[2874] | 1 | MODULE sbcice_cice |
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| 2 | !!====================================================================== |
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| 3 | !! *** MODULE sbcice_cice *** |
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| 4 | !! To couple with sea ice model CICE (LANL) |
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| 5 | !!===================================================================== |
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| 6 | #if defined key_cice |
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| 7 | !!---------------------------------------------------------------------- |
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| 8 | !! 'key_cice' : CICE sea-ice model |
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| 9 | !!---------------------------------------------------------------------- |
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| 10 | !! sbc_ice_cice : sea-ice model time-stepping and update ocean sbc over ice-covered area |
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| 11 | !!---------------------------------------------------------------------- |
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| 12 | USE oce ! ocean dynamics and tracers |
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| 13 | USE dom_oce ! ocean space and time domain |
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[3275] | 14 | USE domvvl |
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[9935] | 15 | USE phycst, only : rcp, rau0, r1_rau0, rhos, rhoi |
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[2874] | 16 | USE in_out_manager ! I/O manager |
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[4990] | 17 | USE iom, ONLY : iom_put,iom_use ! I/O manager library !!Joakim edit |
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[2874] | 18 | USE lib_mpp ! distributed memory computing library |
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| 19 | USE lbclnk ! ocean lateral boundary conditions (or mpp link) |
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| 20 | USE daymod ! calendar |
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| 21 | USE fldread ! read input fields |
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| 22 | USE sbc_oce ! Surface boundary condition: ocean fields |
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| 23 | USE sbc_ice ! Surface boundary condition: ice fields |
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[7646] | 24 | USE sbcblk ! Surface boundary condition: bulk |
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[2874] | 25 | USE sbccpl |
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| 26 | |
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| 27 | USE ice_kinds_mod |
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| 28 | USE ice_blocks |
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| 29 | USE ice_domain |
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| 30 | USE ice_domain_size |
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| 31 | USE ice_boundary |
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| 32 | USE ice_constants |
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| 33 | USE ice_gather_scatter |
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| 34 | USE ice_calendar, only: dt |
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[3625] | 35 | USE ice_state, only: aice,aicen,uvel,vvel,vsno,vsnon,vice,vicen |
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[4990] | 36 | # if defined key_cice4 |
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[2874] | 37 | USE ice_flux, only: strax,stray,strocnx,strocny,frain,fsnow, & |
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[5133] | 38 | strocnxT,strocnyT, & |
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[3189] | 39 | sst,sss,uocn,vocn,ss_tltx,ss_tlty,fsalt_gbm, & |
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| 40 | fresh_gbm,fhocn_gbm,fswthru_gbm,frzmlt, & |
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[2874] | 41 | flatn_f,fsurfn_f,fcondtopn_f, & |
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| 42 | uatm,vatm,wind,fsw,flw,Tair,potT,Qa,rhoa,zlvl, & |
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| 43 | swvdr,swvdf,swidr,swidf |
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[4990] | 44 | USE ice_therm_vertical, only: calc_Tsfc |
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| 45 | #else |
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| 46 | USE ice_flux, only: strax,stray,strocnx,strocny,frain,fsnow, & |
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[5133] | 47 | strocnxT,strocnyT, & |
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[4990] | 48 | sst,sss,uocn,vocn,ss_tltx,ss_tlty,fsalt_ai, & |
