t4we(1,1,1,1,2), imigr ) |
---|
| 2054 | IF(l_isend) CALL mpi_wait(ml_req1,ml_stat,ml_err) |
---|
| 2055 | END SELECT |
---|
| 2056 | #endif |
---|
| 2057 | |
---|
| 2058 | ! 5.3 Write Dirichlet lateral conditions |
---|
| 2059 | |
---|
| 2060 | iihom = nlci-jpreci |
---|
| 2061 | |
---|
| 2062 | SELECT CASE ( nbondi) |
---|
| 2063 | CASE ( -1 ) |
---|
| 2064 | DO jl = 1, jpreci |
---|
| 2065 | ptab1(iihom+jl,:,:) = t4ew(:,jl,:,1,2) |
---|
| 2066 | ptab2(iihom+jl,:,:) = t4ew(:,jl,:,2,2) |
---|
| 2067 | END DO |
---|
| 2068 | CASE ( 0 ) |
---|
| 2069 | DO jl = 1, jpreci |
---|
| 2070 | ptab1(jl ,:,:) = t4we(:,jl,:,1,2) |
---|
| 2071 | ptab1(iihom+jl,:,:) = t4ew(:,jl,:,1,2) |
---|
| 2072 | ptab2(jl ,:,:) = t4we(:,jl,:,2,2) |
---|
| 2073 | ptab2(iihom+jl,:,:) = t4ew(:,jl,:,2,2) |
---|
| 2074 | END DO |
---|
| 2075 | CASE ( 1 ) |
---|
| 2076 | DO jl = 1, jpreci |
---|
| 2077 | ptab1(jl ,:,:) = t4we(:,jl,:,1,2) |
---|
| 2078 | ptab2(jl ,:,:) = t4we(:,jl,:,2,2) |
---|
| 2079 | END DO |
---|
| 2080 | END SELECT |
---|
| 2081 | |
---|
| 2082 | END SELECT ! npolj |
---|
| 2083 | |
---|
| 2084 | END SUBROUTINE mpp_lnk_3d_gather |
---|
| 2085 | |
---|
| 2086 | |
---|
[311] | 2087 | SUBROUTINE mpp_lnk_2d_e( pt2d, cd_type, psgn ) |
---|
| 2088 | !!---------------------------------------------------------------------- |
---|
| 2089 | !! *** routine mpp_lnk_2d_e *** |
---|
| 2090 | !! |
---|
| 2091 | !! ** Purpose : Message passing manadgement for 2d array (with halo) |
---|
| 2092 | !! |
---|
| 2093 | !! ** Method : Use mppsend and mpprecv function for passing mask |
---|
| 2094 | !! between processors following neighboring subdomains. |
---|
| 2095 | !! domain parameters |
---|
| 2096 | !! nlci : first dimension of the local subdomain |
---|
| 2097 | !! nlcj : second dimension of the local subdomain |
---|
| 2098 | !! jpr2di : number of rows for extra outer halo |
---|
| 2099 | !! jpr2dj : number of columns for extra outer halo |
---|
| 2100 | !! nbondi : mark for "east-west local boundary" |
---|
| 2101 | !! nbondj : mark for "north-south local boundary" |
---|
| 2102 | !! noea : number for local neighboring processors |
---|
| 2103 | !! nowe : number for local neighboring processors |
---|
| 2104 | !! noso : number for local neighboring processors |
---|
| 2105 | !! nono : number for local neighboring processors |
---|
| 2106 | !! |
---|
| 2107 | !! History : |
---|
| 2108 | !! |
---|
| 2109 | !! 9.0 ! 05-09 (R. Benshila, G. Madec) original code |
---|
| 2110 | !! |
---|
| 2111 | !!---------------------------------------------------------------------- |
---|
| 2112 | !! * Arguments |
---|
| 2113 | CHARACTER(len=1) , INTENT( in ) :: & |
---|
| 2114 | cd_type ! define the nature of pt2d array grid-points |
---|
| 2115 | ! ! = T , U , V , F , W |
---|
| 2116 | ! ! = S : T-point, north fold treatment |
---|
| 2117 | ! ! = G : F-point, north fold treatment |
---|
| 2118 | ! ! = I : sea-ice velocity at F-point with index shift |
---|
| 2119 | REAL(wp), INTENT( in ) :: & |
---|
| 2120 | psgn ! control of the sign change |
---|
| 2121 | ! ! = -1. , the sign is changed if north fold boundary |
---|
| 2122 | ! ! = 1. , the sign is kept if north fold boundary |
---|
| 2123 | REAL(wp), DIMENSION(1-jpr2di:jpi+jpr2di,1-jpr2dj:jpj+jpr2dj), INTENT( inout ) :: & |
---|
| 2124 | pt2d ! 2D array on which the boundary condition is applied |
---|
| 2125 | |
---|
| 2126 | !! * Local variables |
---|
| 2127 | INTEGER :: ji, jl ! dummy loop indices |
---|
| 2128 | INTEGER :: & |
---|
| 2129 | imigr, iihom, ijhom, & ! temporary integers |
---|
| 2130 | iloc, ijt, iju ! " " |
---|
| 2131 | INTEGER :: & |
---|
| 2132 | ipreci, iprecj ! temporary integers |
---|
| 2133 | INTEGER :: ml_req1, ml_req2, ml_err ! for isend |
---|
| 2134 | INTEGER :: ml_stat(MPI_STATUS_SIZE) ! for isend |
---|
| 2135 | !!--------------------------------------------------------------------- |
---|
| 2136 | |
---|
| 2137 | ! take into account outer extra 2D overlap area |
---|
| 2138 | ipreci = jpreci + jpr2di |
---|
| 2139 | iprecj = jprecj + jpr2dj |
---|
| 2140 | |
---|
| 2141 | |
---|
| 2142 | ! 1. standard boundary treatment |
---|
| 2143 | ! ------------------------------ |
---|
| 2144 | |
---|
| 2145 | ! ! East-West boundaries |
---|
| 2146 | ! ! ==================== |
---|
| 2147 | IF( nbondi == 2 .AND. & ! Cyclic east-west |
---|
| 2148 | & (nperio == 1 .OR. nperio == 4 .OR. nperio == 6) ) THEN |
---|
| 2149 | pt2d(1-jpr2di: 1 ,:) = pt2d(jpim1-jpr2di: jpim1 ,:) |
---|
| 2150 | pt2d( jpi :jpi+jpr2di,:) = pt2d( 2 :2+jpr2di,:) |
---|
| 2151 | |
---|
| 2152 | ELSE ! ... closed |
---|
| 2153 | SELECT CASE ( cd_type ) |
---|
| 2154 | CASE ( 'T', 'U', 'V', 'W' , 'I' ) |
---|
| 2155 | pt2d( 1-jpr2di :jpreci ,:) = 0.e0 |
---|
| 2156 | pt2d(nlci-jpreci+1:jpi+jpr2di,:) = 0.e0 |
---|
| 2157 | CASE ( 'F' ) |
---|
| 2158 | pt2d(nlci-jpreci+1:jpi+jpr2di,:) = 0.e0 |
---|
| 2159 | END SELECT |
---|
| 2160 | ENDIF |
---|
| 2161 | |
---|
| 2162 | ! ! North-South boundaries |
---|
| 2163 | ! ! ====================== |
---|
| 2164 | SELECT CASE ( cd_type ) |
---|
| 2165 | CASE ( 'T', 'U', 'V', 'W' , 'I' ) |
---|
| 2166 | pt2d(:, 1-jpr2dj : jprecj ) = 0.e0 |
---|
| 2167 | pt2d(:,nlcj-jprecj+1:jpj+jpr2dj) = 0.e0 |
---|
| 2168 | CASE ( 'F' ) |
---|
| 2169 | pt2d(:,nlcj-jprecj+1:jpj+jpr2dj) = 0.e0 |
---|
| 2170 | END SELECT |
---|
| 2171 | |
---|
| 2172 | |
---|
| 2173 | ! 2. East and west directions |
---|
| 2174 | ! --------------------------- |
---|
| 2175 | |
---|
| 2176 | ! 2.1 Read Dirichlet lateral conditions |
---|
| 2177 | |
---|
| 2178 | SELECT CASE ( nbondi ) |
---|
| 2179 | CASE ( -1, 0, 1 ) ! all except 2 |
---|
| 2180 | iihom = nlci-nreci-jpr2di |
---|
| 2181 | DO jl = 1, ipreci |
---|
| 2182 | tr2ew(:,jl,1) = pt2d(jpreci+jl,:) |
---|
| 2183 | tr2we(:,jl,1) = pt2d(iihom +jl,:) |
---|
| 2184 | END DO |
---|
| 2185 | END SELECT |
---|
| 2186 | |
---|
| 2187 | ! 2.2 Migrations |
---|
| 2188 | |
---|
| 2189 | #if defined key_mpp_shmem |
---|
| 2190 | !! * SHMEM version |
---|
| 2191 | |
---|
| 2192 | imigr = ipreci * ( jpj + 2*jpr2dj) |
---|
| 2193 | |
---|
| 2194 | SELECT CASE ( nbondi ) |
---|
| 2195 | CASE ( -1 ) |
---|
| 2196 | CALL shmem_put( tr2we(1-jpr2dj,1,2), tr2we(1,1,1), imigr, noea ) |
---|
| 2197 | CASE ( 0 ) |
---|
| 2198 | CALL shmem_put( tr2ew(1-jpr2dj,1,2), tr2ew(1,1,1), imigr, nowe ) |
---|
| 2199 | CALL shmem_put( tr2we(1-jpr2dj,1,2), tr2we(1,1,1), imigr, noea ) |
---|
| 2200 | CASE ( 1 ) |
---|
| 2201 | CALL shmem_put( tr2ew(1-jpr2dj,1,2), tr2ew(1,1,1), imigr, nowe ) |
---|
| 2202 | END SELECT |
---|
| 2203 | |
---|
| 2204 | CALL barrier() |
---|
| 2205 | CALL shmem_udcflush() |
---|
| 2206 | |
---|
| 2207 | #elif defined key_mpp_mpi |
---|
| 2208 | !! * MPI version |
---|
| 2209 | |
---|
| 2210 | imigr = ipreci * ( jpj + 2*jpr2dj) |
---|
| 2211 | |
---|
| 2212 | SELECT CASE ( nbondi ) |
---|
| 2213 | CASE ( -1 ) |
---|
| 2214 | CALL mppsend( 2, tr2we(1-jpr2dj,1,1), imigr, noea, ml_req1 ) |
---|
| 2215 | CALL mpprecv( 1, tr2ew(1-jpr2dj,1,2), imigr ) |
---|
| 2216 | IF(l_isend) CALL mpi_wait(ml_req1,ml_stat,ml_err) |
---|
| 2217 | CASE ( 0 ) |
---|
| 2218 | CALL mppsend( 1, tr2ew(1-jpr2dj,1,1), imigr, nowe, ml_req1 ) |
---|
| 2219 | CALL mppsend( 2, tr2we(1-jpr2dj,1,1), imigr, noea, ml_req2 ) |
---|
| 2220 | CALL mpprecv( 1, tr2ew(1-jpr2dj,1,2), imigr ) |
---|
| 2221 | CALL mpprecv( 2, tr2we(1-jpr2dj,1,2), imigr ) |
---|
| 2222 | IF(l_isend) CALL mpi_wait(ml_req1,ml_stat,ml_err) |
---|
| 2223 | IF(l_isend) CALL mpi_wait(ml_req2,ml_stat,ml_err) |
---|
| 2224 | CASE ( 1 ) |
---|
| 2225 | CALL mppsend( 1, tr2ew(1-jpr2dj,1,1), imigr, nowe, ml_req1 ) |
---|
| 2226 | CALL mpprecv( 2, tr2we(1-jpr2dj,1,2), imigr ) |
---|
| 2227 | IF(l_isend) CALL mpi_wait(ml_req1,ml_stat,ml_err) |
---|
| 2228 | END SELECT |
---|
| 2229 | |
---|
| 2230 | #endif |
---|
| 2231 | |
---|
| 2232 | ! 2.3 Write Dirichlet lateral conditions |
---|
| 2233 | |
---|
| 2234 | iihom = nlci - jpreci |
---|
| 2235 | |
---|
| 2236 | SELECT CASE ( nbondi ) |
---|
| 2237 | CASE ( -1 ) |
---|
| 2238 | DO jl = 1, ipreci |
---|
| 2239 | pt2d(iihom+jl,:) = tr2ew(:,jl,2) |
---|
| 2240 | END DO |
---|
| 2241 | CASE ( 0 ) |
---|
| 2242 | DO jl = 1, ipreci |
---|
| 2243 | pt2d(jl-jpr2di,:) = tr2we(:,jl,2) |
---|
| 2244 | pt2d( iihom+jl,:) = tr2ew(:,jl,2) |
---|
| 2245 | END DO |
---|
| 2246 | CASE ( 1 ) |
---|
| 2247 | DO jl = 1, ipreci |
---|
| 2248 | pt2d(jl-jpr2di,:) = tr2we(:,jl,2) |
---|
| 2249 | END DO |
---|
| 2250 | END SELECT |
---|
| 2251 | |
---|
| 2252 | |
---|
| 2253 | ! 3. North and south directions |
---|
| 2254 | ! ----------------------------- |
---|
| 2255 | |
---|
| 2256 | ! 3.1 Read Dirichlet lateral conditions |
---|
| 2257 | |
---|
| 2258 | IF( nbondj /= 2 ) THEN |
---|
| 2259 | ijhom = nlcj-nrecj-jpr2dj |
---|
| 2260 | DO jl = 1, iprecj |
---|
| 2261 | tr2sn(:,jl,1) = pt2d(:,ijhom +jl) |
---|
| 2262 | tr2ns(:,jl,1) = pt2d(:,jprecj+jl) |
---|
| 2263 | END DO |
---|
| 2264 | ENDIF |
---|
| 2265 | |
---|
| 2266 | ! 3.2 Migrations |
---|
| 2267 | |
---|
| 2268 | #if defined key_mpp_shmem |
---|
| 2269 | !! * SHMEM version |
---|
| 2270 | |
---|
| 2271 | imigr = iprecj * ( jpi + 2*jpr2di ) |
---|
| 2272 | |
---|
| 2273 | SELECT CASE ( nbondj ) |
---|
| 2274 | CASE ( -1 ) |
---|
| 2275 | CALL shmem_put( tr2sn(1-jpr2di,1,2), tr2sn(1,1,1), imigr, nono ) |
---|
| 2276 | CASE ( 0 ) |
---|
| 2277 | CALL shmem_put( tr2ns(1-jpr2di,1,2), tr2ns(1,1,1), imigr, noso ) |
---|
| 2278 | CALL shmem_put( tr2sn(1-jpr2di,1,2), tr2sn(1,1,1), imigr, nono ) |
---|
| 2279 | CASE ( 1 ) |
---|
| 2280 | CALL shmem_put( tr2ns(1-jpr2di,1,2), tr2ns(1,1,1), imigr, noso ) |
---|
| 2281 | END SELECT |
---|
| 2282 | CALL barrier() |
---|
| 2283 | CALL shmem_udcflush() |
---|
| 2284 | |
---|
| 2285 | #elif defined key_mpp_mpi |
---|
| 2286 | !! * MPI version |
---|
| 2287 | |
---|
| 2288 | imigr = iprecj * ( jpi + 2*jpr2di ) |
---|
| 2289 | |
---|
| 2290 | SELECT CASE ( nbondj ) |
---|
| 2291 | CASE ( -1 ) |
---|
| 2292 | CALL mppsend( 4, tr2sn(1-jpr2di,1,1), imigr, nono, ml_req1 ) |
---|
| 2293 | CALL mpprecv( 3, tr2ns(1-jpr2di,1,2), imigr ) |
---|
| 2294 | IF(l_isend) CALL mpi_wait(ml_req1,ml_stat,ml_err) |
---|
| 2295 | CASE ( 0 ) |
---|
| 2296 | CALL mppsend( 3, tr2ns(1-jpr2di,1,1), imigr, noso, ml_req1 ) |
---|
| 2297 | CALL mppsend( 4, tr2sn(1-jpr2di,1,1), imigr, nono, ml_req2 ) |
---|
| 2298 | CALL mpprecv( 3, tr2ns(1-jpr2di,1,2), imigr ) |
---|
| 2299 | CALL mpprecv( 4, tr2sn(1-jpr2di,1,2), imigr ) |
---|
| 2300 | IF(l_isend) CALL mpi_wait(ml_req1,ml_stat,ml_err) |
---|
| 2301 | IF(l_isend) CALL mpi_wait(ml_req2,ml_stat,ml_err) |
---|
| 2302 | CASE ( 1 ) |
---|
| 2303 | CALL mppsend( 3, tr2ns(1-jpr2di,1,1), imigr, noso, ml_req1 ) |
---|
| 2304 | CALL mpprecv( 4, tr2sn(1-jpr2di,1,2), imigr ) |
---|
| 2305 | IF(l_isend) CALL mpi_wait(ml_req1,ml_stat,ml_err) |
---|
| 2306 | END SELECT |
---|
| 2307 | |
---|
| 2308 | #endif |
---|
| 2309 | |
---|
| 2310 | ! 3.3 Write Dirichlet lateral conditions |
---|
| 2311 | |
---|
| 2312 | ijhom = nlcj - jprecj |
---|
| 2313 | |
---|
| 2314 | SELECT CASE ( nbondj ) |
---|
| 2315 | CASE ( -1 ) |
---|
| 2316 | DO jl = 1, iprecj |
---|
| 2317 | pt2d(:,ijhom+jl) = tr2ns(:,jl,2) |
---|
| 2318 | END DO |
---|
| 2319 | CASE ( 0 ) |
---|
| 2320 | DO jl = 1, iprecj |
---|
| 2321 | pt2d(:,jl-jpr2dj) = tr2sn(:,jl,2) |
---|
| 2322 | pt2d(:,ijhom+jl ) = tr2ns(:,jl,2) |
---|
| 2323 | END DO |
---|
| 2324 | CASE ( 1 ) |
---|
| 2325 | DO jl = 1, iprecj |
---|
| 2326 | pt2d(:,jl-jpr2dj) = tr2sn(:,jl,2) |
---|
| 2327 | END DO |
---|
| 2328 | END SELECT |
---|
| 2329 | |
---|
| 2330 | |
---|
| 2331 | ! 4. north fold treatment |
---|
| 2332 | ! ----------------------- |
---|
| 2333 | |
---|
| 2334 | ! 4.1 treatment without exchange (jpni odd) |
---|
| 2335 | |
---|
| 2336 | SELECT CASE ( jpni ) |
---|
| 2337 | |
---|
| 2338 | CASE ( 1 ) ! only one proc along I, no mpp exchange |
---|
| 2339 | |
---|
| 2340 | SELECT CASE ( npolj ) |
---|
| 2341 | |
---|
| 2342 | CASE ( 3 , 4 ) ! T pivot |
---|
| 2343 | iloc = jpiglo - 2 * ( nimpp - 1 ) |
---|
| 2344 | |
---|
| 2345 | SELECT CASE ( cd_type ) |
---|
| 2346 | |
---|
| 2347 | CASE ( 'T', 'S', 'W' ) |
---|
| 2348 | DO jl = 0, iprecj-1 |
---|
| 2349 | DO ji = 2-jpr2di, nlci+jpr2di |
---|
| 2350 | ijt=iloc-ji+2 |
---|
| 2351 | pt2d(ji,nlcj+jl) = psgn * pt2d(ijt,nlcj-2-jl) |
---|
| 2352 | END DO |
---|
| 2353 | END DO |
---|
| 2354 | DO ji = nlci/2+1, nlci+jpr2di |
---|
| 2355 | ijt=iloc-ji+2 |
---|
| 2356 | pt2d(ji,nlcj-1) = psgn * pt2d(ijt,nlcj-1) |
---|
| 2357 | END DO |
---|
| 2358 | |
---|
| 2359 | CASE ( 'U' ) |
---|
| 2360 | DO jl =0, iprecj-1 |
---|
| 2361 | DO ji = 1-jpr2di, nlci-1-jpr2di |
---|
| 2362 | iju=iloc-ji+1 |
---|
| 2363 | pt2d(ji,nlcj+jl) = psgn * pt2d(iju,nlcj-2-jl) |
---|
| 2364 | END DO |
---|
| 2365 | END DO |
---|
| 2366 | DO ji = nlci/2, nlci-1+jpr2di |
---|
| 2367 | iju=iloc-ji+1 |
---|
| 2368 | pt2d(ji,nlcj-1) = psgn * pt2d(iju,nlcj-1) |
---|
| 2369 | END DO |
---|
| 2370 | |
---|
| 2371 | CASE ( 'V' ) |
---|
| 2372 | DO jl = -1, iprecj-1 |
---|
| 2373 | DO ji = 2-jpr2di, nlci+jpr2di |
---|
| 2374 | ijt=iloc-ji+2 |
---|
| 2375 | pt2d(ji,nlcj+jl) = psgn * pt2d(ijt,nlcj-3-jl) |
---|
| 2376 | END DO |
---|
| 2377 | END DO |
---|
| 2378 | |
---|
| 2379 | CASE ( 'F', 'G' ) |
---|
| 2380 | DO jl = -1, iprecj-1 |
---|
| 2381 | DO ji = 1-jpr2di, nlci-1+jpr2di |
---|
| 2382 | iju=iloc-ji+1 |
---|
| 2383 | pt2d(ji,nlcj+jl) = psgn * pt2d(iju,nlcj-3-jl) |
---|
| 2384 | END DO |
---|
| 2385 | END DO |
---|
| 2386 | |
---|
| 2387 | CASE ( 'I' ) ! ice U-V point |
---|
| 2388 | DO jl = 0, iprecj-1 |
---|
| 2389 | pt2d(2,nlcj+jl) = psgn * pt2d(3,nlcj-1-jl) |
---|
| 2390 | DO ji = 3, nlci+jpr2di |
---|
| 2391 | iju = iloc - ji + 3 |
---|
| 2392 | pt2d(ji,nlcj+jl) = psgn * pt2d(iju,nlcj-1-jl) |
---|
| 2393 | END DO |
---|
| 2394 | END DO |
---|
| 2395 | |
---|
| 2396 | END SELECT |
---|
| 2397 | |
---|
| 2398 | CASE ( 5 , 6 ) ! F pivot |
---|
| 2399 | iloc=jpiglo-2*(nimpp-1) |
---|
| 2400 | |
---|
| 2401 | SELECT CASE (cd_type ) |
---|
| 2402 | |
---|
| 2403 | CASE ( 'T', 'S', 'W' ) |
---|
| 2404 | DO jl = 0, iprecj-1 |
---|
| 2405 | DO ji = 1-jpr2di, nlci+jpr2di |
---|
| 2406 | ijt=iloc-ji+1 |
---|
| 2407 | pt2d(ji,nlcj+jl) = psgn * pt2d(ijt,nlcj-1-jl) |
---|
| 2408 | END DO |
---|
| 2409 | END DO |
---|
| 2410 | |
---|
| 2411 | CASE ( 'U' ) |
---|
| 2412 | DO jl = 0, iprecj-1 |
---|
| 2413 | DO ji = 1-jpr2di, nlci-1+jpr2di |
---|
| 2414 | iju=iloc-ji |
---|
| 2415 | pt2d(ji,nlcj+jl) = psgn * pt2d(iju,nlcj-1-jl) |
---|
| 2416 | END DO |
---|
| 2417 | END DO |
---|
| 2418 | |
---|
| 2419 | CASE ( 'V' ) |
---|
| 2420 | DO jl = 0, iprecj-1 |
---|
| 2421 | DO ji = 1-jpr2di, nlci+jpr2di |
---|
| 2422 | ijt=iloc-ji+1 |
---|
| 2423 | pt2d(ji,nlcj+jl) = psgn * pt2d(ijt,nlcj-2-jl) |
---|
| 2424 | END DO |
---|
| 2425 | END DO |
---|
| 2426 | DO ji = nlci/2+1, nlci+jpr2di |
---|
| 2427 | ijt=iloc-ji+1 |
---|
| 2428 | pt2d(ji,nlcj-1) = psgn * pt2d(ijt,nlcj-1) |
---|
| 2429 | END DO |
---|
| 2430 | |
---|
| 2431 | CASE ( 'F', 'G' ) |
---|
| 2432 | DO jl = 0, iprecj-1 |
---|
| 2433 | DO ji = 1-jpr2di, nlci-1+jpr2di |
---|
| 2434 | iju=iloc-ji |
---|
| 2435 | pt2d(ji,nlcj+jl) = psgn * pt2d(iju,nlcj-2-jl) |
---|
| 2436 | END DO |
---|
| 2437 | END DO |
---|
| 2438 | DO ji = nlci/2+1, nlci-1+jpr2di |
---|
| 2439 | iju=iloc-ji |
---|
| 2440 | pt2d(ji,nlcj-1) = psgn * pt2d(iju,nlcj-1) |
---|
| 2441 | END DO |
---|
| 2442 | |
---|
| 2443 | CASE ( 'I' ) ! ice U-V point |
---|
| 2444 | pt2d( 2 ,nlcj) = 0.e0 |
---|
| 2445 | DO jl = 0, iprecj-1 |
---|
| 2446 | DO ji = 2 , nlci-1+jpr2di |
---|
| 2447 | ijt = iloc - ji + 2 |
---|
| 2448 | pt2d(ji,nlcj+jl)= 0.5 * ( pt2d(ji,nlcj-1-jl) + psgn * pt2d(ijt,nlcj-1-jl) ) |
---|
| 2449 | END DO |
---|
| 2450 | END DO |
---|
| 2451 | |
---|
| 2452 | END SELECT ! cd_type |
---|
| 2453 | |
---|
| 2454 | END SELECT ! npolj |
---|
| 2455 | |
---|
| 2456 | CASE DEFAULT ! more than 1 proc along I |
---|
| 2457 | IF( npolj /= 0 ) CALL mpp_lbc_north_e( pt2d, cd_type, psgn ) ! only for northern procs |
---|
| 2458 | |
---|
| 2459 | END SELECT ! jpni |
---|
| 2460 | |
---|
| 2461 | |
---|
| 2462 | ! 5. East and west directions |
---|
| 2463 | ! --------------------------- |
---|
| 2464 | |
---|
| 2465 | SELECT CASE ( npolj ) |
---|
| 2466 | |
---|
| 2467 | CASE ( 3, 4, 5, 6 ) |
---|
| 2468 | |
---|
| 2469 | ! 5.1 Read Dirichlet lateral conditions |
---|
| 2470 | |
---|
| 2471 | SELECT CASE ( nbondi ) |
---|
| 2472 | CASE ( -1, 0, 1 ) |
---|
| 2473 | iihom = nlci-nreci-jpr2di |
---|
| 2474 | DO jl = 1, ipreci |
---|
| 2475 | tr2ew(:,jl,1) = pt2d(jpreci+jl,:) |
---|
| 2476 | tr2we(:,jl,1) = pt2d(iihom +jl,:) |
---|
| 2477 | END DO |
---|
| 2478 | END SELECT |
---|
| 2479 | |
---|
| 2480 | ! 5.2 Migrations |
---|
| 2481 | |
---|
| 2482 | #if defined key_mpp_shmem |
---|
| 2483 | !! * SHMEM version |
---|
| 2484 | |
---|
| 2485 | imigr = ipreci * ( jpj + 2*jpr2dj ) |
---|
| 2486 | |
---|
| 2487 | SELECT CASE ( nbondi ) |
---|
| 2488 | CASE ( -1 ) |
---|
| 2489 | CALL shmem_put( tr2we(1-jpr2dj,1,2), tr2we(1,1,1), imigr, noea ) |
---|
| 2490 | CASE ( 0 ) |
---|
| 2491 | CALL shmem_put( tr2ew(1-jpr2dj,1,2), tr2ew(1,1,1), imigr, nowe ) |
---|
| 2492 | CALL shmem_put( tr2we(1-jpr2dj,1,2), tr2we(1,1,1), imigr, noea ) |
---|
| 2493 | CASE ( 1 ) |
---|
| 2494 | CALL shmem_put( tr2ew(1-jpr2dj,1,2), tr2ew(1,1,1), imigr, nowe ) |
---|
| 2495 | END SELECT |
---|
| 2496 | |
---|
| 2497 | CALL barrier() |
---|
| 2498 | CALL shmem_udcflush() |
---|
| 2499 | |
---|
| 2500 | #elif defined key_mpp_mpi |
---|
| 2501 | !! * MPI version |
---|
| 2502 | |
---|
| 2503 | imigr=ipreci* ( jpj + 2*jpr2dj ) |
---|
| 2504 | |
---|
| 2505 | SELECT CASE ( nbondi ) |
---|
| 2506 | CASE ( -1 ) |
---|
| 2507 | CALL mppsend( 2, tr2we(1-jpr2dj,1,1), imigr, noea, ml_req1 ) |
---|
| 2508 | CALL mpprecv( 1, tr2ew(1-jpr2dj,1,2), imigr ) |
---|
| 2509 | IF(l_isend) CALL mpi_wait(ml_req1,ml_stat,ml_err) |
---|
| 2510 | CASE ( 0 ) |
---|
| 2511 | CALL mppsend( 1, tr2ew(1-jpr2dj,1,1), imigr, nowe, ml_req1 ) |
---|
| 2512 | CALL mppsend( 2, tr2we(1-jpr2dj,1,1), imigr, noea, ml_req2 ) |
---|
| 2513 | CALL mpprecv( 1, tr2ew(1-jpr2dj,1,2), imigr ) |
---|
| 2514 | CALL mpprecv( 2, tr2we(1-jpr2dj,1,2), imigr ) |
---|
| 2515 | IF(l_isend) CALL mpi_wait(ml_req1,ml_stat,ml_err) |
---|
| 2516 | IF(l_isend) CALL mpi_wait(ml_req2,ml_stat,ml_err) |
---|
| 2517 | CASE ( 1 ) |
---|
| 2518 | CALL mppsend( 1, tr2ew(1-jpr2dj,1,1), imigr, nowe, ml_req1 ) |
---|
| 2519 | CALL mpprecv( 2, tr2we(1-jpr2dj,1,2), imigr ) |
---|
