[1] | 1 | SUBROUTINE init_pegrid |
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[1036] | 2 | |
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| 3 | !--------------------------------------------------------------------------------! |
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| 4 | ! This file is part of PALM. |
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| 5 | ! |
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| 6 | ! PALM is free software: you can redistribute it and/or modify it under the terms |
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| 7 | ! of the GNU General Public License as published by the Free Software Foundation, |
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| 8 | ! either version 3 of the License, or (at your option) any later version. |
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| 9 | ! |
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| 10 | ! PALM is distributed in the hope that it will be useful, but WITHOUT ANY |
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| 11 | ! WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR |
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| 12 | ! A PARTICULAR PURPOSE. See the GNU General Public License for more details. |
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| 13 | ! |
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| 14 | ! You should have received a copy of the GNU General Public License along with |
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| 15 | ! PALM. If not, see <http://www.gnu.org/licenses/>. |
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| 16 | ! |
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[1310] | 17 | ! Copyright 1997-2014 Leibniz Universitaet Hannover |
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[1036] | 18 | !--------------------------------------------------------------------------------! |
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| 19 | ! |
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[254] | 20 | ! Current revisions: |
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[1322] | 21 | ! ------------------ |
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[1354] | 22 | ! |
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[1469] | 23 | ! |
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[1321] | 24 | ! Former revisions: |
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| 25 | ! ----------------- |
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| 26 | ! $Id: init_pegrid.f90 1469 2014-09-24 14:09:56Z raasch $ |
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| 27 | ! |
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[1469] | 28 | ! 1468 2014-09-24 14:06:57Z maronga |
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| 29 | ! Adapted for use on up to 6-digit processor cores |
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| 30 | ! |
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[1436] | 31 | ! 1435 2014-07-21 10:37:02Z keck |
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| 32 | ! bugfix: added missing parameter coupling_mode_remote to ONLY-attribute |
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| 33 | ! |
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[1403] | 34 | ! 1402 2014-05-09 14:25:13Z raasch |
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| 35 | ! location messages modified |
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| 36 | ! |
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[1385] | 37 | ! 1384 2014-05-02 14:31:06Z raasch |
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| 38 | ! location messages added |
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| 39 | ! |
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[1354] | 40 | ! 1353 2014-04-08 15:21:23Z heinze |
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| 41 | ! REAL constants provided with KIND-attribute |
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| 42 | ! |
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[1323] | 43 | ! 1322 2014-03-20 16:38:49Z raasch |
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| 44 | ! REAL functions provided with KIND-attribute |
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| 45 | ! |
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[1321] | 46 | ! 1320 2014-03-20 08:40:49Z raasch |
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[1320] | 47 | ! ONLY-attribute added to USE-statements, |
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| 48 | ! kind-parameters added to all INTEGER and REAL declaration statements, |
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| 49 | ! kinds are defined in new module kinds, |
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| 50 | ! revision history before 2012 removed, |
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| 51 | ! comment fields (!:) to be used for variable explanations added to |
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| 52 | ! all variable declaration statements |
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[760] | 53 | ! |
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[1305] | 54 | ! 1304 2014-03-12 10:29:42Z raasch |
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| 55 | ! bugfix: single core MPI runs missed some settings of transpose indices |
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| 56 | ! |
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[1213] | 57 | ! 1212 2013-08-15 08:46:27Z raasch |
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| 58 | ! error message for poisfft_hybrid removed |
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| 59 | ! |
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[1160] | 60 | ! 1159 2013-05-21 11:58:22Z fricke |
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| 61 | ! dirichlet/neumann and neumann/dirichlet removed |
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| 62 | ! |
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[1140] | 63 | ! 1139 2013-04-18 07:25:03Z raasch |
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| 64 | ! bugfix for calculating the id of the PE carrying the recycling plane |
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| 65 | ! |
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[1112] | 66 | ! 1111 2013-03-08 23:54:10Z raasch |
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| 67 | ! initialization of poisfft moved to module poisfft |
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| 68 | ! |
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[1093] | 69 | ! 1092 2013-02-02 11:24:22Z raasch |
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| 70 | ! unused variables removed |
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| 71 | ! |
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[1057] | 72 | ! 1056 2012-11-16 15:28:04Z raasch |
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| 73 | ! Indices for arrays n.._mg start from zero due to definition of arrays f2 and |
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| 74 | ! p2 as automatic arrays in recursive subroutine next_mg_level |
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| 75 | ! |
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[1042] | 76 | ! 1041 2012-11-06 02:36:29Z raasch |
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| 77 | ! a 2d virtual processor topology is used by default for all machines |
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| 78 | ! |
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[1037] | 79 | ! 1036 2012-10-22 13:43:42Z raasch |
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| 80 | ! code put under GPL (PALM 3.9) |
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| 81 | ! |
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[1004] | 82 | ! 1003 2012-09-14 14:35:53Z raasch |
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| 83 | ! subdomains must have identical size (grid matching = "match" removed) |
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| 84 | ! |
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[1002] | 85 | ! 1001 2012-09-13 14:08:46Z raasch |
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| 86 | ! all actions concerning upstream-spline-method removed |
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| 87 | ! |
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[979] | 88 | ! 978 2012-08-09 08:28:32Z fricke |
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| 89 | ! dirichlet/neumann and neumann/dirichlet added |
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| 90 | ! nxlu and nysv are also calculated for inflow boundary |
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| 91 | ! |
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[810] | 92 | ! 809 2012-01-30 13:32:58Z maronga |
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| 93 | ! Bugfix: replaced .AND. and .NOT. with && and ! in the preprocessor directives |
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| 94 | ! |
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[808] | 95 | ! 807 2012-01-25 11:53:51Z maronga |
