[1682] | 1 | !> @file surface_coupler.f90 |
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[2000] | 2 | !------------------------------------------------------------------------------! |
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[2696] | 3 | ! This file is part of the PALM model system. |
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[1036] | 4 | ! |
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[2000] | 5 | ! PALM is free software: you can redistribute it and/or modify it under the |
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| 6 | ! terms of the GNU General Public License as published by the Free Software |
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| 7 | ! Foundation, either version 3 of the License, or (at your option) any later |
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| 8 | ! version. |
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[1036] | 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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[4360] | 17 | ! Copyright 1997-2020 Leibniz Universitaet Hannover |
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[2000] | 18 | !------------------------------------------------------------------------------! |
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[1036] | 19 | ! |
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[258] | 20 | ! Current revisions: |
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[1092] | 21 | ! ------------------ |
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[4671] | 22 | ! |
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| 23 | ! |
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[1321] | 24 | ! Former revisions: |
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| 25 | ! ----------------- |
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| 26 | ! $Id: surface_coupler.f90 4671 2020-09-09 20:27:58Z suehring $ |
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[4671] | 27 | ! Implementation of downward facing USM and LSM surfaces |
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| 28 | ! |
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| 29 | ! 4429 2020-02-27 15:24:30Z raasch |
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[4429] | 30 | ! bugfix: preprocessor directives rearranged for serial mode |
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| 31 | ! |
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| 32 | ! 4360 2020-01-07 11:25:50Z suehring |
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[4182] | 33 | ! Corrected "Former revisions" section |
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| 34 | ! |
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| 35 | ! 3655 2019-01-07 16:51:22Z knoop |
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[3274] | 36 | ! Modularization of all bulk cloud physics code components |
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[1321] | 37 | ! |
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[4182] | 38 | ! 109 2007-08-28 15:26:47Z letzel |
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| 39 | ! Initial revision |
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| 40 | ! |
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[102] | 41 | ! Description: |
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| 42 | ! ------------ |
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[1682] | 43 | !> Data exchange at the interface between coupled models |
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[102] | 44 | !------------------------------------------------------------------------------! |
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[1682] | 45 | SUBROUTINE surface_coupler |
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[4429] | 46 | #if defined( __parallel ) |
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[1682] | 47 | |
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[102] | 48 | |
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[1320] | 49 | USE arrays_3d, & |
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[2232] | 50 | ONLY: pt, rho_ocean, sa, total_2d_a, total_2d_o, u, v |
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[1320] | 51 | |
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[3274] | 52 | USE basic_constants_and_equations_mod, & |
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| 53 | ONLY: c_p, l_v |
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[1427] | 54 | |
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[1320] | 55 | USE control_parameters, & |
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| 56 | ONLY: coupling_mode, coupling_mode_remote, coupling_topology, & |
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[2232] | 57 | humidity, humidity_remote, land_surface, message_string, & |
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| 58 | terminate_coupled, terminate_coupled_remote, & |
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| 59 | time_since_reference_point, urban_surface |
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[1320] | 60 | |
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| 61 | USE cpulog, & |
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| 62 | ONLY: cpu_log, log_point |
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| 63 | |
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| 64 | USE indices, & |
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| 65 | ONLY: nbgp, nx, nxl, nxlg, nxr, nxrg, nx_a, nx_o, ny, nyn, nyng, nys, & |
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| 66 | nysg, ny_a, ny_o, nzt |
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| 67 | |
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| 68 | USE kinds |
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| 69 | |
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[102] | 70 | USE pegrid |
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| 71 | |
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[2232] | 72 | USE surface_mod, & |
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| 73 | ONLY : surf_def_h, surf_lsm_h, surf_type, surf_usm_h |
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| 74 | |
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[102] | 75 | IMPLICIT NONE |
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| 76 | |
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[2232] | 77 | INTEGER(iwp) :: i !< index variable x-direction |
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| 78 | INTEGER(iwp) :: j !< index variable y-direction |
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| 79 | INTEGER(iwp) :: m !< running index for surface elements |