| 2520 | IF(l_isend) CALL mpi_wait(ml_req1,ml_stat,ml_err) |
---|
| 2521 | END SELECT |
---|
| 2522 | #endif |
---|
| 2523 | |
---|
| 2524 | ! 5.3 Write Dirichlet lateral conditions |
---|
| 2525 | |
---|
| 2526 | iihom = nlci - jpreci |
---|
| 2527 | |
---|
| 2528 | SELECT CASE ( nbondi ) |
---|
| 2529 | CASE ( -1 ) |
---|
| 2530 | DO jl = 1, ipreci |
---|
| 2531 | pt2d(iihom+jl,:) = tr2ew(:,jl,2) |
---|
| 2532 | END DO |
---|
| 2533 | CASE ( 0 ) |
---|
| 2534 | DO jl = 1, ipreci |
---|
| 2535 | pt2d(jl- jpr2di,:) = tr2we(:,jl,2) |
---|
| 2536 | pt2d(iihom+jl,:) = tr2ew(:,jl,2) |
---|
| 2537 | END DO |
---|
| 2538 | CASE ( 1 ) |
---|
| 2539 | DO jl = 1, ipreci |
---|
| 2540 | pt2d(jl-jpr2di,:) = tr2we(:,jl,2) |
---|
| 2541 | END DO |
---|
| 2542 | END SELECT |
---|
| 2543 | |
---|
| 2544 | END SELECT ! npolj |
---|
| 2545 | |
---|
| 2546 | END SUBROUTINE mpp_lnk_2d_e |
---|
| 2547 | |
---|
| 2548 | |
---|
[51] | 2549 | SUBROUTINE mpplnks( ptab ) |
---|
| 2550 | !!---------------------------------------------------------------------- |
---|
| 2551 | !! *** routine mpplnks *** |
---|
| 2552 | !! |
---|
| 2553 | !! ** Purpose : Message passing manadgement for add 2d array local boundary |
---|
| 2554 | !! |
---|
| 2555 | !! ** Method : Use mppsend and mpprecv function for passing mask between |
---|
| 2556 | !! processors following neighboring subdomains. |
---|
| 2557 | !! domain parameters |
---|
| 2558 | !! nlci : first dimension of the local subdomain |
---|
| 2559 | !! nlcj : second dimension of the local subdomain |
---|
| 2560 | !! nbondi : mark for "east-west local boundary" |
---|
| 2561 | !! nbondj : mark for "north-south local boundary" |
---|
| 2562 | !! noea : number for local neighboring processors |
---|
| 2563 | !! nowe : number for local neighboring processors |
---|
| 2564 | !! noso : number for local neighboring processors |
---|
| 2565 | !! nono : number for local neighboring processors |
---|
| 2566 | !! |
---|
| 2567 | !!---------------------------------------------------------------------- |
---|
| 2568 | !! * Arguments |
---|
| 2569 | REAL(wp), DIMENSION(jpi,jpj), INTENT(inout) :: & |
---|
[3] | 2570 | ptab ! 2D array |
---|
[51] | 2571 | |
---|
| 2572 | !! * Local variables |
---|
| 2573 | INTEGER :: ji, jl ! dummy loop indices |
---|
| 2574 | INTEGER :: & |
---|
[3] | 2575 | imigr, iihom, ijhom ! temporary integers |
---|
[181] | 2576 | INTEGER :: ml_req1, ml_req2, ml_err ! for key_mpi_isend |
---|
| 2577 | INTEGER :: ml_stat(MPI_STATUS_SIZE) ! for key_mpi_isend |
---|
[51] | 2578 | !!---------------------------------------------------------------------- |
---|
[3] | 2579 | |
---|
| 2580 | |
---|
[51] | 2581 | ! 1. north fold treatment |
---|
| 2582 | ! ----------------------- |
---|
[3] | 2583 | |
---|
[51] | 2584 | ! 1.1 treatment without exchange (jpni odd) |
---|
| 2585 | |
---|
| 2586 | SELECT CASE ( npolj ) |
---|
| 2587 | CASE ( 4 ) |
---|
| 2588 | DO ji = 1, nlci |
---|
[233] | 2589 | ptab(ji,nlcj-2) = ptab(ji,nlcj-2) + t2p1(ji,1,1) |
---|
[51] | 2590 | END DO |
---|
| 2591 | CASE ( 6 ) |
---|
| 2592 | DO ji = 1, nlci |
---|
[233] | 2593 | ptab(ji,nlcj-1) = ptab(ji,nlcj-1) + t2p1(ji,1,1) |
---|
[51] | 2594 | END DO |
---|
[3] | 2595 | |
---|
[51] | 2596 | ! 1.2 treatment with exchange (jpni greater than 1) |
---|
| 2597 | ! |
---|
| 2598 | CASE ( 3 ) |
---|
[3] | 2599 | #if defined key_mpp_shmem |
---|
[51] | 2600 | |
---|
| 2601 | !! * SHMEN version |
---|
| 2602 | |
---|
| 2603 | imigr=jprecj*jpi |
---|
| 2604 | |
---|
| 2605 | CALL shmem_put(t2p1(1,1,2),t2p1(1,1,1),imigr,nono) |
---|
| 2606 | CALL barrier() |
---|
| 2607 | CALL shmem_udcflush() |
---|
[3] | 2608 | |
---|
| 2609 | # elif defined key_mpp_mpi |
---|
[51] | 2610 | !! * MPI version |
---|
[3] | 2611 | |
---|
| 2612 | imigr=jprecj*jpi |
---|
| 2613 | |
---|
[181] | 2614 | CALL mppsend(3,t2p1(1,1,1),imigr,nono, ml_req1) |
---|
[3] | 2615 | CALL mpprecv(3,t2p1(1,1,2),imigr) |
---|
[300] | 2616 | IF(l_isend) CALL mpi_wait(ml_req1,ml_stat,ml_err) |
---|
[3] | 2617 | |
---|
| 2618 | #endif |
---|
| 2619 | |
---|
| 2620 | ! Write north fold conditions |
---|
| 2621 | |
---|
| 2622 | DO ji = 1, nlci |
---|
| 2623 | ptab(ji,nlcj-2) = ptab(ji,nlcj-2)+t2p1(ji,1,2) |
---|
| 2624 | END DO |
---|
| 2625 | |
---|
| 2626 | CASE ( 5 ) |
---|
| 2627 | |
---|
| 2628 | #if defined key_mpp_shmem |
---|
| 2629 | |
---|
| 2630 | !! * SHMEN version |
---|
| 2631 | |
---|
| 2632 | imigr=jprecj*jpi |
---|
| 2633 | |
---|
| 2634 | CALL shmem_put(t2p1(1,1,2),t2p1(1,1,1),imigr,nono) |
---|
| 2635 | CALL barrier() |
---|
| 2636 | CALL shmem_udcflush() |
---|
| 2637 | |
---|
| 2638 | # elif defined key_mpp_mpi |
---|
| 2639 | !! * Local variables (MPI version) |
---|
| 2640 | |
---|
| 2641 | imigr=jprecj*jpi |
---|
| 2642 | |
---|
[181] | 2643 | CALL mppsend(3,t2p1(1,1,1),imigr,nono, ml_req1) |
---|
[3] | 2644 | CALL mpprecv(3,t2p1(1,1,2),imigr) |
---|
[300] | 2645 | IF(l_isend) CALL mpi_wait(ml_req1,ml_stat,ml_err) |
---|
[3] | 2646 | |
---|
| 2647 | #endif |
---|
| 2648 | |
---|
| 2649 | ! Write north fold conditions |
---|
| 2650 | |
---|
| 2651 | DO ji = 1, nlci |
---|
| 2652 | ptab(ji,nlcj-1) = ptab(ji,nlcj-1)+t2p1(ji,1,2) |
---|
| 2653 | END DO |
---|
| 2654 | |
---|
| 2655 | END SELECT |
---|
| 2656 | |
---|
| 2657 | |
---|
| 2658 | ! 2. East and west directions |
---|
| 2659 | ! --------------------------- |
---|
| 2660 | |
---|
| 2661 | ! 2.1 Read Dirichlet lateral conditions |
---|
| 2662 | |
---|
| 2663 | iihom = nlci-jpreci |
---|
| 2664 | |
---|
| 2665 | SELECT CASE ( nbondi ) |
---|
| 2666 | |
---|
| 2667 | CASE ( -1, 0, 1 ) ! all except 2 |
---|
| 2668 | DO jl = 1, jpreci |
---|
| 2669 | t2ew(:,jl,1) = ptab( jl ,:) |
---|
| 2670 | t2we(:,jl,1) = ptab(iihom+jl,:) |
---|
| 2671 | END DO |
---|
| 2672 | END SELECT |
---|
| 2673 | |
---|
| 2674 | ! 2.2 Migrations |
---|
| 2675 | |
---|
| 2676 | #if defined key_mpp_shmem |
---|
| 2677 | |
---|
| 2678 | !! * SHMEN version |
---|
| 2679 | |
---|
| 2680 | imigr=jpreci*jpj |
---|
| 2681 | |
---|
| 2682 | SELECT CASE ( nbondi ) |
---|
| 2683 | |
---|
| 2684 | CASE ( -1 ) |
---|
| 2685 | CALL shmem_put(t2we(1,1,2),t2we(1,1,1),imigr,noea) |
---|
| 2686 | |
---|
| 2687 | CASE ( 0 ) |
---|
| 2688 | CALL shmem_put(t2ew(1,1,2),t2ew(1,1,1),imigr,nowe) |
---|
| 2689 | CALL shmem_put(t2we(1,1,2),t2we(1,1,1),imigr,noea) |
---|
| 2690 | |
---|
| 2691 | CASE ( 1 ) |
---|
| 2692 | CALL shmem_put(t2ew(1,1,2),t2ew(1,1,1),imigr,nowe) |
---|
| 2693 | |
---|
| 2694 | END SELECT |
---|
| 2695 | CALL barrier() |
---|
| 2696 | CALL shmem_udcflush() |
---|
| 2697 | |
---|
| 2698 | # elif defined key_mpp_mpi |
---|
| 2699 | !! * Local variables (MPI version) |
---|
| 2700 | |
---|
| 2701 | imigr=jpreci*jpj |
---|
| 2702 | |
---|
| 2703 | SELECT CASE ( nbondi ) |
---|
| 2704 | |
---|
| 2705 | CASE ( -1 ) |
---|
[181] | 2706 | CALL mppsend(2,t2we(1,1,1),imigr,noea, ml_req1) |
---|
[3] | 2707 | CALL mpprecv(1,t2ew(1,1,2),imigr) |
---|
[300] | 2708 | IF(l_isend) CALL mpi_wait(ml_req1,ml_stat,ml_err) |
---|
[3] | 2709 | CASE ( 0 ) |
---|
[181] | 2710 | CALL mppsend(1,t2ew(1,1,1),imigr,nowe, ml_req1) |
---|
| 2711 | CALL mppsend(2,t2we(1,1,1),imigr,noea, ml_req2) |
---|
[3] | 2712 | CALL mpprecv(1,t2ew(1,1,2),imigr) |
---|
| 2713 | CALL mpprecv(2,t2we(1,1,2),imigr) |
---|
[300] | 2714 | IF(l_isend) CALL mpi_wait(ml_req1,ml_stat,ml_err) |
---|
| 2715 | IF(l_isend) CALL mpi_wait(ml_req2,ml_stat,ml_err) |
---|
[3] | 2716 | |
---|
| 2717 | CASE ( 1 ) |
---|
[181] | 2718 | CALL mppsend(1,t2ew(1,1,1),imigr,nowe, ml_req1) |
---|
[3] | 2719 | CALL mpprecv(2,t2we(1,1,2),imigr) |
---|
[300] | 2720 | IF(l_isend) CALL mpi_wait(ml_req1,ml_stat,ml_err) |
---|
[3] | 2721 | |
---|
| 2722 | END SELECT |
---|
| 2723 | |
---|
| 2724 | #endif |
---|
| 2725 | |
---|
| 2726 | ! 2.3 Write Dirichlet lateral conditions |
---|
| 2727 | |
---|
| 2728 | iihom = nlci-nreci |
---|
| 2729 | |
---|
| 2730 | SELECT CASE ( nbondi ) |
---|
| 2731 | |
---|
| 2732 | CASE ( -1 ) |
---|
| 2733 | DO jl = 1, jpreci |
---|
| 2734 | ptab(iihom +jl,:) = ptab(iihom +jl,:)+t2ew(:,jl,2) |
---|
| 2735 | END DO |
---|
| 2736 | |
---|
| 2737 | CASE ( 0 ) |
---|
| 2738 | DO jl = 1, jpreci |
---|
| 2739 | ptab(jpreci+jl,:) = ptab(jpreci+jl,:)+t2we(:,jl,2) |
---|
| 2740 | ptab(iihom +jl,:) = ptab(iihom +jl,:)+t2ew(:,jl,2) |
---|
| 2741 | END DO |
---|
| 2742 | |
---|
| 2743 | CASE ( 1 ) |
---|
| 2744 | DO jl = 1, jpreci |
---|
| 2745 | ptab(jpreci+jl,:) = ptab(jpreci+jl,:)+t2we(:,jl,2) |
---|
| 2746 | END DO |
---|
| 2747 | END SELECT |
---|
| 2748 | |
---|
| 2749 | |
---|
| 2750 | ! 3. North and south directions |
---|
| 2751 | ! ----------------------------- |
---|
| 2752 | |
---|
| 2753 | ! 3.1 Read Dirichlet lateral conditions |
---|
| 2754 | |
---|
| 2755 | ijhom = nlcj-jprecj |
---|
| 2756 | |
---|
| 2757 | SELECT CASE ( nbondj ) |
---|
| 2758 | |
---|
| 2759 | CASE ( -1, 0, 1 ) |
---|
| 2760 | DO jl = 1, jprecj |
---|
| 2761 | t2sn(:,jl,1) = ptab(:,ijhom+jl) |
---|
| 2762 | t2ns(:,jl,1) = ptab(:, jl ) |
---|
| 2763 | END DO |
---|
| 2764 | |
---|
| 2765 | END SELECT |
---|
| 2766 | |
---|
| 2767 | ! 3.2 Migrations |
---|
| 2768 | |
---|
| 2769 | #if defined key_mpp_shmem |
---|
| 2770 | |
---|
| 2771 | !! * SHMEN version |
---|
| 2772 | |
---|
| 2773 | imigr=jprecj*jpi |
---|
| 2774 | |
---|
| 2775 | SELECT CASE ( nbondj ) |
---|
| 2776 | |
---|
| 2777 | CASE ( -1 ) |
---|
| 2778 | CALL shmem_put(t2sn(1,1,2),t2sn(1,1,1),imigr,nono) |
---|
| 2779 | |
---|
| 2780 | CASE ( 0 ) |
---|
| 2781 | CALL shmem_put(t2ns(1,1,2),t2ns(1,1,1),imigr,noso) |
---|
| 2782 | CALL shmem_put(t2sn(1,1,2),t2sn(1,1,1),imigr,nono) |
---|
| 2783 | |
---|
| 2784 | CASE ( 1 ) |
---|
| 2785 | CALL shmem_put(t2ns(1,1,2),t2ns(1,1,1),imigr,noso) |
---|
| 2786 | |
---|
| 2787 | END SELECT |
---|
| 2788 | CALL barrier() |
---|
| 2789 | CALL shmem_udcflush() |
---|
| 2790 | |
---|
| 2791 | # elif defined key_mpp_mpi |
---|
| 2792 | !! * Local variables (MPI version) |
---|
| 2793 | |
---|
| 2794 | imigr=jprecj*jpi |
---|
| 2795 | |
---|
| 2796 | SELECT CASE ( nbondj ) |
---|
| 2797 | |
---|
| 2798 | CASE ( -1 ) |
---|
[181] | 2799 | CALL mppsend(4,t2sn(1,1,1),imigr,nono, ml_req1) |
---|
[3] | 2800 | CALL mpprecv(3,t2ns(1,1,2),imigr) |
---|
[300] | 2801 | IF(l_isend) CALL mpi_wait(ml_req1,ml_stat,ml_err) |
---|
[3] | 2802 | |
---|
| 2803 | CASE ( 0 ) |
---|
[181] | 2804 | CALL mppsend(3,t2ns(1,1,1),imigr,noso, ml_req1) |
---|
| 2805 | CALL mppsend(4,t2sn(1,1,1),imigr,nono, ml_req2) |
---|
[3] | 2806 | CALL mpprecv(3,t2ns(1,1,2),imigr) |
---|
| 2807 | CALL mpprecv(4,t2sn(1,1,2),imigr) |
---|
[300] | 2808 | IF(l_isend) CALL mpi_wait(ml_req1,ml_stat,ml_err) |
---|
| 2809 | IF(l_isend) CALL mpi_wait(ml_req2,ml_stat,ml_err) |
---|
[3] | 2810 | |
---|
| 2811 | CASE ( 1 ) |
---|
[181] | 2812 | CALL mppsend(3,t2ns(1,1,1),imigr,noso, ml_req1) |
---|
[3] | 2813 | CALL mpprecv(4,t2sn(1,1,2),imigr) |
---|
[300] | 2814 | IF(l_isend) CALL mpi_wait(ml_req1,ml_stat,ml_err) |
---|
[3] | 2815 | END SELECT |
---|
| 2816 | |
---|
| 2817 | #endif |
---|
| 2818 | |
---|
| 2819 | ! 3.3 Write Dirichlet lateral conditions |
---|
| 2820 | |
---|
| 2821 | ijhom = nlcj-nrecj |
---|
| 2822 | |
---|
| 2823 | SELECT CASE ( nbondj ) |
---|
| 2824 | |
---|
| 2825 | CASE ( -1 ) |
---|
| 2826 | DO jl = 1, jprecj |
---|
| 2827 | ptab(:,ijhom +jl) = ptab(:,ijhom +jl)+t2ns(:,jl,2) |
---|
| 2828 | END DO |
---|
| 2829 | |
---|
| 2830 | CASE ( 0 ) |
---|
| 2831 | DO jl = 1, jprecj |
---|
| 2832 | ptab(:,jprecj+jl) = ptab(:,jprecj+jl)+t2sn(:,jl,2) |
---|
| 2833 | ptab(:,ijhom +jl) = ptab(:,ijhom +jl)+t2ns(:,jl,2) |
---|
| 2834 | END DO |
---|
| 2835 | |
---|
| 2836 | CASE ( 1 ) |
---|
| 2837 | DO jl = 1, jprecj |
---|
| 2838 | ptab(:,jprecj+jl) = ptab(:,jprecj+jl)+t2sn(:,jl,2) |
---|
| 2839 | END DO |
---|
| 2840 | |
---|
| 2841 | END SELECT |
---|
| 2842 | |
---|
| 2843 | END SUBROUTINE mpplnks |
---|
| 2844 | |
---|
| 2845 | |
---|
[181] | 2846 | SUBROUTINE mppsend( ktyp, pmess, kbytes, kdest, md_req) |
---|
[51] | 2847 | !!---------------------------------------------------------------------- |
---|
| 2848 | !! *** routine mppsend *** |
---|
| 2849 | !! |
---|
| 2850 | !! ** Purpose : Send messag passing array |
---|
| 2851 | !! |
---|
| 2852 | !!---------------------------------------------------------------------- |
---|
| 2853 | !! * Arguments |
---|
| 2854 | REAL(wp), INTENT(inout) :: pmess(*) ! array of real |
---|
| 2855 | INTEGER , INTENT( in ) :: kbytes, & ! size of the array pmess |
---|
| 2856 | & kdest , & ! receive process number |
---|
[181] | 2857 | & ktyp, & ! Tag of the message |
---|
| 2858 | & md_req ! Argument for isend |
---|
[51] | 2859 | !!---------------------------------------------------------------------- |
---|
[3] | 2860 | #if defined key_mpp_shmem |
---|
[51] | 2861 | !! * SHMEM version : routine not used |
---|
[3] | 2862 | |
---|
[51] | 2863 | #elif defined key_mpp_mpi |
---|
| 2864 | !! * MPI version |
---|
| 2865 | INTEGER :: iflag |
---|
[3] | 2866 | |
---|
[300] | 2867 | SELECT CASE ( c_mpi_send ) |
---|
| 2868 | CASE ( 'S' ) ! Standard mpi send (blocking) |
---|
| 2869 | CALL mpi_send ( pmess, kbytes, mpi_double_precision, kdest, ktyp, & |
---|
[532] | 2870 | & mpi_comm_opa, iflag ) |
---|
[300] | 2871 | CASE ( 'B' ) ! Buffer mpi send (blocking) |
---|
| 2872 | CALL mpi_bsend( pmess, kbytes, mpi_double_precision, kdest, ktyp, & |
---|
[532] | 2873 | & mpi_comm_opa, iflag ) |
---|
[300] | 2874 | CASE ( 'I' ) ! Immediate mpi send (non-blocking send) |
---|
| 2875 | ! Be carefull, one more argument here : the mpi request identifier.. |
---|
| 2876 | CALL mpi_isend( pmess, kbytes, mpi_double_precision, kdest, ktyp, & |
---|
[532] | 2877 | & mpi_comm_opa, md_req, iflag ) |
---|
[300] | 2878 | END SELECT |
---|
[13] | 2879 | #endif |
---|
[3] | 2880 | |
---|
[51] | 2881 | END SUBROUTINE mppsend |
---|
[3] | 2882 | |
---|
| 2883 | |
---|
[51] | 2884 | SUBROUTINE mpprecv( ktyp, pmess, kbytes ) |
---|
| 2885 | !!---------------------------------------------------------------------- |
---|
| 2886 | !! *** routine mpprecv *** |
---|
| 2887 | !! |
---|
| 2888 | !! ** Purpose : Receive messag passing array |
---|
| 2889 | !! |
---|
| 2890 | !!---------------------------------------------------------------------- |
---|
| 2891 | !! * Arguments |
---|
| 2892 | REAL(wp), INTENT(inout) :: pmess(*) ! array of real |
---|
| 2893 | INTEGER , INTENT( in ) :: kbytes, & ! suze of the array pmess |
---|
| 2894 | & ktyp ! Tag of the recevied message |
---|
| 2895 | !!---------------------------------------------------------------------- |
---|
[3] | 2896 | #if defined key_mpp_shmem |
---|
[51] | 2897 | !! * SHMEM version : routine not used |
---|
[3] | 2898 | |
---|
| 2899 | # elif defined key_mpp_mpi |
---|
[51] | 2900 | !! * MPI version |
---|
| 2901 | INTEGER :: istatus(mpi_status_size) |
---|
| 2902 | INTEGER :: iflag |
---|
[3] | 2903 | |
---|
[181] | 2904 | CALL mpi_recv( pmess, kbytes, mpi_double_precision, mpi_any_source, ktyp, & |
---|
[532] | 2905 | & mpi_comm_opa, istatus, iflag ) |
---|
[3] | 2906 | #endif |
---|
| 2907 | |
---|
[51] | 2908 | END SUBROUTINE mpprecv |
---|
[3] | 2909 | |
---|
| 2910 | |
---|
[51] | 2911 | SUBROUTINE mppgather( ptab, kp, pio ) |
---|
| 2912 | !!---------------------------------------------------------------------- |
---|
| 2913 | !! *** routine mppgather *** |
---|
| 2914 | !! |
---|
| 2915 | !! ** Purpose : Transfert between a local subdomain array and a work |
---|
| 2916 | !! array which is distributed following the vertical level. |
---|
| 2917 | !! |
---|
| 2918 | !! ** Method : |
---|
| 2919 | !! |
---|
| 2920 | !!---------------------------------------------------------------------- |
---|
| 2921 | !! * Arguments |
---|
| 2922 | REAL(wp), DIMENSION(jpi,jpj), INTENT( in ) :: ptab ! subdomain input array |
---|
| 2923 | INTEGER , INTENT( in ) :: kp ! record length |
---|
| 2924 | REAL(wp), DIMENSION(jpi,jpj,jpnij), INTENT( out ) :: pio ! subdomain input array |
---|
| 2925 | !!--------------------------------------------------------------------- |
---|
[3] | 2926 | #if defined key_mpp_shmem |
---|
[51] | 2927 | !! * SHMEM version |
---|
[3] | 2928 | |
---|
[51] | 2929 | CALL barrier() |
---|
| 2930 | CALL shmem_put( pio(1,1,npvm_me+1), ptab, jpi*jpj, kp ) |
---|
| 2931 | CALL barrier() |
---|
[3] | 2932 | |
---|
| 2933 | #elif defined key_mpp_mpi |
---|
[51] | 2934 | !! * Local variables (MPI version) |
---|
| 2935 | INTEGER :: itaille,ierror |
---|
| 2936 | |
---|
| 2937 | itaille=jpi*jpj |
---|
[181] | 2938 | CALL mpi_gather( ptab, itaille, mpi_double_precision, pio, itaille, & |
---|
[532] | 2939 | & mpi_double_precision, kp , mpi_comm_opa, ierror ) |
---|
[3] | 2940 | #endif |
---|
| 2941 | |
---|
[51] | 2942 | END SUBROUTINE mppgather |
---|
[3] | 2943 | |
---|
| 2944 | |
---|
[51] | 2945 | SUBROUTINE mppscatter( pio, kp, ptab ) |
---|
| 2946 | !!---------------------------------------------------------------------- |
---|
| 2947 | !! *** routine mppscatter *** |
---|
| 2948 | !! |
---|
| 2949 | !! ** Purpose : Transfert between awork array which is distributed |
---|
| 2950 | !! following the vertical level and the local subdomain array. |
---|
| 2951 | !! |
---|
| 2952 | !! ** Method : |
---|
| 2953 | !! |
---|
| 2954 | !!---------------------------------------------------------------------- |
---|
| 2955 | REAL(wp), DIMENSION(jpi,jpj,jpnij) :: pio ! output array |
---|
| 2956 | INTEGER :: kp ! Tag (not used with MPI |
---|
| 2957 | REAL(wp), DIMENSION(jpi,jpj) :: ptab ! subdomain array input |
---|
| 2958 | !!--------------------------------------------------------------------- |
---|
[3] | 2959 | #if defined key_mpp_shmem |
---|
[51] | 2960 | !! * SHMEM version |
---|
[3] | 2961 | |
---|
[51] | 2962 | CALL barrier() |
---|
| 2963 | CALL shmem_get( ptab, pio(1,1,npvm_me+1), jpi*jpj, kp ) |
---|
| 2964 | CALL barrier() |
---|
[3] | 2965 | |
---|
| 2966 | # elif defined key_mpp_mpi |
---|
[51] | 2967 | !! * Local variables (MPI version) |
---|
| 2968 | INTEGER :: itaille, ierror |
---|
| 2969 | |
---|
| 2970 | itaille=jpi*jpj |
---|
[181] | 2971 | |
---|
| 2972 | CALL mpi_scatter( pio, itaille, mpi_double_precision, ptab, itaille, & |
---|
[532] | 2973 | & mpi_double_precision, kp, mpi_comm_opa, ierror ) |
---|
[3] | 2974 | #endif |
---|
| 2975 | |
---|
[51] | 2976 | END SUBROUTINE mppscatter |
---|
[3] | 2977 | |
---|
| 2978 | |
---|
[51] | 2979 | SUBROUTINE mppisl_a_int( ktab, kdim ) |
---|
| 2980 | !!---------------------------------------------------------------------- |
---|
| 2981 | !! *** routine mppisl_a_int *** |