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| 96 | ! New cpp directive "__check" implemented which is used by check_namelist_files |
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| 97 | ! |
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[1] | 98 | ! Revision 1.1 1997/07/24 11:15:09 raasch |
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| 99 | ! Initial revision |
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| 100 | ! |
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| 101 | ! |
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| 102 | ! Description: |
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| 103 | ! ------------ |
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| 104 | ! Determination of the virtual processor topology (if not prescribed by the |
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| 105 | ! user)and computation of the grid point number and array bounds of the local |
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| 106 | ! domains. |
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| 107 | !------------------------------------------------------------------------------! |
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| 108 | |
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[1320] | 109 | USE control_parameters, & |
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[1435] | 110 | ONLY: bc_lr, bc_ns, coupling_mode, coupling_mode_remote, & |
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| 111 | coupling_topology, dt_dosp, gathered_size, grid_level, & |
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| 112 | grid_level_count, host, inflow_l, inflow_n, inflow_r, inflow_s, & |
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| 113 | io_blocks, io_group, maximum_grid_level, & |
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| 114 | maximum_parallel_io_streams, message_string, & |
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[1320] | 115 | mg_switch_to_pe0_level, momentum_advec, psolver, outflow_l, & |
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| 116 | outflow_n, outflow_r, outflow_s, recycling_width, scalar_advec, & |
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| 117 | subdomain_size |
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[1] | 118 | |
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[1320] | 119 | USE grid_variables, & |
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| 120 | ONLY: dx |
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| 121 | |
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| 122 | USE indices, & |
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| 123 | ONLY: mg_loc_ind, nbgp, nnx, nny, nnz, nx, nx_a, nx_o, nxl, nxl_mg, & |
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| 124 | nxlu, nxr, nxr_mg, ny, ny_a, ny_o, nyn, nyn_mg, nys, nys_mg, & |
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| 125 | nysv, nz, nzb, nzt, nzt_mg, wall_flags_1, wall_flags_2, & |
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| 126 | wall_flags_3, wall_flags_4, wall_flags_5, wall_flags_6, & |
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| 127 | wall_flags_7, wall_flags_8, wall_flags_9, wall_flags_10 |
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[1] | 128 | |
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[1320] | 129 | USE kinds |
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| 130 | |
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| 131 | USE pegrid |
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| 132 | |
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| 133 | USE transpose_indices, & |
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| 134 | ONLY: nxl_y, nxl_yd, nxl_z, nxr_y, nxr_yd, nxr_z, nyn_x, nyn_z, nys_x,& |
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| 135 | nys_z, nzb_x, nzb_y, nzb_yd, nzt_x, nzt_yd, nzt_y |
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[667] | 136 | |
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[1] | 137 | IMPLICIT NONE |
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| 138 | |
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[1320] | 139 | INTEGER(iwp) :: i !: |
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| 140 | INTEGER(iwp) :: id_inflow_l !: |
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| 141 | INTEGER(iwp) :: id_recycling_l !: |
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| 142 | INTEGER(iwp) :: ind(5) !: |
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| 143 | INTEGER(iwp) :: j !: |
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| 144 | INTEGER(iwp) :: k !: |
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| 145 | INTEGER(iwp) :: maximum_grid_level_l !: |
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| 146 | INTEGER(iwp) :: mg_levels_x !: |
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| 147 | INTEGER(iwp) :: mg_levels_y !: |
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| 148 | INTEGER(iwp) :: mg_levels_z !: |
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| 149 | INTEGER(iwp) :: mg_switch_to_pe0_level_l !: |
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| 150 | INTEGER(iwp) :: nnx_y !: |
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| 151 | INTEGER(iwp) :: nnx_z !: |
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| 152 | INTEGER(iwp) :: nny_x !: |
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| 153 | INTEGER(iwp) :: nny_z !: |
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| 154 | INTEGER(iwp) :: nnz_x !: |
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| 155 | INTEGER(iwp) :: nnz_y !: |
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| 156 | INTEGER(iwp) :: numproc_sqr !: |
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| 157 | INTEGER(iwp) :: nxl_l !: |
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| 158 | INTEGER(iwp) :: nxr_l !: |
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| 159 | INTEGER(iwp) :: nyn_l !: |
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| 160 | INTEGER(iwp) :: nys_l !: |
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| 161 | INTEGER(iwp) :: nzb_l !: |
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| 162 | INTEGER(iwp) :: nzt_l !: |
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| 163 | INTEGER(iwp) :: omp_get_num_threads !: |
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[1] | 164 | |
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[1320] | 165 | INTEGER(iwp), DIMENSION(:), ALLOCATABLE :: ind_all !: |
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| 166 | INTEGER(iwp), DIMENSION(:), ALLOCATABLE :: nxlf !: |
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| 167 | INTEGER(iwp), DIMENSION(:), ALLOCATABLE :: nxrf !: |
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| 168 | INTEGER(iwp), DIMENSION(:), ALLOCATABLE :: nynf !: |
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| 169 | INTEGER(iwp), DIMENSION(:), ALLOCATABLE :: nysf !: |
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[1] | 170 | |
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[1320] | 171 | INTEGER(iwp), DIMENSION(2) :: pdims_remote !: |
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[667] | 172 | |
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[1092] | 173 | #if defined( __mpi2 ) |
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[1320] | 174 | LOGICAL :: found !: |
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[1092] | 175 | #endif |
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[1] | 176 | |
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| 177 | ! |
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| 178 | !-- Get the number of OpenMP threads |
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| 179 | !$OMP PARALLEL |
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[82] | 180 | #if defined( __intel_openmp_bug ) |
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[1] | 181 | threads_per_task = omp_get_num_threads() |
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| 182 | #else |
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| 183 | !$ threads_per_task = omp_get_num_threads() |
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| 184 | #endif |
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| 185 | !$OMP END PARALLEL |
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| 186 | |
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| 187 | |
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| 188 | #if defined( __parallel ) |
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[667] | 189 | |
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[1402] | 190 | CALL location_message( 'creating virtual PE grids + MPI derived data types', & |
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| 191 | .FALSE. ) |
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[1] | 192 | ! |
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| 193 | !-- Determine the processor topology or check it, if prescribed by the user |