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| 80 | |
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| 81 | REAL(wp) :: cpw = 4218.0_wp !< heat capacity of water at constant pressure |
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[1682] | 82 | REAL(wp) :: time_since_reference_point_rem !< |
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| 83 | REAL(wp) :: total_2d(-nbgp:ny+nbgp,-nbgp:nx+nbgp) !< |
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[102] | 84 | |
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[2232] | 85 | REAL(wp), DIMENSION(nysg:nyng,nxlg:nxrg) :: surface_flux !< dummy array for surface fluxes on 2D grid |
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[1427] | 86 | |
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[2232] | 87 | |
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[667] | 88 | CALL cpu_log( log_point(39), 'surface_coupler', 'start' ) |
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[102] | 89 | |
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[667] | 90 | |
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| 91 | |
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[102] | 92 | ! |
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[108] | 93 | !-- In case of model termination initiated by the remote model |
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| 94 | !-- (terminate_coupled_remote > 0), initiate termination of the local model. |
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| 95 | !-- The rest of the coupler must then be skipped because it would cause an MPI |
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| 96 | !-- intercomminucation hang. |
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| 97 | !-- If necessary, the coupler will be called at the beginning of the next |
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| 98 | !-- restart run. |
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[667] | 99 | |
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| 100 | IF ( coupling_topology == 0 ) THEN |
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[709] | 101 | CALL MPI_SENDRECV( terminate_coupled, 1, MPI_INTEGER, target_id, & |
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| 102 | 0, & |
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| 103 | terminate_coupled_remote, 1, MPI_INTEGER, target_id, & |
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[667] | 104 | 0, comm_inter, status, ierr ) |
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| 105 | ELSE |
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| 106 | IF ( myid == 0) THEN |
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| 107 | CALL MPI_SENDRECV( terminate_coupled, 1, MPI_INTEGER, & |
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| 108 | target_id, 0, & |
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| 109 | terminate_coupled_remote, 1, MPI_INTEGER, & |
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| 110 | target_id, 0, & |
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| 111 | comm_inter, status, ierr ) |
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| 112 | ENDIF |
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[709] | 113 | CALL MPI_BCAST( terminate_coupled_remote, 1, MPI_INTEGER, 0, comm2d, & |
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| 114 | ierr ) |
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[667] | 115 | |
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| 116 | ALLOCATE( total_2d_a(-nbgp:ny_a+nbgp,-nbgp:nx_a+nbgp), & |
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| 117 | total_2d_o(-nbgp:ny_o+nbgp,-nbgp:nx_o+nbgp) ) |
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| 118 | |
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| 119 | ENDIF |
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| 120 | |
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[108] | 121 | IF ( terminate_coupled_remote > 0 ) THEN |
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[3045] | 122 | WRITE( message_string, * ) 'remote model "', & |
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| 123 | TRIM( coupling_mode_remote ), & |
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| 124 | '" terminated', & |
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[3046] | 125 | '&with terminate_coupled_remote = ', & |
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[3045] | 126 | terminate_coupled_remote, & |
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[3046] | 127 | '&local model "', TRIM( coupling_mode ), & |
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[3045] | 128 | '" has', & |
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[3046] | 129 | '&terminate_coupled = ', & |
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[667] | 130 | terminate_coupled |
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[258] | 131 | CALL message( 'surface_coupler', 'PA0310', 1, 2, 0, 6, 0 ) |
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[108] | 132 | RETURN |
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| 133 | ENDIF |
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[667] | 134 | |
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[291] | 135 | |
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[108] | 136 | ! |
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| 137 | !-- Exchange the current simulated time between the models, |
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[2232] | 138 | !-- currently just for total_2d |
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[709] | 139 | IF ( coupling_topology == 0 ) THEN |
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| 140 | |
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| 141 | CALL MPI_SEND( time_since_reference_point, 1, MPI_REAL, target_id, 11, & |
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| 142 | comm_inter, ierr ) |
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| 143 | CALL MPI_RECV( time_since_reference_point_rem, 1, MPI_REAL, target_id, & |
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| 144 | 11, comm_inter, status, ierr ) |
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[667] | 145 | ELSE |
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[709] | 146 | |
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[667] | 147 | IF ( myid == 0 ) THEN |
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[709] | 148 | |
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| 149 | CALL MPI_SEND( time_since_reference_point, 1, MPI_REAL, target_id, & |
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| 150 | 11, comm_inter, ierr ) |
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| 151 | CALL MPI_RECV( time_since_reference_point_rem, 1, MPI_REAL, & |