---|
| 2982 | !! |
---|
| 2983 | !! ** Purpose : Massively parallel processors |
---|
| 2984 | !! Find the non zero value |
---|
| 2985 | !! |
---|
| 2986 | !!---------------------------------------------------------------------- |
---|
| 2987 | !! * Arguments |
---|
| 2988 | INTEGER, INTENT( in ) :: kdim ! ??? |
---|
| 2989 | INTEGER, INTENT(inout), DIMENSION(kdim) :: ktab ! ??? |
---|
| 2990 | |
---|
[3] | 2991 | #if defined key_mpp_shmem |
---|
[51] | 2992 | !! * Local variables (SHMEM version) |
---|
| 2993 | INTEGER :: ji |
---|
| 2994 | INTEGER, SAVE :: ibool=0 |
---|
[3] | 2995 | |
---|
[473] | 2996 | IF( kdim > jpmppsum ) CALL ctl_stop( 'mppisl_a_int routine : kdim is too big', & |
---|
| 2997 | & 'change jpmppsum dimension in mpp.h' ) |
---|
[3] | 2998 | |
---|
[51] | 2999 | DO ji = 1, kdim |
---|
| 3000 | niitab_shmem(ji) = ktab(ji) |
---|
| 3001 | END DO |
---|
| 3002 | CALL barrier() |
---|
| 3003 | IF(ibool == 0 ) THEN |
---|
| 3004 | CALL shmem_int8_min_to_all (ni11tab_shmem,niitab_shmem,kdim,0 & |
---|
| 3005 | ,0,N$PES,ni11wrk_shmem,ni11sync_shmem) |
---|
| 3006 | CALL shmem_int8_max_to_all (ni12tab_shmem,niitab_shmem,kdim,0 & |
---|
| 3007 | ,0,N$PES,ni12wrk_shmem,ni12sync_shmem) |
---|
| 3008 | ELSE |
---|
| 3009 | CALL shmem_int8_min_to_all (ni11tab_shmem,niitab_shmem,kdim,0 & |
---|
| 3010 | ,0,N$PES,ni21wrk_shmem,ni21sync_shmem) |
---|
| 3011 | CALL shmem_int8_max_to_all (ni12tab_shmem,niitab_shmem,kdim,0 & |
---|
| 3012 | ,0,N$PES,ni22wrk_shmem,ni22sync_shmem) |
---|
| 3013 | ENDIF |
---|
| 3014 | CALL barrier() |
---|
| 3015 | ibool=ibool+1 |
---|
| 3016 | ibool=MOD( ibool,2) |
---|
| 3017 | DO ji = 1, kdim |
---|
| 3018 | IF( ni11tab_shmem(ji) /= 0. ) THEN |
---|
| 3019 | ktab(ji) = ni11tab_shmem(ji) |
---|
| 3020 | ELSE |
---|
| 3021 | ktab(ji) = ni12tab_shmem(ji) |
---|
| 3022 | ENDIF |
---|
| 3023 | END DO |
---|
| 3024 | |
---|
[3] | 3025 | # elif defined key_mpp_mpi |
---|
[51] | 3026 | !! * Local variables (MPI version) |
---|
| 3027 | LOGICAL :: lcommute |
---|
| 3028 | INTEGER, DIMENSION(kdim) :: iwork |
---|
| 3029 | INTEGER :: mpi_isl,ierror |
---|
| 3030 | |
---|
| 3031 | lcommute = .TRUE. |
---|
| 3032 | CALL mpi_op_create( lc_isl, lcommute, mpi_isl, ierror ) |
---|
| 3033 | CALL mpi_allreduce( ktab, iwork, kdim, mpi_integer & |
---|
[532] | 3034 | , mpi_isl, mpi_comm_opa, ierror ) |
---|
[51] | 3035 | ktab(:) = iwork(:) |
---|
[3] | 3036 | #endif |
---|
| 3037 | |
---|
[51] | 3038 | END SUBROUTINE mppisl_a_int |
---|
[3] | 3039 | |
---|
| 3040 | |
---|
[51] | 3041 | SUBROUTINE mppisl_int( ktab ) |
---|
| 3042 | !!---------------------------------------------------------------------- |
---|
| 3043 | !! *** routine mppisl_int *** |
---|
| 3044 | !! |
---|
| 3045 | !! ** Purpose : Massively parallel processors |
---|
| 3046 | !! Find the non zero value |
---|
| 3047 | !! |
---|
| 3048 | !!---------------------------------------------------------------------- |
---|
| 3049 | !! * Arguments |
---|
| 3050 | INTEGER , INTENT( inout ) :: ktab ! |
---|
[3] | 3051 | |
---|
| 3052 | #if defined key_mpp_shmem |
---|
[51] | 3053 | !! * Local variables (SHMEM version) |
---|
| 3054 | INTEGER, SAVE :: ibool=0 |
---|
[3] | 3055 | |
---|
[51] | 3056 | niitab_shmem(1) = ktab |
---|
| 3057 | CALL barrier() |
---|
| 3058 | IF(ibool == 0 ) THEN |
---|
| 3059 | CALL shmem_int8_min_to_all (ni11tab_shmem,niitab_shmem,1,0 & |
---|
| 3060 | ,0,N$PES,ni11wrk_shmem,ni11sync_shmem) |
---|
| 3061 | CALL shmem_int8_max_to_all (ni12tab_shmem,niitab_shmem,1,0 & |
---|
| 3062 | ,0,N$PES,ni12wrk_shmem,ni12sync_shmem) |
---|
| 3063 | ELSE |
---|
| 3064 | CALL shmem_int8_min_to_all (ni11tab_shmem,niitab_shmem,1,0 & |
---|
| 3065 | ,0,N$PES,ni21wrk_shmem,ni21sync_shmem) |
---|
| 3066 | CALL shmem_int8_max_to_all (ni12tab_shmem,niitab_shmem,1,0 & |
---|
| 3067 | ,0,N$PES,ni22wrk_shmem,ni22sync_shmem) |
---|
| 3068 | ENDIF |
---|
| 3069 | CALL barrier() |
---|
| 3070 | ibool=ibool+1 |
---|
| 3071 | ibool=MOD( ibool,2) |
---|
| 3072 | IF( ni11tab_shmem(1) /= 0. ) THEN |
---|
| 3073 | ktab = ni11tab_shmem(1) |
---|
| 3074 | ELSE |
---|
| 3075 | ktab = ni12tab_shmem(1) |
---|
| 3076 | ENDIF |
---|
| 3077 | |
---|
[3] | 3078 | # elif defined key_mpp_mpi |
---|
[51] | 3079 | |
---|
| 3080 | !! * Local variables (MPI version) |
---|
| 3081 | LOGICAL :: lcommute |
---|
| 3082 | INTEGER :: mpi_isl,ierror |
---|
| 3083 | INTEGER :: iwork |
---|
| 3084 | |
---|
| 3085 | lcommute = .TRUE. |
---|
| 3086 | CALL mpi_op_create(lc_isl,lcommute,mpi_isl,ierror) |
---|
| 3087 | CALL mpi_allreduce(ktab, iwork, 1,mpi_integer & |
---|
[532] | 3088 | ,mpi_isl,mpi_comm_opa,ierror) |
---|
[51] | 3089 | ktab = iwork |
---|
[3] | 3090 | #endif |
---|
| 3091 | |
---|
[51] | 3092 | END SUBROUTINE mppisl_int |
---|
[3] | 3093 | |
---|
| 3094 | |
---|
[869] | 3095 | SUBROUTINE mppmax_a_int( ktab, kdim, kcom ) |
---|
[681] | 3096 | !!---------------------------------------------------------------------- |
---|
| 3097 | !! *** routine mppmax_a_int *** |
---|
| 3098 | !! |
---|
| 3099 | !! ** Purpose : Find maximum value in an integer layout array |
---|
| 3100 | !! |
---|
| 3101 | !!---------------------------------------------------------------------- |
---|
| 3102 | !! * Arguments |
---|
| 3103 | INTEGER , INTENT( in ) :: kdim ! size of array |
---|
| 3104 | INTEGER , INTENT(inout), DIMENSION(kdim) :: ktab ! input array |
---|
[888] | 3105 | INTEGER , INTENT(in) , OPTIONAL :: kcom |
---|
[681] | 3106 | |
---|
| 3107 | #if defined key_mpp_shmem |
---|
| 3108 | !! * Local declarations (SHMEM version) |
---|
| 3109 | INTEGER :: ji |
---|
| 3110 | INTEGER, SAVE :: ibool=0 |
---|
| 3111 | |
---|
| 3112 | IF( kdim > jpmppsum ) CALL ctl_stop( 'mppmax_a_int routine : kdim is too big', & |
---|
| 3113 | & 'change jpmppsum dimension in mpp.h' ) |
---|
| 3114 | |
---|
| 3115 | DO ji = 1, kdim |
---|
| 3116 | niltab_shmem(ji) = ktab(ji) |
---|
| 3117 | END DO |
---|
| 3118 | CALL barrier() |
---|
| 3119 | IF(ibool == 0 ) THEN |
---|
| 3120 | CALL shmem_int8_max_to_all (niltab_shmem,niltab_shmem,kdim,0,0 & |
---|
| 3121 | ,N$PES,nil1wrk_shmem,nil1sync_shmem ) |
---|
| 3122 | ELSE |
---|
| 3123 | CALL shmem_int8_max_to_all (niltab_shmem,niltab_shmem,kdim,0,0 & |
---|
| 3124 | ,N$PES,nil2wrk_shmem,nil2sync_shmem ) |
---|
| 3125 | ENDIF |
---|
| 3126 | CALL barrier() |
---|
| 3127 | ibool=ibool+1 |
---|
| 3128 | ibool=MOD( ibool,2) |
---|
| 3129 | DO ji = 1, kdim |
---|
| 3130 | ktab(ji) = niltab_shmem(ji) |
---|
| 3131 | END DO |
---|
| 3132 | |
---|
| 3133 | # elif defined key_mpp_mpi |
---|
| 3134 | |
---|
| 3135 | !! * Local variables (MPI version) |
---|
| 3136 | INTEGER :: ierror |
---|
[869] | 3137 | INTEGER :: localcomm |
---|
[681] | 3138 | INTEGER, DIMENSION(kdim) :: iwork |
---|
[869] | 3139 | |
---|
| 3140 | localcomm = mpi_comm_opa |
---|
| 3141 | IF( PRESENT(kcom) ) localcomm = kcom |
---|
[681] | 3142 | |
---|
| 3143 | CALL mpi_allreduce( ktab, iwork, kdim, mpi_integer, & |
---|
[869] | 3144 | & mpi_max, localcomm, ierror ) |
---|
[681] | 3145 | |
---|
| 3146 | ktab(:) = iwork(:) |
---|
| 3147 | #endif |
---|
| 3148 | |
---|
| 3149 | END SUBROUTINE mppmax_a_int |
---|
| 3150 | |
---|
| 3151 | |
---|
[869] | 3152 | SUBROUTINE mppmax_int( ktab, kcom ) |
---|
[681] | 3153 | !!---------------------------------------------------------------------- |
---|
| 3154 | !! *** routine mppmax_int *** |
---|
| 3155 | !! |
---|
| 3156 | !! ** Purpose : |
---|
| 3157 | !! Massively parallel processors |
---|
| 3158 | !! Find maximum value in an integer layout array |
---|
| 3159 | !! |
---|
| 3160 | !!---------------------------------------------------------------------- |
---|
| 3161 | !! * Arguments |
---|
| 3162 | INTEGER, INTENT(inout) :: ktab ! ??? |
---|
[869] | 3163 | INTEGER, INTENT(in), OPTIONAL :: kcom ! ??? |
---|
[681] | 3164 | |
---|
| 3165 | !! * Local declarations |
---|
| 3166 | |
---|
| 3167 | #if defined key_mpp_shmem |
---|
| 3168 | |
---|
| 3169 | !! * Local variables (SHMEM version) |
---|
| 3170 | INTEGER :: ji |
---|
| 3171 | INTEGER, SAVE :: ibool=0 |
---|
| 3172 | |
---|
| 3173 | niltab_shmem(1) = ktab |
---|
| 3174 | CALL barrier() |
---|
| 3175 | IF(ibool == 0 ) THEN |
---|
| 3176 | CALL shmem_int8_max_to_all (niltab_shmem,niltab_shmem, 1,0,0 & |
---|
| 3177 | ,N$PES,nil1wrk_shmem,nil1sync_shmem ) |
---|
| 3178 | ELSE |
---|
| 3179 | CALL shmem_int8_max_to_all (niltab_shmem,niltab_shmem, 1,0,0 & |
---|
| 3180 | ,N$PES,nil2wrk_shmem,nil2sync_shmem ) |
---|
| 3181 | ENDIF |
---|
| 3182 | CALL barrier() |
---|
| 3183 | ibool=ibool+1 |
---|
| 3184 | ibool=MOD( ibool,2) |
---|
| 3185 | ktab = niltab_shmem(1) |
---|
| 3186 | |
---|
| 3187 | # elif defined key_mpp_mpi |
---|
| 3188 | |
---|
| 3189 | !! * Local variables (MPI version) |
---|
| 3190 | INTEGER :: ierror, iwork |
---|
[869] | 3191 | INTEGER :: localcomm |
---|
| 3192 | |
---|
| 3193 | localcomm = mpi_comm_opa |
---|
| 3194 | IF( PRESENT(kcom) ) localcomm = kcom |
---|
| 3195 | |
---|
[681] | 3196 | CALL mpi_allreduce(ktab,iwork, 1,mpi_integer & |
---|
[869] | 3197 | & ,mpi_max,localcomm,ierror) |
---|
[681] | 3198 | |
---|
| 3199 | ktab = iwork |
---|
| 3200 | #endif |
---|
| 3201 | |
---|
| 3202 | END SUBROUTINE mppmax_int |
---|
| 3203 | |
---|
| 3204 | |
---|
[869] | 3205 | SUBROUTINE mppmin_a_int( ktab, kdim, kcom ) |
---|
[51] | 3206 | !!---------------------------------------------------------------------- |
---|
| 3207 | !! *** routine mppmin_a_int *** |
---|
| 3208 | !! |
---|
| 3209 | !! ** Purpose : Find minimum value in an integer layout array |
---|
| 3210 | !! |
---|
| 3211 | !!---------------------------------------------------------------------- |
---|
| 3212 | !! * Arguments |
---|
| 3213 | INTEGER , INTENT( in ) :: kdim ! size of array |
---|
| 3214 | INTEGER , INTENT(inout), DIMENSION(kdim) :: ktab ! input array |
---|
[888] | 3215 | INTEGER , INTENT( in ), OPTIONAL :: kcom ! input array |
---|
[51] | 3216 | |
---|
[3] | 3217 | #if defined key_mpp_shmem |
---|
[51] | 3218 | !! * Local declarations (SHMEM version) |
---|
| 3219 | INTEGER :: ji |
---|
| 3220 | INTEGER, SAVE :: ibool=0 |
---|
| 3221 | |
---|
[473] | 3222 | IF( kdim > jpmppsum ) CALL ctl_stop( 'mppmin_a_int routine : kdim is too big', & |
---|
| 3223 | & 'change jpmppsum dimension in mpp.h' ) |
---|
[51] | 3224 | |
---|
| 3225 | DO ji = 1, kdim |
---|
| 3226 | niltab_shmem(ji) = ktab(ji) |
---|
| 3227 | END DO |
---|
| 3228 | CALL barrier() |
---|
| 3229 | IF(ibool == 0 ) THEN |
---|
| 3230 | CALL shmem_int8_min_to_all (niltab_shmem,niltab_shmem,kdim,0,0 & |
---|
| 3231 | ,N$PES,nil1wrk_shmem,nil1sync_shmem ) |
---|
| 3232 | ELSE |
---|
| 3233 | CALL shmem_int8_min_to_all (niltab_shmem,niltab_shmem,kdim,0,0 & |
---|
| 3234 | ,N$PES,nil2wrk_shmem,nil2sync_shmem ) |
---|
| 3235 | ENDIF |
---|
| 3236 | CALL barrier() |
---|
| 3237 | ibool=ibool+1 |
---|
| 3238 | ibool=MOD( ibool,2) |
---|
| 3239 | DO ji = 1, kdim |
---|
| 3240 | ktab(ji) = niltab_shmem(ji) |
---|
| 3241 | END DO |
---|
| 3242 | |
---|
[3] | 3243 | # elif defined key_mpp_mpi |
---|
[51] | 3244 | |
---|
| 3245 | !! * Local variables (MPI version) |
---|
| 3246 | INTEGER :: ierror |
---|
[869] | 3247 | INTEGER :: localcomm |
---|
[51] | 3248 | INTEGER, DIMENSION(kdim) :: iwork |
---|
| 3249 | |
---|
[869] | 3250 | localcomm = mpi_comm_opa |
---|
| 3251 | IF( PRESENT(kcom) ) localcomm = kcom |
---|
| 3252 | |
---|
[51] | 3253 | CALL mpi_allreduce( ktab, iwork, kdim, mpi_integer, & |
---|
[869] | 3254 | & mpi_min, localcomm, ierror ) |
---|
[51] | 3255 | |
---|
| 3256 | ktab(:) = iwork(:) |
---|
[3] | 3257 | #endif |
---|
| 3258 | |
---|
[51] | 3259 | END SUBROUTINE mppmin_a_int |
---|
[3] | 3260 | |
---|
[13] | 3261 | |
---|
[51] | 3262 | SUBROUTINE mppmin_int( ktab ) |
---|
| 3263 | !!---------------------------------------------------------------------- |
---|
| 3264 | !! *** routine mppmin_int *** |
---|
| 3265 | !! |
---|
| 3266 | !! ** Purpose : |
---|
| 3267 | !! Massively parallel processors |
---|
| 3268 | !! Find minimum value in an integer layout array |
---|
| 3269 | !! |
---|
| 3270 | !!---------------------------------------------------------------------- |
---|
| 3271 | !! * Arguments |
---|
| 3272 | INTEGER, INTENT(inout) :: ktab ! ??? |
---|
| 3273 | |
---|
| 3274 | !! * Local declarations |
---|
[3] | 3275 | |
---|
| 3276 | #if defined key_mpp_shmem |
---|
[13] | 3277 | |
---|
[51] | 3278 | !! * Local variables (SHMEM version) |
---|
| 3279 | INTEGER :: ji |
---|
| 3280 | INTEGER, SAVE :: ibool=0 |
---|
| 3281 | |
---|
| 3282 | niltab_shmem(1) = ktab |
---|
| 3283 | CALL barrier() |
---|
| 3284 | IF(ibool == 0 ) THEN |
---|
| 3285 | CALL shmem_int8_min_to_all (niltab_shmem,niltab_shmem, 1,0,0 & |
---|
| 3286 | ,N$PES,nil1wrk_shmem,nil1sync_shmem ) |
---|
| 3287 | ELSE |
---|
| 3288 | CALL shmem_int8_min_to_all (niltab_shmem,niltab_shmem, 1,0,0 & |
---|
| 3289 | ,N$PES,nil2wrk_shmem,nil2sync_shmem ) |
---|
| 3290 | ENDIF |
---|
| 3291 | CALL barrier() |
---|
| 3292 | ibool=ibool+1 |
---|
| 3293 | ibool=MOD( ibool,2) |
---|
| 3294 | ktab = niltab_shmem(1) |
---|
| 3295 | |
---|
[3] | 3296 | # elif defined key_mpp_mpi |
---|
[13] | 3297 | |
---|
[51] | 3298 | !! * Local variables (MPI version) |
---|
| 3299 | INTEGER :: ierror, iwork |
---|
| 3300 | |
---|
| 3301 | CALL mpi_allreduce(ktab,iwork, 1,mpi_integer & |
---|
[532] | 3302 | & ,mpi_min,mpi_comm_opa,ierror) |
---|
[51] | 3303 | |
---|
| 3304 | ktab = iwork |
---|
[3] | 3305 | #endif |
---|
| 3306 | |
---|
[51] | 3307 | END SUBROUTINE mppmin_int |
---|
[3] | 3308 | |
---|
[13] | 3309 | |
---|
[51] | 3310 | SUBROUTINE mppsum_a_int( ktab, kdim ) |
---|
| 3311 | !!---------------------------------------------------------------------- |
---|
| 3312 | !! *** routine mppsum_a_int *** |
---|
| 3313 | !! |
---|
| 3314 | !! ** Purpose : Massively parallel processors |
---|
| 3315 | !! Global integer sum |
---|
| 3316 | !! |
---|
| 3317 | !!---------------------------------------------------------------------- |
---|
| 3318 | !! * Arguments |
---|
| 3319 | INTEGER, INTENT( in ) :: kdim ! ??? |
---|
| 3320 | INTEGER, INTENT(inout), DIMENSION (kdim) :: ktab ! ??? |
---|
| 3321 | |
---|
[13] | 3322 | #if defined key_mpp_shmem |
---|
[3] | 3323 | |
---|
[51] | 3324 | !! * Local variables (SHMEM version) |
---|
| 3325 | INTEGER :: ji |
---|
| 3326 | INTEGER, SAVE :: ibool=0 |
---|
[3] | 3327 | |
---|
[473] | 3328 | IF( kdim > jpmppsum ) CALL ctl_stop( 'mppsum_a_int routine : kdim is too big', & |
---|
| 3329 | & 'change jpmppsum dimension in mpp.h' ) |
---|
[3] | 3330 | |
---|
[51] | 3331 | DO ji = 1, kdim |
---|
| 3332 | nistab_shmem(ji) = ktab(ji) |
---|
| 3333 | END DO |
---|
| 3334 | CALL barrier() |
---|
| 3335 | IF(ibool == 0 ) THEN |
---|
| 3336 | CALL shmem_int8_sum_to_all(nistab_shmem,nistab_shmem,kdim,0,0, & |
---|
| 3337 | N$PES,nis1wrk_shmem,nis1sync_shmem) |
---|
| 3338 | ELSE |
---|
| 3339 | CALL shmem_int8_sum_to_all(nistab_shmem,nistab_shmem,kdim,0,0, & |
---|
| 3340 | N$PES,nis2wrk_shmem,nis2sync_shmem) |
---|
| 3341 | ENDIF |
---|
| 3342 | CALL barrier() |
---|
| 3343 | ibool = ibool + 1 |
---|
| 3344 | ibool = MOD( ibool, 2 ) |
---|
| 3345 | DO ji = 1, kdim |
---|
| 3346 | ktab(ji) = nistab_shmem(ji) |
---|
| 3347 | END DO |
---|
| 3348 | |
---|
[3] | 3349 | # elif defined key_mpp_mpi |
---|
[13] | 3350 | |
---|
[51] | 3351 | !! * Local variables (MPI version) |
---|
| 3352 | INTEGER :: ierror |
---|
| 3353 | INTEGER, DIMENSION (kdim) :: iwork |
---|
| 3354 | |
---|
| 3355 | CALL mpi_allreduce(ktab, iwork,kdim,mpi_integer & |
---|
[532] | 3356 | ,mpi_sum,mpi_comm_opa,ierror) |
---|
[51] | 3357 | |
---|
| 3358 | ktab(:) = iwork(:) |
---|
[3] | 3359 | #endif |
---|
| 3360 | |
---|
[51] | 3361 | END SUBROUTINE mppsum_a_int |
---|
[3] | 3362 | |
---|
[13] | 3363 | |
---|
[3] | 3364 | SUBROUTINE mppsum_int( ktab ) |
---|
| 3365 | !!---------------------------------------------------------------------- |
---|
| 3366 | !! *** routine mppsum_int *** |
---|
| 3367 | !! |
---|
| 3368 | !! ** Purpose : Global integer sum |
---|
| 3369 | !! |
---|
| 3370 | !!---------------------------------------------------------------------- |
---|
| 3371 | !! * Arguments |
---|
| 3372 | INTEGER, INTENT(inout) :: ktab |
---|
| 3373 | |
---|
| 3374 | #if defined key_mpp_shmem |
---|
[13] | 3375 | |
---|
[3] | 3376 | !! * Local variables (SHMEM version) |
---|
| 3377 | INTEGER, SAVE :: ibool=0 |
---|
| 3378 | |
---|
| 3379 | nistab_shmem(1) = ktab |
---|
| 3380 | CALL barrier() |
---|
| 3381 | IF(ibool == 0 ) THEN |
---|
| 3382 | CALL shmem_int8_sum_to_all(nistab_shmem,nistab_shmem, 1,0,0, & |
---|
| 3383 | N$PES,nis1wrk_shmem,nis1sync_shmem) |
---|
| 3384 | ELSE |
---|
| 3385 | CALL shmem_int8_sum_to_all(nistab_shmem,nistab_shmem, 1,0,0, & |
---|
| 3386 | N$PES,nis2wrk_shmem,nis2sync_shmem) |
---|
| 3387 | ENDIF |
---|
| 3388 | CALL barrier() |
---|
| 3389 | ibool=ibool+1 |
---|
| 3390 | ibool=MOD( ibool,2) |
---|
| 3391 | ktab = nistab_shmem(1) |
---|
[13] | 3392 | |
---|
[3] | 3393 | # elif defined key_mpp_mpi |
---|
[13] | 3394 | |
---|
[3] | 3395 | !! * Local variables (MPI version) |
---|
| 3396 | INTEGER :: ierror, iwork |
---|
| 3397 | |
---|
| 3398 | CALL mpi_allreduce(ktab,iwork, 1,mpi_integer & |
---|
[532] | 3399 | ,mpi_sum,mpi_comm_opa,ierror) |
---|
[3] | 3400 | |
---|
| 3401 | ktab = iwork |
---|
| 3402 | |
---|
| 3403 | #endif |
---|
| 3404 | |
---|
| 3405 | END SUBROUTINE mppsum_int |
---|
| 3406 | |
---|
| 3407 | |
---|
| 3408 | SUBROUTINE mppisl_a_real( ptab, kdim ) |
---|
| 3409 | !!---------------------------------------------------------------------- |
---|
| 3410 | !! *** routine mppisl_a_real *** |
---|
| 3411 | !! |
---|
| 3412 | !! ** Purpose : Massively parallel processors |
---|
| 3413 | !! Find the non zero island barotropic stream function value |
---|
| 3414 | !! |
---|
| 3415 | !! Modifications: |
---|
| 3416 | !! ! 93-09 (M. Imbard) |
---|
| 3417 | !! ! 96-05 (j. Escobar) |
---|
| 3418 | !! ! 98-05 (M. Imbard, J. Escobar, L. Colombet ) SHMEM and MPI |
---|
| 3419 | !!---------------------------------------------------------------------- |
---|
| 3420 | INTEGER , INTENT( in ) :: kdim ! ??? |
---|
| 3421 | REAL(wp), INTENT(inout), DIMENSION(kdim) :: ptab ! ??? |
---|
| 3422 | |
---|
| 3423 | #if defined key_mpp_shmem |
---|
[13] | 3424 | |
---|
[3] | 3425 | !! * Local variables (SHMEM version) |
---|
| 3426 | INTEGER :: ji |
---|
| 3427 | INTEGER, SAVE :: ibool=0 |
---|
| 3428 | |
---|
[473] | 3429 | IF( kdim > jpmppsum ) CALL ctl_stop( 'mppisl_a_real routine : kdim is too big', & |
---|