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| 194 | IF ( npex == -1 .AND. npey == -1 ) THEN |
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| 195 | |
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| 196 | ! |
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| 197 | !-- Automatic determination of the topology |
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[1322] | 198 | numproc_sqr = SQRT( REAL( numprocs, KIND=wp ) ) |
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[1041] | 199 | pdims(1) = MAX( numproc_sqr , 1 ) |
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| 200 | DO WHILE ( MOD( numprocs , pdims(1) ) /= 0 ) |
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| 201 | pdims(1) = pdims(1) - 1 |
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| 202 | ENDDO |
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| 203 | pdims(2) = numprocs / pdims(1) |
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[1] | 204 | |
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| 205 | ELSEIF ( npex /= -1 .AND. npey /= -1 ) THEN |
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| 206 | |
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| 207 | ! |
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| 208 | !-- Prescribed by user. Number of processors on the prescribed topology |
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| 209 | !-- must be equal to the number of PEs available to the job |
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| 210 | IF ( ( npex * npey ) /= numprocs ) THEN |
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[274] | 211 | WRITE( message_string, * ) 'number of PEs of the prescribed ', & |
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| 212 | 'topology (', npex*npey,') does not match & the number of ', & |
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| 213 | 'PEs available to the job (', numprocs, ')' |
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[254] | 214 | CALL message( 'init_pegrid', 'PA0221', 1, 2, 0, 6, 0 ) |
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[1] | 215 | ENDIF |
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| 216 | pdims(1) = npex |
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| 217 | pdims(2) = npey |
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| 218 | |
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| 219 | ELSE |
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| 220 | ! |
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| 221 | !-- If the processor topology is prescribed by the user, the number of |
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| 222 | !-- PEs must be given in both directions |
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[274] | 223 | message_string = 'if the processor topology is prescribed by the, ' // & |
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| 224 | ' user& both values of "npex" and "npey" must be given ' // & |
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| 225 | 'in the &NAMELIST-parameter file' |
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[254] | 226 | CALL message( 'init_pegrid', 'PA0222', 1, 2, 0, 6, 0 ) |
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[1] | 227 | |
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| 228 | ENDIF |
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| 229 | |
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| 230 | ! |
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[622] | 231 | !-- For communication speedup, set barriers in front of collective |
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| 232 | !-- communications by default on SGI-type systems |
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| 233 | IF ( host(3:5) == 'sgi' ) collective_wait = .TRUE. |
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| 234 | |
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| 235 | ! |
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[1] | 236 | !-- If necessary, set horizontal boundary conditions to non-cyclic |
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[722] | 237 | IF ( bc_lr /= 'cyclic' ) cyclic(1) = .FALSE. |
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| 238 | IF ( bc_ns /= 'cyclic' ) cyclic(2) = .FALSE. |
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[1] | 239 | |
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[807] | 240 | |
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[809] | 241 | #if ! defined( __check) |
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[1] | 242 | ! |
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| 243 | !-- Create the virtual processor grid |
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| 244 | CALL MPI_CART_CREATE( comm_palm, ndim, pdims, cyclic, reorder, & |
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| 245 | comm2d, ierr ) |
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| 246 | CALL MPI_COMM_RANK( comm2d, myid, ierr ) |
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[1468] | 247 | WRITE (myid_char,'(''_'',I6.6)') myid |
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[1] | 248 | |
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| 249 | CALL MPI_CART_COORDS( comm2d, myid, ndim, pcoord, ierr ) |
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| 250 | CALL MPI_CART_SHIFT( comm2d, 0, 1, pleft, pright, ierr ) |
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| 251 | CALL MPI_CART_SHIFT( comm2d, 1, 1, psouth, pnorth, ierr ) |
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| 252 | |
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| 253 | ! |
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| 254 | !-- Determine sub-topologies for transpositions |
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| 255 | !-- Transposition from z to x: |
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| 256 | remain_dims(1) = .TRUE. |
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| 257 | remain_dims(2) = .FALSE. |
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| 258 | CALL MPI_CART_SUB( comm2d, remain_dims, comm1dx, ierr ) |
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| 259 | CALL MPI_COMM_RANK( comm1dx, myidx, ierr ) |
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| 260 | ! |
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| 261 | !-- Transposition from x to y |
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| 262 | remain_dims(1) = .FALSE. |
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| 263 | remain_dims(2) = .TRUE. |
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| 264 | CALL MPI_CART_SUB( comm2d, remain_dims, comm1dy, ierr ) |
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| 265 | CALL MPI_COMM_RANK( comm1dy, myidy, ierr ) |
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| 266 | |
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[807] | 267 | #endif |
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[1] | 268 | |
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| 269 | ! |
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[1003] | 270 | !-- Calculate array bounds along x-direction for every PE. |
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[1] | 271 | ALLOCATE( nxlf(0:pdims(1)-1), nxrf(0:pdims(1)-1), nynf(0:pdims(2)-1), & |
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[1003] | 272 | nysf(0:pdims(2)-1) ) |
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[1] | 273 | |
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[1003] | 274 | IF ( MOD( nx+1 , pdims(1) ) /= 0 ) THEN |
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[274] | 275 | WRITE( message_string, * ) 'x-direction: gridpoint number (',nx+1,') ',& |
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| 276 | 'is not an& integral divisor of the number ', & |
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| 277 | 'processors (', pdims(1),')' |
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[254] | 278 | CALL message( 'init_pegrid', 'PA0225', 1, 2, 0, 6, 0 ) |
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[1] | 279 | ELSE |
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[1003] | 280 | nnx = ( nx + 1 ) / pdims(1) |
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[1] | 281 | IF ( nnx*pdims(1) - ( nx + 1) > nnx ) THEN |
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[274] | 282 | WRITE( message_string, * ) 'x-direction: nx does not match the', & |
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| 283 | 'requirements given by the number of PEs &used', & |
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| 284 | '& please use nx = ', nx - ( pdims(1) - ( nnx*pdims(1) & |
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| 285 | - ( nx + 1 ) ) ), ' instead of nx =', nx |
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[254] | 286 | CALL message( 'init_pegrid', 'PA0226', 1, 2, 0, 6, 0 ) |
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[1] | 287 | ENDIF |
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| 288 | ENDIF |
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| 289 | |
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| 290 | ! |