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| 49 | fresh_ai,fhocn_ai,fswthru_ai,frzmlt, & |
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| 50 | flatn_f,fsurfn_f,fcondtopn_f, & |
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| 51 | uatm,vatm,wind,fsw,flw,Tair,potT,Qa,rhoa,zlvl, & |
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| 52 | swvdr,swvdf,swidr,swidf |
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| 53 | USE ice_therm_shared, only: calc_Tsfc |
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| 54 | #endif |
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[2874] | 55 | USE ice_forcing, only: frcvdr,frcvdf,frcidr,frcidf |
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[3176] | 56 | USE ice_atmo, only: calc_strair |
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[2874] | 57 | |
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| 58 | USE CICE_InitMod |
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| 59 | USE CICE_RunMod |
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| 60 | USE CICE_FinalMod |
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| 61 | |
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| 62 | IMPLICIT NONE |
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| 63 | PRIVATE |
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| 64 | |
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| 65 | PUBLIC cice_sbc_init ! routine called by sbc_init |
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| 66 | PUBLIC cice_sbc_final ! routine called by sbc_final |
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| 67 | PUBLIC sbc_ice_cice ! routine called by sbc |
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| 68 | |
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[4627] | 69 | INTEGER :: ji_off |
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| 70 | INTEGER :: jj_off |
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[3625] | 71 | |
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[2874] | 72 | INTEGER , PARAMETER :: jpfld = 13 ! maximum number of files to read |
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| 73 | INTEGER , PARAMETER :: jp_snow = 1 ! index of snow file |
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| 74 | INTEGER , PARAMETER :: jp_rain = 2 ! index of rain file |
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| 75 | INTEGER , PARAMETER :: jp_sblm = 3 ! index of sublimation file |
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| 76 | INTEGER , PARAMETER :: jp_top1 = 4 ! index of category 1 topmelt file |
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| 77 | INTEGER , PARAMETER :: jp_top2 = 5 ! index of category 2 topmelt file |
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| 78 | INTEGER , PARAMETER :: jp_top3 = 6 ! index of category 3 topmelt file |
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| 79 | INTEGER , PARAMETER :: jp_top4 = 7 ! index of category 4 topmelt file |
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| 80 | INTEGER , PARAMETER :: jp_top5 = 8 ! index of category 5 topmelt file |
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| 81 | INTEGER , PARAMETER :: jp_bot1 = 9 ! index of category 1 botmelt file |
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| 82 | INTEGER , PARAMETER :: jp_bot2 = 10 ! index of category 2 botmelt file |
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| 83 | INTEGER , PARAMETER :: jp_bot3 = 11 ! index of category 3 botmelt file |
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| 84 | INTEGER , PARAMETER :: jp_bot4 = 12 ! index of category 4 botmelt file |
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| 85 | INTEGER , PARAMETER :: jp_bot5 = 13 ! index of category 5 botmelt file |
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| 86 | TYPE(FLD), ALLOCATABLE, DIMENSION(:) :: sf ! structure of input fields (file informations, fields read) |
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| 87 | |
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| 88 | REAL(wp), ALLOCATABLE, SAVE, DIMENSION(:,:,:), PRIVATE :: png ! local array used in sbc_cice_ice |
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| 89 | |
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[5836] | 90 | !!---------------------------------------------------------------------- |
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[10068] | 91 | !! NEMO/OCE 4.0 , NEMO Consortium (2018) |
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[5215] | 92 | !! $Id$ |
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[10068] | 93 | !! Software governed by the CeCILL license (see ./LICENSE) |
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[5836] | 94 | !!---------------------------------------------------------------------- |
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[2874] | 95 | CONTAINS |