| 3430 | & 'change jpmppsum dimension in mpp.h' ) |
---|
[3] | 3431 | |
---|
| 3432 | DO ji = 1, kdim |
---|
| 3433 | wiltab_shmem(ji) = ptab(ji) |
---|
| 3434 | END DO |
---|
| 3435 | CALL barrier() |
---|
| 3436 | IF(ibool == 0 ) THEN |
---|
| 3437 | CALL shmem_real8_min_to_all (wi1tab_shmem,wiltab_shmem,kdim,0 & |
---|
| 3438 | ,0,N$PES,wi11wrk_shmem,ni11sync_shmem) |
---|
| 3439 | CALL shmem_real8_max_to_all (wi2tab_shmem,wiltab_shmem,kdim,0 & |
---|
| 3440 | ,0,N$PES,wi12wrk_shmem,ni12sync_shmem) |
---|
| 3441 | ELSE |
---|
| 3442 | CALL shmem_real8_min_to_all (wi1tab_shmem,wiltab_shmem,kdim,0 & |
---|
| 3443 | ,0,N$PES,wi21wrk_shmem,ni21sync_shmem) |
---|
| 3444 | CALL shmem_real8_max_to_all (wi2tab_shmem,wiltab_shmem,kdim,0 & |
---|
| 3445 | ,0,N$PES,wi22wrk_shmem,ni22sync_shmem) |
---|
| 3446 | ENDIF |
---|
| 3447 | CALL barrier() |
---|
| 3448 | ibool=ibool+1 |
---|
| 3449 | ibool=MOD( ibool,2) |
---|
| 3450 | DO ji = 1, kdim |
---|
| 3451 | IF(wi1tab_shmem(ji) /= 0. ) THEN |
---|
| 3452 | ptab(ji) = wi1tab_shmem(ji) |
---|
| 3453 | ELSE |
---|
| 3454 | ptab(ji) = wi2tab_shmem(ji) |
---|
| 3455 | ENDIF |
---|
| 3456 | END DO |
---|
| 3457 | |
---|
| 3458 | # elif defined key_mpp_mpi |
---|
[13] | 3459 | |
---|
[3] | 3460 | !! * Local variables (MPI version) |
---|
| 3461 | LOGICAL :: lcommute = .TRUE. |
---|
| 3462 | INTEGER :: mpi_isl, ierror |
---|
| 3463 | REAL(wp), DIMENSION(kdim) :: zwork |
---|
| 3464 | |
---|
| 3465 | CALL mpi_op_create(lc_isl,lcommute,mpi_isl,ierror) |
---|
[181] | 3466 | CALL mpi_allreduce(ptab, zwork,kdim,mpi_double_precision & |
---|
[532] | 3467 | ,mpi_isl,mpi_comm_opa,ierror) |
---|
[3] | 3468 | ptab(:) = zwork(:) |
---|
| 3469 | |
---|
| 3470 | #endif |
---|
| 3471 | |
---|
| 3472 | END SUBROUTINE mppisl_a_real |
---|
| 3473 | |
---|
| 3474 | |
---|
[13] | 3475 | SUBROUTINE mppisl_real( ptab ) |
---|
| 3476 | !!---------------------------------------------------------------------- |
---|
| 3477 | !! *** routine mppisl_real *** |
---|
| 3478 | !! |
---|
| 3479 | !! ** Purpose : Massively parallel processors |
---|
| 3480 | !! Find the non zero island barotropic stream function value |
---|
| 3481 | !! |
---|
| 3482 | !! Modifications: |
---|
| 3483 | !! ! 93-09 (M. Imbard) |
---|
| 3484 | !! ! 96-05 (j. Escobar) |
---|
| 3485 | !! ! 98-05 (M. Imbard, J. Escobar, L. Colombet ) SHMEM and MPI |
---|
| 3486 | !!---------------------------------------------------------------------- |
---|
| 3487 | REAL(wp), INTENT(inout) :: ptab |
---|
| 3488 | |
---|
[3] | 3489 | #if defined key_mpp_shmem |
---|
| 3490 | |
---|
[13] | 3491 | !! * Local variables (SHMEM version) |
---|
| 3492 | INTEGER, SAVE :: ibool=0 |
---|
| 3493 | |
---|
| 3494 | wiltab_shmem(1) = ptab |
---|
| 3495 | CALL barrier() |
---|
| 3496 | IF(ibool == 0 ) THEN |
---|
| 3497 | CALL shmem_real8_min_to_all (wi1tab_shmem,wiltab_shmem, 1,0 & |
---|
[3] | 3498 | ,0,N$PES,wi11wrk_shmem,ni11sync_shmem) |
---|
[13] | 3499 | CALL shmem_real8_max_to_all (wi2tab_shmem,wiltab_shmem, 1,0 & |
---|
[3] | 3500 | ,0,N$PES,wi12wrk_shmem,ni12sync_shmem) |
---|
[13] | 3501 | ELSE |
---|
| 3502 | CALL shmem_real8_min_to_all (wi1tab_shmem,wiltab_shmem, 1,0 & |
---|
[3] | 3503 | ,0,N$PES,wi21wrk_shmem,ni21sync_shmem) |
---|
[13] | 3504 | CALL shmem_real8_max_to_all (wi2tab_shmem,wiltab_shmem, 1,0 & |
---|
[3] | 3505 | ,0,N$PES,wi22wrk_shmem,ni22sync_shmem) |
---|
[13] | 3506 | ENDIF |
---|
[51] | 3507 | CALL barrier() |
---|
| 3508 | ibool = ibool + 1 |
---|
| 3509 | ibool = MOD( ibool, 2 ) |
---|
| 3510 | IF( wi1tab_shmem(1) /= 0. ) THEN |
---|
[13] | 3511 | ptab = wi1tab_shmem(1) |
---|
| 3512 | ELSE |
---|
| 3513 | ptab = wi2tab_shmem(1) |
---|
| 3514 | ENDIF |
---|
[3] | 3515 | |
---|
| 3516 | # elif defined key_mpp_mpi |
---|
| 3517 | |
---|
[13] | 3518 | !! * Local variables (MPI version) |
---|
| 3519 | LOGICAL :: lcommute = .TRUE. |
---|
| 3520 | INTEGER :: mpi_isl, ierror |
---|
| 3521 | REAL(wp) :: zwork |
---|
| 3522 | |
---|
[51] | 3523 | CALL mpi_op_create( lc_isl, lcommute, mpi_isl, ierror ) |
---|
[181] | 3524 | CALL mpi_allreduce( ptab, zwork, 1, mpi_double_precision, & |
---|
[532] | 3525 | & mpi_isl , mpi_comm_opa, ierror ) |
---|
[13] | 3526 | ptab = zwork |
---|
[3] | 3527 | |
---|
| 3528 | #endif |
---|
| 3529 | |
---|
[13] | 3530 | END SUBROUTINE mppisl_real |
---|
[3] | 3531 | |
---|
| 3532 | |
---|
| 3533 | FUNCTION lc_isl( py, px, kdim, kdtatyp ) |
---|
| 3534 | INTEGER :: kdim |
---|
[13] | 3535 | REAL(wp), DIMENSION(kdim) :: px, py |
---|
| 3536 | INTEGER :: kdtatyp, ji |
---|
[3] | 3537 | INTEGER :: lc_isl |
---|
| 3538 | DO ji = 1, kdim |
---|
[13] | 3539 | IF( py(ji) /= 0. ) px(ji) = py(ji) |
---|
[3] | 3540 | END DO |
---|
| 3541 | lc_isl=0 |
---|
| 3542 | |
---|
| 3543 | END FUNCTION lc_isl |
---|
| 3544 | |
---|
| 3545 | |
---|
[869] | 3546 | SUBROUTINE mppmax_a_real( ptab, kdim, kcom ) |
---|
[3] | 3547 | !!---------------------------------------------------------------------- |
---|
| 3548 | !! *** routine mppmax_a_real *** |
---|
| 3549 | !! |
---|
| 3550 | !! ** Purpose : Maximum |
---|
| 3551 | !! |
---|
| 3552 | !!---------------------------------------------------------------------- |
---|
| 3553 | !! * Arguments |
---|
| 3554 | INTEGER , INTENT( in ) :: kdim |
---|
| 3555 | REAL(wp), INTENT(inout), DIMENSION(kdim) :: ptab |
---|
[888] | 3556 | INTEGER , INTENT( in ), OPTIONAL :: kcom |
---|
[3] | 3557 | |
---|
| 3558 | #if defined key_mpp_shmem |
---|
[13] | 3559 | |
---|
[3] | 3560 | !! * Local variables (SHMEM version) |
---|
| 3561 | INTEGER :: ji |
---|
| 3562 | INTEGER, SAVE :: ibool=0 |
---|
| 3563 | |
---|
[473] | 3564 | IF( kdim > jpmppsum ) CALL ctl_stop( 'mppmax_a_real routine : kdim is too big', & |
---|
| 3565 | & 'change jpmppsum dimension in mpp.h' ) |
---|
[3] | 3566 | |
---|
| 3567 | DO ji = 1, kdim |
---|
| 3568 | wintab_shmem(ji) = ptab(ji) |
---|
| 3569 | END DO |
---|
| 3570 | CALL barrier() |
---|
| 3571 | IF(ibool == 0 ) THEN |
---|
| 3572 | CALL shmem_real8_max_to_all (wintab_shmem,wintab_shmem,kdim,0 & |
---|
| 3573 | ,0,N$PES,wi1wrk_shmem,ni1sync_shmem) |
---|
| 3574 | ELSE |
---|
| 3575 | CALL shmem_real8_max_to_all (wintab_shmem,wintab_shmem,kdim,0 & |
---|
| 3576 | ,0,N$PES,wi2wrk_shmem,ni2sync_shmem) |
---|
| 3577 | ENDIF |
---|
| 3578 | CALL barrier() |
---|
| 3579 | ibool=ibool+1 |
---|
| 3580 | ibool=MOD( ibool,2) |
---|
| 3581 | DO ji = 1, kdim |
---|
| 3582 | ptab(ji) = wintab_shmem(ji) |
---|
| 3583 | END DO |
---|
| 3584 | |
---|
| 3585 | # elif defined key_mpp_mpi |
---|
[13] | 3586 | |
---|
[3] | 3587 | !! * Local variables (MPI version) |
---|
| 3588 | INTEGER :: ierror |
---|
[869] | 3589 | INTEGER :: localcomm |
---|
[3] | 3590 | REAL(wp), DIMENSION(kdim) :: zwork |
---|
| 3591 | |
---|
[869] | 3592 | localcomm = mpi_comm_opa |
---|
| 3593 | IF( PRESENT(kcom) ) localcomm = kcom |
---|
| 3594 | |
---|
[181] | 3595 | CALL mpi_allreduce(ptab, zwork,kdim,mpi_double_precision & |
---|
[869] | 3596 | ,mpi_max,localcomm,ierror) |
---|
[3] | 3597 | ptab(:) = zwork(:) |
---|
| 3598 | |
---|
| 3599 | #endif |
---|
| 3600 | |
---|
| 3601 | END SUBROUTINE mppmax_a_real |
---|
| 3602 | |
---|
[13] | 3603 | |
---|
[869] | 3604 | SUBROUTINE mppmax_real( ptab, kcom ) |
---|
[3] | 3605 | !!---------------------------------------------------------------------- |
---|
| 3606 | !! *** routine mppmax_real *** |
---|
| 3607 | !! |
---|
| 3608 | !! ** Purpose : Maximum |
---|
| 3609 | !! |
---|
| 3610 | !!---------------------------------------------------------------------- |
---|
| 3611 | !! * Arguments |
---|
| 3612 | REAL(wp), INTENT(inout) :: ptab ! ??? |
---|
[888] | 3613 | INTEGER , INTENT( in ), OPTIONAL :: kcom ! ??? |
---|
[3] | 3614 | |
---|
| 3615 | #if defined key_mpp_shmem |
---|
[13] | 3616 | |
---|
[3] | 3617 | !! * Local variables (SHMEM version) |
---|
| 3618 | INTEGER, SAVE :: ibool=0 |
---|
| 3619 | |
---|
| 3620 | wintab_shmem(1) = ptab |
---|
| 3621 | CALL barrier() |
---|
| 3622 | IF(ibool == 0 ) THEN |
---|
| 3623 | CALL shmem_real8_max_to_all (wintab_shmem,wintab_shmem, 1,0 & |
---|
| 3624 | ,0,N$PES,wi1wrk_shmem,ni1sync_shmem) |
---|
| 3625 | ELSE |
---|
| 3626 | CALL shmem_real8_max_to_all (wintab_shmem,wintab_shmem, 1,0 & |
---|
| 3627 | ,0,N$PES,wi2wrk_shmem,ni2sync_shmem) |
---|
| 3628 | ENDIF |
---|
| 3629 | CALL barrier() |
---|
| 3630 | ibool=ibool+1 |
---|
| 3631 | ibool=MOD( ibool,2) |
---|
| 3632 | ptab = wintab_shmem(1) |
---|
| 3633 | |
---|
| 3634 | # elif defined key_mpp_mpi |
---|
[13] | 3635 | |
---|
[3] | 3636 | !! * Local variables (MPI version) |
---|
| 3637 | INTEGER :: ierror |
---|
[869] | 3638 | INTEGER :: localcomm |
---|
[3] | 3639 | REAL(wp) :: zwork |
---|
| 3640 | |
---|
[869] | 3641 | localcomm = mpi_comm_opa |
---|
| 3642 | IF( PRESENT(kcom) ) localcomm = kcom |
---|
| 3643 | |
---|
[181] | 3644 | CALL mpi_allreduce( ptab, zwork , 1 , mpi_double_precision, & |
---|
[869] | 3645 | & mpi_max, localcomm, ierror ) |
---|
[3] | 3646 | ptab = zwork |
---|
| 3647 | |
---|
| 3648 | #endif |
---|
| 3649 | |
---|
| 3650 | END SUBROUTINE mppmax_real |
---|
| 3651 | |
---|
| 3652 | |
---|
[869] | 3653 | SUBROUTINE mppmin_a_real( ptab, kdim, kcom ) |
---|
[3] | 3654 | !!---------------------------------------------------------------------- |
---|
| 3655 | !! *** routine mppmin_a_real *** |
---|
| 3656 | !! |
---|
| 3657 | !! ** Purpose : Minimum |
---|
| 3658 | !! |
---|
| 3659 | !!----------------------------------------------------------------------- |
---|
| 3660 | !! * Arguments |
---|
| 3661 | INTEGER , INTENT( in ) :: kdim |
---|
| 3662 | REAL(wp), INTENT(inout), DIMENSION(kdim) :: ptab |
---|
[869] | 3663 | INTEGER , INTENT( in ), OPTIONAL :: kcom |
---|
[3] | 3664 | |
---|
| 3665 | #if defined key_mpp_shmem |
---|
[13] | 3666 | |
---|
[3] | 3667 | !! * Local variables (SHMEM version) |
---|
| 3668 | INTEGER :: ji |
---|
| 3669 | INTEGER, SAVE :: ibool=0 |
---|
| 3670 | |
---|
[473] | 3671 | IF( kdim > jpmppsum ) CALL ctl_stop( 'mpprmin routine : kdim is too big', & |
---|
| 3672 | & 'change jpmppsum dimension in mpp.h' ) |
---|
[3] | 3673 | |
---|
| 3674 | DO ji = 1, kdim |
---|
| 3675 | wintab_shmem(ji) = ptab(ji) |
---|
| 3676 | END DO |
---|
| 3677 | CALL barrier() |
---|
| 3678 | IF(ibool == 0 ) THEN |
---|
| 3679 | CALL shmem_real8_min_to_all (wintab_shmem,wintab_shmem,kdim,0 & |
---|
| 3680 | ,0,N$PES,wi1wrk_shmem,ni1sync_shmem) |
---|
| 3681 | ELSE |
---|
| 3682 | CALL shmem_real8_min_to_all (wintab_shmem,wintab_shmem,kdim,0 & |
---|
| 3683 | ,0,N$PES,wi2wrk_shmem,ni2sync_shmem) |
---|
| 3684 | ENDIF |
---|
| 3685 | CALL barrier() |
---|
| 3686 | ibool=ibool+1 |
---|
| 3687 | ibool=MOD( ibool,2) |
---|
| 3688 | DO ji = 1, kdim |
---|
| 3689 | ptab(ji) = wintab_shmem(ji) |
---|
| 3690 | END DO |
---|
| 3691 | |
---|
| 3692 | # elif defined key_mpp_mpi |
---|
[13] | 3693 | |
---|
[3] | 3694 | !! * Local variables (MPI version) |
---|
| 3695 | INTEGER :: ierror |
---|
[869] | 3696 | INTEGER :: localcomm |
---|
[3] | 3697 | REAL(wp), DIMENSION(kdim) :: zwork |
---|
| 3698 | |
---|
[869] | 3699 | localcomm = mpi_comm_opa |
---|
| 3700 | IF( PRESENT(kcom) ) localcomm = kcom |
---|
| 3701 | |
---|
[181] | 3702 | CALL mpi_allreduce(ptab, zwork,kdim,mpi_double_precision & |
---|
[869] | 3703 | ,mpi_min,localcomm,ierror) |
---|
[3] | 3704 | ptab(:) = zwork(:) |
---|
| 3705 | |
---|
| 3706 | #endif |
---|
| 3707 | |
---|
| 3708 | END SUBROUTINE mppmin_a_real |
---|
| 3709 | |
---|
| 3710 | |
---|
[869] | 3711 | SUBROUTINE mppmin_real( ptab, kcom ) |
---|
[3] | 3712 | !!---------------------------------------------------------------------- |
---|
| 3713 | !! *** routine mppmin_real *** |
---|
| 3714 | !! |
---|
| 3715 | !! ** Purpose : minimum in Massively Parallel Processing |
---|
| 3716 | !! REAL scalar case |
---|
| 3717 | !! |
---|
| 3718 | !!----------------------------------------------------------------------- |
---|
| 3719 | !! * Arguments |
---|
| 3720 | REAL(wp), INTENT( inout ) :: ptab ! |
---|
[888] | 3721 | INTEGER , INTENT( in ), OPTIONAL :: kcom |
---|
[3] | 3722 | |
---|
| 3723 | #if defined key_mpp_shmem |
---|
[13] | 3724 | |
---|
[3] | 3725 | !! * Local variables (SHMEM version) |
---|
| 3726 | INTEGER, SAVE :: ibool=0 |
---|
| 3727 | |
---|
| 3728 | wintab_shmem(1) = ptab |
---|
| 3729 | CALL barrier() |
---|
| 3730 | IF(ibool == 0 ) THEN |
---|
| 3731 | CALL shmem_real8_min_to_all (wintab_shmem,wintab_shmem, 1,0 & |
---|
| 3732 | ,0,N$PES,wi1wrk_shmem,ni1sync_shmem) |
---|
| 3733 | ELSE |
---|
| 3734 | CALL shmem_real8_min_to_all (wintab_shmem,wintab_shmem, 1,0 & |
---|
| 3735 | ,0,N$PES,wi2wrk_shmem,ni2sync_shmem) |
---|
| 3736 | ENDIF |
---|
| 3737 | CALL barrier() |
---|
| 3738 | ibool=ibool+1 |
---|
| 3739 | ibool=MOD( ibool,2) |
---|
| 3740 | ptab = wintab_shmem(1) |
---|
| 3741 | |
---|
| 3742 | # elif defined key_mpp_mpi |
---|
[13] | 3743 | |
---|
[3] | 3744 | !! * Local variables (MPI version) |
---|
| 3745 | INTEGER :: ierror |
---|
| 3746 | REAL(wp) :: zwork |
---|
[869] | 3747 | INTEGER :: localcomm |
---|
[3] | 3748 | |
---|
[869] | 3749 | localcomm = mpi_comm_opa |
---|
| 3750 | IF( PRESENT(kcom) ) localcomm = kcom |
---|
| 3751 | |
---|
[181] | 3752 | CALL mpi_allreduce( ptab, zwork, 1,mpi_double_precision & |
---|
[869] | 3753 | & ,mpi_min,localcomm,ierror) |
---|
[3] | 3754 | ptab = zwork |
---|
| 3755 | |
---|
| 3756 | #endif |
---|
| 3757 | |
---|
| 3758 | END SUBROUTINE mppmin_real |
---|
| 3759 | |
---|
| 3760 | |
---|
[869] | 3761 | SUBROUTINE mppsum_a_real( ptab, kdim, kcom ) |
---|
[3] | 3762 | !!---------------------------------------------------------------------- |
---|
| 3763 | !! *** routine mppsum_a_real *** |
---|
| 3764 | !! |
---|
| 3765 | !! ** Purpose : global sum in Massively Parallel Processing |
---|
| 3766 | !! REAL ARRAY argument case |
---|
| 3767 | !! |
---|
| 3768 | !!----------------------------------------------------------------------- |
---|
| 3769 | INTEGER , INTENT( in ) :: kdim ! size of ptab |
---|
| 3770 | REAL(wp), DIMENSION(kdim), INTENT( inout ) :: ptab ! input array |
---|
[888] | 3771 | INTEGER , INTENT( in ), OPTIONAL :: kcom |
---|
[3] | 3772 | |
---|
| 3773 | #if defined key_mpp_shmem |
---|
[13] | 3774 | |
---|
[3] | 3775 | !! * Local variables (SHMEM version) |
---|
| 3776 | INTEGER :: ji |
---|
| 3777 | INTEGER, SAVE :: ibool=0 |
---|
| 3778 | |
---|
[473] | 3779 | IF( kdim > jpmppsum ) CALL ctl_stop( 'mppsum_a_real routine : kdim is too big', & |
---|
| 3780 | & 'change jpmppsum dimension in mpp.h' ) |
---|
[3] | 3781 | |
---|
| 3782 | DO ji = 1, kdim |
---|
| 3783 | wrstab_shmem(ji) = ptab(ji) |
---|
| 3784 | END DO |
---|
| 3785 | CALL barrier() |
---|
| 3786 | IF(ibool == 0 ) THEN |
---|
| 3787 | CALL shmem_real8_sum_to_all (wrstab_shmem,wrstab_shmem,kdim,0 & |
---|
| 3788 | ,0,N$PES,wrs1wrk_shmem,nrs1sync_shmem ) |
---|
| 3789 | ELSE |
---|
| 3790 | CALL shmem_real8_sum_to_all (wrstab_shmem,wrstab_shmem,kdim,0 & |
---|
| 3791 | ,0,N$PES,wrs2wrk_shmem,nrs2sync_shmem ) |
---|
| 3792 | ENDIF |
---|
| 3793 | CALL barrier() |
---|
| 3794 | ibool=ibool+1 |
---|
| 3795 | ibool=MOD( ibool,2) |
---|
| 3796 | DO ji = 1, kdim |
---|
| 3797 | ptab(ji) = wrstab_shmem(ji) |
---|
| 3798 | END DO |
---|
| 3799 | |
---|
| 3800 | # elif defined key_mpp_mpi |
---|
[13] | 3801 | |
---|
[3] | 3802 | !! * Local variables (MPI version) |
---|
| 3803 | INTEGER :: ierror ! temporary integer |
---|
[869] | 3804 | INTEGER :: localcomm |
---|
[3] | 3805 | REAL(wp), DIMENSION(kdim) :: zwork ! temporary workspace |
---|
[869] | 3806 | |
---|
[3] | 3807 | |
---|
[869] | 3808 | localcomm = mpi_comm_opa |
---|
| 3809 | IF( PRESENT(kcom) ) localcomm = kcom |
---|
| 3810 | |
---|
[181] | 3811 | CALL mpi_allreduce(ptab, zwork,kdim,mpi_double_precision & |
---|
[869] | 3812 | & ,mpi_sum,localcomm,ierror) |
---|
[3] | 3813 | ptab(:) = zwork(:) |
---|
| 3814 | |
---|
| 3815 | #endif |
---|
| 3816 | |
---|
| 3817 | END SUBROUTINE mppsum_a_real |
---|
| 3818 | |
---|
| 3819 | |
---|
[869] | 3820 | SUBROUTINE mppsum_real( ptab, kcom ) |
---|
[3] | 3821 | !!---------------------------------------------------------------------- |
---|
| 3822 | !! *** routine mppsum_real *** |
---|
| 3823 | !! |
---|
| 3824 | !! ** Purpose : global sum in Massively Parallel Processing |
---|
| 3825 | !! SCALAR argument case |
---|
| 3826 | !! |
---|
| 3827 | !!----------------------------------------------------------------------- |
---|
| 3828 | REAL(wp), INTENT(inout) :: ptab ! input scalar |
---|
[888] | 3829 | INTEGER , INTENT( in ), OPTIONAL :: kcom |
---|
[3] | 3830 | |
---|
| 3831 | #if defined key_mpp_shmem |
---|
[13] | 3832 | |
---|
[3] | 3833 | !! * Local variables (SHMEM version) |
---|
| 3834 | INTEGER, SAVE :: ibool=0 |
---|
| 3835 | |
---|
| 3836 | wrstab_shmem(1) = ptab |
---|
| 3837 | CALL barrier() |
---|
| 3838 | IF(ibool == 0 ) THEN |
---|
| 3839 | CALL shmem_real8_sum_to_all (wrstab_shmem,wrstab_shmem, 1,0 & |
---|
| 3840 | ,0,N$PES,wrs1wrk_shmem,nrs1sync_shmem ) |
---|
| 3841 | ELSE |
---|
| 3842 | CALL shmem_real8_sum_to_all (wrstab_shmem,wrstab_shmem, 1,0 & |
---|
| 3843 | ,0,N$PES,wrs2wrk_shmem,nrs2sync_shmem ) |
---|
| 3844 | ENDIF |
---|
| 3845 | CALL barrier() |
---|
| 3846 | ibool = ibool + 1 |
---|
| 3847 | ibool = MOD( ibool, 2 ) |
---|
| 3848 | ptab = wrstab_shmem(1) |
---|
| 3849 | |
---|
| 3850 | # elif defined key_mpp_mpi |
---|
[13] | 3851 | |
---|
[3] | 3852 | !! * Local variables (MPI version) |
---|
| 3853 | INTEGER :: ierror |
---|
[869] | 3854 | INTEGER :: localcomm |
---|
[3] | 3855 | REAL(wp) :: zwork |
---|
| 3856 | |
---|
[869] | 3857 | localcomm = mpi_comm_opa |
---|
| 3858 | IF( PRESENT(kcom) ) localcomm = kcom |
---|
| 3859 | |
---|
| 3860 | CALL mpi_allreduce(ptab, zwork, 1,mpi_double_precision & |
---|
| 3861 | & ,mpi_sum,localcomm,ierror) |
---|
[3] | 3862 | ptab = zwork |
---|
| 3863 | |
---|
| 3864 | #endif |
---|
| 3865 | |
---|
| 3866 | END SUBROUTINE mppsum_real |
---|
| 3867 | |
---|
[181] | 3868 | SUBROUTINE mpp_minloc2d(ptab, pmask, pmin, ki,kj ) |
---|
| 3869 | !!------------------------------------------------------------------------ |
---|
| 3870 | !! *** routine mpp_minloc *** |
---|
| 3871 | !! |
---|
| 3872 | !! ** Purpose : Compute the global minimum of an array ptab |
---|
| 3873 | !! and also give its global position |
---|
| 3874 | !! |
---|
| 3875 | !! ** Method : Use MPI_ALLREDUCE with MPI_MINLOC |
---|
| 3876 | !! |
---|
| 3877 | !! ** Arguments : I : ptab =local 2D array |
---|
| 3878 | !! O : pmin = global minimum |
---|
| 3879 | !! O : ki,kj = global position of minimum |