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[667] | 152 | target_id, 11, comm_inter, status, ierr ) |
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[709] | 153 | |
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[667] | 154 | ENDIF |
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[709] | 155 | |
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| 156 | CALL MPI_BCAST( time_since_reference_point_rem, 1, MPI_REAL, 0, comm2d, & |
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| 157 | ierr ) |
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| 158 | |
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[667] | 159 | ENDIF |
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[102] | 160 | |
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| 161 | ! |
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| 162 | !-- Exchange the interface data |
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| 163 | IF ( coupling_mode == 'atmosphere_to_ocean' ) THEN |
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[667] | 164 | |
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| 165 | ! |
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[709] | 166 | !-- Horizontal grid size and number of processors is equal in ocean and |
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| 167 | !-- atmosphere |
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| 168 | IF ( coupling_topology == 0 ) THEN |
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[102] | 169 | |
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| 170 | ! |
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[2232] | 171 | !-- Send heat flux at bottom surface to the ocean. First, transfer from |
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| 172 | !-- 1D surface type to 2D grid. |
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[4671] | 173 | CALL transfer_1D_to_2D_equal( surf_def_h(0)%shf, surf_lsm_h(0)%shf, & |
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| 174 | surf_usm_h(0)%shf ) |
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[2232] | 175 | CALL MPI_SEND( surface_flux(nysg,nxlg), ngp_xy, MPI_REAL, target_id, & |
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| 176 | 12, comm_inter, ierr ) |
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[102] | 177 | ! |
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[2232] | 178 | !-- Send humidity flux at bottom surface to the ocean. First, transfer |
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| 179 | !-- from 1D surface type to 2D grid. |
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[4671] | 180 | CALL transfer_1D_to_2D_equal( surf_def_h(0)%qsws, surf_lsm_h(0)%qsws, & |
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| 181 | surf_usm_h(0)%qsws ) |
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[667] | 182 | IF ( humidity ) THEN |
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[2232] | 183 | CALL MPI_SEND( surface_flux(nysg,nxlg), ngp_xy, MPI_REAL, & |
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| 184 | target_id, 13, comm_inter, ierr ) |
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[667] | 185 | ENDIF |
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| 186 | ! |
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[709] | 187 | !-- Receive temperature at the bottom surface from the ocean |
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[2232] | 188 | CALL MPI_RECV( pt(0,nysg,nxlg), 1, type_xy, target_id, 14, & |
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[709] | 189 | comm_inter, status, ierr ) |
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[108] | 190 | ! |
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[2232] | 191 | !-- Send the momentum flux (u) at bottom surface to the ocean. First, |
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| 192 | !-- transfer from 1D surface type to 2D grid. |
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[4671] | 193 | CALL transfer_1D_to_2D_equal( surf_def_h(0)%usws, surf_lsm_h(0)%usws, & |
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| 194 | surf_usm_h(0)%usws ) |
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[2232] | 195 | CALL MPI_SEND( surface_flux(nysg,nxlg), ngp_xy, MPI_REAL, target_id, & |
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| 196 | 15, comm_inter, ierr ) |
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[102] | 197 | ! |
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[2232] | 198 | !-- Send the momentum flux (v) at bottom surface to the ocean. First, |
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| 199 | !-- transfer from 1D surface type to 2D grid. |
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[4671] | 200 | CALL transfer_1D_to_2D_equal( surf_def_h(0)%vsws, surf_lsm_h(0)%vsws, & |
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| 201 | surf_usm_h(0)%vsws ) |
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[2232] | 202 | CALL MPI_SEND( surface_flux(nysg,nxlg), ngp_xy, MPI_REAL, target_id, & |
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| 203 | 16, comm_inter, ierr ) |
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[102] | 204 | ! |
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[709] | 205 | !-- Receive u at the bottom surface from the ocean |
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[2232] | 206 | CALL MPI_RECV( u(0,nysg,nxlg), 1, type_xy, target_id, 17, & |
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[709] | 207 | comm_inter, status, ierr ) |
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[667] | 208 | ! |
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[709] | 209 | !-- Receive v at the bottom surface from the ocean |
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[2232] | 210 | CALL MPI_RECV( v(0,nysg,nxlg), 1, type_xy, target_id, 18, & |
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[709] | 211 | comm_inter, status, ierr ) |
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[667] | 212 | ! |
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| 213 | !-- Horizontal grid size or number of processors differs between |
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| 214 | !-- ocean and atmosphere |
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| 215 | ELSE |
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| 216 | |
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| 217 | ! |
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[709] | 218 | !-- Send heat flux at bottom surface to the ocean |
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[1353] | 219 | total_2d_a = 0.0_wp |
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| 220 | total_2d = 0.0_wp |