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| 291 | !-- Left and right array bounds, number of gridpoints |
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| 292 | DO i = 0, pdims(1)-1 |
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| 293 | nxlf(i) = i * nnx |
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| 294 | nxrf(i) = ( i + 1 ) * nnx - 1 |
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| 295 | ENDDO |
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| 296 | |
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| 297 | ! |
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| 298 | !-- Calculate array bounds in y-direction for every PE. |
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[1003] | 299 | IF ( MOD( ny+1 , pdims(2) ) /= 0 ) THEN |
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[274] | 300 | WRITE( message_string, * ) 'y-direction: gridpoint number (',ny+1,') ', & |
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| 301 | 'is not an& integral divisor of the number of', & |
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| 302 | 'processors (', pdims(2),')' |
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[254] | 303 | CALL message( 'init_pegrid', 'PA0227', 1, 2, 0, 6, 0 ) |
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[1] | 304 | ELSE |
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[1003] | 305 | nny = ( ny + 1 ) / pdims(2) |
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[1] | 306 | IF ( nny*pdims(2) - ( ny + 1) > nny ) THEN |
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[274] | 307 | WRITE( message_string, * ) 'y-direction: ny does not match the', & |
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| 308 | 'requirements given by the number of PEs &used ', & |
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| 309 | '& please use ny = ', ny - ( pdims(2) - ( nnx*pdims(2) & |
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[254] | 310 | - ( ny + 1 ) ) ), ' instead of ny =', ny |
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| 311 | CALL message( 'init_pegrid', 'PA0228', 1, 2, 0, 6, 0 ) |
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[1] | 312 | ENDIF |
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| 313 | ENDIF |
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| 314 | |
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| 315 | ! |
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| 316 | !-- South and north array bounds |
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| 317 | DO j = 0, pdims(2)-1 |
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| 318 | nysf(j) = j * nny |
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| 319 | nynf(j) = ( j + 1 ) * nny - 1 |
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| 320 | ENDDO |
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| 321 | |
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| 322 | ! |
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| 323 | !-- Local array bounds of the respective PEs |
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[1003] | 324 | nxl = nxlf(pcoord(1)) |
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| 325 | nxr = nxrf(pcoord(1)) |
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| 326 | nys = nysf(pcoord(2)) |
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| 327 | nyn = nynf(pcoord(2)) |
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| 328 | nzb = 0 |
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| 329 | nzt = nz |
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| 330 | nnz = nz |
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[1] | 331 | |
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| 332 | ! |
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[707] | 333 | !-- Set switches to define if the PE is situated at the border of the virtual |
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| 334 | !-- processor grid |
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| 335 | IF ( nxl == 0 ) left_border_pe = .TRUE. |
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| 336 | IF ( nxr == nx ) right_border_pe = .TRUE. |
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| 337 | IF ( nys == 0 ) south_border_pe = .TRUE. |
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| 338 | IF ( nyn == ny ) north_border_pe = .TRUE. |
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| 339 | |
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| 340 | ! |
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[1] | 341 | !-- Calculate array bounds and gridpoint numbers for the transposed arrays |
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| 342 | !-- (needed in the pressure solver) |
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| 343 | !-- For the transposed arrays, cyclic boundaries as well as top and bottom |
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| 344 | !-- boundaries are omitted, because they are obstructive to the transposition |
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| 345 | |
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| 346 | ! |
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| 347 | !-- 1. transposition z --> x |
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[1001] | 348 | !-- This transposition is not neccessary in case of a 1d-decomposition along x |
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[1304] | 349 | nys_x = nys |
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| 350 | nyn_x = nyn |
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| 351 | nny_x = nny |
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| 352 | nnz_x = nz / pdims(1) |
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| 353 | nzb_x = 1 + myidx * nnz_x |
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| 354 | nzt_x = ( myidx + 1 ) * nnz_x |
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| 355 | sendrecvcount_zx = nnx * nny * nnz_x |
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| 356 | |
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[1001] | 357 | IF ( pdims(2) /= 1 ) THEN |
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[1003] | 358 | IF ( MOD( nz , pdims(1) ) /= 0 ) THEN |
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[274] | 359 | WRITE( message_string, * ) 'transposition z --> x:', & |
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| 360 | '&nz=',nz,' is not an integral divisior of pdims(1)=', & |
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| 361 | pdims(1) |
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[254] | 362 | CALL message( 'init_pegrid', 'PA0230', 1, 2, 0, 6, 0 ) |
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[1] | 363 | ENDIF |
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| 364 | ENDIF |
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| 365 | |
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| 366 | ! |
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| 367 | !-- 2. transposition x --> y |
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[1003] | 368 | nnz_y = nnz_x |
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| 369 | nzb_y = nzb_x |
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| 370 | nzt_y = nzt_x |
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| 371 | IF ( MOD( nx+1 , pdims(2) ) /= 0 ) THEN |
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[274] | 372 | WRITE( message_string, * ) 'transposition x --> y:', & |
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| 373 | '&nx+1=',nx+1,' is not an integral divisor of ',& |
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| 374 | 'pdims(2)=',pdims(2) |
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[254] | 375 | CALL message( 'init_pegrid', 'PA0231', 1, 2, 0, 6, 0 ) |
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[1] | 376 | ENDIF |
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[1003] | 377 | nnx_y = (nx+1) / pdims(2) |
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[1] | 378 | nxl_y = myidy * nnx_y |
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[1003] | 379 | nxr_y = ( myidy + 1 ) * nnx_y - 1 |
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[1] | 380 | sendrecvcount_xy = nnx_y * nny_x * nnz_y |
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| 381 | |
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| 382 | ! |
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| 383 | !-- 3. transposition y --> z (ELSE: x --> y in case of 1D-decomposition |
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| 384 | !-- along x) |
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[1304] | 385 | nnx_z = nnx_y |
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| 386 | nxl_z = nxl_y |
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| 387 | nxr_z = nxr_y |
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| 388 | nny_z = (ny+1) / pdims(1) |
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| 389 | nys_z = myidx * nny_z |
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| 390 | nyn_z = ( myidx + 1 ) * nny_z - 1 |