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| 96 | |
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| 97 | INTEGER FUNCTION sbc_ice_cice_alloc() |
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| 98 | !!---------------------------------------------------------------------- |
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| 99 | !! *** FUNCTION sbc_ice_cice_alloc *** |
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| 100 | !!---------------------------------------------------------------------- |
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| 101 | ALLOCATE( png(jpi,jpj,jpnij), STAT=sbc_ice_cice_alloc ) |
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[10425] | 102 | CALL mpp_sum ( 'sbcice_cice', sbc_ice_cice_alloc ) |
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[2874] | 103 | IF( sbc_ice_cice_alloc > 0 ) CALL ctl_warn('sbc_ice_cice_alloc: allocation of arrays failed.') |
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| 104 | END FUNCTION sbc_ice_cice_alloc |
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| 105 | |
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[4990] | 106 | SUBROUTINE sbc_ice_cice( kt, ksbc ) |
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[2874] | 107 | !!--------------------------------------------------------------------- |
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| 108 | !! *** ROUTINE sbc_ice_cice *** |
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| 109 | !! |
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| 110 | !! ** Purpose : update the ocean surface boundary condition via the |
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| 111 | !! CICE Sea Ice Model time stepping |
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| 112 | !! |
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[3040] | 113 | !! ** Method : - Get any extra forcing fields for CICE |
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| 114 | !! - Prepare forcing fields |
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[2874] | 115 | !! - CICE model time stepping |
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| 116 | !! - call the routine that computes mass and |
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| 117 | !! heat fluxes at the ice/ocean interface |
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| 118 | !! |
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| 119 | !! ** Action : - time evolution of the CICE sea-ice model |
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| 120 | !! - update all sbc variables below sea-ice: |
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[3625] | 121 | !! utau, vtau, qns , qsr, emp , sfx |
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[2874] | 122 | !!--------------------------------------------------------------------- |
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| 123 | INTEGER, INTENT(in) :: kt ! ocean time step |
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[4990] | 124 | INTEGER, INTENT(in) :: ksbc ! surface forcing type |
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[2874] | 125 | !!---------------------------------------------------------------------- |
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[3193] | 126 | ! |
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[2874] | 127 | ! !----------------------! |
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| 128 | IF( MOD( kt-1, nn_fsbc ) == 0 ) THEN ! Ice time-step only ! |
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| 129 | ! !----------------------! |
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| 130 | |
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| 131 | ! Make sure any fluxes required for CICE are set |
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[4990] | 132 | IF ( ksbc == jp_flx ) THEN |
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[2874] | 133 | CALL cice_sbc_force(kt) |
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[5407] | 134 | ELSE IF ( ksbc == jp_purecpl ) THEN |
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[9019] | 135 | CALL sbc_cpl_ice_flx( fr_i ) |
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[2874] | 136 | ENDIF |
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| 137 | |
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[4990] | 138 | CALL cice_sbc_in ( kt, ksbc ) |
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[2874] | 139 | CALL CICE_Run |
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[4990] | 140 | CALL cice_sbc_out ( kt, ksbc ) |
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[2874] | 141 | |
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[5407] | 142 | IF ( ksbc == jp_purecpl ) CALL cice_sbc_hadgam(kt+1) |
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[2874] | 143 | |