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[2232] | 221 | ! |
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| 222 | !-- Transfer from 1D surface type to 2D grid. |
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[4671] | 223 | CALL transfer_1D_to_2D_unequal( surf_def_h(0)%shf, surf_lsm_h(0)%shf, & |
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| 224 | surf_usm_h(0)%shf ) |
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[709] | 225 | |
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[2232] | 226 | CALL MPI_REDUCE( total_2d, total_2d_a, ngp_a, MPI_REAL, MPI_SUM, 0, & |
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[709] | 227 | comm2d, ierr ) |
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| 228 | CALL interpolate_to_ocean( 12 ) |
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[667] | 229 | ! |
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[709] | 230 | !-- Send humidity flux at bottom surface to the ocean |
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| 231 | IF ( humidity ) THEN |
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[1353] | 232 | total_2d_a = 0.0_wp |
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| 233 | total_2d = 0.0_wp |
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[2232] | 234 | ! |
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| 235 | !-- Transfer from 1D surface type to 2D grid. |
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| 236 | CALL transfer_1D_to_2D_unequal( surf_def_h(0)%qsws, & |
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[4671] | 237 | surf_lsm_h(0)%qsws, & |
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| 238 | surf_usm_h(0)%qsws ) |
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[709] | 239 | |
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| 240 | CALL MPI_REDUCE( total_2d, total_2d_a, ngp_a, MPI_REAL, MPI_SUM, & |
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| 241 | 0, comm2d, ierr ) |
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| 242 | CALL interpolate_to_ocean( 13 ) |
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[667] | 243 | ENDIF |
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| 244 | ! |
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[709] | 245 | !-- Receive temperature at the bottom surface from the ocean |
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| 246 | IF ( myid == 0 ) THEN |
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[2232] | 247 | CALL MPI_RECV( total_2d_a(-nbgp,-nbgp), ngp_a, MPI_REAL, & |
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[667] | 248 | target_id, 14, comm_inter, status, ierr ) |
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| 249 | ENDIF |
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| 250 | CALL MPI_BARRIER( comm2d, ierr ) |
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[709] | 251 | CALL MPI_BCAST( total_2d_a(-nbgp,-nbgp), ngp_a, MPI_REAL, 0, comm2d, & |
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| 252 | ierr ) |
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[667] | 253 | pt(0,nysg:nyng,nxlg:nxrg) = total_2d_a(nysg:nyng,nxlg:nxrg) |
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| 254 | ! |
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[709] | 255 | !-- Send momentum flux (u) at bottom surface to the ocean |
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[1353] | 256 | total_2d_a = 0.0_wp |
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| 257 | total_2d = 0.0_wp |
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[2232] | 258 | ! |
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| 259 | !-- Transfer from 1D surface type to 2D grid. |
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[4671] | 260 | CALL transfer_1D_to_2D_unequal( surf_def_h(0)%usws, surf_lsm_h(0)%usws, & |
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| 261 | surf_usm_h(0)%usws ) |
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[709] | 262 | CALL MPI_REDUCE( total_2d, total_2d_a, ngp_a, MPI_REAL, MPI_SUM, 0, & |
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| 263 | comm2d, ierr ) |
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| 264 | CALL interpolate_to_ocean( 15 ) |
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[667] | 265 | ! |
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[709] | 266 | !-- Send momentum flux (v) at bottom surface to the ocean |
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[1353] | 267 | total_2d_a = 0.0_wp |
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| 268 | total_2d = 0.0_wp |
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[2232] | 269 | ! |
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| 270 | !-- Transfer from 1D surface type to 2D grid. |
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[4671] | 271 | CALL transfer_1D_to_2D_unequal( surf_def_h(0)%usws, surf_lsm_h(0)%usws, & |
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| 272 | surf_usm_h(0)%usws ) |
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[709] | 273 | CALL MPI_REDUCE( total_2d, total_2d_a, ngp_a, MPI_REAL, MPI_SUM, 0, & |
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| 274 | comm2d, ierr ) |
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| 275 | CALL interpolate_to_ocean( 16 ) |
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[667] | 276 | ! |
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[709] | 277 | !-- Receive u at the bottom surface from the ocean |
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| 278 | IF ( myid == 0 ) THEN |
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[667] | 279 | CALL MPI_RECV( total_2d_a(-nbgp,-nbgp), ngp_a, MPI_REAL, & |
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[709] | 280 | target_id, 17, comm_inter, status, ierr ) |
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[667] | 281 | ENDIF |
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| 282 | CALL MPI_BARRIER( comm2d, ierr ) |
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[709] | 283 | CALL MPI_BCAST( total_2d_a(-nbgp,-nbgp), ngp_a, MPI_REAL, 0, comm2d, & |
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| 284 | ierr ) |
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[667] | 285 | u(0,nysg:nyng,nxlg:nxrg) = total_2d_a(nysg:nyng,nxlg:nxrg) |
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| 286 | ! |
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[709] | 287 | !-- Receive v at the bottom surface from the ocean |
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| 288 | IF ( myid == 0 ) THEN |
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[667] | 289 | CALL MPI_RECV( total_2d_a(-nbgp,-nbgp), ngp_a, MPI_REAL, & |