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| 391 | sendrecvcount_yz = nnx_y * nny_z * nnz_y |
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| 392 | |
---|
[1001] | 393 | IF ( pdims(2) /= 1 ) THEN |
---|
[1] | 394 | ! |
---|
| 395 | !-- y --> z |
---|
| 396 | !-- This transposition is not neccessary in case of a 1d-decomposition |
---|
| 397 | !-- along x, except that the uptream-spline method is switched on |
---|
[1003] | 398 | IF ( MOD( ny+1 , pdims(1) ) /= 0 ) THEN |
---|
[274] | 399 | WRITE( message_string, * ) 'transposition y --> z:', & |
---|
| 400 | '& ny+1=',ny+1,' is not an integral divisor of ',& |
---|
| 401 | 'pdims(1)=',pdims(1) |
---|
[254] | 402 | CALL message( 'init_pegrid', 'PA0232', 1, 2, 0, 6, 0 ) |
---|
[1] | 403 | ENDIF |
---|
| 404 | |
---|
| 405 | ELSE |
---|
| 406 | ! |
---|
| 407 | !-- x --> y. This condition must be fulfilled for a 1D-decomposition along x |
---|
[1003] | 408 | IF ( MOD( ny+1 , pdims(1) ) /= 0 ) THEN |
---|
[274] | 409 | WRITE( message_string, * ) 'transposition x --> y:', & |
---|
| 410 | '& ny+1=',ny+1,' is not an integral divisor of ',& |
---|
| 411 | 'pdims(1)=',pdims(1) |
---|
[254] | 412 | CALL message( 'init_pegrid', 'PA0233', 1, 2, 0, 6, 0 ) |
---|
[1] | 413 | ENDIF |
---|
| 414 | |
---|
| 415 | ENDIF |
---|
| 416 | |
---|
| 417 | ! |
---|
| 418 | !-- Indices for direct transpositions z --> y (used for calculating spectra) |
---|
[1353] | 419 | IF ( dt_dosp /= 9999999.9_wp ) THEN |
---|
[1003] | 420 | IF ( MOD( nz, pdims(2) ) /= 0 ) THEN |
---|
[274] | 421 | WRITE( message_string, * ) 'direct transposition z --> y (needed ', & |
---|
| 422 | 'for spectra):& nz=',nz,' is not an integral divisor of ',& |
---|
| 423 | 'pdims(2)=',pdims(2) |
---|
[254] | 424 | CALL message( 'init_pegrid', 'PA0234', 1, 2, 0, 6, 0 ) |
---|
[1] | 425 | ELSE |
---|
[1003] | 426 | nxl_yd = nxl |
---|
| 427 | nxr_yd = nxr |
---|
| 428 | nzb_yd = 1 + myidy * ( nz / pdims(2) ) |
---|
| 429 | nzt_yd = ( myidy + 1 ) * ( nz / pdims(2) ) |
---|
| 430 | sendrecvcount_zyd = nnx * nny * ( nz / pdims(2) ) |
---|
[1] | 431 | ENDIF |
---|
| 432 | ENDIF |
---|
| 433 | |
---|
| 434 | ! |
---|
| 435 | !-- Indices for direct transpositions y --> x (they are only possible in case |
---|
| 436 | !-- of a 1d-decomposition along x) |
---|
| 437 | IF ( pdims(2) == 1 ) THEN |
---|
[1003] | 438 | nny_x = nny / pdims(1) |
---|
| 439 | nys_x = myid * nny_x |
---|
| 440 | nyn_x = ( myid + 1 ) * nny_x - 1 |
---|
| 441 | nzb_x = 1 |
---|
| 442 | nzt_x = nz |
---|
| 443 | sendrecvcount_xy = nnx * nny_x * nz |
---|
[1] | 444 | ENDIF |
---|
| 445 | |
---|
| 446 | ! |
---|
| 447 | !-- Indices for direct transpositions x --> y (they are only possible in case |
---|
| 448 | !-- of a 1d-decomposition along y) |
---|
| 449 | IF ( pdims(1) == 1 ) THEN |
---|
[1003] | 450 | nnx_y = nnx / pdims(2) |
---|
| 451 | nxl_y = myid * nnx_y |
---|
| 452 | nxr_y = ( myid + 1 ) * nnx_y - 1 |
---|
| 453 | nzb_y = 1 |
---|
| 454 | nzt_y = nz |
---|
| 455 | sendrecvcount_xy = nnx_y * nny * nz |
---|
[1] | 456 | ENDIF |
---|
| 457 | |
---|
| 458 | ! |
---|
| 459 | !-- Arrays for storing the array bounds are needed any more |
---|
| 460 | DEALLOCATE( nxlf , nxrf , nynf , nysf ) |
---|
| 461 | |
---|
[807] | 462 | |
---|
[809] | 463 | #if ! defined( __check) |
---|
[145] | 464 | ! |
---|
| 465 | !-- Collect index bounds from other PEs (to be written to restart file later) |
---|
| 466 | ALLOCATE( hor_index_bounds(4,0:numprocs-1) ) |
---|
| 467 | |
---|
| 468 | IF ( myid == 0 ) THEN |
---|
| 469 | |
---|
| 470 | hor_index_bounds(1,0) = nxl |
---|
| 471 | hor_index_bounds(2,0) = nxr |
---|
| 472 | hor_index_bounds(3,0) = nys |
---|
| 473 | hor_index_bounds(4,0) = nyn |
---|
| 474 | |
---|
| 475 | ! |
---|
| 476 | !-- Receive data from all other PEs |
---|
| 477 | DO i = 1, numprocs-1 |
---|
| 478 | CALL MPI_RECV( ibuf, 4, MPI_INTEGER, i, MPI_ANY_TAG, comm2d, status, & |
---|
| 479 | ierr ) |
---|
| 480 | hor_index_bounds(:,i) = ibuf(1:4) |
---|
| 481 | ENDDO |
---|
| 482 | |
---|
| 483 | ELSE |
---|
| 484 | ! |
---|
| 485 | !-- Send index bounds to PE0 |
---|
| 486 | ibuf(1) = nxl |
---|
| 487 | ibuf(2) = nxr |
---|
| 488 | ibuf(3) = nys |
---|
| 489 | ibuf(4) = nyn |
---|
| 490 | CALL MPI_SEND( ibuf, 4, MPI_INTEGER, 0, myid, comm2d, ierr ) |
---|
| 491 | |
---|
| 492 | ENDIF |
---|
| 493 | |
---|
[807] | 494 | #endif |
---|
| 495 | |
---|
[1] | 496 | #if defined( __print ) |
---|
| 497 | ! |
---|
| 498 | !-- Control output |
---|
| 499 | IF ( myid == 0 ) THEN |
---|
| 500 | PRINT*, '*** processor topology ***' |
---|
| 501 | PRINT*, ' ' |
---|
| 502 | PRINT*, 'myid pcoord left right south north idx idy nxl: nxr',& |
---|
| 503 | &' nys: nyn' |
---|
| 504 | PRINT*, '------------------------------------------------------------',& |
---|
| 505 | &'-----------' |
---|
| 506 | WRITE (*,1000) 0, pcoord(1), pcoord(2), pleft, pright, psouth, pnorth, & |
---|
| 507 | myidx, myidy, nxl, nxr, nys, nyn |
---|
| 508 | 1000 FORMAT (I4,2X,'(',I3,',',I3,')',3X,I4,2X,I4,3X,I4,2X,I4,2X,I3,1X,I3, & |
---|
| 509 | 2(2X,I4,':',I4)) |
---|
| 510 | |
---|
| 511 | ! |
---|
[108] | 512 | !-- Receive data from the other PEs |
---|
[1] | 513 | DO i = 1,numprocs-1 |
---|
| 514 | CALL MPI_RECV( ibuf, 12, MPI_INTEGER, i, MPI_ANY_TAG, comm2d, status, & |
---|
| 515 | ierr ) |
---|
| 516 | WRITE (*,1000) i, ( ibuf(j) , j = 1,12 ) |
---|
| 517 | ENDDO |
---|
| 518 | ELSE |
---|
| 519 | |
---|
| 520 | ! |
---|
| 521 | !-- Send data to PE0 |
---|
| 522 | ibuf(1) = pcoord(1); ibuf(2) = pcoord(2); ibuf(3) = pleft |
---|
| 523 | ibuf(4) = pright; ibuf(5) = psouth; ibuf(6) = pnorth; ibuf(7) = myidx |
---|
| 524 | ibuf(8) = myidy; ibuf(9) = nxl; ibuf(10) = nxr; ibuf(11) = nys |
---|
| 525 | ibuf(12) = nyn |
---|
| 526 | CALL MPI_SEND( ibuf, 12, MPI_INTEGER, 0, myid, comm2d, ierr ) |
---|
| 527 | ENDIF |
---|
| 528 | #endif |
---|
| 529 | |
---|
[809] | 530 | #if defined( __parallel ) && ! defined( __check) |
---|
[102] | 531 | #if defined( __mpi2 ) |
---|
| 532 | ! |
---|
| 533 | !-- In case of coupled runs, get the port name on PE0 of the atmosphere model |
---|
| 534 | !-- and pass it to PE0 of the ocean model |
---|
| 535 | IF ( myid == 0 ) THEN |
---|
| 536 | |
---|
| 537 | IF ( coupling_mode == 'atmosphere_to_ocean' ) THEN |
---|
| 538 | |
---|
| 539 | CALL MPI_OPEN_PORT( MPI_INFO_NULL, port_name, ierr ) |
---|
[108] | 540 | |
---|
[102] | 541 | CALL MPI_PUBLISH_NAME( 'palm_coupler', MPI_INFO_NULL, port_name, & |
---|
| 542 | ierr ) |
---|
[108] | 543 | |
---|
| 544 | ! |
---|
[104] | 545 | !-- Write a flag file for the ocean model and the other atmosphere |
---|
| 546 | !-- processes. |
---|
| 547 | !-- There seems to be a bug in MPICH2 which causes hanging processes |
---|
| 548 | !-- in case that execution of LOOKUP_NAME is continued too early |
---|
| 549 | !-- (i.e. before the port has been created) |
---|
| 550 | OPEN( 90, FILE='COUPLING_PORT_OPENED', FORM='FORMATTED' ) |
---|
| 551 | WRITE ( 90, '(''TRUE'')' ) |
---|
| 552 | CLOSE ( 90 ) |
---|
[102] | 553 | |
---|
| 554 | ELSEIF ( coupling_mode == 'ocean_to_atmosphere' ) THEN |
---|
| 555 | |
---|
[104] | 556 | ! |
---|
| 557 | !-- Continue only if the atmosphere model has created the port. |
---|
| 558 | !-- There seems to be a bug in MPICH2 which causes hanging processes |
---|
| 559 | !-- in case that execution of LOOKUP_NAME is continued too early |
---|
| 560 | !-- (i.e. before the port has been created) |
---|
| 561 | INQUIRE( FILE='COUPLING_PORT_OPENED', EXIST=found ) |
---|
| 562 | DO WHILE ( .NOT. found ) |
---|
| 563 | INQUIRE( FILE='COUPLING_PORT_OPENED', EXIST=found ) |
---|
| 564 | ENDDO |
---|
| 565 | |
---|
[102] | 566 | CALL MPI_LOOKUP_NAME( 'palm_coupler', MPI_INFO_NULL, port_name, ierr ) |
---|
| 567 | |
---|
| 568 | ENDIF |
---|
| 569 | |
---|
| 570 | ENDIF |
---|
| 571 | |
---|
| 572 | ! |
---|
| 573 | !-- In case of coupled runs, establish the connection between the atmosphere |
---|
| 574 | !-- and the ocean model and define the intercommunicator (comm_inter) |
---|
| 575 | CALL MPI_BARRIER( comm2d, ierr ) |
---|
| 576 | IF ( coupling_mode == 'atmosphere_to_ocean' ) THEN |
---|
| 577 | |
---|
| 578 | CALL MPI_COMM_ACCEPT( port_name, MPI_INFO_NULL, 0, MPI_COMM_WORLD, & |
---|
| 579 | comm_inter, ierr ) |
---|
[108] | 580 | coupling_mode_remote = 'ocean_to_atmosphere' |
---|
| 581 | |
---|
[102] | 582 | ELSEIF ( coupling_mode == 'ocean_to_atmosphere' ) THEN |
---|
| 583 | |
---|
| 584 | CALL MPI_COMM_CONNECT( port_name, MPI_INFO_NULL, 0, MPI_COMM_WORLD, & |
---|
| 585 | comm_inter, ierr ) |
---|
[108] | 586 | coupling_mode_remote = 'atmosphere_to_ocean' |
---|
| 587 | |
---|
[102] | 588 | ENDIF |
---|
[206] | 589 | #endif |
---|
[102] | 590 | |
---|
[667] | 591 | ! |
---|
[709] | 592 | !-- Determine the number of ghost point layers |
---|
| 593 | IF ( scalar_advec == 'ws-scheme' .OR. momentum_advec == 'ws-scheme' ) THEN |
---|
[667] | 594 | nbgp = 3 |
---|
| 595 | ELSE |
---|
| 596 | nbgp = 1 |
---|
[709] | 597 | ENDIF |
---|
[667] | 598 | |
---|
[102] | 599 | ! |
---|
[709] | 600 | !-- Create a new MPI derived datatype for the exchange of surface (xy) data, |
---|
| 601 | !-- which is needed for coupled atmosphere-ocean runs. |
---|