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| 144 | ENDIF ! End sea-ice time step only |
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[3193] | 145 | ! |
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[2874] | 146 | END SUBROUTINE sbc_ice_cice |
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| 147 | |
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[5836] | 148 | |
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| 149 | SUBROUTINE cice_sbc_init( ksbc ) |
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[2874] | 150 | !!--------------------------------------------------------------------- |
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| 151 | !! *** ROUTINE cice_sbc_init *** |
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[3040] | 152 | !! ** Purpose: Initialise ice related fields for NEMO and coupling |
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[2874] | 153 | !! |
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[5836] | 154 | !!--------------------------------------------------------------------- |
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[4990] | 155 | INTEGER, INTENT( in ) :: ksbc ! surface forcing type |
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[9125] | 156 | REAL(wp), DIMENSION(jpi,jpj) :: ztmp1, ztmp2 |
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[3625] | 157 | REAL(wp) :: zcoefu, zcoefv, zcoeff ! local scalar |
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[4990] | 158 | INTEGER :: ji, jj, jl, jk ! dummy loop indices |
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[2874] | 159 | !!--------------------------------------------------------------------- |
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[3193] | 160 | ! |
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[2874] | 161 | IF(lwp) WRITE(numout,*)'cice_sbc_init' |
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| 162 | |
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[4627] | 163 | ji_off = INT ( (jpiglo - nx_global) / 2 ) |
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| 164 | jj_off = INT ( (jpjglo - ny_global) / 2 ) |
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| 165 | |
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[4990] | 166 | #if defined key_nemocice_decomp |
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| 167 | ! Pass initial SST from NEMO to CICE so ice is initialised correctly if |
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| 168 | ! there is no restart file. |
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| 169 | ! Values from a CICE restart file would overwrite this |
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| 170 | IF ( .NOT. ln_rstart ) THEN |
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| 171 | CALL nemo2cice( tsn(:,:,1,jp_tem) , sst , 'T' , 1.) |
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| 172 | ENDIF |
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| 173 | #endif |
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| 174 | |
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[2874] | 175 | ! Initialize CICE |
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[3176] | 176 | CALL CICE_Initialize |
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[2874] | 177 | |
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[3176] | 178 | ! Do some CICE consistency checks |
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[5407] | 179 | IF ( (ksbc == jp_flx) .OR. (ksbc == jp_purecpl) ) THEN |
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[3193] | 180 | IF ( calc_strair .OR. calc_Tsfc ) THEN |
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| 181 | CALL ctl_stop( 'STOP', 'cice_sbc_init : Forcing option requires calc_strair=F and calc_Tsfc=F in ice_in' ) |
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| 182 | ENDIF |
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[7646] | 183 | ELSEIF (ksbc == jp_blk) THEN |
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[3193] | 184 | IF ( .NOT. (calc_strair .AND. calc_Tsfc) ) THEN |
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| 185 | CALL ctl_stop( 'STOP', 'cice_sbc_init : Forcing option requires calc_strair=T and calc_Tsfc=T in ice_in' ) |
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| 186 | ENDIF |
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| 187 | ENDIF |
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[3176] | 188 | |
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| 189 | |
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[2874] | 190 | ! allocate sbc_ice and sbc_cice arrays |
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| 191 | IF( sbc_ice_alloc() /= 0 ) CALL ctl_stop( 'STOP', 'sbc_ice_cice_alloc : unable to allocate arrays' ) |
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| 192 | IF( sbc_ice_cice_alloc() /= 0 ) CALL ctl_stop( 'STOP', 'sbc_ice_cice_alloc : unable to allocate cice arrays' ) |