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[709] | 290 | target_id, 18, comm_inter, status, ierr ) |
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[667] | 291 | ENDIF |
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| 292 | CALL MPI_BARRIER( comm2d, ierr ) |
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[709] | 293 | CALL MPI_BCAST( total_2d_a(-nbgp,-nbgp), ngp_a, MPI_REAL, 0, comm2d, & |
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| 294 | ierr ) |
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[667] | 295 | v(0,nysg:nyng,nxlg:nxrg) = total_2d_a(nysg:nyng,nxlg:nxrg) |
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| 296 | |
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| 297 | ENDIF |
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| 298 | |
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[102] | 299 | ELSEIF ( coupling_mode == 'ocean_to_atmosphere' ) THEN |
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| 300 | |
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| 301 | ! |
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[667] | 302 | !-- Horizontal grid size and number of processors is equal |
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| 303 | !-- in ocean and atmosphere |
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| 304 | IF ( coupling_topology == 0 ) THEN |
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| 305 | ! |
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[709] | 306 | !-- Receive heat flux at the sea surface (top) from the atmosphere |
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[2232] | 307 | CALL MPI_RECV( surface_flux(nysg,nxlg), ngp_xy, MPI_REAL, target_id, 12, & |
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[709] | 308 | comm_inter, status, ierr ) |
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[2232] | 309 | CALL transfer_2D_to_1D_equal( surf_def_h(2)%shf ) |
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[102] | 310 | ! |
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[709] | 311 | !-- Receive humidity flux from the atmosphere (bottom) |
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[667] | 312 | !-- and add it to the heat flux at the sea surface (top)... |
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| 313 | IF ( humidity_remote ) THEN |
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[2232] | 314 | CALL MPI_RECV( surface_flux(nysg,nxlg), ngp_xy, MPI_REAL, & |
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[667] | 315 | target_id, 13, comm_inter, status, ierr ) |
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[2232] | 316 | CALL transfer_2D_to_1D_equal( surf_def_h(2)%qsws ) |
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[667] | 317 | ENDIF |
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| 318 | ! |
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| 319 | !-- Send sea surface temperature to the atmosphere model |
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[709] | 320 | CALL MPI_SEND( pt(nzt,nysg,nxlg), 1, type_xy, target_id, 14, & |
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| 321 | comm_inter, ierr ) |
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[667] | 322 | ! |
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| 323 | !-- Receive momentum flux (u) at the sea surface (top) from the atmosphere |
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[2232] | 324 | CALL MPI_RECV( surface_flux(nysg,nxlg), ngp_xy, MPI_REAL, target_id, 15, & |
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[709] | 325 | comm_inter, status, ierr ) |
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[2232] | 326 | CALL transfer_2D_to_1D_equal( surf_def_h(2)%usws ) |
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[667] | 327 | ! |
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| 328 | !-- Receive momentum flux (v) at the sea surface (top) from the atmosphere |
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[2232] | 329 | CALL MPI_RECV( surface_flux(nysg,nxlg), ngp_xy, MPI_REAL, target_id, 16, & |
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[709] | 330 | comm_inter, status, ierr ) |
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[2232] | 331 | CALL transfer_2D_to_1D_equal( surf_def_h(2)%vsws ) |
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[667] | 332 | ! |
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[709] | 333 | !-- Send u to the atmosphere |
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| 334 | CALL MPI_SEND( u(nzt,nysg,nxlg), 1, type_xy, target_id, 17, & |
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| 335 | comm_inter, ierr ) |
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[667] | 336 | ! |
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[709] | 337 | !-- Send v to the atmosphere |
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| 338 | CALL MPI_SEND( v(nzt,nysg,nxlg), 1, type_xy, target_id, 18, & |
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| 339 | comm_inter, ierr ) |
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| 340 | ! |
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[667] | 341 | !-- Horizontal gridsize or number of processors differs between |
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| 342 | !-- ocean and atmosphere |
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| 343 | ELSE |
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| 344 | ! |
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[709] | 345 | !-- Receive heat flux at the sea surface (top) from the atmosphere |
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| 346 | IF ( myid == 0 ) THEN |
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[667] | 347 | CALL MPI_RECV( total_2d_o(-nbgp,-nbgp), ngp_o, MPI_REAL, & |
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[709] | 348 | target_id, 12, comm_inter, status, ierr ) |
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[667] | 349 | ENDIF |
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| 350 | CALL MPI_BARRIER( comm2d, ierr ) |
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[709] | 351 | CALL MPI_BCAST( total_2d_o(-nbgp,-nbgp), ngp_o, MPI_REAL, 0, comm2d, & |
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| 352 | ierr ) |
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[2232] | 353 | CALL transfer_2D_to_1D_unequal( surf_def_h(2)%shf ) |
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[667] | 354 | ! |
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[709] | 355 | !-- Receive humidity flux at the sea surface (top) from the atmosphere |
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| 356 | IF ( humidity_remote ) THEN |