| 602 | !-- First, calculate number of grid points of an xy-plane. |
---|
[667] | 603 | ngp_xy = ( nxr - nxl + 1 + 2 * nbgp ) * ( nyn - nys + 1 + 2 * nbgp ) |
---|
[102] | 604 | CALL MPI_TYPE_VECTOR( ngp_xy, 1, nzt-nzb+2, MPI_REAL, type_xy, ierr ) |
---|
| 605 | CALL MPI_TYPE_COMMIT( type_xy, ierr ) |
---|
[667] | 606 | |
---|
[709] | 607 | IF ( TRIM( coupling_mode ) /= 'uncoupled' ) THEN |
---|
[667] | 608 | |
---|
| 609 | ! |
---|
| 610 | !-- Pass the number of grid points of the atmosphere model to |
---|
| 611 | !-- the ocean model and vice versa |
---|
| 612 | IF ( coupling_mode == 'atmosphere_to_ocean' ) THEN |
---|
| 613 | |
---|
| 614 | nx_a = nx |
---|
| 615 | ny_a = ny |
---|
| 616 | |
---|
[709] | 617 | IF ( myid == 0 ) THEN |
---|
| 618 | |
---|
| 619 | CALL MPI_SEND( nx_a, 1, MPI_INTEGER, numprocs, 1, comm_inter, & |
---|
| 620 | ierr ) |
---|
| 621 | CALL MPI_SEND( ny_a, 1, MPI_INTEGER, numprocs, 2, comm_inter, & |
---|
| 622 | ierr ) |
---|
| 623 | CALL MPI_SEND( pdims, 2, MPI_INTEGER, numprocs, 3, comm_inter, & |
---|
| 624 | ierr ) |
---|
| 625 | CALL MPI_RECV( nx_o, 1, MPI_INTEGER, numprocs, 4, comm_inter, & |
---|
| 626 | status, ierr ) |
---|
| 627 | CALL MPI_RECV( ny_o, 1, MPI_INTEGER, numprocs, 5, comm_inter, & |
---|
| 628 | status, ierr ) |
---|
| 629 | CALL MPI_RECV( pdims_remote, 2, MPI_INTEGER, numprocs, 6, & |
---|
[667] | 630 | comm_inter, status, ierr ) |
---|
| 631 | ENDIF |
---|
| 632 | |
---|
[709] | 633 | CALL MPI_BCAST( nx_o, 1, MPI_INTEGER, 0, comm2d, ierr ) |
---|
| 634 | CALL MPI_BCAST( ny_o, 1, MPI_INTEGER, 0, comm2d, ierr ) |
---|
| 635 | CALL MPI_BCAST( pdims_remote, 2, MPI_INTEGER, 0, comm2d, ierr ) |
---|
[667] | 636 | |
---|
| 637 | ELSEIF ( coupling_mode == 'ocean_to_atmosphere' ) THEN |
---|
| 638 | |
---|
| 639 | nx_o = nx |
---|
| 640 | ny_o = ny |
---|
| 641 | |
---|
| 642 | IF ( myid == 0 ) THEN |
---|
[709] | 643 | |
---|
| 644 | CALL MPI_RECV( nx_a, 1, MPI_INTEGER, 0, 1, comm_inter, status, & |
---|
| 645 | ierr ) |
---|
| 646 | CALL MPI_RECV( ny_a, 1, MPI_INTEGER, 0, 2, comm_inter, status, & |
---|
| 647 | ierr ) |
---|
| 648 | CALL MPI_RECV( pdims_remote, 2, MPI_INTEGER, 0, 3, comm_inter, & |
---|
| 649 | status, ierr ) |
---|
| 650 | CALL MPI_SEND( nx_o, 1, MPI_INTEGER, 0, 4, comm_inter, ierr ) |
---|
| 651 | CALL MPI_SEND( ny_o, 1, MPI_INTEGER, 0, 5, comm_inter, ierr ) |
---|
| 652 | CALL MPI_SEND( pdims, 2, MPI_INTEGER, 0, 6, comm_inter, ierr ) |
---|
[667] | 653 | ENDIF |
---|
| 654 | |
---|
| 655 | CALL MPI_BCAST( nx_a, 1, MPI_INTEGER, 0, comm2d, ierr) |
---|
| 656 | CALL MPI_BCAST( ny_a, 1, MPI_INTEGER, 0, comm2d, ierr) |
---|
| 657 | CALL MPI_BCAST( pdims_remote, 2, MPI_INTEGER, 0, comm2d, ierr) |
---|
| 658 | |
---|
| 659 | ENDIF |
---|
| 660 | |
---|
[709] | 661 | ngp_a = ( nx_a+1 + 2 * nbgp ) * ( ny_a+1 + 2 * nbgp ) |
---|
| 662 | ngp_o = ( nx_o+1 + 2 * nbgp ) * ( ny_o+1 + 2 * nbgp ) |
---|
[667] | 663 | |
---|
| 664 | ! |
---|
[709] | 665 | !-- Determine if the horizontal grid and the number of PEs in ocean and |
---|
| 666 | !-- atmosphere is same or not |
---|
| 667 | IF ( nx_o == nx_a .AND. ny_o == ny_a .AND. & |
---|
[667] | 668 | pdims(1) == pdims_remote(1) .AND. pdims(2) == pdims_remote(2) ) & |
---|
| 669 | THEN |
---|
| 670 | coupling_topology = 0 |
---|
| 671 | ELSE |
---|
| 672 | coupling_topology = 1 |
---|
| 673 | ENDIF |
---|
| 674 | |
---|
| 675 | ! |
---|
| 676 | !-- Determine the target PEs for the exchange between ocean and |
---|
| 677 | !-- atmosphere (comm2d) |
---|
[709] | 678 | IF ( coupling_topology == 0 ) THEN |
---|
| 679 | ! |
---|
| 680 | !-- In case of identical topologies, every atmosphere PE has exactly one |
---|
| 681 | !-- ocean PE counterpart and vice versa |
---|
| 682 | IF ( TRIM( coupling_mode ) == 'atmosphere_to_ocean' ) THEN |
---|
[667] | 683 | target_id = myid + numprocs |
---|
| 684 | ELSE |
---|
| 685 | target_id = myid |
---|
| 686 | ENDIF |
---|
| 687 | |
---|
| 688 | ELSE |
---|
| 689 | ! |
---|
| 690 | !-- In case of nonequivalent topology in ocean and atmosphere only for |
---|
| 691 | !-- PE0 in ocean and PE0 in atmosphere a target_id is needed, since |
---|
[709] | 692 | !-- data echxchange between ocean and atmosphere will be done only |
---|
| 693 | !-- between these PEs. |
---|
| 694 | IF ( myid == 0 ) THEN |
---|
| 695 | |
---|
| 696 | IF ( TRIM( coupling_mode ) == 'atmosphere_to_ocean' ) THEN |
---|
[667] | 697 | target_id = numprocs |
---|
| 698 | ELSE |
---|
| 699 | target_id = 0 |
---|
| 700 | ENDIF |
---|
[709] | 701 | |
---|
[667] | 702 | ENDIF |
---|
[709] | 703 | |
---|
[667] | 704 | ENDIF |
---|
| 705 | |
---|
| 706 | ENDIF |
---|
| 707 | |
---|
| 708 | |
---|
[102] | 709 | #endif |
---|
| 710 | |
---|
[1] | 711 | #else |
---|
| 712 | |
---|
| 713 | ! |
---|
| 714 | !-- Array bounds when running on a single PE (respectively a non-parallel |
---|
| 715 | !-- machine) |
---|
[1003] | 716 | nxl = 0 |
---|
| 717 | nxr = nx |
---|
| 718 | nnx = nxr - nxl + 1 |
---|
| 719 | nys = 0 |
---|
| 720 | nyn = ny |
---|
| 721 | nny = nyn - nys + 1 |
---|
| 722 | nzb = 0 |
---|
| 723 | nzt = nz |
---|
| 724 | nnz = nz |
---|
[1] | 725 | |
---|
[145] | 726 | ALLOCATE( hor_index_bounds(4,0:0) ) |
---|
| 727 | hor_index_bounds(1,0) = nxl |
---|
| 728 | hor_index_bounds(2,0) = nxr |
---|
| 729 | hor_index_bounds(3,0) = nys |
---|
| 730 | hor_index_bounds(4,0) = nyn |
---|
| 731 | |
---|
[1] | 732 | ! |
---|
| 733 | !-- Array bounds for the pressure solver (in the parallel code, these bounds |
---|
| 734 | !-- are the ones for the transposed arrays) |
---|
[1003] | 735 | nys_x = nys |
---|
| 736 | nyn_x = nyn |
---|
| 737 | nzb_x = nzb + 1 |
---|
| 738 | nzt_x = nzt |
---|
[1] | 739 | |
---|
[1003] | 740 | nxl_y = nxl |
---|
| 741 | nxr_y = nxr |
---|
| 742 | nzb_y = nzb + 1 |
---|
| 743 | nzt_y = nzt |
---|
[1] | 744 | |
---|
[1003] | 745 | nxl_z = nxl |
---|
| 746 | nxr_z = nxr |
---|
| 747 | nys_z = nys |
---|
| 748 | nyn_z = nyn |
---|
[1] | 749 | |
---|
| 750 | #endif |
---|
| 751 | |
---|
| 752 | ! |
---|
| 753 | !-- Calculate number of grid levels necessary for the multigrid poisson solver |
---|
| 754 | !-- as well as the gridpoint indices on each level |
---|
| 755 | IF ( psolver == 'multigrid' ) THEN |
---|
| 756 | |
---|
| 757 | ! |
---|
| 758 | !-- First calculate number of possible grid levels for the subdomains |
---|
| 759 | mg_levels_x = 1 |
---|
| 760 | mg_levels_y = 1 |
---|
| 761 | mg_levels_z = 1 |
---|
| 762 | |
---|
| 763 | i = nnx |
---|
| 764 | DO WHILE ( MOD( i, 2 ) == 0 .AND. i /= 2 ) |
---|
| 765 | i = i / 2 |
---|
| 766 | mg_levels_x = mg_levels_x + 1 |
---|
| 767 | ENDDO |
---|
| 768 | |
---|
| 769 | j = nny |
---|
| 770 | DO WHILE ( MOD( j, 2 ) == 0 .AND. j /= 2 ) |
---|
| 771 | j = j / 2 |
---|
| 772 | mg_levels_y = mg_levels_y + 1 |
---|
| 773 | ENDDO |
---|
| 774 | |
---|
[181] | 775 | k = nz ! do not use nnz because it might be > nz due to transposition |
---|
| 776 | ! requirements |
---|
[1] | 777 | DO WHILE ( MOD( k, 2 ) == 0 .AND. k /= 2 ) |
---|
| 778 | k = k / 2 |
---|
| 779 | mg_levels_z = mg_levels_z + 1 |
---|
| 780 | ENDDO |
---|
| 781 | |
---|
| 782 | maximum_grid_level = MIN( mg_levels_x, mg_levels_y, mg_levels_z ) |
---|
| 783 | |
---|
| 784 | ! |
---|
| 785 | !-- Find out, if the total domain allows more levels. These additional |
---|
[709] | 786 | !-- levels are identically processed on all PEs. |
---|
[197] | 787 | IF ( numprocs > 1 .AND. mg_switch_to_pe0_level /= -1 ) THEN |
---|
[709] | 788 | |
---|
[1] | 789 | IF ( mg_levels_z > MIN( mg_levels_x, mg_levels_y ) ) THEN |
---|
[709] | 790 | |
---|
[1] | 791 | mg_switch_to_pe0_level_l = maximum_grid_level |
---|
| 792 | |
---|
| 793 | mg_levels_x = 1 |
---|
| 794 | mg_levels_y = 1 |
---|
| 795 | |
---|
| 796 | i = nx+1 |
---|
| 797 | DO WHILE ( MOD( i, 2 ) == 0 .AND. i /= 2 ) |
---|
| 798 | i = i / 2 |
---|
| 799 | mg_levels_x = mg_levels_x + 1 |
---|
| 800 | ENDDO |
---|
| 801 | |
---|
| 802 | j = ny+1 |
---|
| 803 | DO WHILE ( MOD( j, 2 ) == 0 .AND. j /= 2 ) |
---|
| 804 | j = j / 2 |
---|
| 805 | mg_levels_y = mg_levels_y + 1 |
---|
| 806 | ENDDO |
---|
| 807 | |
---|
| 808 | maximum_grid_level_l = MIN( mg_levels_x, mg_levels_y, mg_levels_z ) |
---|
| 809 | |
---|
| 810 | IF ( maximum_grid_level_l > mg_switch_to_pe0_level_l ) THEN |
---|
| 811 | mg_switch_to_pe0_level_l = maximum_grid_level_l - & |
---|
| 812 | mg_switch_to_pe0_level_l + 1 |
---|
| 813 | ELSE |
---|
| 814 | mg_switch_to_pe0_level_l = 0 |
---|
| 815 | ENDIF |
---|
[709] | 816 | |
---|
[1] | 817 | ELSE |
---|
| 818 | mg_switch_to_pe0_level_l = 0 |
---|
| 819 | maximum_grid_level_l = maximum_grid_level |
---|
[709] | 820 | |
---|
[1] | 821 | ENDIF |
---|
| 822 | |
---|
| 823 | ! |
---|
| 824 | !-- Use switch level calculated above only if it is not pre-defined |
---|
| 825 | !-- by user |
---|
| 826 | IF ( mg_switch_to_pe0_level == 0 ) THEN |
---|
| 827 | IF ( mg_switch_to_pe0_level_l /= 0 ) THEN |
---|
| 828 | mg_switch_to_pe0_level = mg_switch_to_pe0_level_l |
---|
| 829 | maximum_grid_level = maximum_grid_level_l |
---|
| 830 | ENDIF |
---|
| 831 | |
---|
| 832 | ELSE |
---|
| 833 | ! |
---|
| 834 | !-- Check pre-defined value and reset to default, if neccessary |
---|
| 835 | IF ( mg_switch_to_pe0_level < mg_switch_to_pe0_level_l .OR. & |