---|
| 3880 | !! |
---|
| 3881 | !! ** Author : J.M. Molines 10/10/2004 |
---|
| 3882 | !!-------------------------------------------------------------------------- |
---|
| 3883 | #ifdef key_mpp_shmem |
---|
[473] | 3884 | CALL ctl_stop( ' mpp_minloc not yet available in SHMEM' ) |
---|
[181] | 3885 | # elif key_mpp_mpi |
---|
| 3886 | !! * Arguments |
---|
| 3887 | REAL(wp), DIMENSION (jpi,jpj), INTENT (in) :: ptab ,& ! Local 2D array |
---|
| 3888 | & pmask ! Local mask |
---|
| 3889 | REAL(wp) , INTENT (out) :: pmin ! Global minimum of ptab |
---|
| 3890 | INTEGER , INTENT (out) :: ki,kj ! index of minimum in global frame |
---|
[3] | 3891 | |
---|
[181] | 3892 | !! * Local variables |
---|
| 3893 | REAL(wp) :: zmin ! local minimum |
---|
| 3894 | REAL(wp) ,DIMENSION(2,1) :: zain, zaout |
---|
| 3895 | INTEGER, DIMENSION (2) :: ilocs |
---|
| 3896 | INTEGER :: ierror |
---|
| 3897 | |
---|
| 3898 | |
---|
| 3899 | zmin = MINVAL( ptab(:,:) , mask= pmask == 1.e0 ) |
---|
| 3900 | ilocs = MINLOC( ptab(:,:) , mask= pmask == 1.e0 ) |
---|
| 3901 | |
---|
| 3902 | ki = ilocs(1) + nimpp - 1 |
---|
| 3903 | kj = ilocs(2) + njmpp - 1 |
---|
| 3904 | |
---|
| 3905 | zain(1,:)=zmin |
---|
| 3906 | zain(2,:)=ki+10000.*kj |
---|
| 3907 | |
---|
[532] | 3908 | CALL MPI_ALLREDUCE( zain,zaout, 1, MPI_2DOUBLE_PRECISION,MPI_MINLOC,MPI_COMM_OPA,ierror) |
---|
[181] | 3909 | |
---|
| 3910 | pmin=zaout(1,1) |
---|
| 3911 | kj= INT(zaout(2,1)/10000.) |
---|
| 3912 | ki= INT(zaout(2,1) - 10000.*kj ) |
---|
| 3913 | #endif |
---|
| 3914 | |
---|
| 3915 | END SUBROUTINE mpp_minloc2d |
---|
| 3916 | |
---|
| 3917 | |
---|
| 3918 | SUBROUTINE mpp_minloc3d(ptab, pmask, pmin, ki,kj ,kk) |
---|
| 3919 | !!------------------------------------------------------------------------ |
---|
| 3920 | !! *** routine mpp_minloc *** |
---|
| 3921 | !! |
---|
| 3922 | !! ** Purpose : Compute the global minimum of an array ptab |
---|
| 3923 | !! and also give its global position |
---|
| 3924 | !! |
---|
| 3925 | !! ** Method : Use MPI_ALLREDUCE with MPI_MINLOC |
---|
| 3926 | !! |
---|
| 3927 | !! ** Arguments : I : ptab =local 2D array |
---|
| 3928 | !! O : pmin = global minimum |
---|
| 3929 | !! O : ki,kj = global position of minimum |
---|
| 3930 | !! |
---|
| 3931 | !! ** Author : J.M. Molines 10/10/2004 |
---|
| 3932 | !!-------------------------------------------------------------------------- |
---|
| 3933 | #ifdef key_mpp_shmem |
---|
[473] | 3934 | CALL ctl_stop( ' mpp_minloc not yet available in SHMEM' ) |
---|
[181] | 3935 | # elif key_mpp_mpi |
---|
| 3936 | !! * Arguments |
---|
| 3937 | REAL(wp), DIMENSION (jpi,jpj,jpk), INTENT (in) :: ptab ,& ! Local 2D array |
---|
| 3938 | & pmask ! Local mask |
---|
| 3939 | REAL(wp) , INTENT (out) :: pmin ! Global minimum of ptab |
---|
| 3940 | INTEGER , INTENT (out) :: ki,kj,kk ! index of minimum in global frame |
---|
| 3941 | |
---|
| 3942 | !! * Local variables |
---|
| 3943 | REAL(wp) :: zmin ! local minimum |
---|
| 3944 | REAL(wp) ,DIMENSION(2,1) :: zain, zaout |
---|
| 3945 | INTEGER, DIMENSION (3) :: ilocs |
---|
| 3946 | INTEGER :: ierror |
---|
| 3947 | |
---|
| 3948 | |
---|
| 3949 | zmin = MINVAL( ptab(:,:,:) , mask= pmask == 1.e0 ) |
---|
| 3950 | ilocs = MINLOC( ptab(:,:,:) , mask= pmask == 1.e0 ) |
---|
| 3951 | |
---|
| 3952 | ki = ilocs(1) + nimpp - 1 |
---|
| 3953 | kj = ilocs(2) + njmpp - 1 |
---|
| 3954 | kk = ilocs(3) |
---|
| 3955 | |
---|
| 3956 | zain(1,:)=zmin |
---|
| 3957 | zain(2,:)=ki+10000.*kj+100000000.*kk |
---|
| 3958 | |
---|
[532] | 3959 | CALL MPI_ALLREDUCE( zain,zaout, 1, MPI_2DOUBLE_PRECISION,MPI_MINLOC,MPI_COMM_OPA,ierror) |
---|
[181] | 3960 | |
---|
| 3961 | pmin=zaout(1,1) |
---|
| 3962 | kk= INT(zaout(2,1)/100000000.) |
---|
| 3963 | kj= INT(zaout(2,1) - kk * 100000000. )/10000 |
---|
| 3964 | ki= INT(zaout(2,1) - kk * 100000000. -kj * 10000. ) |
---|
| 3965 | #endif |
---|
| 3966 | |
---|
| 3967 | END SUBROUTINE mpp_minloc3d |
---|
| 3968 | |
---|
| 3969 | |
---|
| 3970 | SUBROUTINE mpp_maxloc2d(ptab, pmask, pmax, ki,kj ) |
---|
| 3971 | !!------------------------------------------------------------------------ |
---|
| 3972 | !! *** routine mpp_maxloc *** |
---|
| 3973 | !! |
---|
| 3974 | !! ** Purpose : Compute the global maximum of an array ptab |
---|
| 3975 | !! and also give its global position |
---|
| 3976 | !! |
---|
| 3977 | !! ** Method : Use MPI_ALLREDUCE with MPI_MINLOC |
---|
| 3978 | !! |
---|
| 3979 | !! ** Arguments : I : ptab =local 2D array |
---|
| 3980 | !! O : pmax = global maximum |
---|
| 3981 | !! O : ki,kj = global position of maximum |
---|
| 3982 | !! |
---|
| 3983 | !! ** Author : J.M. Molines 10/10/2004 |
---|
| 3984 | !!-------------------------------------------------------------------------- |
---|
| 3985 | #ifdef key_mpp_shmem |
---|
[473] | 3986 | CALL ctl_stop( ' mpp_maxloc not yet available in SHMEM' ) |
---|
[181] | 3987 | # elif key_mpp_mpi |
---|
| 3988 | !! * Arguments |
---|
| 3989 | REAL(wp), DIMENSION (jpi,jpj), INTENT (in) :: ptab ,& ! Local 2D array |
---|
| 3990 | & pmask ! Local mask |
---|
| 3991 | REAL(wp) , INTENT (out) :: pmax ! Global maximum of ptab |
---|
| 3992 | INTEGER , INTENT (out) :: ki,kj ! index of maximum in global frame |
---|
| 3993 | |
---|
| 3994 | !! * Local variables |
---|
| 3995 | REAL(wp) :: zmax ! local maximum |
---|
| 3996 | REAL(wp) ,DIMENSION(2,1) :: zain, zaout |
---|
| 3997 | INTEGER, DIMENSION (2) :: ilocs |
---|
| 3998 | INTEGER :: ierror |
---|
| 3999 | |
---|
| 4000 | |
---|
| 4001 | zmax = MAXVAL( ptab(:,:) , mask= pmask == 1.e0 ) |
---|
| 4002 | ilocs = MAXLOC( ptab(:,:) , mask= pmask == 1.e0 ) |
---|
| 4003 | |
---|
| 4004 | ki = ilocs(1) + nimpp - 1 |
---|
| 4005 | kj = ilocs(2) + njmpp - 1 |
---|
| 4006 | |
---|
| 4007 | zain(1,:)=zmax |
---|
| 4008 | zain(2,:)=ki+10000.*kj |
---|
| 4009 | |
---|
[532] | 4010 | CALL MPI_ALLREDUCE( zain,zaout, 1, MPI_2DOUBLE_PRECISION,MPI_MAXLOC,MPI_COMM_OPA,ierror) |
---|
[181] | 4011 | |
---|
| 4012 | pmax=zaout(1,1) |
---|
| 4013 | kj= INT(zaout(2,1)/10000.) |
---|
| 4014 | ki= INT(zaout(2,1) - 10000.*kj ) |
---|
| 4015 | #endif |
---|
| 4016 | |
---|
| 4017 | END SUBROUTINE mpp_maxloc2d |
---|
| 4018 | |
---|
| 4019 | SUBROUTINE mpp_maxloc3d(ptab, pmask, pmax, ki,kj,kk ) |
---|
| 4020 | !!------------------------------------------------------------------------ |
---|
| 4021 | !! *** routine mpp_maxloc *** |
---|
| 4022 | !! |
---|
| 4023 | !! ** Purpose : Compute the global maximum of an array ptab |
---|
| 4024 | !! and also give its global position |
---|
| 4025 | !! |
---|
| 4026 | !! ** Method : Use MPI_ALLREDUCE with MPI_MINLOC |
---|
| 4027 | !! |
---|
| 4028 | !! ** Arguments : I : ptab =local 2D array |
---|
| 4029 | !! O : pmax = global maximum |
---|
| 4030 | !! O : ki,kj = global position of maximum |
---|
| 4031 | !! |
---|
| 4032 | !! ** Author : J.M. Molines 10/10/2004 |
---|
| 4033 | !!-------------------------------------------------------------------------- |
---|
| 4034 | #ifdef key_mpp_shmem |
---|
[473] | 4035 | CALL ctl_stop( ' mpp_maxloc not yet available in SHMEM' ) |
---|
[181] | 4036 | # elif key_mpp_mpi |
---|
| 4037 | !! * Arguments |
---|
| 4038 | REAL(wp), DIMENSION (jpi,jpj,jpk), INTENT (in) :: ptab ,& ! Local 2D array |
---|
| 4039 | & pmask ! Local mask |
---|
| 4040 | REAL(wp) , INTENT (out) :: pmax ! Global maximum of ptab |
---|
| 4041 | INTEGER , INTENT (out) :: ki,kj,kk ! index of maximum in global frame |
---|
| 4042 | |
---|
| 4043 | !! * Local variables |
---|
| 4044 | REAL(wp) :: zmax ! local maximum |
---|
| 4045 | REAL(wp) ,DIMENSION(2,1) :: zain, zaout |
---|
| 4046 | INTEGER, DIMENSION (3) :: ilocs |
---|
| 4047 | INTEGER :: ierror |
---|
| 4048 | |
---|
| 4049 | |
---|
| 4050 | zmax = MAXVAL( ptab(:,:,:) , mask= pmask == 1.e0 ) |
---|
| 4051 | ilocs = MAXLOC( ptab(:,:,:) , mask= pmask == 1.e0 ) |
---|
| 4052 | |
---|
| 4053 | ki = ilocs(1) + nimpp - 1 |
---|
| 4054 | kj = ilocs(2) + njmpp - 1 |
---|
| 4055 | kk = ilocs(3) |
---|
| 4056 | |
---|
| 4057 | zain(1,:)=zmax |
---|
| 4058 | zain(2,:)=ki+10000.*kj+100000000.*kk |
---|
| 4059 | |
---|
[532] | 4060 | CALL MPI_ALLREDUCE( zain,zaout, 1, MPI_2DOUBLE_PRECISION,MPI_MAXLOC,MPI_COMM_OPA,ierror) |
---|
[181] | 4061 | |
---|
| 4062 | pmax=zaout(1,1) |
---|
| 4063 | kk= INT(zaout(2,1)/100000000.) |
---|
| 4064 | kj= INT(zaout(2,1) - kk * 100000000. )/10000 |
---|
| 4065 | ki= INT(zaout(2,1) - kk * 100000000. -kj * 10000. ) |
---|
| 4066 | #endif |
---|
| 4067 | |
---|
| 4068 | END SUBROUTINE mpp_maxloc3d |
---|
| 4069 | |
---|
[3] | 4070 | SUBROUTINE mppsync() |
---|
| 4071 | !!---------------------------------------------------------------------- |
---|
| 4072 | !! *** routine mppsync *** |
---|
| 4073 | !! |
---|
| 4074 | !! ** Purpose : Massively parallel processors, synchroneous |
---|
| 4075 | !! |
---|
| 4076 | !!----------------------------------------------------------------------- |
---|
| 4077 | |
---|
| 4078 | #if defined key_mpp_shmem |
---|
[13] | 4079 | |
---|
[3] | 4080 | !! * Local variables (SHMEM version) |
---|
| 4081 | CALL barrier() |
---|
| 4082 | |
---|
| 4083 | # elif defined key_mpp_mpi |
---|
[13] | 4084 | |
---|
[3] | 4085 | !! * Local variables (MPI version) |
---|
| 4086 | INTEGER :: ierror |
---|
| 4087 | |
---|
[532] | 4088 | CALL mpi_barrier(mpi_comm_opa,ierror) |
---|
[3] | 4089 | |
---|
| 4090 | #endif |
---|
| 4091 | |
---|
| 4092 | END SUBROUTINE mppsync |
---|
| 4093 | |
---|
| 4094 | |
---|
| 4095 | SUBROUTINE mppstop |
---|
| 4096 | !!---------------------------------------------------------------------- |
---|
| 4097 | !! *** routine mppstop *** |
---|
| 4098 | !! |
---|
| 4099 | !! ** purpose : Stop massilively parallel processors method |
---|
| 4100 | !! |
---|
| 4101 | !!---------------------------------------------------------------------- |
---|
| 4102 | !! * Local declarations |
---|
[51] | 4103 | INTEGER :: info |
---|
[3] | 4104 | !!---------------------------------------------------------------------- |
---|
| 4105 | |
---|
[219] | 4106 | ! 1. Mpp synchroneus |
---|
[3] | 4107 | ! ------------------ |
---|
| 4108 | |
---|
| 4109 | CALL mppsync |
---|
[13] | 4110 | #if defined key_mpp_mpi |
---|
[51] | 4111 | CALL mpi_finalize( info ) |
---|
[13] | 4112 | #endif |
---|
[3] | 4113 | |
---|
| 4114 | END SUBROUTINE mppstop |
---|
| 4115 | |
---|
| 4116 | |
---|
| 4117 | SUBROUTINE mppobc( ptab, kd1, kd2, kl, kk, ktype, kij ) |
---|
| 4118 | !!---------------------------------------------------------------------- |
---|
| 4119 | !! *** routine mppobc *** |
---|
| 4120 | !! |
---|
| 4121 | !! ** Purpose : Message passing manadgement for open boundary |
---|
| 4122 | !! conditions array |
---|
| 4123 | !! |
---|
| 4124 | !! ** Method : Use mppsend and mpprecv function for passing mask |
---|
| 4125 | !! between processors following neighboring subdomains. |
---|
| 4126 | !! domain parameters |
---|
| 4127 | !! nlci : first dimension of the local subdomain |
---|
| 4128 | !! nlcj : second dimension of the local subdomain |
---|
| 4129 | !! nbondi : mark for "east-west local boundary" |
---|
| 4130 | !! nbondj : mark for "north-south local boundary" |
---|
| 4131 | !! noea : number for local neighboring processors |
---|
| 4132 | !! nowe : number for local neighboring processors |
---|
| 4133 | !! noso : number for local neighboring processors |
---|
| 4134 | !! nono : number for local neighboring processors |
---|
| 4135 | !! |
---|
| 4136 | !! History : |
---|
| 4137 | !! ! 98-07 (J.M. Molines) Open boundary conditions |
---|
| 4138 | !!---------------------------------------------------------------------- |
---|
| 4139 | !! * Arguments |
---|
| 4140 | INTEGER , INTENT( in ) :: & |
---|
| 4141 | kd1, kd2, & ! starting and ending indices |
---|
| 4142 | kl , & ! index of open boundary |
---|
| 4143 | kk, & ! vertical dimension |
---|
| 4144 | ktype, & ! define north/south or east/west cdt |
---|
| 4145 | ! ! = 1 north/south ; = 2 east/west |
---|
| 4146 | kij ! horizontal dimension |
---|
| 4147 | REAL(wp), DIMENSION(kij,kk), INTENT( inout ) :: & |
---|
| 4148 | ptab ! variable array |
---|
| 4149 | |
---|
| 4150 | !! * Local variables |
---|
| 4151 | INTEGER :: ji, jj, jk, jl ! dummy loop indices |
---|
| 4152 | INTEGER :: & |
---|
[13] | 4153 | iipt0, iipt1, ilpt1, & ! temporary integers |
---|
| 4154 | ijpt0, ijpt1, & ! " " |
---|
[3] | 4155 | imigr, iihom, ijhom ! " " |
---|
[181] | 4156 | INTEGER :: ml_req1, ml_req2, ml_err ! for key_mpi_isend |
---|
| 4157 | INTEGER :: ml_stat(MPI_STATUS_SIZE) ! for key_mpi_isend |
---|
[3] | 4158 | REAL(wp), DIMENSION(jpi,jpj) :: & |
---|
| 4159 | ztab ! temporary workspace |
---|
| 4160 | !!---------------------------------------------------------------------- |
---|
| 4161 | |
---|
| 4162 | |
---|
| 4163 | ! boundary condition initialization |
---|
| 4164 | ! --------------------------------- |
---|
| 4165 | |
---|
| 4166 | ztab(:,:) = 0.e0 |
---|
| 4167 | |
---|
| 4168 | IF( ktype==1 ) THEN ! north/south boundaries |
---|
| 4169 | iipt0 = MAX( 1, MIN(kd1 - nimpp+1, nlci ) ) |
---|
| 4170 | iipt1 = MAX( 0, MIN(kd2 - nimpp+1, nlci - 1 ) ) |
---|
| 4171 | ilpt1 = MAX( 1, MIN(kd2 - nimpp+1, nlci ) ) |
---|
| 4172 | ijpt0 = MAX( 1, MIN(kl - njmpp+1, nlcj ) ) |
---|
| 4173 | ijpt1 = MAX( 0, MIN(kl - njmpp+1, nlcj - 1 ) ) |
---|
| 4174 | ELSEIF( ktype==2 ) THEN ! east/west boundaries |
---|
| 4175 | iipt0 = MAX( 1, MIN(kl - nimpp+1, nlci ) ) |
---|
| 4176 | iipt1 = MAX( 0, MIN(kl - nimpp+1, nlci - 1 ) ) |
---|
| 4177 | ijpt0 = MAX( 1, MIN(kd1 - njmpp+1, nlcj ) ) |
---|
| 4178 | ijpt1 = MAX( 0, MIN(kd2 - njmpp+1, nlcj - 1 ) ) |
---|
| 4179 | ilpt1 = MAX( 1, MIN(kd2 - njmpp+1, nlcj ) ) |
---|
| 4180 | ELSE |
---|
[473] | 4181 | CALL ctl_stop( 'mppobc: bad ktype' ) |
---|
[3] | 4182 | ENDIF |
---|
| 4183 | |
---|
| 4184 | DO jk = 1, kk |
---|
| 4185 | IF( ktype==1 ) THEN ! north/south boundaries |
---|
| 4186 | DO jj = ijpt0, ijpt1 |
---|
| 4187 | DO ji = iipt0, iipt1 |
---|
| 4188 | ztab(ji,jj) = ptab(ji,jk) |
---|
| 4189 | END DO |
---|
| 4190 | END DO |
---|
| 4191 | ELSEIF( ktype==2 ) THEN ! east/west boundaries |
---|
| 4192 | DO jj = ijpt0, ijpt1 |
---|
| 4193 | DO ji = iipt0, iipt1 |
---|
| 4194 | ztab(ji,jj) = ptab(jj,jk) |
---|
| 4195 | END DO |
---|
| 4196 | END DO |
---|
| 4197 | ENDIF |
---|
| 4198 | |
---|
| 4199 | |
---|
| 4200 | ! 1. East and west directions |
---|
| 4201 | ! --------------------------- |
---|
| 4202 | |
---|
| 4203 | ! 1.1 Read Dirichlet lateral conditions |
---|
| 4204 | |
---|
| 4205 | IF( nbondi /= 2 ) THEN |
---|
| 4206 | iihom = nlci-nreci |
---|
| 4207 | |
---|
| 4208 | DO jl = 1, jpreci |
---|
| 4209 | t2ew(:,jl,1) = ztab(jpreci+jl,:) |
---|
| 4210 | t2we(:,jl,1) = ztab(iihom +jl,:) |
---|
| 4211 | END DO |
---|
| 4212 | ENDIF |
---|
| 4213 | |
---|
| 4214 | ! 1.2 Migrations |
---|
| 4215 | |
---|
| 4216 | #if defined key_mpp_shmem |
---|
| 4217 | !! * (SHMEM version) |
---|
| 4218 | imigr=jpreci*jpj*jpbyt |
---|
| 4219 | |
---|
| 4220 | IF( nbondi == -1 ) THEN |
---|
| 4221 | CALL shmem_put( t2we(1,1,2), t2we(1,1,1), imigr/jpbyt, noea ) |
---|
| 4222 | ELSEIF( nbondi == 0 ) THEN |
---|
| 4223 | CALL shmem_put( t2ew(1,1,2), t2ew(1,1,1), imigr/jpbyt, nowe ) |
---|
| 4224 | CALL shmem_put( t2we(1,1,2), t2we(1,1,1), imigr/jpbyt, noea ) |
---|
| 4225 | ELSEIF( nbondi == 1 ) THEN |
---|
| 4226 | CALL shmem_put( t2ew(1,1,2), t2ew(1,1,1), imigr/jpbyt, nowe ) |
---|
| 4227 | ENDIF |
---|
| 4228 | CALL barrier() |
---|
| 4229 | CALL shmem_udcflush() |
---|
| 4230 | |
---|
| 4231 | # elif key_mpp_mpi |
---|
| 4232 | !! * (MPI version) |
---|
| 4233 | |
---|
| 4234 | imigr=jpreci*jpj |
---|
| 4235 | |
---|
| 4236 | IF( nbondi == -1 ) THEN |
---|
[181] | 4237 | CALL mppsend(2,t2we(1,1,1),imigr,noea, ml_req1) |
---|
[3] | 4238 | CALL mpprecv(1,t2ew(1,1,2),imigr) |
---|
[300] | 4239 | IF(l_isend) CALL mpi_wait(ml_req1,ml_stat,ml_err) |
---|
[3] | 4240 | ELSEIF( nbondi == 0 ) THEN |
---|
[181] | 4241 | CALL mppsend(1,t2ew(1,1,1),imigr,nowe, ml_req1) |
---|
| 4242 | CALL mppsend(2,t2we(1,1,1),imigr,noea, ml_req2) |
---|
[3] | 4243 | CALL mpprecv(1,t2ew(1,1,2),imigr) |
---|
| 4244 | CALL mpprecv(2,t2we(1,1,2),imigr) |
---|
[300] | 4245 | IF(l_isend) CALL mpi_wait(ml_req1,ml_stat,ml_err) |
---|
| 4246 | IF(l_isend) CALL mpi_wait(ml_req2,ml_stat,ml_err) |
---|
[3] | 4247 | ELSEIF( nbondi == 1 ) THEN |
---|
[181] | 4248 | CALL mppsend(1,t2ew(1,1,1),imigr,nowe, ml_req1) |
---|
[3] | 4249 | CALL mpprecv(2,t2we(1,1,2),imigr) |
---|
[300] | 4250 | IF(l_isend) CALL mpi_wait(ml_req1,ml_stat,ml_err) |
---|
[3] | 4251 | ENDIF |
---|
| 4252 | #endif |
---|
| 4253 | |
---|
| 4254 | |
---|
| 4255 | ! 1.3 Write Dirichlet lateral conditions |
---|
| 4256 | |
---|
| 4257 | iihom = nlci-jpreci |
---|
| 4258 | IF( nbondi == 0 .OR. nbondi == 1 ) THEN |
---|
| 4259 | DO jl = 1, jpreci |
---|
| 4260 | ztab(jl,:) = t2we(:,jl,2) |
---|
| 4261 | END DO |
---|
| 4262 | ENDIF |
---|
| 4263 | |
---|
| 4264 | IF( nbondi == -1 .OR. nbondi == 0 ) THEN |
---|
| 4265 | DO jl = 1, jpreci |
---|
| 4266 | ztab(iihom+jl,:) = t2ew(:,jl,2) |
---|
| 4267 | END DO |
---|
| 4268 | ENDIF |
---|
| 4269 | |
---|
| 4270 | |
---|
| 4271 | ! 2. North and south directions |
---|
| 4272 | ! ----------------------------- |
---|
| 4273 | |
---|
| 4274 | ! 2.1 Read Dirichlet lateral conditions |
---|
| 4275 | |
---|
| 4276 | IF( nbondj /= 2 ) THEN |
---|
| 4277 | ijhom = nlcj-nrecj |
---|
| 4278 | DO jl = 1, jprecj |
---|
| 4279 | t2sn(:,jl,1) = ztab(:,ijhom +jl) |
---|
| 4280 | t2ns(:,jl,1) = ztab(:,jprecj+jl) |
---|
| 4281 | END DO |
---|
| 4282 | ENDIF |
---|
| 4283 | |
---|
| 4284 | ! 2.2 Migrations |
---|
| 4285 | |
---|
| 4286 | #if defined key_mpp_shmem |
---|
| 4287 | !! * SHMEM version |
---|
| 4288 | |
---|
| 4289 | imigr=jprecj*jpi*jpbyt |
---|
| 4290 | |
---|
| 4291 | IF( nbondj == -1 ) THEN |
---|
| 4292 | CALL shmem_put( t2sn(1,1,2), t2sn(1,1,1), imigr/jpbyt, nono ) |
---|
| 4293 | ELSEIF( nbondj == 0 ) THEN |
---|
| 4294 | CALL shmem_put( t2ns(1,1,2), t2ns(1,1,1), imigr/jpbyt, noso ) |
---|
| 4295 | CALL shmem_put( t2sn(1,1,2), t2sn(1,1,1), imigr/jpbyt, nono ) |
---|
| 4296 | ELSEIF( nbondj == 1 ) THEN |
---|
| 4297 | CALL shmem_put( t2ns(1,1,2), t2ns(1,1,1), imigr/jpbyt, noso ) |
---|
| 4298 | ENDIF |
---|
| 4299 | CALL barrier() |
---|
| 4300 | CALL shmem_udcflush() |
---|
| 4301 | |
---|
| 4302 | # elif key_mpp_mpi |
---|
| 4303 | !! * Local variables (MPI version) |
---|
| 4304 | |
---|
| 4305 | imigr=jprecj*jpi |
---|
| 4306 | |
---|
| 4307 | IF( nbondj == -1 ) THEN |
---|