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| 357 | IF ( myid == 0 ) THEN |
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[667] | 358 | CALL MPI_RECV( total_2d_o(-nbgp,-nbgp), ngp_o, MPI_REAL, & |
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[709] | 359 | target_id, 13, comm_inter, status, ierr ) |
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[667] | 360 | ENDIF |
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| 361 | CALL MPI_BARRIER( comm2d, ierr ) |
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[709] | 362 | CALL MPI_BCAST( total_2d_o(-nbgp,-nbgp), ngp_o, MPI_REAL, 0, & |
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| 363 | comm2d, ierr) |
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[2232] | 364 | CALL transfer_2D_to_1D_unequal( surf_def_h(2)%qsws ) |
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[667] | 365 | ENDIF |
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| 366 | ! |
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| 367 | !-- Send surface temperature to atmosphere |
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[1353] | 368 | total_2d_o = 0.0_wp |
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| 369 | total_2d = 0.0_wp |
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[667] | 370 | total_2d(nys:nyn,nxl:nxr) = pt(nzt,nys:nyn,nxl:nxr) |
---|
| 371 | |
---|
[709] | 372 | CALL MPI_REDUCE( total_2d, total_2d_o, ngp_o, MPI_REAL, MPI_SUM, 0, & |
---|
| 373 | comm2d, ierr) |
---|
| 374 | CALL interpolate_to_atmos( 14 ) |
---|
[667] | 375 | ! |
---|
[709] | 376 | !-- Receive momentum flux (u) at the sea surface (top) from the atmosphere |
---|
| 377 | IF ( myid == 0 ) THEN |
---|
[667] | 378 | CALL MPI_RECV( total_2d_o(-nbgp,-nbgp), ngp_o, MPI_REAL, & |
---|
[709] | 379 | target_id, 15, comm_inter, status, ierr ) |
---|
[667] | 380 | ENDIF |
---|
| 381 | CALL MPI_BARRIER( comm2d, ierr ) |
---|
| 382 | CALL MPI_BCAST( total_2d_o(-nbgp,-nbgp), ngp_o, MPI_REAL, & |
---|
[709] | 383 | 0, comm2d, ierr ) |
---|
[2232] | 384 | CALL transfer_2D_to_1D_unequal( surf_def_h(2)%usws ) |
---|
[667] | 385 | ! |
---|
[709] | 386 | !-- Receive momentum flux (v) at the sea surface (top) from the atmosphere |
---|
| 387 | IF ( myid == 0 ) THEN |
---|
[667] | 388 | CALL MPI_RECV( total_2d_o(-nbgp,-nbgp), ngp_o, MPI_REAL, & |
---|
[709] | 389 | target_id, 16, comm_inter, status, ierr ) |
---|
[667] | 390 | ENDIF |
---|
| 391 | CALL MPI_BARRIER( comm2d, ierr ) |
---|
[709] | 392 | CALL MPI_BCAST( total_2d_o(-nbgp,-nbgp), ngp_o, MPI_REAL, 0, comm2d, & |
---|
| 393 | ierr ) |
---|
[2232] | 394 | CALL transfer_2D_to_1D_unequal( surf_def_h(2)%vsws ) |
---|
[667] | 395 | ! |
---|
| 396 | !-- Send u to atmosphere |
---|
[1353] | 397 | total_2d_o = 0.0_wp |
---|
| 398 | total_2d = 0.0_wp |
---|
[667] | 399 | total_2d(nys:nyn,nxl:nxr) = u(nzt,nys:nyn,nxl:nxr) |
---|
[709] | 400 | CALL MPI_REDUCE( total_2d, total_2d_o, ngp_o, MPI_REAL, MPI_SUM, 0, & |
---|
| 401 | comm2d, ierr ) |
---|
| 402 | CALL interpolate_to_atmos( 17 ) |
---|
[667] | 403 | ! |
---|
| 404 | !-- Send v to atmosphere |
---|
[1353] | 405 | total_2d_o = 0.0_wp |
---|
| 406 | total_2d = 0.0_wp |
---|
[667] | 407 | total_2d(nys:nyn,nxl:nxr) = v(nzt,nys:nyn,nxl:nxr) |
---|
[709] | 408 | CALL MPI_REDUCE( total_2d, total_2d_o, ngp_o, MPI_REAL, MPI_SUM, 0, & |
---|
| 409 | comm2d, ierr ) |
---|
| 410 | CALL interpolate_to_atmos( 18 ) |
---|
[667] | 411 | |
---|
| 412 | ENDIF |
---|
| 413 | |
---|
| 414 | ! |
---|
| 415 | !-- Conversions of fluxes received from atmosphere |
---|
| 416 | IF ( humidity_remote ) THEN |
---|
[108] | 417 | ! |
---|
[2232] | 418 | !-- Here top heat flux is still the sum of atmospheric bottom heat fluxes, |
---|
[709] | 419 | !-- * latent heat of vaporization in m2/s2, or 540 cal/g, or 40.65 kJ/mol |
---|
| 420 | !-- /(rho_atm(=1.0)*c_p) |
---|
[2232] | 421 | DO m = 1, surf_def_h(2)%ns |
---|
| 422 | i = surf_def_h(2)%i(m) |
---|
| 423 | j = surf_def_h(2)%j(m) |
---|
| 424 | |
---|
| 425 | surf_def_h(2)%shf(m) = surf_def_h(2)%shf(m) + & |
---|
[3274] | 426 | surf_def_h(2)%qsws(m) * l_v / c_p |
---|
[709] | 427 | ! |
---|
[2232] | 428 | !-- ...and convert it to a salinity flux at the sea surface (top) |
---|
| 429 | !-- following Steinhorn (1991), JPO 21, pp. 1681-1683: |
---|
| 430 | !-- S'w' = -S * evaporation / ( rho_water * ( 1 - S ) ) |
---|
| 431 | surf_def_h(2)%sasws(m) = -1.0_wp * sa(nzt,j,i) * 0.001_wp * & |
---|
| 432 | surf_def_h(2)%qsws(m) / & |
---|
| 433 | ( rho_ocean(nzt,j,i) * & |
---|
| 434 | ( 1.0_wp - sa(nzt,j,i) * 0.001_wp ) & |
---|
| 435 | ) |
---|
| 436 | ENDDO |
---|
[108] | 437 | ENDIF |
---|
| 438 | |
---|
| 439 | ! |
---|
[102] | 440 | !-- Adjust the kinematic heat flux with respect to ocean density |
---|
[2232] | 441 | !-- (constants are the specific heat capacities for air and water), as well |
---|
| 442 | !-- as momentum fluxes |
---|
| 443 | DO m = 1, surf_def_h(2)%ns |
---|
| 444 | i = surf_def_h(2)%i(m) |
---|
| 445 | j = surf_def_h(2)%j(m) |
---|
| 446 | surf_def_h(2)%shf(m) = surf_def_h(2)%shf(m) / rho_ocean(nzt,j,i) * & |
---|
[3274] | 447 | c_p / cpw |
---|
[102] | 448 | |
---|
[2232] | 449 | surf_def_h(2)%usws(m) = surf_def_h(2)%usws(m) / rho_ocean(nzt,j,i) |
---|
| 450 | surf_def_h(2)%vsws(m) = surf_def_h(2)%vsws(m) / rho_ocean(nzt,j,i) |
---|
| 451 | ENDDO |
---|
[102] | 452 | |
---|
[667] | 453 | ENDIF |
---|
| 454 | |
---|
[709] | 455 | IF ( coupling_topology == 1 ) THEN |
---|
[667] | 456 | DEALLOCATE( total_2d_o, total_2d_a ) |
---|
| 457 | ENDIF |
---|
| 458 | |
---|
| 459 | CALL cpu_log( log_point(39), 'surface_coupler', 'stop' ) |
---|
| 460 | |
---|
| 461 | |
---|
[2232] | 462 | CONTAINS |
---|
| 463 | |
---|
| 464 | ! Description: |
---|
| 465 | !------------------------------------------------------------------------------! |
---|
| 466 | !> Data transfer from 1D surface-data type to 2D dummy array for equal |
---|
| 467 | !> grids in atmosphere and ocean. |
---|
| 468 | !------------------------------------------------------------------------------! |
---|
| 469 | SUBROUTINE transfer_1D_to_2D_equal( def_1d, lsm_1d, usm_1d ) |
---|
| 470 | |
---|
| 471 | IMPLICIT NONE |
---|
| 472 | |
---|
| 473 | INTEGER(iwp) :: i !< running index x |
---|
| 474 | INTEGER(iwp) :: j !< running index y |
---|
| 475 | INTEGER(iwp) :: m !< running index surface type |
---|
| 476 | |
---|
| 477 | REAL(wp), DIMENSION(1:surf_def_h(0)%ns) :: def_1d !< 1D surface flux, default surfaces |
---|
[4671] | 478 | REAL(wp), DIMENSION(1:surf_lsm_h(0)%ns) :: lsm_1d !< 1D surface flux, natural surfaces |
---|
| 479 | REAL(wp), DIMENSION(1:surf_usm_h(0)%ns) :: usm_1d !< 1D surface flux, urban surfaces |
---|
[2232] | 480 | ! |
---|
| 481 | !-- Transfer surface flux at default surfaces to 2D grid |