---|
| 836 | mg_switch_to_pe0_level >= maximum_grid_level_l ) THEN |
---|
[254] | 837 | message_string = 'mg_switch_to_pe0_level ' // & |
---|
| 838 | 'out of range and reset to default (=0)' |
---|
| 839 | CALL message( 'init_pegrid', 'PA0235', 0, 1, 0, 6, 0 ) |
---|
[1] | 840 | mg_switch_to_pe0_level = 0 |
---|
| 841 | ELSE |
---|
| 842 | ! |
---|
| 843 | !-- Use the largest number of possible levels anyway and recalculate |
---|
| 844 | !-- the switch level to this largest number of possible values |
---|
| 845 | maximum_grid_level = maximum_grid_level_l |
---|
| 846 | |
---|
| 847 | ENDIF |
---|
[709] | 848 | |
---|
[1] | 849 | ENDIF |
---|
| 850 | |
---|
| 851 | ENDIF |
---|
| 852 | |
---|
[1056] | 853 | ALLOCATE( grid_level_count(maximum_grid_level), & |
---|
| 854 | nxl_mg(0:maximum_grid_level), nxr_mg(0:maximum_grid_level), & |
---|
| 855 | nyn_mg(0:maximum_grid_level), nys_mg(0:maximum_grid_level), & |
---|
| 856 | nzt_mg(0:maximum_grid_level) ) |
---|
[1] | 857 | |
---|
| 858 | grid_level_count = 0 |
---|
[1056] | 859 | ! |
---|
| 860 | !-- Index zero required as dummy due to definition of arrays f2 and p2 in |
---|
| 861 | !-- recursive subroutine next_mg_level |
---|
| 862 | nxl_mg(0) = 0; nxr_mg(0) = 0; nyn_mg(0) = 0; nys_mg(0) = 0; nzt_mg(0) = 0 |
---|
[778] | 863 | |
---|
[1] | 864 | nxl_l = nxl; nxr_l = nxr; nys_l = nys; nyn_l = nyn; nzt_l = nzt |
---|
| 865 | |
---|
| 866 | DO i = maximum_grid_level, 1 , -1 |
---|
| 867 | |
---|
| 868 | IF ( i == mg_switch_to_pe0_level ) THEN |
---|
[809] | 869 | #if defined( __parallel ) && ! defined( __check ) |
---|
[1] | 870 | ! |
---|
| 871 | !-- Save the grid size of the subdomain at the switch level, because |
---|
| 872 | !-- it is needed in poismg. |
---|
| 873 | ind(1) = nxl_l; ind(2) = nxr_l |
---|
| 874 | ind(3) = nys_l; ind(4) = nyn_l |
---|
| 875 | ind(5) = nzt_l |
---|
| 876 | ALLOCATE( ind_all(5*numprocs), mg_loc_ind(5,0:numprocs-1) ) |
---|
| 877 | CALL MPI_ALLGATHER( ind, 5, MPI_INTEGER, ind_all, 5, & |
---|
| 878 | MPI_INTEGER, comm2d, ierr ) |
---|
| 879 | DO j = 0, numprocs-1 |
---|
| 880 | DO k = 1, 5 |
---|
| 881 | mg_loc_ind(k,j) = ind_all(k+j*5) |
---|
| 882 | ENDDO |
---|
| 883 | ENDDO |
---|
| 884 | DEALLOCATE( ind_all ) |
---|
| 885 | ! |
---|
[709] | 886 | !-- Calculate the grid size of the total domain |
---|
[1] | 887 | nxr_l = ( nxr_l-nxl_l+1 ) * pdims(1) - 1 |
---|
| 888 | nxl_l = 0 |
---|
| 889 | nyn_l = ( nyn_l-nys_l+1 ) * pdims(2) - 1 |
---|
| 890 | nys_l = 0 |
---|
| 891 | ! |
---|
| 892 | !-- The size of this gathered array must not be larger than the |
---|
| 893 | !-- array tend, which is used in the multigrid scheme as a temporary |
---|
[778] | 894 | !-- array. Therefore the subdomain size of an PE is calculated and |
---|
| 895 | !-- the size of the gathered grid. These values are used in |
---|
| 896 | !-- routines pres and poismg |
---|
| 897 | subdomain_size = ( nxr - nxl + 2 * nbgp + 1 ) * & |
---|
| 898 | ( nyn - nys + 2 * nbgp + 1 ) * ( nzt - nzb + 2 ) |
---|
[1] | 899 | gathered_size = ( nxr_l - nxl_l + 3 ) * ( nyn_l - nys_l + 3 ) * & |
---|
| 900 | ( nzt_l - nzb + 2 ) |
---|
| 901 | |
---|
[809] | 902 | #elif ! defined ( __parallel ) |
---|
[254] | 903 | message_string = 'multigrid gather/scatter impossible ' // & |
---|
[1] | 904 | 'in non parallel mode' |
---|
[254] | 905 | CALL message( 'init_pegrid', 'PA0237', 1, 2, 0, 6, 0 ) |
---|
[1] | 906 | #endif |
---|
| 907 | ENDIF |
---|
| 908 | |
---|
| 909 | nxl_mg(i) = nxl_l |
---|
| 910 | nxr_mg(i) = nxr_l |
---|
| 911 | nys_mg(i) = nys_l |
---|
| 912 | nyn_mg(i) = nyn_l |
---|
| 913 | nzt_mg(i) = nzt_l |
---|
| 914 | |
---|
| 915 | nxl_l = nxl_l / 2 |
---|
| 916 | nxr_l = nxr_l / 2 |
---|
| 917 | nys_l = nys_l / 2 |
---|
| 918 | nyn_l = nyn_l / 2 |
---|
| 919 | nzt_l = nzt_l / 2 |
---|
[778] | 920 | |
---|
[1] | 921 | ENDDO |
---|
| 922 | |
---|
[780] | 923 | ! |
---|
| 924 | !-- Temporary problem: Currently calculation of maxerror iin routine poismg crashes |
---|
| 925 | !-- if grid data are collected on PE0 already on the finest grid level. |
---|
| 926 | !-- To be solved later. |
---|
| 927 | IF ( maximum_grid_level == mg_switch_to_pe0_level ) THEN |
---|
| 928 | message_string = 'grid coarsening on subdomain level cannot be performed' |
---|
| 929 | CALL message( 'poismg', 'PA0236', 1, 2, 0, 6, 0 ) |
---|
| 930 | ENDIF |
---|
| 931 | |
---|
[1] | 932 | ELSE |
---|
| 933 | |
---|
[667] | 934 | maximum_grid_level = 0 |
---|
[1] | 935 | |
---|
| 936 | ENDIF |
---|
| 937 | |
---|
[722] | 938 | ! |
---|
| 939 | !-- Default level 0 tells exchange_horiz that all ghost planes have to be |
---|
| 940 | !-- exchanged. grid_level is adjusted in poismg, where only one ghost plane |
---|
| 941 | !-- is required. |
---|
| 942 | grid_level = 0 |
---|
[1] | 943 | |
---|
[809] | 944 | #if defined( __parallel ) && ! defined ( __check ) |
---|
[1] | 945 | ! |
---|
| 946 | !-- Gridpoint number for the exchange of ghost points (y-line for 2D-arrays) |
---|
[667] | 947 | ngp_y = nyn - nys + 1 + 2 * nbgp |
---|
[1] | 948 | |
---|
| 949 | ! |
---|
[709] | 950 | !-- Define new MPI derived datatypes for the exchange of ghost points in |
---|
| 951 | !-- x- and y-direction for 2D-arrays (line) |
---|
| 952 | CALL MPI_TYPE_VECTOR( nxr-nxl+1+2*nbgp, nbgp, ngp_y, MPI_REAL, type_x, & |
---|
| 953 | ierr ) |
---|
[1] | 954 | CALL MPI_TYPE_COMMIT( type_x, ierr ) |
---|
[709] | 955 | CALL MPI_TYPE_VECTOR( nxr-nxl+1+2*nbgp, nbgp, ngp_y, MPI_INTEGER, & |
---|
| 956 | type_x_int, ierr ) |
---|
[1] | 957 | CALL MPI_TYPE_COMMIT( type_x_int, ierr ) |
---|
| 958 | |
---|
[667] | 959 | CALL MPI_TYPE_VECTOR( nbgp, ngp_y, ngp_y, MPI_REAL, type_y, ierr ) |
---|
| 960 | CALL MPI_TYPE_COMMIT( type_y, ierr ) |
---|
| 961 | CALL MPI_TYPE_VECTOR( nbgp, ngp_y, ngp_y, MPI_INTEGER, type_y_int, ierr ) |
---|
| 962 | CALL MPI_TYPE_COMMIT( type_y_int, ierr ) |
---|
| 963 | |
---|
| 964 | |
---|
[1] | 965 | ! |
---|
| 966 | !-- Calculate gridpoint numbers for the exchange of ghost points along x |
---|
| 967 | !-- (yz-plane for 3D-arrays) and define MPI derived data type(s) for the |
---|
| 968 | !-- exchange of ghost points in y-direction (xz-plane). |
---|
| 969 | !-- Do these calculations for the model grid and (if necessary) also |
---|
| 970 | !-- for the coarser grid levels used in the multigrid method |
---|
[667] | 971 | ALLOCATE ( ngp_yz(0:maximum_grid_level), type_xz(0:maximum_grid_level),& |
---|
| 972 | type_yz(0:maximum_grid_level) ) |
---|
[1] | 973 | |
---|
| 974 | nxl_l = nxl; nxr_l = nxr; nys_l = nys; nyn_l = nyn; nzb_l = nzb; nzt_l = nzt |
---|
[709] | 975 | |
---|
[667] | 976 | ! |
---|
| 977 | !-- Discern between the model grid, which needs nbgp ghost points and |
---|
| 978 | !-- grid levels for the multigrid scheme. In the latter case only one |
---|
| 979 | !-- ghost point is necessary. |
---|
[709] | 980 | !-- First definition of MPI-datatypes for exchange of ghost layers on normal |
---|
[667] | 981 | !-- grid. The following loop is needed for data exchange in poismg.f90. |
---|
| 982 | ! |
---|
| 983 | !-- Determine number of grid points of yz-layer for exchange |
---|
| 984 | ngp_yz(0) = (nzt - nzb + 2) * (nyn - nys + 1 + 2 * nbgp) |
---|
[709] | 985 | |
---|
[667] | 986 | ! |
---|
[709] | 987 | !-- Define an MPI-datatype for the exchange of left/right boundaries. |
---|
| 988 | !-- Although data are contiguous in physical memory (which does not |
---|
| 989 | !-- necessarily require an MPI-derived datatype), the data exchange between |
---|
| 990 | !-- left and right PE's using the MPI-derived type is 10% faster than without. |
---|
[667] | 991 | CALL MPI_TYPE_VECTOR( nxr-nxl+1+2*nbgp, nbgp*(nzt-nzb+2), ngp_yz(0), & |
---|
[709] | 992 | MPI_REAL, type_xz(0), ierr ) |
---|
[667] | 993 | CALL MPI_TYPE_COMMIT( type_xz(0), ierr ) |
---|
[1] | 994 | |
---|
[709] | 995 | CALL MPI_TYPE_VECTOR( nbgp, ngp_yz(0), ngp_yz(0), MPI_REAL, type_yz(0), & |
---|
| 996 | ierr ) |
---|
[667] | 997 | CALL MPI_TYPE_COMMIT( type_yz(0), ierr ) |
---|
[709] | 998 | |
---|
[667] | 999 | ! |
---|
[709] | 1000 | !-- Definition of MPI-datatypes for multigrid method (coarser level grids) |
---|
[667] | 1001 | IF ( psolver == 'multigrid' ) THEN |
---|
| 1002 | ! |
---|
[709] | 1003 | !-- Definition of MPI-datatyoe as above, but only 1 ghost level is used |
---|
| 1004 | DO i = maximum_grid_level, 1 , -1 |
---|
| 1005 | |
---|
[667] | 1006 | ngp_yz(i) = (nzt_l - nzb_l + 2) * (nyn_l - nys_l + 3) |
---|
| 1007 | |
---|
| 1008 | CALL MPI_TYPE_VECTOR( nxr_l-nxl_l+3, nzt_l-nzb_l+2, ngp_yz(i), & |
---|
[709] | 1009 | MPI_REAL, type_xz(i), ierr ) |
---|
[667] | 1010 | CALL MPI_TYPE_COMMIT( type_xz(i), ierr ) |
---|
[1] | 1011 | |
---|
[709] | 1012 | CALL MPI_TYPE_VECTOR( 1, ngp_yz(i), ngp_yz(i), MPI_REAL, type_yz(i), & |
---|
| 1013 | ierr ) |
---|
[667] | 1014 | CALL MPI_TYPE_COMMIT( type_yz(i), ierr ) |
---|
| 1015 | |
---|
| 1016 | nxl_l = nxl_l / 2 |
---|
| 1017 | nxr_l = nxr_l / 2 |
---|
| 1018 | nys_l = nys_l / 2 |
---|
| 1019 | nyn_l = nyn_l / 2 |
---|
| 1020 | nzt_l = nzt_l / 2 |
---|
[709] | 1021 | |
---|
[667] | 1022 | ENDDO |
---|
[709] | 1023 | |
---|
| 1024 | ENDIF |
---|
[1] | 1025 | #endif |
---|
| 1026 | |
---|