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| 193 | |
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| 194 | ! Ensure ocean temperatures are nowhere below freezing if not a NEMO restart |
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| 195 | IF( .NOT. ln_rstart ) THEN |
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| 196 | tsn(:,:,:,jp_tem) = MAX (tsn(:,:,:,jp_tem),Tocnfrz) |
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| 197 | tsb(:,:,:,jp_tem) = tsn(:,:,:,jp_tem) |
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| 198 | ENDIF |
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| 199 | |
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[3193] | 200 | fr_iu(:,:)=0.0 |
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| 201 | fr_iv(:,:)=0.0 |
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[2874] | 202 | |
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[3193] | 203 | CALL cice2nemo(aice,fr_i, 'T', 1. ) |
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[5407] | 204 | IF ( (ksbc == jp_flx) .OR. (ksbc == jp_purecpl) ) THEN |
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[3625] | 205 | DO jl=1,ncat |
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| 206 | CALL cice2nemo(aicen(:,:,jl,:),a_i(:,:,jl), 'T', 1. ) |
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[3193] | 207 | ENDDO |
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| 208 | ENDIF |
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[2874] | 209 | |
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| 210 | ! T point to U point |
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| 211 | ! T point to V point |
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[3193] | 212 | DO jj=1,jpjm1 |
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| 213 | DO ji=1,jpim1 |
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| 214 | fr_iu(ji,jj)=0.5*(fr_i(ji,jj)+fr_i(ji+1,jj))*umask(ji,jj,1) |
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| 215 | fr_iv(ji,jj)=0.5*(fr_i(ji,jj)+fr_i(ji,jj+1))*vmask(ji,jj,1) |
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| 216 | ENDDO |
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| 217 | ENDDO |
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[2874] | 218 | |
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[10425] | 219 | CALL lbc_lnk_multi( 'sbcice_cice', fr_iu , 'U', 1., fr_iv , 'V', 1. ) |
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[3625] | 220 | |
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[9019] | 221 | ! set the snow+ice mass |
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| 222 | CALL cice2nemo(vsno(:,:,:),ztmp1,'T', 1. ) |
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| 223 | CALL cice2nemo(vice(:,:,:),ztmp2,'T', 1. ) |
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[9935] | 224 | snwice_mass (:,:) = ( rhos * ztmp1(:,:) + rhoi * ztmp2(:,:) ) |
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[9019] | 225 | snwice_mass_b(:,:) = snwice_mass(:,:) |
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| 226 | |
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[6140] | 227 | IF( .NOT.ln_rstart ) THEN |
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[9019] | 228 | IF( ln_ice_embd ) THEN ! embedded sea-ice: deplete the initial ssh below sea-ice area |
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[4990] | 229 | sshn(:,:) = sshn(:,:) - snwice_mass(:,:) * r1_rau0 |
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| 230 | sshb(:,:) = sshb(:,:) - snwice_mass(:,:) * r1_rau0 |
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[6140] | 231 | |
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| 232 | !!gm This should be put elsewhere.... (same remark for limsbc) |
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| 233 | !!gm especially here it is assumed zstar coordinate, but it can be ztilde.... |
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| 234 | IF( .NOT.ln_linssh ) THEN |
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| 235 | ! |
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| 236 | DO jk = 1,jpkm1 ! adjust initial vertical scale factors |
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| 237 | e3t_n(:,:,jk) = e3t_0(:,:,jk)*( 1._wp + sshn(:,:)*tmask(:,:,1)/(ht_0(:,:) + 1.0 - tmask(:,:,1)) ) |
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| 238 | e3t_b(:,:,jk) = e3t_0(:,:,jk)*( 1._wp + sshb(:,:)*tmask(:,:,1)/(ht_0(:,:) + 1.0 - tmask(:,:,1)) ) |
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| 239 | ENDDO |
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| 240 | e3t_a(:,:,:) = e3t_b(:,:,:) |
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| 241 | ! Reconstruction of all vertical scale factors at now and before time-steps |