[181] | 4308 | CALL mppsend(4,t2sn(1,1,1),imigr,nono, ml_req1) |
---|
[3] | 4309 | CALL mpprecv(3,t2ns(1,1,2),imigr) |
---|
[300] | 4310 | IF(l_isend) CALL mpi_wait(ml_req1,ml_stat,ml_err) |
---|
[3] | 4311 | ELSEIF( nbondj == 0 ) THEN |
---|
[181] | 4312 | CALL mppsend(3,t2ns(1,1,1),imigr,noso, ml_req1) |
---|
| 4313 | CALL mppsend(4,t2sn(1,1,1),imigr,nono, ml_req2) |
---|
[3] | 4314 | CALL mpprecv(3,t2ns(1,1,2),imigr) |
---|
| 4315 | CALL mpprecv(4,t2sn(1,1,2),imigr) |
---|
[300] | 4316 | IF(l_isend) CALL mpi_wait(ml_req1,ml_stat,ml_err) |
---|
| 4317 | IF(l_isend) CALL mpi_wait(ml_req2,ml_stat,ml_err) |
---|
[3] | 4318 | ELSEIF( nbondj == 1 ) THEN |
---|
[181] | 4319 | CALL mppsend(3,t2ns(1,1,1),imigr,noso, ml_req1) |
---|
[3] | 4320 | CALL mpprecv(4,t2sn(1,1,2),imigr) |
---|
[300] | 4321 | IF(l_isend) CALL mpi_wait(ml_req1,ml_stat,ml_err) |
---|
[3] | 4322 | ENDIF |
---|
| 4323 | |
---|
| 4324 | #endif |
---|
| 4325 | |
---|
| 4326 | ! 2.3 Write Dirichlet lateral conditions |
---|
| 4327 | |
---|
| 4328 | ijhom = nlcj - jprecj |
---|
| 4329 | IF( nbondj == 0 .OR. nbondj == 1 ) THEN |
---|
| 4330 | DO jl = 1, jprecj |
---|
| 4331 | ztab(:,jl) = t2sn(:,jl,2) |
---|
| 4332 | END DO |
---|
| 4333 | ENDIF |
---|
| 4334 | |
---|
| 4335 | IF( nbondj == 0 .OR. nbondj == -1 ) THEN |
---|
| 4336 | DO jl = 1, jprecj |
---|
| 4337 | ztab(:,ijhom+jl) = t2ns(:,jl,2) |
---|
| 4338 | END DO |
---|
| 4339 | ENDIF |
---|
| 4340 | |
---|
| 4341 | IF( ktype==1 .AND. kd1 <= jpi+nimpp-1 .AND. nimpp <= kd2 ) THEN |
---|
| 4342 | ! north/south boundaries |
---|
| 4343 | DO jj = ijpt0,ijpt1 |
---|
| 4344 | DO ji = iipt0,ilpt1 |
---|
| 4345 | ptab(ji,jk) = ztab(ji,jj) |
---|
| 4346 | END DO |
---|
| 4347 | END DO |
---|
| 4348 | ELSEIF( ktype==2 .AND. kd1 <= jpj+njmpp-1 .AND. njmpp <= kd2 ) THEN |
---|
| 4349 | ! east/west boundaries |
---|
| 4350 | DO jj = ijpt0,ilpt1 |
---|
| 4351 | DO ji = iipt0,iipt1 |
---|
| 4352 | ptab(jj,jk) = ztab(ji,jj) |
---|
| 4353 | END DO |
---|
| 4354 | END DO |
---|
| 4355 | ENDIF |
---|
| 4356 | |
---|
| 4357 | END DO |
---|
| 4358 | |
---|
| 4359 | END SUBROUTINE mppobc |
---|
| 4360 | |
---|
[869] | 4361 | SUBROUTINE mpp_comm_free( kcom) |
---|
[13] | 4362 | |
---|
[869] | 4363 | INTEGER, INTENT(in) :: kcom |
---|
| 4364 | INTEGER :: ierr |
---|
| 4365 | |
---|
| 4366 | CALL MPI_COMM_FREE(kcom, ierr) |
---|
| 4367 | |
---|
| 4368 | END SUBROUTINE mpp_comm_free |
---|
| 4369 | |
---|
| 4370 | |
---|
| 4371 | SUBROUTINE mpp_ini_ice(pindic) |
---|
| 4372 | !!---------------------------------------------------------------------- |
---|
| 4373 | !! *** routine mpp_ini_ice *** |
---|
| 4374 | !! |
---|
| 4375 | !! ** Purpose : Initialize special communicator for ice areas |
---|
| 4376 | !! condition together with global variables needed in the ddmpp folding |
---|
| 4377 | !! |
---|
| 4378 | !! ** Method : - Look for ice processors in ice routines |
---|
| 4379 | !! - Put their number in nrank_ice |
---|
| 4380 | !! - Create groups for the world processors and the ice processors |
---|
| 4381 | !! - Create a communicator for ice processors |
---|
| 4382 | !! |
---|
| 4383 | !! ** output |
---|
| 4384 | !! njmppmax = njmpp for northern procs |
---|
| 4385 | !! ndim_rank_ice = number of processors in the northern line |
---|
| 4386 | !! nrank_north (ndim_rank_north) = number of the northern procs. |
---|
| 4387 | !! ngrp_world = group ID for the world processors |
---|
| 4388 | !! ngrp_ice = group ID for the ice processors |
---|
| 4389 | !! ncomm_ice = communicator for the ice procs. |
---|
| 4390 | !! n_ice_root = number (in the world) of proc 0 in the ice comm. |
---|
| 4391 | !! |
---|
| 4392 | !! History : |
---|
| 4393 | !! ! 03-09 (J.M. Molines, MPI only ) |
---|
| 4394 | !!---------------------------------------------------------------------- |
---|
| 4395 | #ifdef key_mpp_shmem |
---|
| 4396 | CALL ctl_stop( ' mpp_ini_ice not available in SHMEM' ) |
---|
| 4397 | # elif key_mpp_mpi |
---|
| 4398 | INTEGER, INTENT(in) :: pindic |
---|
| 4399 | INTEGER :: ierr |
---|
| 4400 | INTEGER :: jproc |
---|
| 4401 | INTEGER :: ii,ji |
---|
| 4402 | INTEGER, DIMENSION(jpnij) :: kice |
---|
| 4403 | INTEGER, DIMENSION(jpnij) :: zwork |
---|
| 4404 | INTEGER :: zrank |
---|
| 4405 | !!---------------------------------------------------------------------- |
---|
| 4406 | |
---|
| 4407 | ! Look for how many procs with sea-ice |
---|
| 4408 | ! |
---|
| 4409 | kice = 0 |
---|
| 4410 | DO jproc=1,jpnij |
---|
| 4411 | IF(jproc == narea .AND. pindic .GT. 0) THEN |
---|
| 4412 | kice(jproc) = 1 |
---|
| 4413 | ENDIF |
---|
| 4414 | END DO |
---|
| 4415 | |
---|
| 4416 | zwork = 0 |
---|
| 4417 | CALL MPI_ALLREDUCE( kice, zwork,jpnij, mpi_integer, & |
---|
| 4418 | mpi_sum, mpi_comm_opa, ierr ) |
---|
| 4419 | ndim_rank_ice = sum(zwork) |
---|
| 4420 | |
---|
| 4421 | ! Allocate the right size to nrank_north |
---|
| 4422 | IF(ALLOCATED(nrank_ice)) DEALLOCATE(nrank_ice) |
---|
| 4423 | ALLOCATE(nrank_ice(ndim_rank_ice)) |
---|
| 4424 | |
---|
| 4425 | ii = 0 |
---|
| 4426 | nrank_ice = 0 |
---|
| 4427 | DO jproc=1,jpnij |
---|
| 4428 | IF(zwork(jproc) == 1) THEN |
---|
| 4429 | ii = ii + 1 |
---|
| 4430 | nrank_ice(ii) = jproc -1 |
---|
| 4431 | ENDIF |
---|
| 4432 | END DO |
---|
| 4433 | |
---|
| 4434 | ! Create the world group |
---|
| 4435 | CALL MPI_COMM_GROUP(mpi_comm_opa,ngrp_world,ierr) |
---|
| 4436 | |
---|
| 4437 | ! Create the ice group from the world group |
---|
| 4438 | CALL MPI_GROUP_INCL(ngrp_world,ndim_rank_ice,nrank_ice,ngrp_ice,ierr) |
---|
| 4439 | |
---|
| 4440 | ! Create the ice communicator , ie the pool of procs with sea-ice |
---|
| 4441 | CALL MPI_COMM_CREATE(mpi_comm_opa,ngrp_ice,ncomm_ice,ierr) |
---|
| 4442 | |
---|
| 4443 | ! Find proc number in the world of proc 0 in the north |
---|
| 4444 | CALL MPI_GROUP_TRANSLATE_RANKS(ngrp_ice,1,0,ngrp_world,n_ice_root,ierr) |
---|
| 4445 | #endif |
---|
| 4446 | |
---|
| 4447 | END SUBROUTINE mpp_ini_ice |
---|
| 4448 | |
---|
| 4449 | |
---|
[3] | 4450 | SUBROUTINE mpp_ini_north |
---|
| 4451 | !!---------------------------------------------------------------------- |
---|
| 4452 | !! *** routine mpp_ini_north *** |
---|
[51] | 4453 | !! |
---|
[13] | 4454 | !! ** Purpose : Initialize special communicator for north folding |
---|
| 4455 | !! condition together with global variables needed in the mpp folding |
---|
[3] | 4456 | !! |
---|
[13] | 4457 | !! ** Method : - Look for northern processors |
---|
| 4458 | !! - Put their number in nrank_north |
---|
| 4459 | !! - Create groups for the world processors and the north processors |
---|
| 4460 | !! - Create a communicator for northern processors |
---|
[3] | 4461 | !! |
---|
| 4462 | !! ** output |
---|
| 4463 | !! njmppmax = njmpp for northern procs |
---|
| 4464 | !! ndim_rank_north = number of processors in the northern line |
---|
| 4465 | !! nrank_north (ndim_rank_north) = number of the northern procs. |
---|
| 4466 | !! ngrp_world = group ID for the world processors |
---|
| 4467 | !! ngrp_north = group ID for the northern processors |
---|
| 4468 | !! ncomm_north = communicator for the northern procs. |
---|
| 4469 | !! north_root = number (in the world) of proc 0 in the northern comm. |
---|
| 4470 | !! |
---|
| 4471 | !! History : |
---|
| 4472 | !! ! 03-09 (J.M. Molines, MPI only ) |
---|
| 4473 | !!---------------------------------------------------------------------- |
---|
| 4474 | #ifdef key_mpp_shmem |
---|
[473] | 4475 | CALL ctl_stop( ' mpp_ini_north not available in SHMEM' ) |
---|
[3] | 4476 | # elif key_mpp_mpi |
---|
| 4477 | INTEGER :: ierr |
---|
| 4478 | INTEGER :: jproc |
---|
| 4479 | INTEGER :: ii,ji |
---|
[13] | 4480 | !!---------------------------------------------------------------------- |
---|
[3] | 4481 | |
---|
| 4482 | njmppmax=MAXVAL(njmppt) |
---|
| 4483 | |
---|
| 4484 | ! Look for how many procs on the northern boundary |
---|
| 4485 | ! |
---|
| 4486 | ndim_rank_north=0 |
---|
| 4487 | DO jproc=1,jpnij |
---|
| 4488 | IF ( njmppt(jproc) == njmppmax ) THEN |
---|
| 4489 | ndim_rank_north = ndim_rank_north + 1 |
---|
| 4490 | END IF |
---|
| 4491 | END DO |
---|
| 4492 | |
---|
| 4493 | |
---|
| 4494 | ! Allocate the right size to nrank_north |
---|
| 4495 | ! |
---|
| 4496 | ALLOCATE(nrank_north(ndim_rank_north)) |
---|
| 4497 | |
---|
| 4498 | ! Fill the nrank_north array with proc. number of northern procs. |
---|
| 4499 | ! Note : the rank start at 0 in MPI |
---|
| 4500 | ! |
---|
| 4501 | ii=0 |
---|
[13] | 4502 | DO ji = 1, jpnij |
---|
[3] | 4503 | IF ( njmppt(ji) == njmppmax ) THEN |
---|
| 4504 | ii=ii+1 |
---|
| 4505 | nrank_north(ii)=ji-1 |
---|
| 4506 | END IF |
---|
| 4507 | END DO |
---|
| 4508 | ! create the world group |
---|
| 4509 | ! |
---|
[532] | 4510 | CALL MPI_COMM_GROUP(mpi_comm_opa,ngrp_world,ierr) |
---|
[3] | 4511 | ! |
---|
| 4512 | ! Create the North group from the world group |
---|
| 4513 | CALL MPI_GROUP_INCL(ngrp_world,ndim_rank_north,nrank_north,ngrp_north,ierr) |
---|
| 4514 | |
---|
| 4515 | ! Create the North communicator , ie the pool of procs in the north group |
---|
| 4516 | ! |
---|
[532] | 4517 | CALL MPI_COMM_CREATE(mpi_comm_opa,ngrp_north,ncomm_north,ierr) |
---|
[3] | 4518 | |
---|
| 4519 | |
---|
| 4520 | ! find proc number in the world of proc 0 in the north |
---|
| 4521 | CALL MPI_GROUP_TRANSLATE_RANKS(ngrp_north,1,0,ngrp_world,north_root,ierr) |
---|
[13] | 4522 | #endif |
---|
[3] | 4523 | |
---|
| 4524 | END SUBROUTINE mpp_ini_north |
---|
| 4525 | |
---|
| 4526 | |
---|
[51] | 4527 | SUBROUTINE mpp_lbc_north_3d ( pt3d, cd_type, psgn ) |
---|
| 4528 | !!--------------------------------------------------------------------- |
---|
| 4529 | !! *** routine mpp_lbc_north_3d *** |
---|
| 4530 | !! |
---|
| 4531 | !! ** Purpose : |
---|
| 4532 | !! Ensure proper north fold horizontal bondary condition in mpp configuration |
---|
| 4533 | !! in case of jpn1 > 1 |
---|
| 4534 | !! |
---|
| 4535 | !! ** Method : |
---|
| 4536 | !! Gather the 4 northern lines of the global domain on 1 processor and |
---|
| 4537 | !! apply lbc north-fold on this sub array. Then scatter the fold array |
---|
| 4538 | !! back to the processors. |
---|
| 4539 | !! |
---|
| 4540 | !! History : |
---|
| 4541 | !! 8.5 ! 03-09 (J.M. Molines ) For mpp folding condition at north |
---|
| 4542 | !! from lbc routine |
---|
| 4543 | !! 9.0 ! 03-12 (J.M. Molines ) encapsulation into lib_mpp, coding rules of lbc_lnk |
---|
| 4544 | !!---------------------------------------------------------------------- |
---|
| 4545 | !! * Arguments |
---|
| 4546 | CHARACTER(len=1), INTENT( in ) :: & |
---|
[3] | 4547 | cd_type ! nature of pt3d grid-points |
---|
[51] | 4548 | ! ! = T , U , V , F or W gridpoints |
---|
| 4549 | REAL(wp), DIMENSION(jpi,jpj,jpk), INTENT( inout ) :: & |
---|
[3] | 4550 | pt3d ! 3D array on which the boundary condition is applied |
---|
[51] | 4551 | REAL(wp), INTENT( in ) :: & |
---|
[3] | 4552 | psgn ! control of the sign change |
---|
[51] | 4553 | ! ! = -1. , the sign is changed if north fold boundary |
---|
| 4554 | ! ! = 1. , the sign is kept if north fold boundary |
---|
[3] | 4555 | |
---|
[51] | 4556 | !! * Local declarations |
---|
| 4557 | INTEGER :: ji, jj, jk, jr, jproc |
---|
| 4558 | INTEGER :: ierr |
---|
| 4559 | INTEGER :: ildi,ilei,iilb |
---|
| 4560 | INTEGER :: ijpj,ijpjm1,ij,ijt,iju |
---|
| 4561 | INTEGER :: itaille |
---|
| 4562 | REAL(wp), DIMENSION(jpiglo,4,jpk) :: ztab |
---|
| 4563 | REAL(wp), DIMENSION(jpi,4,jpk,jpni) :: znorthgloio |
---|
| 4564 | REAL(wp), DIMENSION(jpi,4,jpk) :: znorthloc |
---|
| 4565 | !!---------------------------------------------------------------------- |
---|
[3] | 4566 | |
---|
| 4567 | ! If we get in this routine it s because : North fold condition and mpp with more |
---|
| 4568 | ! than one proc across i : we deal only with the North condition |
---|
| 4569 | |
---|
| 4570 | ! 0. Sign setting |
---|
| 4571 | ! --------------- |
---|
| 4572 | |
---|
| 4573 | ijpj=4 |
---|
| 4574 | ijpjm1=3 |
---|
| 4575 | |
---|
| 4576 | ! put in znorthloc the last 4 jlines of pt3d |
---|
| 4577 | DO jk = 1, jpk |
---|
| 4578 | DO jj = nlcj - ijpj +1, nlcj |
---|
| 4579 | ij = jj - nlcj + ijpj |
---|
[233] | 4580 | znorthloc(:,ij,jk) = pt3d(:,jj,jk) |
---|
[3] | 4581 | END DO |
---|
| 4582 | END DO |
---|
| 4583 | |
---|
| 4584 | |
---|
| 4585 | IF (npolj /= 0 ) THEN |
---|
| 4586 | ! Build in proc 0 of ncomm_north the znorthgloio |
---|
| 4587 | znorthgloio(:,:,:,:) = 0_wp |
---|
| 4588 | |
---|
| 4589 | #ifdef key_mpp_shmem |
---|
| 4590 | not done : compiler error |
---|
| 4591 | #elif defined key_mpp_mpi |
---|
| 4592 | itaille=jpi*jpk*ijpj |
---|
[181] | 4593 | CALL MPI_GATHER(znorthloc,itaille,MPI_DOUBLE_PRECISION,znorthgloio,itaille,MPI_DOUBLE_PRECISION,0,ncomm_north,ierr) |
---|
[3] | 4594 | #endif |
---|
| 4595 | |
---|
| 4596 | ENDIF |
---|
| 4597 | |
---|
| 4598 | IF (narea == north_root+1 ) THEN |
---|
| 4599 | ! recover the global north array |
---|
| 4600 | ztab(:,:,:) = 0_wp |
---|
| 4601 | |
---|
| 4602 | DO jr = 1, ndim_rank_north |
---|
[51] | 4603 | jproc = nrank_north(jr) + 1 |
---|
| 4604 | ildi = nldit (jproc) |
---|
| 4605 | ilei = nleit (jproc) |
---|
| 4606 | iilb = nimppt(jproc) |
---|
| 4607 | DO jk = 1, jpk |
---|
| 4608 | DO jj = 1, 4 |
---|
| 4609 | DO ji = ildi, ilei |
---|
| 4610 | ztab(ji+iilb-1,jj,jk) = znorthgloio(ji,jj,jk,jr) |
---|
[3] | 4611 | END DO |
---|
| 4612 | END DO |
---|
| 4613 | END DO |
---|
| 4614 | END DO |
---|
| 4615 | |
---|
| 4616 | |
---|
| 4617 | ! Horizontal slab |
---|
| 4618 | ! =============== |
---|
| 4619 | |
---|
| 4620 | DO jk = 1, jpk |
---|
| 4621 | |
---|
| 4622 | |
---|
| 4623 | ! 2. North-Fold boundary conditions |
---|
| 4624 | ! ---------------------------------- |
---|
| 4625 | |
---|
| 4626 | SELECT CASE ( npolj ) |
---|
| 4627 | |
---|
| 4628 | CASE ( 3, 4 ) ! * North fold T-point pivot |
---|
| 4629 | |
---|
| 4630 | ztab( 1 ,ijpj,jk) = 0.e0 |
---|
| 4631 | ztab(jpiglo,ijpj,jk) = 0.e0 |
---|
| 4632 | |
---|
| 4633 | SELECT CASE ( cd_type ) |
---|
| 4634 | |
---|
[51] | 4635 | CASE ( 'T' , 'S' , 'W' ) ! T-, W-point |
---|
[3] | 4636 | DO ji = 2, jpiglo |
---|
| 4637 | ijt = jpiglo-ji+2 |
---|
| 4638 | ztab(ji,ijpj,jk) = psgn * ztab(ijt,ijpj-2,jk) |
---|
| 4639 | END DO |
---|
| 4640 | DO ji = jpiglo/2+1, jpiglo |
---|
| 4641 | ijt = jpiglo-ji+2 |
---|
| 4642 | ztab(ji,ijpjm1,jk) = psgn * ztab(ijt,ijpjm1,jk) |
---|
| 4643 | END DO |
---|
| 4644 | |
---|
| 4645 | CASE ( 'U' ) ! U-point |
---|
| 4646 | DO ji = 1, jpiglo-1 |
---|
| 4647 | iju = jpiglo-ji+1 |
---|
| 4648 | ztab(ji,ijpj,jk) = psgn * ztab(iju,ijpj-2,jk) |
---|
| 4649 | END DO |
---|
| 4650 | DO ji = jpiglo/2, jpiglo-1 |
---|
| 4651 | iju = jpiglo-ji+1 |
---|
| 4652 | ztab(ji,ijpjm1,jk) = psgn * ztab(iju,ijpjm1,jk) |
---|
| 4653 | END DO |
---|
| 4654 | |
---|
| 4655 | CASE ( 'V' ) ! V-point |
---|
| 4656 | DO ji = 2, jpiglo |
---|
| 4657 | ijt = jpiglo-ji+2 |
---|
| 4658 | ztab(ji,ijpj-1,jk) = psgn * ztab(ijt,ijpj-2,jk) |
---|
| 4659 | ztab(ji,ijpj ,jk) = psgn * ztab(ijt,ijpj-3,jk) |
---|
| 4660 | END DO |
---|
| 4661 | |
---|
[51] | 4662 | CASE ( 'F' , 'G' ) ! F-point |
---|
[3] | 4663 | DO ji = 1, jpiglo-1 |
---|
| 4664 | iju = jpiglo-ji+1 |
---|
[233] | 4665 | ztab(ji,ijpj-1,jk) = psgn * ztab(iju,ijpj-2,jk) |
---|
| 4666 | ztab(ji,ijpj ,jk) = psgn * ztab(iju,ijpj-3,jk) |
---|
[3] | 4667 | END DO |
---|
| 4668 | |
---|
| 4669 | END SELECT |
---|
| 4670 | |
---|
| 4671 | CASE ( 5, 6 ) ! * North fold F-point pivot |
---|
| 4672 | |
---|
| 4673 | ztab( 1 ,ijpj,jk) = 0.e0 |
---|
| 4674 | ztab(jpiglo,ijpj,jk) = 0.e0 |
---|
| 4675 | |
---|
| 4676 | SELECT CASE ( cd_type ) |
---|
| 4677 | |
---|
[51] | 4678 | CASE ( 'T' , 'S' , 'W' ) ! T-, W-point |
---|
[3] | 4679 | DO ji = 1, jpiglo |
---|
| 4680 | ijt = jpiglo-ji+1 |
---|
| 4681 | ztab(ji,ijpj,jk) = psgn * ztab(ijt,ijpj-1,jk) |
---|
| 4682 | END DO |
---|
| 4683 | |
---|
| 4684 | CASE ( 'U' ) ! U-point |
---|
| 4685 | DO ji = 1, jpiglo-1 |
---|
| 4686 | iju = jpiglo-ji |
---|
| 4687 | ztab(ji,ijpj,jk) = psgn * ztab(iju,ijpj-1,jk) |
---|
| 4688 | END DO |
---|
| 4689 | |
---|
| 4690 | CASE ( 'V' ) ! V-point |
---|
| 4691 | DO ji = 1, jpiglo |
---|
| 4692 | ijt = jpiglo-ji+1 |
---|
| 4693 | ztab(ji,ijpj,jk) = psgn * ztab(ijt,ijpj-2,jk) |
---|
| 4694 | END DO |
---|
| 4695 | DO ji = jpiglo/2+1, jpiglo |
---|
| 4696 | ijt = jpiglo-ji+1 |
---|
| 4697 | ztab(ji,ijpjm1,jk) = psgn * ztab(ijt,ijpjm1,jk) |
---|
| 4698 | END DO |
---|
| 4699 | |
---|
[51] | 4700 | CASE ( 'F' , 'G' ) ! F-point |
---|
[3] | 4701 | DO ji = 1, jpiglo-1 |
---|
| 4702 | iju = jpiglo-ji |
---|
[233] | 4703 | ztab(ji,ijpj ,jk) = psgn * ztab(iju,ijpj-2,jk) |
---|
[3] | 4704 | END DO |
---|
| 4705 | DO ji = jpiglo/2+1, jpiglo-1 |
---|
| 4706 | iju = jpiglo-ji |
---|
[233] | 4707 | ztab(ji,ijpjm1,jk) = psgn * ztab(iju,ijpjm1,jk) |
---|
[3] | 4708 | END DO |
---|
| 4709 | |
---|
| 4710 | END SELECT |
---|
| 4711 | |
---|
| 4712 | CASE DEFAULT ! * closed |
---|
| 4713 | |
---|
| 4714 | SELECT CASE ( cd_type) |
---|
| 4715 | |
---|
| 4716 | CASE ( 'T' , 'U' , 'V' , 'W' ) ! T-, U-, V-, W-points |
---|
| 4717 | ztab(:, 1 ,jk) = 0.e0 |
---|
| 4718 | ztab(:,ijpj,jk) = 0.e0 |
---|
| 4719 | |
---|
| 4720 | CASE ( 'F' ) ! F-point |
---|
| 4721 | ztab(:,ijpj,jk) = 0.e0 |
---|
| 4722 | |
---|
| 4723 | END SELECT |
---|
| 4724 | |
---|
| 4725 | END SELECT |
---|
| 4726 | |
---|
| 4727 | ! End of slab |
---|
| 4728 | ! =========== |
---|
| 4729 | |
---|
| 4730 | END DO |
---|
| 4731 | |
---|
| 4732 | !! Scatter back to pt3d |
---|
| 4733 | DO jr = 1, ndim_rank_north |
---|
| 4734 | jproc=nrank_north(jr)+1 |
---|
| 4735 | ildi=nldit (jproc) |
---|
| 4736 | ilei=nleit (jproc) |
---|
| 4737 | iilb=nimppt(jproc) |
---|
| 4738 | DO jk= 1, jpk |
---|
| 4739 | DO jj=1,ijpj |
---|
| 4740 | DO ji=ildi,ilei |
---|
| 4741 | znorthgloio(ji,jj,jk,jr)=ztab(ji+iilb-1,jj,jk) |
---|
| 4742 | END DO |
---|
| 4743 | END DO |
---|
| 4744 | END DO |
---|
| 4745 | END DO |
---|
| 4746 | |
---|
| 4747 | ENDIF ! only done on proc 0 of ncomm_north |
---|
| 4748 | |
---|
| 4749 | #ifdef key_mpp_shmem |
---|
| 4750 | not done yet in shmem : compiler error |
---|
| 4751 | #elif key_mpp_mpi |
---|
| 4752 | IF ( npolj /= 0 ) THEN |
---|
| 4753 | itaille=jpi*jpk*ijpj |
---|
[181] | 4754 | CALL MPI_SCATTER(znorthgloio,itaille,MPI_DOUBLE_PRECISION,znorthloc,itaille,MPI_DOUBLE_PRECISION,0,ncomm_north,ierr) |
---|
[3] | 4755 | ENDIF |
---|
| 4756 | #endif |
---|
| 4757 | |
---|
| 4758 | ! put in the last ijpj jlines of pt3d znorthloc |