---|
| 482 | DO m = 1, surf_def_h(0)%ns |
---|
| 483 | i = surf_def_h(0)%i(m) |
---|
| 484 | j = surf_def_h(0)%j(m) |
---|
| 485 | surface_flux(j,i) = def_1d(m) |
---|
| 486 | ENDDO |
---|
| 487 | ! |
---|
| 488 | !-- Transfer surface flux at natural surfaces to 2D grid |
---|
| 489 | IF ( land_surface ) THEN |
---|
| 490 | DO m = 1, SIZE(lsm_1d) |
---|
[4671] | 491 | i = surf_lsm_h(0)%i(m) |
---|
| 492 | j = surf_lsm_h(0)%j(m) |
---|
[2232] | 493 | surface_flux(j,i) = lsm_1d(m) |
---|
| 494 | ENDDO |
---|
| 495 | ENDIF |
---|
| 496 | ! |
---|
| 497 | !-- Transfer surface flux at natural surfaces to 2D grid |
---|
| 498 | IF ( urban_surface ) THEN |
---|
| 499 | DO m = 1, SIZE(usm_1d) |
---|
[4671] | 500 | i = surf_usm_h(0)%i(m) |
---|
| 501 | j = surf_usm_h(0)%j(m) |
---|
[2232] | 502 | surface_flux(j,i) = usm_1d(m) |
---|
| 503 | ENDDO |
---|
| 504 | ENDIF |
---|
| 505 | |
---|
| 506 | END SUBROUTINE transfer_1D_to_2D_equal |
---|
| 507 | |
---|
| 508 | ! Description: |
---|
| 509 | !------------------------------------------------------------------------------! |
---|
| 510 | !> Data transfer from 2D array for equal grids onto 1D surface-data type |
---|
| 511 | !> array. |
---|
| 512 | !------------------------------------------------------------------------------! |
---|
| 513 | SUBROUTINE transfer_2D_to_1D_equal( def_1d ) |
---|
| 514 | |
---|
| 515 | IMPLICIT NONE |
---|
| 516 | |
---|
| 517 | INTEGER(iwp) :: i !< running index x |
---|
| 518 | INTEGER(iwp) :: j !< running index y |
---|
| 519 | INTEGER(iwp) :: m !< running index surface type |
---|
| 520 | |
---|
| 521 | REAL(wp), DIMENSION(1:surf_def_h(2)%ns) :: def_1d !< 1D surface flux, default surfaces |
---|
| 522 | ! |
---|
| 523 | !-- Transfer surface flux to 1D surface type, only for default surfaces |
---|
| 524 | DO m = 1, surf_def_h(2)%ns |
---|
| 525 | i = surf_def_h(2)%i(m) |
---|
| 526 | j = surf_def_h(2)%j(m) |
---|
| 527 | def_1d(m) = surface_flux(j,i) |
---|
| 528 | ENDDO |
---|
| 529 | |
---|
| 530 | END SUBROUTINE transfer_2D_to_1D_equal |
---|
| 531 | |
---|
| 532 | ! Description: |
---|
| 533 | !------------------------------------------------------------------------------! |
---|
| 534 | !> Data transfer from 1D surface-data type to 2D dummy array from unequal |
---|
| 535 | !> grids in atmosphere and ocean. |
---|
| 536 | !------------------------------------------------------------------------------! |
---|
| 537 | SUBROUTINE transfer_1D_to_2D_unequal( def_1d, lsm_1d, usm_1d ) |
---|
| 538 | |
---|
| 539 | IMPLICIT NONE |
---|
| 540 | |
---|
| 541 | INTEGER(iwp) :: i !< running index x |
---|
| 542 | INTEGER(iwp) :: j !< running index y |
---|
| 543 | INTEGER(iwp) :: m !< running index surface type |
---|
| 544 | |
---|
| 545 | REAL(wp), DIMENSION(1:surf_def_h(0)%ns) :: def_1d !< 1D surface flux, default surfaces |
---|
[4671] | 546 | REAL(wp), DIMENSION(1:surf_lsm_h(0)%ns) :: lsm_1d !< 1D surface flux, natural surfaces |
---|
| 547 | REAL(wp), DIMENSION(1:surf_usm_h(0)%ns) :: usm_1d !< 1D surface flux, urban surfaces |
---|
[2232] | 548 | ! |
---|
| 549 | !-- Transfer surface flux at default surfaces to 2D grid. Transfer no |
---|
| 550 | !-- ghost-grid points since total_2d is a global array. |
---|
| 551 | DO m = 1, SIZE(def_1d) |
---|
| 552 | i = surf_def_h(0)%i(m) |
---|
| 553 | j = surf_def_h(0)%j(m) |
---|
| 554 | |
---|
| 555 | IF ( i >= nxl .AND. i <= nxr .AND. & |
---|
| 556 | j >= nys .AND. j <= nyn ) THEN |
---|
| 557 | total_2d(j,i) = def_1d(m) |
---|
| 558 | ENDIF |
---|
| 559 | ENDDO |
---|
| 560 | ! |
---|
| 561 | !-- Transfer surface flux at natural surfaces to 2D grid |
---|
| 562 | IF ( land_surface ) THEN |
---|
| 563 | DO m = 1, SIZE(lsm_1d) |
---|
[4671] | 564 | i = surf_lsm_h(0)%i(m) |
---|
| 565 | j = surf_lsm_h(0)%j(m) |
---|
[2232] | 566 | |
---|
| 567 | IF ( i >= nxl .AND. i <= nxr .AND. & |
---|
| 568 | j >= nys .AND. j <= nyn ) THEN |
---|
| 569 | total_2d(j,i) = lsm_1d(m) |
---|
| 570 | ENDIF |
---|
| 571 | ENDDO |
---|
| 572 | ENDIF |
---|
| 573 | ! |
---|
| 574 | !-- Transfer surface flux at natural surfaces to 2D grid |
---|
| 575 | IF ( urban_surface ) THEN |
---|
| 576 | DO m = 1, SIZE(usm_1d) |
---|
[4671] | 577 | i = surf_usm_h(0)%i(m) |
---|
| 578 | j = surf_usm_h(0)%j(m) |
---|
[2232] | 579 | |
---|
| 580 | IF ( i >= nxl .AND. i <= nxr .AND. & |
---|
| 581 | j >= nys .AND. j <= nyn ) THEN |
---|
| 582 | total_2d(j,i) = usm_1d(m) |
---|
| 583 | ENDIF |
---|
| 584 | ENDDO |
---|
| 585 | ENDIF |
---|
| 586 | |
---|
| 587 | END SUBROUTINE transfer_1D_to_2D_unequal |
---|
| 588 | |
---|
| 589 | ! Description: |
---|
| 590 | !------------------------------------------------------------------------------! |
---|
| 591 | !> Data transfer from 2D dummy array from unequal grids to 1D surface-data |
---|
| 592 | !> type. |
---|
| 593 | !------------------------------------------------------------------------------! |
---|
| 594 | SUBROUTINE transfer_2D_to_1D_unequal( def_1d ) |
---|
| 595 | |
---|
| 596 | IMPLICIT NONE |
---|
| 597 | |
---|
| 598 | INTEGER(iwp) :: i !< running index x |
---|
| 599 | INTEGER(iwp) :: j !< running index y |
---|
| 600 | INTEGER(iwp) :: m !< running index surface type |
---|
| 601 | |
---|
| 602 | REAL(wp), DIMENSION(1:surf_def_h(2)%ns) :: def_1d !< 1D surface flux, default surfaces |
---|
| 603 | ! |
---|
| 604 | !-- Transfer 2D surface flux to default surfaces data type. Transfer no |
---|
| 605 | !-- ghost-grid points since total_2d is a global array. |
---|
| 606 | DO m = 1, SIZE(def_1d) |
---|
| 607 | i = surf_def_h(2)%i(m) |
---|
| 608 | j = surf_def_h(2)%j(m) |
---|
| 609 | |
---|
| 610 | IF ( i >= nxl .AND. i <= nxr .AND. & |
---|
| 611 | j >= nys .AND. j <= nyn ) THEN |
---|
| 612 | def_1d(m) = total_2d_o(j,i) |
---|
| 613 | ENDIF |
---|
| 614 | ENDDO |
---|
| 615 | |
---|
| 616 | |
---|
| 617 | END SUBROUTINE transfer_2D_to_1D_unequal |
---|
| 618 | |
---|
[4429] | 619 | #endif |
---|
[667] | 620 | END SUBROUTINE surface_coupler |
---|
| 621 | |
---|
| 622 | |
---|
| 623 | |
---|
[1682] | 624 | !------------------------------------------------------------------------------! |
---|
| 625 | ! Description: |
---|
| 626 | ! ------------ |
---|
| 627 | !> @todo Missing subroutine description. |
---|
| 628 | !------------------------------------------------------------------------------! |
---|
[4429] | 629 | #if defined( __parallel ) |
---|
| 630 | |
---|
[709] | 631 | SUBROUTINE interpolate_to_atmos( tag ) |
---|
[667] | 632 | |
---|
[1320] | 633 | USE arrays_3d, & |
---|
| 634 | ONLY: total_2d_a, total_2d_o |
---|
[667] | 635 | |
---|
[1320] | 636 | USE indices, & |
---|
| 637 | ONLY: nbgp, nx, nx_a, nx_o, ny, ny_a, ny_o |
---|
| 638 | |
---|
| 639 | USE kinds |
---|
| 640 | |
---|
[1324] | 641 | USE pegrid |
---|