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| 242 | ! ============================================================================= |
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| 243 | ! Horizontal scale factor interpolations |
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| 244 | ! -------------------------------------- |
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| 245 | CALL dom_vvl_interpol( e3t_b(:,:,:), e3u_b(:,:,:), 'U' ) |
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| 246 | CALL dom_vvl_interpol( e3t_b(:,:,:), e3v_b(:,:,:), 'V' ) |
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| 247 | CALL dom_vvl_interpol( e3t_n(:,:,:), e3u_n(:,:,:), 'U' ) |
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| 248 | CALL dom_vvl_interpol( e3t_n(:,:,:), e3v_n(:,:,:), 'V' ) |
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| 249 | CALL dom_vvl_interpol( e3u_n(:,:,:), e3f_n(:,:,:), 'F' ) |
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| 250 | ! Vertical scale factor interpolations |
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| 251 | ! ------------------------------------ |
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| 252 | CALL dom_vvl_interpol( e3t_n(:,:,:), e3w_n (:,:,:), 'W' ) |
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| 253 | CALL dom_vvl_interpol( e3u_n(:,:,:), e3uw_n(:,:,:), 'UW' ) |
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| 254 | CALL dom_vvl_interpol( e3v_n(:,:,:), e3vw_n(:,:,:), 'VW' ) |
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| 255 | CALL dom_vvl_interpol( e3u_b(:,:,:), e3uw_b(:,:,:), 'UW' ) |
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| 256 | CALL dom_vvl_interpol( e3v_b(:,:,:), e3vw_b(:,:,:), 'VW' ) |
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| 257 | ! t- and w- points depth |
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| 258 | ! ---------------------- |
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| 259 | gdept_n(:,:,1) = 0.5_wp * e3w_n(:,:,1) |
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| 260 | gdepw_n(:,:,1) = 0.0_wp |
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| 261 | gde3w_n(:,:,1) = gdept_n(:,:,1) - sshn(:,:) |
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| 262 | DO jk = 2, jpk |
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| 263 | gdept_n(:,:,jk) = gdept_n(:,:,jk-1) + e3w_n(:,:,jk) |
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| 264 | gdepw_n(:,:,jk) = gdepw_n(:,:,jk-1) + e3t_n(:,:,jk-1) |
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| 265 | gde3w_n(:,:,jk) = gdept_n(:,:,jk ) - sshn (:,:) |
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| 266 | END DO |
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| 267 | ENDIF |
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[4990] | 268 | ENDIF |
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[3625] | 269 | ENDIF |
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[6140] | 270 | ! |
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[2874] | 271 | END SUBROUTINE cice_sbc_init |
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| 272 | |
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[3152] | 273 | |
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[5836] | 274 | SUBROUTINE cice_sbc_in( kt, ksbc ) |
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[2874] | 275 | !!--------------------------------------------------------------------- |
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| 276 | !! *** ROUTINE cice_sbc_in *** |
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[3040] | 277 | !! ** Purpose: Set coupling fields and pass to CICE |
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[2874] | 278 | !!--------------------------------------------------------------------- |
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[3152] | 279 | INTEGER, INTENT(in ) :: kt ! ocean time step |
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[4990] | 280 | INTEGER, INTENT(in ) :: ksbc ! surface forcing type |
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[5836] | 281 | ! |
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[3625] | 282 | INTEGER :: ji, jj, jl ! dummy loop indices |
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[9125] | 283 | REAL(wp), DIMENSION(jpi,jpj) :: ztmp, zpice |
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| 284 | REAL(wp), DIMENSION(jpi,jpj,ncat) :: ztmpn |
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[3625] | 285 | REAL(wp) :: zintb, zintn ! dummy argument |
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[3152] | 286 | !!--------------------------------------------------------------------- |
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[3193] | 287 | ! |
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| 288 | IF( kt == nit000 ) THEN |