---|
| 4759 | DO jk = 1 , jpk |
---|
| 4760 | DO jj = nlcj - ijpj + 1 , nlcj |
---|
| 4761 | ij = jj - nlcj + ijpj |
---|
| 4762 | pt3d(:,jj,jk)= znorthloc(:,ij,jk) |
---|
| 4763 | END DO |
---|
| 4764 | END DO |
---|
| 4765 | |
---|
| 4766 | END SUBROUTINE mpp_lbc_north_3d |
---|
| 4767 | |
---|
| 4768 | |
---|
| 4769 | SUBROUTINE mpp_lbc_north_2d ( pt2d, cd_type, psgn) |
---|
| 4770 | !!--------------------------------------------------------------------- |
---|
| 4771 | !! *** routine mpp_lbc_north_2d *** |
---|
| 4772 | !! |
---|
| 4773 | !! ** Purpose : |
---|
| 4774 | !! Ensure proper north fold horizontal bondary condition in mpp configuration |
---|
| 4775 | !! in case of jpn1 > 1 (for 2d array ) |
---|
| 4776 | !! |
---|
| 4777 | !! ** Method : |
---|
| 4778 | !! Gather the 4 northern lines of the global domain on 1 processor and |
---|
| 4779 | !! apply lbc north-fold on this sub array. Then scatter the fold array |
---|
| 4780 | !! back to the processors. |
---|
| 4781 | !! |
---|
| 4782 | !! History : |
---|
| 4783 | !! 8.5 ! 03-09 (J.M. Molines ) For mpp folding condition at north |
---|
| 4784 | !! from lbc routine |
---|
| 4785 | !! 9.0 ! 03-12 (J.M. Molines ) encapsulation into lib_mpp, coding rules of lbc_lnk |
---|
| 4786 | !!---------------------------------------------------------------------- |
---|
| 4787 | |
---|
| 4788 | !! * Arguments |
---|
| 4789 | CHARACTER(len=1), INTENT( in ) :: & |
---|
| 4790 | cd_type ! nature of pt2d grid-points |
---|
| 4791 | ! ! = T , U , V , F or W gridpoints |
---|
| 4792 | REAL(wp), DIMENSION(jpi,jpj), INTENT( inout ) :: & |
---|
| 4793 | pt2d ! 2D array on which the boundary condition is applied |
---|
| 4794 | REAL(wp), INTENT( in ) :: & |
---|
| 4795 | psgn ! control of the sign change |
---|
| 4796 | ! ! = -1. , the sign is changed if north fold boundary |
---|
| 4797 | ! ! = 1. , the sign is kept if north fold boundary |
---|
| 4798 | |
---|
| 4799 | |
---|
| 4800 | !! * Local declarations |
---|
| 4801 | |
---|
| 4802 | INTEGER :: ji, jj, jr, jproc |
---|
| 4803 | INTEGER :: ierr |
---|
| 4804 | INTEGER :: ildi,ilei,iilb |
---|
| 4805 | INTEGER :: ijpj,ijpjm1,ij,ijt,iju |
---|
| 4806 | INTEGER :: itaille |
---|
| 4807 | |
---|
| 4808 | REAL(wp), DIMENSION(jpiglo,4) :: ztab |
---|
| 4809 | REAL(wp), DIMENSION(jpi,4,jpni) :: znorthgloio |
---|
| 4810 | REAL(wp), DIMENSION(jpi,4) :: znorthloc |
---|
| 4811 | !!---------------------------------------------------------------------- |
---|
| 4812 | !! OPA 8.5, LODYC-IPSL (2002) |
---|
| 4813 | !!---------------------------------------------------------------------- |
---|
| 4814 | ! If we get in this routine it s because : North fold condition and mpp with more |
---|
| 4815 | ! than one proc across i : we deal only with the North condition |
---|
| 4816 | |
---|
| 4817 | ! 0. Sign setting |
---|
| 4818 | ! --------------- |
---|
| 4819 | |
---|
| 4820 | ijpj=4 |
---|
| 4821 | ijpjm1=3 |
---|
| 4822 | |
---|
| 4823 | |
---|
| 4824 | ! put in znorthloc the last 4 jlines of pt2d |
---|
| 4825 | DO jj = nlcj - ijpj +1, nlcj |
---|
| 4826 | ij = jj - nlcj + ijpj |
---|
| 4827 | znorthloc(:,ij)=pt2d(:,jj) |
---|
| 4828 | END DO |
---|
| 4829 | |
---|
| 4830 | IF (npolj /= 0 ) THEN |
---|
| 4831 | ! Build in proc 0 of ncomm_north the znorthgloio |
---|
| 4832 | znorthgloio(:,:,:) = 0_wp |
---|
| 4833 | #ifdef key_mpp_shmem |
---|
| 4834 | not done : compiler error |
---|
| 4835 | #elif defined key_mpp_mpi |
---|
| 4836 | itaille=jpi*ijpj |
---|
[181] | 4837 | CALL MPI_GATHER(znorthloc,itaille,MPI_DOUBLE_PRECISION,znorthgloio,itaille,MPI_DOUBLE_PRECISION,0,ncomm_north,ierr) |
---|
[3] | 4838 | #endif |
---|
| 4839 | ENDIF |
---|
| 4840 | |
---|
| 4841 | IF (narea == north_root+1 ) THEN |
---|
| 4842 | ! recover the global north array |
---|
| 4843 | ztab(:,:) = 0_wp |
---|
| 4844 | |
---|
| 4845 | DO jr = 1, ndim_rank_north |
---|
| 4846 | jproc=nrank_north(jr)+1 |
---|
| 4847 | ildi=nldit (jproc) |
---|
| 4848 | ilei=nleit (jproc) |
---|
| 4849 | iilb=nimppt(jproc) |
---|
| 4850 | DO jj=1,4 |
---|
| 4851 | DO ji=ildi,ilei |
---|
| 4852 | ztab(ji+iilb-1,jj)=znorthgloio(ji,jj,jr) |
---|
| 4853 | END DO |
---|
| 4854 | END DO |
---|
| 4855 | END DO |
---|
| 4856 | |
---|
| 4857 | |
---|
| 4858 | ! 2. North-Fold boundary conditions |
---|
| 4859 | ! ---------------------------------- |
---|
| 4860 | |
---|
| 4861 | SELECT CASE ( npolj ) |
---|
| 4862 | |
---|
| 4863 | CASE ( 3, 4 ) ! * North fold T-point pivot |
---|
| 4864 | |
---|
| 4865 | ztab( 1 ,ijpj) = 0.e0 |
---|
| 4866 | ztab(jpiglo,ijpj) = 0.e0 |
---|
| 4867 | |
---|
| 4868 | SELECT CASE ( cd_type ) |
---|
| 4869 | |
---|
| 4870 | CASE ( 'T' , 'W' , 'S' ) ! T-, W-point |
---|
| 4871 | DO ji = 2, jpiglo |
---|
| 4872 | ijt = jpiglo-ji+2 |
---|
| 4873 | ztab(ji,ijpj) = psgn * ztab(ijt,ijpj-2) |
---|
| 4874 | END DO |
---|
| 4875 | DO ji = jpiglo/2+1, jpiglo |
---|
| 4876 | ijt = jpiglo-ji+2 |
---|
| 4877 | ztab(ji,ijpjm1) = psgn * ztab(ijt,ijpjm1) |
---|
| 4878 | END DO |
---|
| 4879 | |
---|
[233] | 4880 | CASE ( 'U' ) ! U-point |
---|
[3] | 4881 | DO ji = 1, jpiglo-1 |
---|
| 4882 | iju = jpiglo-ji+1 |
---|
| 4883 | ztab(ji,ijpj) = psgn * ztab(iju,ijpj-2) |
---|
| 4884 | END DO |
---|
| 4885 | DO ji = jpiglo/2, jpiglo-1 |
---|
| 4886 | iju = jpiglo-ji+1 |
---|
| 4887 | ztab(ji,ijpjm1) = psgn * ztab(iju,ijpjm1) |
---|
| 4888 | END DO |
---|
| 4889 | |
---|
[233] | 4890 | CASE ( 'V' ) ! V-point |
---|
[3] | 4891 | DO ji = 2, jpiglo |
---|
| 4892 | ijt = jpiglo-ji+2 |
---|
| 4893 | ztab(ji,ijpj-1) = psgn * ztab(ijt,ijpj-2) |
---|
| 4894 | ztab(ji,ijpj ) = psgn * ztab(ijt,ijpj-3) |
---|
| 4895 | END DO |
---|
| 4896 | |
---|
| 4897 | CASE ( 'F' , 'G' ) ! F-point |
---|
| 4898 | DO ji = 1, jpiglo-1 |
---|
| 4899 | iju = jpiglo-ji+1 |
---|
[233] | 4900 | ztab(ji,ijpj-1) = psgn * ztab(iju,ijpj-2) |
---|
| 4901 | ztab(ji,ijpj ) = psgn * ztab(iju,ijpj-3) |
---|
[3] | 4902 | END DO |
---|
| 4903 | |
---|
[233] | 4904 | CASE ( 'I' ) ! ice U-V point |
---|
[3] | 4905 | ztab(2,ijpj) = psgn * ztab(3,ijpj-1) |
---|
| 4906 | DO ji = 3, jpiglo |
---|
| 4907 | iju = jpiglo - ji + 3 |
---|
| 4908 | ztab(ji,ijpj) = psgn * ztab(iju,ijpj-1) |
---|
| 4909 | END DO |
---|
| 4910 | |
---|
| 4911 | END SELECT |
---|
| 4912 | |
---|
| 4913 | CASE ( 5, 6 ) ! * North fold F-point pivot |
---|
| 4914 | |
---|
| 4915 | ztab( 1 ,ijpj) = 0.e0 |
---|
| 4916 | ztab(jpiglo,ijpj) = 0.e0 |
---|
| 4917 | |
---|
| 4918 | SELECT CASE ( cd_type ) |
---|
| 4919 | |
---|
[233] | 4920 | CASE ( 'T' , 'W' ,'S' ) ! T-, W-point |
---|
[3] | 4921 | DO ji = 1, jpiglo |
---|
| 4922 | ijt = jpiglo-ji+1 |
---|
| 4923 | ztab(ji,ijpj) = psgn * ztab(ijt,ijpj-1) |
---|
| 4924 | END DO |
---|
| 4925 | |
---|
[233] | 4926 | CASE ( 'U' ) ! U-point |
---|
[3] | 4927 | DO ji = 1, jpiglo-1 |
---|
| 4928 | iju = jpiglo-ji |
---|
| 4929 | ztab(ji,ijpj) = psgn * ztab(iju,ijpj-1) |
---|
| 4930 | END DO |
---|
| 4931 | |
---|
[233] | 4932 | CASE ( 'V' ) ! V-point |
---|
[3] | 4933 | DO ji = 1, jpiglo |
---|
| 4934 | ijt = jpiglo-ji+1 |
---|
| 4935 | ztab(ji,ijpj) = psgn * ztab(ijt,ijpj-2) |
---|
| 4936 | END DO |
---|
| 4937 | DO ji = jpiglo/2+1, jpiglo |
---|
| 4938 | ijt = jpiglo-ji+1 |
---|
| 4939 | ztab(ji,ijpjm1) = psgn * ztab(ijt,ijpjm1) |
---|
| 4940 | END DO |
---|
| 4941 | |
---|
| 4942 | CASE ( 'F' , 'G' ) ! F-point |
---|
| 4943 | DO ji = 1, jpiglo-1 |
---|
| 4944 | iju = jpiglo-ji |
---|
[233] | 4945 | ztab(ji,ijpj ) = psgn * ztab(iju,ijpj-2) |
---|
[3] | 4946 | END DO |
---|
| 4947 | DO ji = jpiglo/2+1, jpiglo-1 |
---|
| 4948 | iju = jpiglo-ji |
---|
[233] | 4949 | ztab(ji,ijpjm1) = psgn * ztab(iju,ijpjm1) |
---|
[3] | 4950 | END DO |
---|
| 4951 | |
---|
[233] | 4952 | CASE ( 'I' ) ! ice U-V point |
---|
| 4953 | ztab( 2 ,ijpj) = 0.e0 |
---|
| 4954 | DO ji = 2 , jpiglo-1 |
---|
[415] | 4955 | ijt = jpiglo - ji + 2 |
---|
[233] | 4956 | ztab(ji,ijpj)= 0.5 * ( ztab(ji,ijpj-1) + psgn * ztab(ijt,ijpj-1) ) |
---|
| 4957 | END DO |
---|
| 4958 | |
---|
[3] | 4959 | END SELECT |
---|
| 4960 | |
---|
| 4961 | CASE DEFAULT ! * closed : the code probably never go through |
---|
| 4962 | |
---|
[13] | 4963 | SELECT CASE ( cd_type) |
---|
| 4964 | |
---|
[233] | 4965 | CASE ( 'T' , 'U' , 'V' , 'W' ) ! T-, U-, V-, W-points |
---|
[13] | 4966 | ztab(:, 1 ) = 0.e0 |
---|
| 4967 | ztab(:,ijpj) = 0.e0 |
---|
[3] | 4968 | |
---|
[233] | 4969 | CASE ( 'F' ) ! F-point |
---|
[13] | 4970 | ztab(:,ijpj) = 0.e0 |
---|
[3] | 4971 | |
---|
[233] | 4972 | CASE ( 'I' ) ! ice U-V point |
---|
[13] | 4973 | ztab(:, 1 ) = 0.e0 |
---|
| 4974 | ztab(:,ijpj) = 0.e0 |
---|
[3] | 4975 | |
---|
[13] | 4976 | END SELECT |
---|
[3] | 4977 | |
---|
[13] | 4978 | END SELECT |
---|
[3] | 4979 | |
---|
[13] | 4980 | ! End of slab |
---|
| 4981 | ! =========== |
---|
[3] | 4982 | |
---|
[13] | 4983 | !! Scatter back to pt2d |
---|
| 4984 | DO jr = 1, ndim_rank_north |
---|
| 4985 | jproc=nrank_north(jr)+1 |
---|
| 4986 | ildi=nldit (jproc) |
---|
| 4987 | ilei=nleit (jproc) |
---|
| 4988 | iilb=nimppt(jproc) |
---|
| 4989 | DO jj=1,ijpj |
---|
| 4990 | DO ji=ildi,ilei |
---|
| 4991 | znorthgloio(ji,jj,jr)=ztab(ji+iilb-1,jj) |
---|
| 4992 | END DO |
---|
| 4993 | END DO |
---|
| 4994 | END DO |
---|
[3] | 4995 | |
---|
[13] | 4996 | ENDIF ! only done on proc 0 of ncomm_north |
---|
[3] | 4997 | |
---|
| 4998 | #ifdef key_mpp_shmem |
---|
[13] | 4999 | not done yet in shmem : compiler error |
---|
[3] | 5000 | #elif key_mpp_mpi |
---|
[13] | 5001 | IF ( npolj /= 0 ) THEN |
---|
| 5002 | itaille=jpi*ijpj |
---|
[181] | 5003 | CALL MPI_SCATTER(znorthgloio,itaille,MPI_DOUBLE_PRECISION,znorthloc,itaille,MPI_DOUBLE_PRECISION,0,ncomm_north,ierr) |
---|
[13] | 5004 | ENDIF |
---|
[3] | 5005 | #endif |
---|
| 5006 | |
---|
[13] | 5007 | ! put in the last ijpj jlines of pt2d znorthloc |
---|
| 5008 | DO jj = nlcj - ijpj + 1 , nlcj |
---|
| 5009 | ij = jj - nlcj + ijpj |
---|
| 5010 | pt2d(:,jj)= znorthloc(:,ij) |
---|
| 5011 | END DO |
---|
[3] | 5012 | |
---|
[13] | 5013 | END SUBROUTINE mpp_lbc_north_2d |
---|
[3] | 5014 | |
---|
| 5015 | |
---|
[311] | 5016 | SUBROUTINE mpp_lbc_north_e ( pt2d, cd_type, psgn) |
---|
| 5017 | !!--------------------------------------------------------------------- |
---|
| 5018 | !! *** routine mpp_lbc_north_2d *** |
---|
| 5019 | !! |
---|
| 5020 | !! ** Purpose : |
---|
| 5021 | !! Ensure proper north fold horizontal bondary condition in mpp configuration |
---|
| 5022 | !! in case of jpn1 > 1 (for 2d array with outer extra halo) |
---|
| 5023 | !! |
---|
| 5024 | !! ** Method : |
---|
| 5025 | !! Gather the 4+2*jpr2dj northern lines of the global domain on 1 processor and |
---|
| 5026 | !! apply lbc north-fold on this sub array. Then scatter the fold array |
---|
| 5027 | !! back to the processors. |
---|
| 5028 | !! |
---|
| 5029 | !! History : |
---|
| 5030 | !! 8.5 ! 03-09 (J.M. Molines ) For mpp folding condition at north |
---|
| 5031 | !! from lbc routine |
---|
| 5032 | !! 9.0 ! 03-12 (J.M. Molines ) encapsulation into lib_mpp, coding rules of lbc_lnk |
---|
| 5033 | !! 9.0 ! 05-09 (R. Benshila ) adapt mpp_lbc_north_2d |
---|
| 5034 | !!---------------------------------------------------------------------- |
---|
| 5035 | |
---|
| 5036 | !! * Arguments |
---|
| 5037 | CHARACTER(len=1), INTENT( in ) :: & |
---|
| 5038 | cd_type ! nature of pt2d grid-points |
---|
| 5039 | ! ! = T , U , V , F or W gridpoints |
---|
| 5040 | REAL(wp), DIMENSION(1-jpr2di:jpi+jpr2di,1-jpr2dj:jpj+jpr2dj), INTENT( inout ) :: & |
---|
| 5041 | pt2d ! 2D array on which the boundary condition is applied |
---|
| 5042 | REAL(wp), INTENT( in ) :: & |
---|
| 5043 | psgn ! control of the sign change |
---|
| 5044 | ! ! = -1. , the sign is changed if north fold boundary |
---|
| 5045 | ! ! = 1. , the sign is kept if north fold boundary |
---|
| 5046 | |
---|
| 5047 | |
---|
| 5048 | !! * Local declarations |
---|
| 5049 | |
---|
| 5050 | INTEGER :: ji, jj, jr, jproc, jl |
---|
| 5051 | INTEGER :: ierr |
---|
| 5052 | INTEGER :: ildi,ilei,iilb |
---|
| 5053 | INTEGER :: ijpj,ijpjm1,ij,ijt,iju, iprecj |
---|
| 5054 | INTEGER :: itaille |
---|
| 5055 | |
---|
| 5056 | REAL(wp), DIMENSION(jpiglo,1-jpr2dj:4+jpr2dj) :: ztab |
---|
| 5057 | REAL(wp), DIMENSION(jpi,1-jpr2dj:4+jpr2dj,jpni) :: znorthgloio |
---|
| 5058 | REAL(wp), DIMENSION(jpi,1-jpr2dj:4+jpr2dj) :: znorthloc |
---|
| 5059 | |
---|
| 5060 | ! If we get in this routine it s because : North fold condition and mpp with more |
---|
| 5061 | ! than one proc across i : we deal only with the North condition |
---|
| 5062 | |
---|
| 5063 | ! 0. Sign setting |
---|
| 5064 | ! --------------- |
---|
| 5065 | |
---|
| 5066 | ijpj=4 |
---|
| 5067 | ijpjm1=3 |
---|
| 5068 | iprecj = jpr2dj+jprecj |
---|
| 5069 | |
---|
| 5070 | ! put in znorthloc the last 4 jlines of pt2d |
---|
| 5071 | DO jj = nlcj - ijpj + 1 - jpr2dj, nlcj +jpr2dj |
---|
| 5072 | ij = jj - nlcj + ijpj |
---|
| 5073 | znorthloc(:,ij)=pt2d(1:jpi,jj) |
---|
| 5074 | END DO |
---|
| 5075 | |
---|
| 5076 | IF (npolj /= 0 ) THEN |
---|
| 5077 | ! Build in proc 0 of ncomm_north the znorthgloio |
---|
| 5078 | znorthgloio(:,:,:) = 0_wp |
---|
| 5079 | #ifdef key_mpp_shmem |
---|
| 5080 | not done : compiler error |
---|
| 5081 | #elif defined key_mpp_mpi |
---|
| 5082 | itaille=jpi*(ijpj+2*jpr2dj) |
---|
| 5083 | CALL MPI_GATHER(znorthloc(1,1-jpr2dj),itaille,MPI_DOUBLE_PRECISION, & |
---|
| 5084 | & znorthgloio(1,1-jpr2dj,1),itaille,MPI_DOUBLE_PRECISION,0,ncomm_north,ierr) |
---|
| 5085 | #endif |
---|
| 5086 | ENDIF |
---|
| 5087 | |
---|
| 5088 | IF (narea == north_root+1 ) THEN |
---|
| 5089 | ! recover the global north array |
---|
| 5090 | ztab(:,:) = 0_wp |
---|
| 5091 | |
---|
| 5092 | DO jr = 1, ndim_rank_north |
---|
| 5093 | jproc=nrank_north(jr)+1 |
---|
| 5094 | ildi=nldit (jproc) |
---|
| 5095 | ilei=nleit (jproc) |
---|
| 5096 | iilb=nimppt(jproc) |
---|
| 5097 | DO jj=1-jpr2dj,ijpj+jpr2dj |
---|
| 5098 | DO ji=ildi,ilei |
---|
| 5099 | ztab(ji+iilb-1,jj)=znorthgloio(ji,jj,jr) |
---|
| 5100 | END DO |
---|
| 5101 | END DO |
---|
| 5102 | END DO |
---|
| 5103 | |
---|
| 5104 | |
---|
| 5105 | ! 2. North-Fold boundary conditions |
---|
| 5106 | ! ---------------------------------- |
---|
| 5107 | |
---|
| 5108 | SELECT CASE ( npolj ) |
---|
| 5109 | |
---|
| 5110 | CASE ( 3, 4 ) ! * North fold T-point pivot |
---|
| 5111 | |
---|
| 5112 | ztab( 1 ,ijpj:ijpj+jpr2dj) = 0.e0 |
---|
| 5113 | ztab(jpiglo,ijpj:ijpj+jpr2dj) = 0.e0 |
---|
| 5114 | |
---|
| 5115 | SELECT CASE ( cd_type ) |
---|
| 5116 | |
---|
| 5117 | CASE ( 'T' , 'W' , 'S' ) ! T-, W-point |
---|
| 5118 | DO jl =0, iprecj-1 |
---|
| 5119 | DO ji = 2, jpiglo |
---|
| 5120 | ijt = jpiglo-ji+2 |
---|
| 5121 | ztab(ji,ijpj+jl) = psgn * ztab(ijt,ijpj-2-jl) |
---|
| 5122 | END DO |
---|
| 5123 | END DO |
---|
| 5124 | DO ji = jpiglo/2+1, jpiglo |
---|
| 5125 | ijt = jpiglo-ji+2 |
---|
| 5126 | ztab(ji,ijpjm1) = psgn * ztab(ijt,ijpjm1) |
---|
| 5127 | END DO |
---|
| 5128 | |
---|
| 5129 | CASE ( 'U' ) ! U-point |
---|
| 5130 | DO jl =0, iprecj-1 |
---|
| 5131 | DO ji = 1, jpiglo-1 |
---|
| 5132 | iju = jpiglo-ji+1 |
---|
| 5133 | ztab(ji,ijpj+jl) = psgn * ztab(iju,ijpj-2-jl) |
---|
| 5134 | END DO |
---|
| 5135 | END DO |
---|
| 5136 | DO ji = jpiglo/2, jpiglo-1 |
---|
| 5137 | iju = jpiglo-ji+1 |
---|
| 5138 | ztab(ji,ijpjm1) = psgn * ztab(iju,ijpjm1) |
---|
| 5139 | END DO |
---|
| 5140 | |
---|
| 5141 | CASE ( 'V' ) ! V-point |
---|
| 5142 | DO jl =-1, iprecj-1 |
---|
| 5143 | DO ji = 2, jpiglo |
---|
| 5144 | ijt = jpiglo-ji+2 |
---|
| 5145 | ztab(ji,ijpj+jl) = psgn * ztab(ijt,ijpj-3-jl) |
---|
| 5146 | END DO |
---|
| 5147 | END DO |
---|
| 5148 | |
---|
| 5149 | CASE ( 'F' , 'G' ) ! F-point |
---|
| 5150 | DO jl =-1, iprecj-1 |
---|
| 5151 | DO ji = 1, jpiglo-1 |
---|
| 5152 | iju = jpiglo-ji+1 |
---|
| 5153 | ztab(ji,ijpj+jl) = psgn * ztab(iju,ijpj-3-jl) |
---|
| 5154 | END DO |
---|
| 5155 | END DO |
---|
| 5156 | |
---|
| 5157 | CASE ( 'I' ) ! ice U-V point |
---|
| 5158 | DO jl =0, iprecj-1 |
---|
| 5159 | ztab(2,ijpj+jl) = psgn * ztab(3,ijpj-1+jl) |
---|
| 5160 | DO ji = 3, jpiglo |
---|
| 5161 | iju = jpiglo - ji + 3 |
---|
| 5162 | ztab(ji,ijpj+jl) = psgn * ztab(iju,ijpj-1-jl) |
---|
| 5163 | END DO |
---|
| 5164 | END DO |
---|
| 5165 | |
---|
| 5166 | END SELECT |
---|
| 5167 | |
---|
| 5168 | CASE ( 5, 6 ) ! * North fold F-point pivot |
---|
| 5169 | |
---|
| 5170 | ztab( 1 ,ijpj:ijpj+jpr2dj) = 0.e0 |
---|
| 5171 | ztab(jpiglo,ijpj:ijpj+jpr2dj) = 0.e0 |
---|
| 5172 | |
---|
| 5173 | SELECT CASE ( cd_type ) |
---|
| 5174 | |
---|
| 5175 | CASE ( 'T' , 'W' ,'S' ) ! T-, W-point |
---|
| 5176 | DO jl = 0, iprecj-1 |
---|
| 5177 | DO ji = 1, jpiglo |
---|
| 5178 | ijt = jpiglo-ji+1 |
---|
| 5179 | ztab(ji,ijpj+jl) = psgn * ztab(ijt,ijpj-1-jl) |
---|
| 5180 | END DO |
---|
| 5181 | END DO |
---|
| 5182 | |
---|
| 5183 | CASE ( 'U' ) ! U-point |
---|
| 5184 | DO jl = 0, iprecj-1 |
---|
| 5185 | DO ji = 1, jpiglo-1 |
---|
| 5186 | iju = jpiglo-ji |
---|
| 5187 | ztab(ji,ijpj+jl) = psgn * ztab(iju,ijpj-1-jl) |
---|
| 5188 | END DO |
---|
| 5189 | END DO |
---|
| 5190 | |
---|
| 5191 | CASE ( 'V' ) ! V-point |
---|
| 5192 | DO jl = 0, iprecj-1 |
---|
| 5193 | DO ji = 1, jpiglo |
---|
| 5194 | ijt = jpiglo-ji+1 |
---|
| 5195 | ztab(ji,ijpj+jl) = psgn * ztab(ijt,ijpj-2-jl) |
---|
| 5196 | END DO |
---|
| 5197 | END DO |
---|
| 5198 | DO ji = jpiglo/2+1, jpiglo |
---|
| 5199 | ijt = jpiglo-ji+1 |
---|
| 5200 | ztab(ji,ijpjm1) = psgn * ztab(ijt,ijpjm1) |
---|
| 5201 | END DO |
---|
| 5202 | |
---|
| 5203 | CASE ( 'F' , 'G' ) ! F-point |
---|
| 5204 | DO jl = 0, iprecj-1 |
---|
| 5205 | DO ji = 1, jpiglo-1 |
---|
| 5206 | iju = jpiglo-ji |
---|
| 5207 | ztab(ji,ijpj+jl) = psgn * ztab(iju,ijpj-2-jl) |
---|
| 5208 | END DO |
---|
| 5209 | END DO |
---|
| 5210 | DO ji = jpiglo/2+1, jpiglo-1 |
---|
| 5211 | iju = jpiglo-ji |
---|
| 5212 | ztab(ji,ijpjm1) = psgn * ztab(iju,ijpjm1) |
---|
| 5213 | END DO |
---|
| 5214 | |
---|
| 5215 | CASE ( 'I' ) ! ice U-V point |
---|
| 5216 | ztab( 2 ,ijpj:ijpj+jpr2dj) = 0.e0 |
---|
| 5217 | DO jl = 0, jpr2dj |
---|
| 5218 | DO ji = 2 , jpiglo-1 |
---|
[415] | 5219 | ijt = jpiglo - ji + 2 |
---|
[311] | 5220 | ztab(ji,ijpj+jl)= 0.5 * ( ztab(ji,ijpj-1-jl) + psgn * ztab(ijt,ijpj-1-jl) ) |
---|
| 5221 | END DO |
---|
| 5222 | END DO |
---|
| 5223 | |
---|
| 5224 | END SELECT |
---|
| 5225 | |
---|
| 5226 | CASE DEFAULT ! * closed : the code probably never go through |
---|
| 5227 | |
---|
| 5228 | SELECT CASE ( cd_type) |
---|
| 5229 | |
---|
| 5230 | CASE ( 'T' , 'U' , 'V' , 'W' ) ! T-, U-, V-, W-points |