[809] | 1027 | #if defined( __parallel ) && ! defined ( __check ) |
---|
[1] | 1028 | ! |
---|
| 1029 | !-- Setting of flags for inflow/outflow conditions in case of non-cyclic |
---|
[106] | 1030 | !-- horizontal boundary conditions. |
---|
[1] | 1031 | IF ( pleft == MPI_PROC_NULL ) THEN |
---|
[1159] | 1032 | IF ( bc_lr == 'dirichlet/radiation' ) THEN |
---|
[1] | 1033 | inflow_l = .TRUE. |
---|
[1159] | 1034 | ELSEIF ( bc_lr == 'radiation/dirichlet' ) THEN |
---|
[1] | 1035 | outflow_l = .TRUE. |
---|
| 1036 | ENDIF |
---|
| 1037 | ENDIF |
---|
| 1038 | |
---|
| 1039 | IF ( pright == MPI_PROC_NULL ) THEN |
---|
[1159] | 1040 | IF ( bc_lr == 'dirichlet/radiation' ) THEN |
---|
[1] | 1041 | outflow_r = .TRUE. |
---|
[1159] | 1042 | ELSEIF ( bc_lr == 'radiation/dirichlet' ) THEN |
---|
[1] | 1043 | inflow_r = .TRUE. |
---|
| 1044 | ENDIF |
---|
| 1045 | ENDIF |
---|
| 1046 | |
---|
| 1047 | IF ( psouth == MPI_PROC_NULL ) THEN |
---|
[1159] | 1048 | IF ( bc_ns == 'dirichlet/radiation' ) THEN |
---|
[1] | 1049 | outflow_s = .TRUE. |
---|
[1159] | 1050 | ELSEIF ( bc_ns == 'radiation/dirichlet' ) THEN |
---|
[1] | 1051 | inflow_s = .TRUE. |
---|
| 1052 | ENDIF |
---|
| 1053 | ENDIF |
---|
| 1054 | |
---|
| 1055 | IF ( pnorth == MPI_PROC_NULL ) THEN |
---|
[1159] | 1056 | IF ( bc_ns == 'dirichlet/radiation' ) THEN |
---|
[1] | 1057 | inflow_n = .TRUE. |
---|
[1159] | 1058 | ELSEIF ( bc_ns == 'radiation/dirichlet' ) THEN |
---|
[1] | 1059 | outflow_n = .TRUE. |
---|
| 1060 | ENDIF |
---|
| 1061 | ENDIF |
---|
| 1062 | |
---|
[151] | 1063 | ! |
---|
| 1064 | !-- Broadcast the id of the inflow PE |
---|
| 1065 | IF ( inflow_l ) THEN |
---|
[163] | 1066 | id_inflow_l = myidx |
---|
[151] | 1067 | ELSE |
---|
| 1068 | id_inflow_l = 0 |
---|
| 1069 | ENDIF |
---|
[622] | 1070 | IF ( collective_wait ) CALL MPI_BARRIER( comm2d, ierr ) |
---|
[151] | 1071 | CALL MPI_ALLREDUCE( id_inflow_l, id_inflow, 1, MPI_INTEGER, MPI_SUM, & |
---|
| 1072 | comm1dx, ierr ) |
---|
| 1073 | |
---|
[163] | 1074 | ! |
---|
| 1075 | !-- Broadcast the id of the recycling plane |
---|
| 1076 | !-- WARNING: needs to be adjusted in case of inflows other than from left side! |
---|
[1139] | 1077 | IF ( NINT( recycling_width / dx ) >= nxl .AND. & |
---|
| 1078 | NINT( recycling_width / dx ) <= nxr ) THEN |
---|
[163] | 1079 | id_recycling_l = myidx |
---|
| 1080 | ELSE |
---|
| 1081 | id_recycling_l = 0 |
---|
| 1082 | ENDIF |
---|
[622] | 1083 | IF ( collective_wait ) CALL MPI_BARRIER( comm2d, ierr ) |
---|
[163] | 1084 | CALL MPI_ALLREDUCE( id_recycling_l, id_recycling, 1, MPI_INTEGER, MPI_SUM, & |
---|
| 1085 | comm1dx, ierr ) |
---|
| 1086 | |
---|
[1402] | 1087 | CALL location_message( 'finished', .TRUE. ) |
---|
[1384] | 1088 | |
---|
[809] | 1089 | #elif ! defined ( __parallel ) |
---|
[1159] | 1090 | IF ( bc_lr == 'dirichlet/radiation' ) THEN |
---|
[1] | 1091 | inflow_l = .TRUE. |
---|
| 1092 | outflow_r = .TRUE. |
---|
[1159] | 1093 | ELSEIF ( bc_lr == 'radiation/dirichlet' ) THEN |
---|
[1] | 1094 | outflow_l = .TRUE. |
---|
| 1095 | inflow_r = .TRUE. |
---|
| 1096 | ENDIF |
---|
| 1097 | |
---|
[1159] | 1098 | IF ( bc_ns == 'dirichlet/radiation' ) THEN |
---|
[1] | 1099 | inflow_n = .TRUE. |
---|
| 1100 | outflow_s = .TRUE. |
---|
[1159] | 1101 | ELSEIF ( bc_ns == 'radiation/dirichlet' ) THEN |
---|
[1] | 1102 | outflow_n = .TRUE. |
---|
| 1103 | inflow_s = .TRUE. |
---|
| 1104 | ENDIF |
---|
| 1105 | #endif |
---|
[807] | 1106 | |
---|
[106] | 1107 | ! |
---|
[978] | 1108 | !-- At the inflow or outflow, u or v, respectively, have to be calculated for |
---|
| 1109 | !-- one more grid point. |
---|
| 1110 | IF ( inflow_l .OR. outflow_l ) THEN |
---|
[106] | 1111 | nxlu = nxl + 1 |
---|
| 1112 | ELSE |
---|
| 1113 | nxlu = nxl |
---|
| 1114 | ENDIF |
---|
[978] | 1115 | IF ( inflow_s .OR. outflow_s ) THEN |
---|
[106] | 1116 | nysv = nys + 1 |
---|
| 1117 | ELSE |
---|
| 1118 | nysv = nys |
---|
| 1119 | ENDIF |
---|
[1] | 1120 | |
---|
[114] | 1121 | ! |
---|
| 1122 | !-- Allocate wall flag arrays used in the multigrid solver |
---|
| 1123 | IF ( psolver == 'multigrid' ) THEN |
---|
| 1124 | |
---|
| 1125 | DO i = maximum_grid_level, 1, -1 |
---|
| 1126 | |
---|
| 1127 | SELECT CASE ( i ) |
---|
| 1128 | |
---|
| 1129 | CASE ( 1 ) |
---|
| 1130 | ALLOCATE( wall_flags_1(nzb:nzt_mg(i)+1, & |
---|
| 1131 | nys_mg(i)-1:nyn_mg(i)+1, & |
---|
| 1132 | nxl_mg(i)-1:nxr_mg(i)+1) ) |
---|
| 1133 | |
---|
| 1134 | CASE ( 2 ) |
---|
| 1135 | ALLOCATE( wall_flags_2(nzb:nzt_mg(i)+1, & |
---|
| 1136 | nys_mg(i)-1:nyn_mg(i)+1, & |
---|
| 1137 | nxl_mg(i)-1:nxr_mg(i)+1) ) |
---|
| 1138 | |
---|
| 1139 | CASE ( 3 ) |
---|
| 1140 | ALLOCATE( wall_flags_3(nzb:nzt_mg(i)+1, & |
---|
| 1141 | nys_mg(i)-1:nyn_mg(i)+1, & |
---|
| 1142 | nxl_mg(i)-1:nxr_mg(i)+1) ) |
---|
| 1143 | |
---|
| 1144 | CASE ( 4 ) |
---|
| 1145 | ALLOCATE( wall_flags_4(nzb:nzt_mg(i)+1, & |
---|
| 1146 | nys_mg(i)-1:nyn_mg(i)+1, & |
---|
| 1147 | nxl_mg(i)-1:nxr_mg(i)+1) ) |
---|
| 1148 | |
---|
| 1149 | CASE ( 5 ) |
---|
| 1150 | ALLOCATE( wall_flags_5(nzb:nzt_mg(i)+1, & |
---|
| 1151 | nys_mg(i)-1:nyn_mg(i)+1, & |
---|
| 1152 | nxl_mg(i)-1:nxr_mg(i)+1) ) |
---|
| 1153 | |
---|
| 1154 | CASE ( 6 ) |
---|
| 1155 | ALLOCATE( wall_flags_6(nzb:nzt_mg(i)+1, & |
---|
| 1156 | nys_mg(i)-1:nyn_mg(i)+1, & |
---|
| 1157 | nxl_mg(i)-1:nxr_mg(i)+1) ) |
---|
| 1158 | |
---|
| 1159 | CASE ( 7 ) |
---|
| 1160 | ALLOCATE( wall_flags_7(nzb:nzt_mg(i)+1, & |
---|
| 1161 | nys_mg(i)-1:nyn_mg(i)+1, & |
---|
| 1162 | nxl_mg(i)-1:nxr_mg(i)+1) ) |
---|
| 1163 | |
---|
| 1164 | CASE ( 8 ) |
---|
| 1165 | ALLOCATE( wall_flags_8(nzb:nzt_mg(i)+1, & |
---|
| 1166 | nys_mg(i)-1:nyn_mg(i)+1, & |
---|
| 1167 | nxl_mg(i)-1:nxr_mg(i)+1) ) |
---|
| 1168 | |
---|
| 1169 | CASE ( 9 ) |
---|
| 1170 | ALLOCATE( wall_flags_9(nzb:nzt_mg(i)+1, & |
---|
| 1171 | nys_mg(i)-1:nyn_mg(i)+1, & |
---|
| 1172 | nxl_mg(i)-1:nxr_mg(i)+1) ) |
---|
| 1173 | |
---|
| 1174 | CASE ( 10 ) |
---|
| 1175 | ALLOCATE( wall_flags_10(nzb:nzt_mg(i)+1, & |
---|
| 1176 | nys_mg(i)-1:nyn_mg(i)+1, & |
---|
| 1177 | nxl_mg(i)-1:nxr_mg(i)+1) ) |
---|
| 1178 | |
---|
| 1179 | CASE DEFAULT |
---|
[254] | 1180 | message_string = 'more than 10 multigrid levels' |
---|
| 1181 | CALL message( 'init_pegrid', 'PA0238', 1, 2, 0, 6, 0 ) |
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[114] | 1182 | |
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| 1183 | END SELECT |
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| 1184 | |
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| 1185 | ENDDO |
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| 1186 | |
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| 1187 | ENDIF |
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| 1188 | |
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[759] | 1189 | ! |
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| 1190 | !-- Calculate the number of groups into which parallel I/O is split. |
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| 1191 | !-- The default for files which are opened by all PEs (or where each |
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| 1192 | !-- PE opens his own independent file) is, that all PEs are doing input/output |
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| 1193 | !-- in parallel at the same time. This might cause performance or even more |
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| 1194 | !-- severe problems depending on the configuration of the underlying file |
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| 1195 | !-- system. |
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| 1196 | !-- First, set the default: |
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| 1197 | IF ( maximum_parallel_io_streams == -1 .OR. & |
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| 1198 | maximum_parallel_io_streams > numprocs ) THEN |
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| 1199 | maximum_parallel_io_streams = numprocs |
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| 1200 | ENDIF |
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| 1201 | |
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| 1202 | ! |
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| 1203 | !-- Now calculate the number of io_blocks and the io_group to which the |
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| 1204 | !-- respective PE belongs. I/O of the groups is done in serial, but in parallel |
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| 1205 | !-- for all PEs belonging to the same group. A preliminary setting with myid |
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| 1206 | !-- based on MPI_COMM_WORLD has been done in parin. |
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| 1207 | io_blocks = numprocs / maximum_parallel_io_streams |
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| 1208 | io_group = MOD( myid+1, io_blocks ) |
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| 1209 | |
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| 1210 | |
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[1] | 1211 | END SUBROUTINE init_pegrid |
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