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[2874] | 289 | IF(lwp) WRITE(numout,*)'cice_sbc_in' |
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[3193] | 290 | ENDIF |
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[2874] | 291 | |
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[3193] | 292 | ztmp(:,:)=0.0 |
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[2874] | 293 | |
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| 294 | ! Aggregate ice concentration already set in cice_sbc_out (or cice_sbc_init on |
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| 295 | ! the first time-step) |
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| 296 | |
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| 297 | ! forced and coupled case |
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| 298 | |
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[5407] | 299 | IF ( (ksbc == jp_flx).OR.(ksbc == jp_purecpl) ) THEN |
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[2874] | 300 | |
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[3193] | 301 | ztmpn(:,:,:)=0.0 |
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[2874] | 302 | |
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| 303 | ! x comp of wind stress (CI_1) |
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| 304 | ! U point to F point |
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[3193] | 305 | DO jj=1,jpjm1 |
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| 306 | DO ji=1,jpi |
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| 307 | ztmp(ji,jj) = 0.5 * ( fr_iu(ji,jj) * utau(ji,jj) & |
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| 308 | + fr_iu(ji,jj+1) * utau(ji,jj+1) ) * fmask(ji,jj,1) |
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| 309 | ENDDO |
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| 310 | ENDDO |
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| 311 | CALL nemo2cice(ztmp,strax,'F', -1. ) |
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[2874] | 312 | |
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| 313 | ! y comp of wind stress (CI_2) |
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| 314 | ! V point to F point |
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[3193] | 315 | DO jj=1,jpj |
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| 316 | DO ji=1,jpim1 |
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| 317 | ztmp(ji,jj) = 0.5 * ( fr_iv(ji,jj) * vtau(ji,jj) & |
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| 318 | + fr_iv(ji+1,jj) * vtau(ji+1,jj) ) * fmask(ji,jj,1) |
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| 319 | ENDDO |
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| 320 | ENDDO |
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| 321 | CALL nemo2cice(ztmp,stray,'F', -1. ) |
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[2874] | 322 | |
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| 323 | ! Surface downward latent heat flux (CI_5) |
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[4990] | 324 | IF (ksbc == jp_flx) THEN |
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[3625] | 325 | DO jl=1,ncat |
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| 326 | ztmpn(:,:,jl)=qla_ice(:,:,1)*a_i(:,:,jl) |
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[3193] | 327 | ENDDO |
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| 328 | ELSE |
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[2874] | 329 | ! emp_ice is set in sbc_cpl_ice_flx as sublimation-snow |
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[9935] | 330 | qla_ice(:,:,1)= - ( emp_ice(:,:)+sprecip(:,:) ) * rLsub |
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[2874] | 331 | ! End of temporary code |
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[3193] | 332 | DO jj=1,jpj |
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| 333 | DO ji=1,jpi |
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| 334 | IF (fr_i(ji,jj).eq.0.0) THEN |
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[3625] | 335 | DO jl=1,ncat |
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| 336 | ztmpn(ji,jj,jl)=0.0 |
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[3193] | 337 | ENDDO |
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| 338 | ! This will then be conserved in CICE |
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| 339 | ztmpn(ji,jj,1)=qla_ice(ji,jj,1) |
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| 340 | ELSE |
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[3625] | 341 | DO jl=1,ncat |
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| 342 | ztmpn(ji,jj,jl)=qla_ice(ji,jj,1)*a_i(ji,jj,jl)/fr_i(ji,jj) |
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[3193] | 343 | ENDDO |
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| 344 | ENDIF |