---|
| 5231 | ztab(:, 1:1-jpr2dj ) = 0.e0 |
---|
| 5232 | ztab(:,ijpj:ijpj+jpr2dj) = 0.e0 |
---|
| 5233 | |
---|
| 5234 | CASE ( 'F' ) ! F-point |
---|
| 5235 | ztab(:,ijpj:ijpj+jpr2dj) = 0.e0 |
---|
| 5236 | |
---|
| 5237 | CASE ( 'I' ) ! ice U-V point |
---|
| 5238 | ztab(:, 1:1-jpr2dj ) = 0.e0 |
---|
| 5239 | ztab(:,ijpj:ijpj+jpr2dj) = 0.e0 |
---|
| 5240 | |
---|
| 5241 | END SELECT |
---|
| 5242 | |
---|
| 5243 | END SELECT |
---|
| 5244 | |
---|
| 5245 | ! End of slab |
---|
| 5246 | ! =========== |
---|
| 5247 | |
---|
| 5248 | !! Scatter back to pt2d |
---|
| 5249 | DO jr = 1, ndim_rank_north |
---|
| 5250 | jproc=nrank_north(jr)+1 |
---|
| 5251 | ildi=nldit (jproc) |
---|
| 5252 | ilei=nleit (jproc) |
---|
| 5253 | iilb=nimppt(jproc) |
---|
| 5254 | DO jj=1-jpr2dj,ijpj+jpr2dj |
---|
| 5255 | DO ji=ildi,ilei |
---|
| 5256 | znorthgloio(ji,jj,jr)=ztab(ji+iilb-1,jj) |
---|
| 5257 | END DO |
---|
| 5258 | END DO |
---|
| 5259 | END DO |
---|
| 5260 | |
---|
| 5261 | ENDIF ! only done on proc 0 of ncomm_north |
---|
| 5262 | |
---|
| 5263 | #ifdef key_mpp_shmem |
---|
| 5264 | not done yet in shmem : compiler error |
---|
| 5265 | #elif key_mpp_mpi |
---|
| 5266 | IF ( npolj /= 0 ) THEN |
---|
| 5267 | itaille=jpi*(ijpj+2*jpr2dj) |
---|
| 5268 | CALL MPI_SCATTER(znorthgloio(1,1-jpr2dj,1),itaille,MPI_DOUBLE_PRECISION, & |
---|
| 5269 | & znorthloc(1,1-jpr2dj),itaille,MPI_DOUBLE_PRECISION,0,ncomm_north,ierr) |
---|
| 5270 | ENDIF |
---|
| 5271 | #endif |
---|
| 5272 | |
---|
| 5273 | ! put in the last ijpj jlines of pt2d znorthloc |
---|
| 5274 | DO jj = nlcj - ijpj -jpr2dj + 1 , nlcj +jpr2dj |
---|
| 5275 | ij = jj - nlcj + ijpj |
---|
| 5276 | pt2d(1:jpi,jj)= znorthloc(:,ij) |
---|
| 5277 | END DO |
---|
| 5278 | |
---|
| 5279 | END SUBROUTINE mpp_lbc_north_e |
---|
| 5280 | |
---|
| 5281 | |
---|
[13] | 5282 | !!!!! |
---|
[3] | 5283 | |
---|
| 5284 | |
---|
[13] | 5285 | !! |
---|
| 5286 | !! This is valid on IBM machine ONLY. |
---|
| 5287 | !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! -*- Mode: F90 -*- !!!!!!!!!!!!!!!!!!!!!!!!!!!!! |
---|
| 5288 | !! mpi_init_opa.f90 : Redefinition du point d'entree MPI_INIT de la bibliotheque |
---|
| 5289 | !! MPI afin de faire, en plus de l'initialisation de |
---|
| 5290 | !! l'environnement MPI, l'allocation d'une zone tampon |
---|
| 5291 | !! qui sera ulterieurement utilisee automatiquement lors |
---|
| 5292 | !! de tous les envois de messages par MPI_BSEND |
---|
| 5293 | !! |
---|
| 5294 | !! Auteur : CNRS/IDRIS |
---|
| 5295 | !! Date : Tue Nov 13 12:02:14 2001 |
---|
| 5296 | !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! |
---|
[3] | 5297 | |
---|
[13] | 5298 | SUBROUTINE mpi_init_opa(code) |
---|
| 5299 | IMPLICIT NONE |
---|
[389] | 5300 | |
---|
| 5301 | !$AGRIF_DO_NOT_TREAT |
---|
[13] | 5302 | # include <mpif.h> |
---|
[389] | 5303 | !$AGRIF_END_DO_NOT_TREAT |
---|
[3] | 5304 | |
---|
[532] | 5305 | INTEGER :: code,rang,ierr |
---|
| 5306 | LOGICAL :: mpi_was_called |
---|
[13] | 5307 | |
---|
| 5308 | ! La valeur suivante doit etre au moins egale a la taille |
---|
| 5309 | ! du plus grand message qui sera transfere dans le programme |
---|
| 5310 | ! (de toute facon, il y aura un message d'erreur si cette |
---|
| 5311 | ! valeur s'avere trop petite) |
---|
| 5312 | INTEGER :: taille_tampon |
---|
| 5313 | CHARACTER(len=9) :: taille_tampon_alphanum |
---|
| 5314 | REAL(kind=8), ALLOCATABLE, DIMENSION(:) :: tampon |
---|
| 5315 | |
---|
| 5316 | ! Le point d'entree dans la bibliotheque MPI elle-meme |
---|
[532] | 5317 | CALL mpi_initialized(mpi_was_called, code) |
---|
| 5318 | IF ( code /= MPI_SUCCESS ) THEN |
---|
| 5319 | CALL ctl_stop( ' lib_mpp: Error in routine mpi_initialized' ) |
---|
| 5320 | CALL mpi_abort( mpi_comm_world, code, ierr ) |
---|
| 5321 | ENDIF |
---|
[3] | 5322 | |
---|
[532] | 5323 | IF ( .NOT. mpi_was_called ) THEN |
---|
| 5324 | CALL mpi_init(code) |
---|
| 5325 | CALL mpi_comm_dup( mpi_comm_world, mpi_comm_opa, code) |
---|
| 5326 | IF ( code /= MPI_SUCCESS ) THEN |
---|
| 5327 | CALL ctl_stop( ' lib_mpp: Error in routine mpi_comm_dup' ) |
---|
| 5328 | CALL mpi_abort( mpi_comm_world, code, ierr ) |
---|
| 5329 | ENDIF |
---|
| 5330 | ENDIF |
---|
[13] | 5331 | ! La definition de la zone tampon pour les futurs envois |
---|
| 5332 | ! par MPI_BSEND (on alloue une fois pour toute cette zone |
---|
| 5333 | ! tampon, qui sera automatiquement utilisee lors de chaque |
---|
| 5334 | ! appel a MPI_BSEND). |
---|
| 5335 | ! La desallocation sera implicite quand on sortira de |
---|
| 5336 | ! l'environnement MPI. |
---|
[3] | 5337 | |
---|
[13] | 5338 | ! Recuperation de la valeur de la variable d'environnement |
---|
| 5339 | ! BUFFER_LENGTH |
---|
| 5340 | ! qui, si elle est definie, doit contenir une valeur superieure |
---|
| 5341 | ! a la taille en octets du plus gros message |
---|
| 5342 | CALL getenv('BUFFER_LENGTH',taille_tampon_alphanum) |
---|
| 5343 | |
---|
| 5344 | ! Si la variable BUFFER_LENGTH n'est pas positionnee, on lui met par |
---|
| 5345 | ! defaut la plus grande valeur de la variable MP_EAGER_LIMIT, soit |
---|
| 5346 | ! 65 536 octets |
---|
| 5347 | IF (taille_tampon_alphanum == ' ') THEN |
---|
| 5348 | taille_tampon = 65536 |
---|
| 5349 | ELSE |
---|
| 5350 | READ(taille_tampon_alphanum,'(i9)') taille_tampon |
---|
| 5351 | END IF |
---|
[3] | 5352 | |
---|
[13] | 5353 | ! On est limite en mode d'adressage 32 bits a 1750 Mo pour la zone |
---|
| 5354 | ! "data" soit 7 segments, c.-a -d. 1750/8 = 210 Mo |
---|
| 5355 | IF (taille_tampon > 210000000) THEN |
---|
[532] | 5356 | CALL ctl_stop( ' lib_mpp: Attention la valeur BUFFER_LENGTH doit etre <= 210000000' ) |
---|
[13] | 5357 | CALL mpi_abort(MPI_COMM_WORLD,2,code) |
---|
| 5358 | END IF |
---|
[3] | 5359 | |
---|
[532] | 5360 | CALL mpi_comm_rank(MPI_COMM_OPA,rang,code) |
---|
[13] | 5361 | IF (rang == 0 ) PRINT *,'Taille du buffer alloue : ',taille_tampon |
---|
[3] | 5362 | |
---|
[13] | 5363 | ! Allocation du tampon et attachement |
---|
| 5364 | ALLOCATE(tampon(taille_tampon)) |
---|
| 5365 | CALL mpi_buffer_attach(tampon,taille_tampon,code) |
---|
[3] | 5366 | |
---|
[13] | 5367 | END SUBROUTINE mpi_init_opa |
---|
[3] | 5368 | |
---|
[13] | 5369 | #else |
---|
| 5370 | !!---------------------------------------------------------------------- |
---|
| 5371 | !! Default case: Dummy module share memory computing |
---|
| 5372 | !!---------------------------------------------------------------------- |
---|
| 5373 | INTERFACE mpp_sum |
---|
| 5374 | MODULE PROCEDURE mpp_sum_a2s, mpp_sum_as, mpp_sum_ai, mpp_sum_s, mpp_sum_i |
---|
| 5375 | END INTERFACE |
---|
| 5376 | INTERFACE mpp_max |
---|
[681] | 5377 | MODULE PROCEDURE mppmax_a_int, mppmax_int, mppmax_a_real, mppmax_real |
---|
[13] | 5378 | END INTERFACE |
---|
| 5379 | INTERFACE mpp_min |
---|
| 5380 | MODULE PROCEDURE mppmin_a_int, mppmin_int, mppmin_a_real, mppmin_real |
---|
| 5381 | END INTERFACE |
---|
| 5382 | INTERFACE mpp_isl |
---|
| 5383 | MODULE PROCEDURE mppisl_a_int, mppisl_int, mppisl_a_real, mppisl_real |
---|
| 5384 | END INTERFACE |
---|
| 5385 | INTERFACE mppobc |
---|
| 5386 | MODULE PROCEDURE mppobc_1d, mppobc_2d, mppobc_3d, mppobc_4d |
---|
| 5387 | END INTERFACE |
---|
[181] | 5388 | INTERFACE mpp_minloc |
---|
| 5389 | MODULE PROCEDURE mpp_minloc2d ,mpp_minloc3d |
---|
| 5390 | END INTERFACE |
---|
| 5391 | INTERFACE mpp_maxloc |
---|
| 5392 | MODULE PROCEDURE mpp_maxloc2d ,mpp_maxloc3d |
---|
| 5393 | END INTERFACE |
---|
[3] | 5394 | |
---|
[181] | 5395 | |
---|
[13] | 5396 | LOGICAL, PUBLIC, PARAMETER :: lk_mpp = .FALSE. !: mpp flag |
---|
[869] | 5397 | INTEGER :: ncomm_ice |
---|
[3] | 5398 | |
---|
[13] | 5399 | CONTAINS |
---|
[3] | 5400 | |
---|
[532] | 5401 | FUNCTION mynode(localComm) RESULT (function_value) |
---|
| 5402 | INTEGER, OPTIONAL :: localComm |
---|
[13] | 5403 | function_value = 0 |
---|
| 5404 | END FUNCTION mynode |
---|
[3] | 5405 | |
---|
[13] | 5406 | SUBROUTINE mppsync ! Dummy routine |
---|
| 5407 | END SUBROUTINE mppsync |
---|
[3] | 5408 | |
---|
[869] | 5409 | SUBROUTINE mpp_sum_as( parr, kdim, kcom ) ! Dummy routine |
---|
[13] | 5410 | REAL , DIMENSION(:) :: parr |
---|
| 5411 | INTEGER :: kdim |
---|
[869] | 5412 | INTEGER, OPTIONAL :: kcom |
---|
| 5413 | WRITE(*,*) 'mpp_sum_as: You should not have seen this print! error?', kdim, parr(1), kcom |
---|
[13] | 5414 | END SUBROUTINE mpp_sum_as |
---|
[3] | 5415 | |
---|
[869] | 5416 | SUBROUTINE mpp_sum_a2s( parr, kdim, kcom ) ! Dummy routine |
---|
[13] | 5417 | REAL , DIMENSION(:,:) :: parr |
---|
| 5418 | INTEGER :: kdim |
---|
[869] | 5419 | INTEGER, OPTIONAL :: kcom |
---|
| 5420 | WRITE(*,*) 'mpp_sum_a2s: You should not have seen this print! error?', kdim, parr(1,1), kcom |
---|
[13] | 5421 | END SUBROUTINE mpp_sum_a2s |
---|
[3] | 5422 | |
---|
[869] | 5423 | SUBROUTINE mpp_sum_ai( karr, kdim, kcom ) ! Dummy routine |
---|
[13] | 5424 | INTEGER, DIMENSION(:) :: karr |
---|
| 5425 | INTEGER :: kdim |
---|
[869] | 5426 | INTEGER, OPTIONAL :: kcom |
---|
| 5427 | WRITE(*,*) 'mpp_sum_ai: You should not have seen this print! error?', kdim, karr(1), kcom |
---|
[13] | 5428 | END SUBROUTINE mpp_sum_ai |
---|
[3] | 5429 | |
---|
[869] | 5430 | SUBROUTINE mpp_sum_s( psca, kcom ) ! Dummy routine |
---|
[13] | 5431 | REAL :: psca |
---|
[869] | 5432 | INTEGER, OPTIONAL :: kcom |
---|
| 5433 | WRITE(*,*) 'mpp_sum_s: You should not have seen this print! error?', psca, kcom |
---|
[13] | 5434 | END SUBROUTINE mpp_sum_s |
---|
| 5435 | |
---|
[869] | 5436 | SUBROUTINE mpp_sum_i( kint, kcom ) ! Dummy routine |
---|
[13] | 5437 | integer :: kint |
---|
[869] | 5438 | INTEGER, OPTIONAL :: kcom |
---|
| 5439 | WRITE(*,*) 'mpp_sum_i: You should not have seen this print! error?', kint, kcom |
---|
[13] | 5440 | END SUBROUTINE mpp_sum_i |
---|
| 5441 | |
---|
[869] | 5442 | SUBROUTINE mppmax_a_real( parr, kdim, kcom ) |
---|
[13] | 5443 | REAL , DIMENSION(:) :: parr |
---|
| 5444 | INTEGER :: kdim |
---|
[869] | 5445 | INTEGER, OPTIONAL :: kcom |
---|
| 5446 | WRITE(*,*) 'mppmax_a_real: You should not have seen this print! error?', kdim, parr(1), kcom |
---|
[13] | 5447 | END SUBROUTINE mppmax_a_real |
---|
| 5448 | |
---|
[869] | 5449 | SUBROUTINE mppmax_real( psca, kcom ) |
---|
[13] | 5450 | REAL :: psca |
---|
[869] | 5451 | INTEGER, OPTIONAL :: kcom |
---|
| 5452 | WRITE(*,*) 'mppmax_real: You should not have seen this print! error?', psca, kcom |
---|
[13] | 5453 | END SUBROUTINE mppmax_real |
---|
| 5454 | |
---|
[869] | 5455 | SUBROUTINE mppmin_a_real( parr, kdim, kcom ) |
---|
[13] | 5456 | REAL , DIMENSION(:) :: parr |
---|
| 5457 | INTEGER :: kdim |
---|
[869] | 5458 | INTEGER, OPTIONAL :: kcom |
---|
| 5459 | WRITE(*,*) 'mppmin_a_real: You should not have seen this print! error?', kdim, parr(1), kcom |
---|
[13] | 5460 | END SUBROUTINE mppmin_a_real |
---|
| 5461 | |
---|
[869] | 5462 | SUBROUTINE mppmin_real( psca, kcom ) |
---|
[13] | 5463 | REAL :: psca |
---|
[869] | 5464 | INTEGER, OPTIONAL :: kcom |
---|
| 5465 | WRITE(*,*) 'mppmin_real: You should not have seen this print! error?', psca, kcom |
---|
[13] | 5466 | END SUBROUTINE mppmin_real |
---|
| 5467 | |
---|
[869] | 5468 | SUBROUTINE mppmax_a_int( karr, kdim ,kcom) |
---|
[681] | 5469 | INTEGER, DIMENSION(:) :: karr |
---|
| 5470 | INTEGER :: kdim |
---|
[869] | 5471 | INTEGER, OPTIONAL :: kcom |
---|
[888] | 5472 | WRITE(*,*) 'mppmax_a_int: You should not have seen this print! error?', kdim, karr(1), kcom |
---|
[681] | 5473 | END SUBROUTINE mppmax_a_int |
---|
| 5474 | |
---|
[869] | 5475 | SUBROUTINE mppmax_int( kint, kcom) |
---|
[681] | 5476 | INTEGER :: kint |
---|
[869] | 5477 | INTEGER, OPTIONAL :: kcom |
---|
| 5478 | WRITE(*,*) 'mppmax_int: You should not have seen this print! error?', kint, kcom |
---|
[681] | 5479 | END SUBROUTINE mppmax_int |
---|
| 5480 | |
---|
[869] | 5481 | SUBROUTINE mppmin_a_int( karr, kdim, kcom ) |
---|
[13] | 5482 | INTEGER, DIMENSION(:) :: karr |
---|
| 5483 | INTEGER :: kdim |
---|
[869] | 5484 | INTEGER, OPTIONAL :: kcom |
---|
| 5485 | WRITE(*,*) 'mppmin_a_int: You should not have seen this print! error?', kdim, karr(1), kcom |
---|
[13] | 5486 | END SUBROUTINE mppmin_a_int |
---|
| 5487 | |
---|
[869] | 5488 | SUBROUTINE mppmin_int( kint, kcom ) |
---|
[13] | 5489 | INTEGER :: kint |
---|
[869] | 5490 | INTEGER, OPTIONAL :: kcom |
---|
| 5491 | WRITE(*,*) 'mppmin_int: You should not have seen this print! error?', kint, kcom |
---|
[13] | 5492 | END SUBROUTINE mppmin_int |
---|
| 5493 | |
---|
| 5494 | SUBROUTINE mppobc_1d( parr, kd1, kd2, kl, kk, ktype, kij ) |
---|
| 5495 | INTEGER :: kd1, kd2, kl , kk, ktype, kij |
---|
| 5496 | REAL, DIMENSION(:) :: parr ! variable array |
---|
| 5497 | WRITE(*,*) 'mppobc: You should not have seen this print! error?', & |
---|
| 5498 | & parr(1), kd1, kd2, kl, kk, ktype, kij |
---|
| 5499 | END SUBROUTINE mppobc_1d |
---|
| 5500 | |
---|
| 5501 | SUBROUTINE mppobc_2d( parr, kd1, kd2, kl, kk, ktype, kij ) |
---|
| 5502 | INTEGER :: kd1, kd2, kl , kk, ktype, kij |
---|
| 5503 | REAL, DIMENSION(:,:) :: parr ! variable array |
---|
| 5504 | WRITE(*,*) 'mppobc: You should not have seen this print! error?', & |
---|
| 5505 | & parr(1,1), kd1, kd2, kl, kk, ktype, kij |
---|
| 5506 | END SUBROUTINE mppobc_2d |
---|
| 5507 | |
---|
| 5508 | SUBROUTINE mppobc_3d( parr, kd1, kd2, kl, kk, ktype, kij ) |
---|
| 5509 | INTEGER :: kd1, kd2, kl , kk, ktype, kij |
---|
| 5510 | REAL, DIMENSION(:,:,:) :: parr ! variable array |
---|
| 5511 | WRITE(*,*) 'mppobc: You should not have seen this print! error?', & |
---|
| 5512 | & parr(1,1,1), kd1, kd2, kl, kk, ktype, kij |
---|
| 5513 | END SUBROUTINE mppobc_3d |
---|
| 5514 | |
---|
| 5515 | SUBROUTINE mppobc_4d( parr, kd1, kd2, kl, kk, ktype, kij ) |
---|
| 5516 | INTEGER :: kd1, kd2, kl , kk, ktype, kij |
---|
| 5517 | REAL, DIMENSION(:,:,:,:) :: parr ! variable array |
---|
| 5518 | WRITE(*,*) 'mppobc: You should not have seen this print! error?', & |
---|
| 5519 | & parr(1,1,1,1), kd1, kd2, kl, kk, ktype, kij |
---|
| 5520 | END SUBROUTINE mppobc_4d |
---|
| 5521 | |
---|
| 5522 | |
---|
[51] | 5523 | SUBROUTINE mpplnks( parr ) ! Dummy routine |
---|
| 5524 | REAL, DIMENSION(:,:) :: parr |
---|
| 5525 | WRITE(*,*) 'mpplnks: You should not have seen this print! error?', parr(1,1) |
---|
[13] | 5526 | END SUBROUTINE mpplnks |
---|
| 5527 | |
---|
| 5528 | SUBROUTINE mppisl_a_int( karr, kdim ) |
---|
| 5529 | INTEGER, DIMENSION(:) :: karr |
---|
| 5530 | INTEGER :: kdim |
---|
| 5531 | WRITE(*,*) 'mppisl_a_int: You should not have seen this print! error?', kdim, karr(1) |
---|
| 5532 | END SUBROUTINE mppisl_a_int |
---|
| 5533 | |
---|
| 5534 | SUBROUTINE mppisl_int( kint ) |
---|
| 5535 | INTEGER :: kint |
---|
| 5536 | WRITE(*,*) 'mppisl_int: You should not have seen this print! error?', kint |
---|
| 5537 | END SUBROUTINE mppisl_int |
---|
| 5538 | |
---|
| 5539 | SUBROUTINE mppisl_a_real( parr, kdim ) |
---|
| 5540 | REAL , DIMENSION(:) :: parr |
---|
| 5541 | INTEGER :: kdim |
---|
| 5542 | WRITE(*,*) 'mppisl_a_real: You should not have seen this print! error?', kdim, parr(1) |
---|
| 5543 | END SUBROUTINE mppisl_a_real |
---|
| 5544 | |
---|
| 5545 | SUBROUTINE mppisl_real( psca ) |
---|
| 5546 | REAL :: psca |
---|
| 5547 | WRITE(*,*) 'mppisl_real: You should not have seen this print! error?', psca |
---|
| 5548 | END SUBROUTINE mppisl_real |
---|
[51] | 5549 | |
---|
[181] | 5550 | SUBROUTINE mpp_minloc2d ( ptab, pmask, pmin, ki, kj ) |
---|
| 5551 | REAL :: pmin |
---|
| 5552 | REAL , DIMENSION (:,:) :: ptab, pmask |
---|
| 5553 | INTEGER :: ki, kj |
---|
| 5554 | WRITE(*,*) 'mppisl_real: You should not have seen this print! error?', pmin, ki, kj |
---|
| 5555 | WRITE(*,*) ' " ": " " ', ptab(1,1), pmask(1,1) |
---|
| 5556 | END SUBROUTINE mpp_minloc2d |
---|
| 5557 | |
---|
| 5558 | SUBROUTINE mpp_minloc3d ( ptab, pmask, pmin, ki, kj, kk ) |
---|
| 5559 | REAL :: pmin |
---|
| 5560 | REAL , DIMENSION (:,:,:) :: ptab, pmask |
---|
| 5561 | INTEGER :: ki, kj, kk |
---|
| 5562 | WRITE(*,*) 'mppisl_real: You should not have seen this print! error?', pmin, ki, kj, kk |
---|
| 5563 | WRITE(*,*) ' " ": " " ', ptab(1,1,1), pmask(1,1,1) |
---|
| 5564 | END SUBROUTINE mpp_minloc3d |
---|
| 5565 | |
---|
| 5566 | SUBROUTINE mpp_maxloc2d ( ptab, pmask, pmax, ki, kj ) |
---|
| 5567 | REAL :: pmax |
---|
| 5568 | REAL , DIMENSION (:,:) :: ptab, pmask |
---|
| 5569 | INTEGER :: ki, kj |
---|
| 5570 | WRITE(*,*) 'mppisl_real: You should not have seen this print! error?', pmax, ki, kj |
---|
| 5571 | WRITE(*,*) ' " ": " " ', ptab(1,1), pmask(1,1) |
---|
| 5572 | END SUBROUTINE mpp_maxloc2d |
---|
| 5573 | |
---|
| 5574 | SUBROUTINE mpp_maxloc3d ( ptab, pmask, pmax, ki, kj, kk ) |
---|
| 5575 | REAL :: pmax |
---|
| 5576 | REAL , DIMENSION (:,:,:) :: ptab, pmask |
---|
| 5577 | INTEGER :: ki, kj, kk |
---|
| 5578 | WRITE(*,*) 'mppisl_real: You should not have seen this print! error?', pmax, ki, kj, kk |
---|
| 5579 | WRITE(*,*) ' " ": " " ', ptab(1,1,1), pmask(1,1,1) |
---|
| 5580 | END SUBROUTINE mpp_maxloc3d |
---|
| 5581 | |
---|
[51] | 5582 | SUBROUTINE mppstop |
---|
| 5583 | WRITE(*,*) 'mppstop: You should not have seen this print! error?' |
---|
| 5584 | END SUBROUTINE mppstop |
---|
| 5585 | |
---|
[888] | 5586 | SUBROUTINE mpp_ini_ice(kcom) |
---|
| 5587 | INTEGER :: kcom |
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| 5588 | WRITE(*,*) 'mpp_ini_ice: You should not have seen this print! error?',kcom |
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| 5589 | END SUBROUTINE mpp_ini_ice |
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[869] | 5590 | |
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| 5591 | SUBROUTINE mpp_comm_free(kcom) |
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| 5592 | INTEGER :: kcom |
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[888] | 5593 | WRITE(*,*) 'mpp_comm_free: You should not have seen this print! error?',kcom |
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[869] | 5594 | END SUBROUTINE mpp_comm_free |
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| 5595 | |
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[3] | 5596 | #endif |
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[13] | 5597 | !!---------------------------------------------------------------------- |
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[3] | 5598 | END MODULE lib_mpp |
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