[1320] | 642 | |
---|
[667] | 643 | IMPLICIT NONE |
---|
| 644 | |
---|
[1682] | 645 | INTEGER(iwp) :: dnx !< |
---|
| 646 | INTEGER(iwp) :: dnx2 !< |
---|
| 647 | INTEGER(iwp) :: dny !< |
---|
| 648 | INTEGER(iwp) :: dny2 !< |
---|
| 649 | INTEGER(iwp) :: i !< |
---|
| 650 | INTEGER(iwp) :: ii !< |
---|
| 651 | INTEGER(iwp) :: j !< |
---|
| 652 | INTEGER(iwp) :: jj !< |
---|
[667] | 653 | |
---|
[1682] | 654 | INTEGER(iwp), intent(in) :: tag !< |
---|
[1320] | 655 | |
---|
[667] | 656 | CALL MPI_BARRIER( comm2d, ierr ) |
---|
| 657 | |
---|
[709] | 658 | IF ( myid == 0 ) THEN |
---|
| 659 | ! |
---|
| 660 | !-- Cyclic boundary conditions for the total 2D-grid |
---|
[667] | 661 | total_2d_o(-nbgp:-1,:) = total_2d_o(ny+1-nbgp:ny,:) |
---|
| 662 | total_2d_o(:,-nbgp:-1) = total_2d_o(:,nx+1-nbgp:nx) |
---|
| 663 | |
---|
| 664 | total_2d_o(ny+1:ny+nbgp,:) = total_2d_o(0:nbgp-1,:) |
---|
| 665 | total_2d_o(:,nx+1:nx+nbgp) = total_2d_o(:,0:nbgp-1) |
---|
| 666 | |
---|
[102] | 667 | ! |
---|
[667] | 668 | !-- Number of gridpoints of the fine grid within one mesh of the coarse grid |
---|
| 669 | dnx = (nx_o+1) / (nx_a+1) |
---|
| 670 | dny = (ny_o+1) / (ny_a+1) |
---|
[102] | 671 | |
---|
| 672 | ! |
---|
[709] | 673 | !-- Distance for interpolation around coarse grid points within the fine |
---|
| 674 | !-- grid (note: 2*dnx2 must not be equal with dnx) |
---|
[667] | 675 | dnx2 = 2 * ( dnx / 2 ) |
---|
| 676 | dny2 = 2 * ( dny / 2 ) |
---|
[102] | 677 | |
---|
[1353] | 678 | total_2d_a = 0.0_wp |
---|
[102] | 679 | ! |
---|
[667] | 680 | !-- Interpolation from ocean-grid-layer to atmosphere-grid-layer |
---|
| 681 | DO j = 0, ny_a |
---|
| 682 | DO i = 0, nx_a |
---|
| 683 | DO jj = 0, dny2 |
---|
| 684 | DO ii = 0, dnx2 |
---|
| 685 | total_2d_a(j,i) = total_2d_a(j,i) & |
---|
| 686 | + total_2d_o(j*dny+jj,i*dnx+ii) |
---|
| 687 | ENDDO |
---|
| 688 | ENDDO |
---|
| 689 | total_2d_a(j,i) = total_2d_a(j,i) / ( ( dnx2 + 1 ) * ( dny2 + 1 ) ) |
---|
| 690 | ENDDO |
---|
| 691 | ENDDO |
---|
| 692 | ! |
---|
[709] | 693 | !-- Cyclic boundary conditions for atmosphere grid |
---|
[667] | 694 | total_2d_a(-nbgp:-1,:) = total_2d_a(ny_a+1-nbgp:ny_a,:) |
---|
| 695 | total_2d_a(:,-nbgp:-1) = total_2d_a(:,nx_a+1-nbgp:nx_a) |
---|
| 696 | |
---|
| 697 | total_2d_a(ny_a+1:ny_a+nbgp,:) = total_2d_a(0:nbgp-1,:) |
---|
| 698 | total_2d_a(:,nx_a+1:nx_a+nbgp) = total_2d_a(:,0:nbgp-1) |
---|
| 699 | ! |
---|
| 700 | !-- Transfer of the atmosphere-grid-layer to the atmosphere |
---|
[709] | 701 | CALL MPI_SEND( total_2d_a(-nbgp,-nbgp), ngp_a, MPI_REAL, target_id, & |
---|
| 702 | tag, comm_inter, ierr ) |
---|
[102] | 703 | |
---|
| 704 | ENDIF |
---|
| 705 | |
---|
[667] | 706 | CALL MPI_BARRIER( comm2d, ierr ) |
---|
[102] | 707 | |
---|
[4429] | 708 | END SUBROUTINE interpolate_to_atmos |
---|
| 709 | |
---|
[880] | 710 | #endif |
---|
| 711 | |
---|
[102] | 712 | |
---|
[1682] | 713 | !------------------------------------------------------------------------------! |
---|
| 714 | ! Description: |
---|
| 715 | ! ------------ |
---|
| 716 | !> @todo Missing subroutine description. |
---|
| 717 | !------------------------------------------------------------------------------! |
---|
[4429] | 718 | #if defined( __parallel ) |
---|
| 719 | |
---|
[709] | 720 | SUBROUTINE interpolate_to_ocean( tag ) |
---|
[667] | 721 | |
---|
[1320] | 722 | USE arrays_3d, & |
---|
| 723 | ONLY: total_2d_a, total_2d_o |
---|
[667] | 724 | |
---|
[1320] | 725 | USE indices, & |
---|
| 726 | ONLY: nbgp, nx, nx_a, nx_o, ny, ny_a, ny_o |
---|
| 727 | |
---|
| 728 | USE kinds |
---|
| 729 | |
---|
[1324] | 730 | USE pegrid |
---|
[1320] | 731 | |
---|
[667] | 732 | IMPLICIT NONE |
---|
| 733 | |
---|
[1682] | 734 | INTEGER(iwp) :: dnx !< |
---|
| 735 | INTEGER(iwp) :: dny !< |
---|
| 736 | INTEGER(iwp) :: i !< |
---|
| 737 | INTEGER(iwp) :: ii !< |
---|
| 738 | INTEGER(iwp) :: j !< |
---|
| 739 | INTEGER(iwp) :: jj !< |
---|
| 740 | INTEGER(iwp), intent(in) :: tag !< |
---|
[667] | 741 | |
---|
[1682] | 742 | REAL(wp) :: fl !< |
---|
| 743 | REAL(wp) :: fr !< |
---|
| 744 | REAL(wp) :: myl !< |
---|
| 745 | REAL(wp) :: myr !< |
---|
[709] | 746 | |
---|
[667] | 747 | CALL MPI_BARRIER( comm2d, ierr ) |
---|
| 748 | |
---|
[709] | 749 | IF ( myid == 0 ) THEN |
---|
[667] | 750 | |
---|
| 751 | ! |
---|
[709] | 752 | !-- Number of gridpoints of the fine grid within one mesh of the coarse grid |
---|
[667] | 753 | dnx = ( nx_o + 1 ) / ( nx_a + 1 ) |
---|
| 754 | dny = ( ny_o + 1 ) / ( ny_a + 1 ) |
---|
| 755 | |
---|
| 756 | ! |
---|
[709] | 757 | !-- Cyclic boundary conditions for atmosphere grid |
---|
[667] | 758 | total_2d_a(-nbgp:-1,:) = total_2d_a(ny+1-nbgp:ny,:) |
---|
| 759 | total_2d_a(:,-nbgp:-1) = total_2d_a(:,nx+1-nbgp:nx) |
---|
| 760 | |
---|
| 761 | total_2d_a(ny+1:ny+nbgp,:) = total_2d_a(0:nbgp-1,:) |
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| 762 | total_2d_a(:,nx+1:nx+nbgp) = total_2d_a(:,0:nbgp-1) |
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| 763 | ! |
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[709] | 764 | !-- Bilinear Interpolation from atmosphere grid-layer to ocean grid-layer |
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[667] | 765 | DO j = 0, ny |
---|
| 766 | DO i = 0, nx |
---|
| 767 | myl = ( total_2d_a(j+1,i) - total_2d_a(j,i) ) / dny |
---|
| 768 | myr = ( total_2d_a(j+1,i+1) - total_2d_a(j,i+1) ) / dny |
---|
| 769 | DO jj = 0, dny-1 |
---|
[709] | 770 | fl = myl*jj + total_2d_a(j,i) |
---|
| 771 | fr = myr*jj + total_2d_a(j,i+1) |
---|
[667] | 772 | DO ii = 0, dnx-1 |
---|
| 773 | total_2d_o(j*dny+jj,i*dnx+ii) = ( fr - fl ) / dnx * ii + fl |
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| 774 | ENDDO |
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| 775 | ENDDO |
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| 776 | ENDDO |
---|
| 777 | ENDDO |
---|
| 778 | ! |
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[709] | 779 | !-- Cyclic boundary conditions for ocean grid |
---|
[667] | 780 | total_2d_o(-nbgp:-1,:) = total_2d_o(ny_o+1-nbgp:ny_o,:) |
---|
| 781 | total_2d_o(:,-nbgp:-1) = total_2d_o(:,nx_o+1-nbgp:nx_o) |
---|
| 782 | |
---|
| 783 | total_2d_o(ny_o+1:ny_o+nbgp,:) = total_2d_o(0:nbgp-1,:) |
---|
| 784 | total_2d_o(:,nx_o+1:nx_o+nbgp) = total_2d_o(:,0:nbgp-1) |
---|
| 785 | |
---|
| 786 | CALL MPI_SEND( total_2d_o(-nbgp,-nbgp), ngp_o, MPI_REAL, & |
---|
| 787 | target_id, tag, comm_inter, ierr ) |
---|
| 788 | |
---|
| 789 | ENDIF |
---|
| 790 | |
---|
| 791 | CALL MPI_BARRIER( comm2d, ierr ) |
---|
| 792 | |
---|
[4429] | 793 | END SUBROUTINE interpolate_to_ocean |
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| 794 | |
---|
[880] | 795 | #endif |
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