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| 345 | ENDDO |
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| 346 | ENDDO |
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| 347 | ENDIF |
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[3625] | 348 | DO jl=1,ncat |
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| 349 | CALL nemo2cice(ztmpn(:,:,jl),flatn_f(:,:,jl,:),'T', 1. ) |
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[2874] | 350 | |
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| 351 | ! GBM conductive flux through ice (CI_6) |
---|
| 352 | ! Convert to GBM |
---|
[4990] | 353 | IF (ksbc == jp_flx) THEN |
---|
[3625] | 354 | ztmp(:,:) = botmelt(:,:,jl)*a_i(:,:,jl) |
---|
[3193] | 355 | ELSE |
---|
[3625] | 356 | ztmp(:,:) = botmelt(:,:,jl) |
---|
[3193] | 357 | ENDIF |
---|
[3625] | 358 | CALL nemo2cice(ztmp,fcondtopn_f(:,:,jl,:),'T', 1. ) |
---|
[2874] | 359 | |
---|
| 360 | ! GBM surface heat flux (CI_7) |
---|
| 361 | ! Convert to GBM |
---|
[4990] | 362 | IF (ksbc == jp_flx) THEN |
---|
[3625] | 363 | ztmp(:,:) = (topmelt(:,:,jl)+botmelt(:,:,jl))*a_i(:,:,jl) |
---|
[3193] | 364 | ELSE |
---|
[3625] | 365 | ztmp(:,:) = (topmelt(:,:,jl)+botmelt(:,:,jl)) |
---|
[3193] | 366 | ENDIF |
---|
[3625] | 367 | CALL nemo2cice(ztmp,fsurfn_f(:,:,jl,:),'T', 1. ) |
---|
[3193] | 368 | ENDDO |
---|
[2874] | 369 | |
---|
[7646] | 370 | ELSE IF (ksbc == jp_blk) THEN |
---|
[2874] | 371 | |
---|
[7646] | 372 | ! Pass bulk forcing fields to CICE (which will calculate heat fluxes etc itself) |
---|
[2874] | 373 | ! x comp and y comp of atmosphere surface wind (CICE expects on T points) |
---|
[3193] | 374 | ztmp(:,:) = wndi_ice(:,:) |
---|
| 375 | CALL nemo2cice(ztmp,uatm,'T', -1. ) |
---|
| 376 | ztmp(:,:) = wndj_ice(:,:) |
---|
| 377 | CALL nemo2cice(ztmp,vatm,'T', -1. ) |
---|
| 378 | ztmp(:,:) = SQRT ( wndi_ice(:,:)**2 + wndj_ice(:,:)**2 ) |
---|
| 379 | CALL nemo2cice(ztmp,wind,'T', 1. ) ! Wind speed (m/s) |
---|
| 380 | ztmp(:,:) = qsr_ice(:,:,1) |
---|
| 381 | CALL nemo2cice(ztmp,fsw,'T', 1. ) ! Incoming short-wave (W/m^2) |
---|
| 382 | ztmp(:,:) = qlw_ice(:,:,1) |
---|
| 383 | CALL nemo2cice(ztmp,flw,'T', 1. ) ! Incoming long-wave (W/m^2) |
---|
| 384 | ztmp(:,:) = tatm_ice(:,:) |
---|
| 385 | CALL nemo2cice(ztmp,Tair,'T', 1. ) ! Air temperature (K) |
---|
| 386 | CALL nemo2cice(ztmp,potT,'T', 1. ) ! Potential temp (K) |
---|
[2874] | 387 | ! Following line uses MAX(....) to avoid problems if tatm_ice has unset halo rows |
---|
[3193] | 388 | ztmp(:,:) = 101000. / ( 287.04 * MAX(1.0,tatm_ice(:,:)) ) |
---|
| 389 | ! Constant (101000.) atm pressure assumed |
---|
| 390 | CALL nemo2cice(ztmp,rhoa,'T', 1. ) ! Air density (kg/m^3) |
---|
| 391 | ztmp(:,:) = qatm_ice(:,:) |
---|
| 392 | CALL nemo2cice(ztmp,Qa,'T', 1. ) ! Specific humidity (kg/kg) |
---|
| 393 | ztmp(:,:)=10.0 |
---|
| 394 | CALL nemo2cice(ztmp,zlvl,'T', 1. ) ! Atmos level height (m) |
---|
[2874] | 395 | |
---|
| 396 | ! May want to check all values are physically realistic (as in CICE routine |
---|
| 397 | ! prepare_forcing)? |
---|
| 398 | |
---|
| 399 | ! Divide shortwave into spectral bands (as in prepare_forcing) |
---|
[3193] | 400 | ztmp(:,:)=qsr_ice(:,:,1)*frcvdr ! visible direct |
---|
[2874] | 401 | CALL nemo2cice(ztmp,swvdr,'T', 1. ) |
---|
[3193] | 402 | ztmp(:,:)=qsr_ice(:,:,1)*frcvdf ! visible diffuse |
---|
[2874] | 403 | CALL nemo2cice(ztmp,swvdf,'T', 1. ) |
---|
[3193] | 404 | ztmp(:,:)=qsr_ice(:,:,1)*frcidr ! near IR direct |
---|
[2874] | 405 | CALL nemo2cice(ztmp,swidr,'T', 1. ) |
---|
[3193] | 406 | ztmp(:,:)=qsr_ice(:,:,1)*frcidf ! near IR diffuse |
---|
[2874] | 407 | CALL nemo2cice(ztmp,swidf,'T', 1. ) |
---|
| 408 | |
---|
| 409 | ENDIF |
---|
| 410 | |
---|
| 411 | ! Snowfall |
---|
[4990] | 412 | ! Ensure fsnow is positive (as in CICE routine prepare_forcing) |
---|
| 413 | IF( iom_use('snowpre') ) CALL iom_put('snowpre',MAX( (1.0-fr_i(:,:))*sprecip(:,:) ,0.0)) !!Joakim edit |
---|
[3193] | 414 | ztmp(:,:)=MAX(fr_i(:,:)*sprecip(:,:),0.0) |
---|
| 415 | CALL nemo2cice(ztmp,fsnow,'T', 1. ) |
---|
[2874] | 416 | |
---|
| 417 | ! Rainfall |
---|
[4990] | 418 | IF( iom_use('precip') ) CALL iom_put('precip', (1.0-fr_i(:,:))*(tprecip(:,:)-sprecip(:,:)) ) !!Joakim edit |
---|
[3193] | 419 | ztmp(:,:)=fr_i(:,:)*(tprecip(:,:)-sprecip(:,:)) |
---|
| 420 | CALL nemo2cice(ztmp,frain,'T', 1. ) |
---|
[2874] | 421 | |
---|
| 422 | ! Freezing/melting potential |
---|
[3275] | 423 | ! Calculated over NEMO leapfrog timestep (hence 2*dt) |
---|
[6140] | 424 | nfrzmlt(:,:) = rau0 * rcp * e3t_m(:,:) * ( Tocnfrz-sst_m(:,:) ) / ( 2.0*dt ) |
---|
[2874] | 425 | |
---|
[3193] | 426 | ztmp(:,:) = nfrzmlt(:,:) |
---|
| 427 | CALL nemo2cice(ztmp,frzmlt,'T', 1. ) |
---|
[2874] | 428 | |
---|
| 429 | ! SST and SSS |
---|
| 430 | |
---|
[3193] | 431 | CALL nemo2cice(sst_m,sst,'T', 1. ) |
---|
| 432 | CALL nemo2cice(sss_m,sss,'T', 1. ) |
---|
[2874] | 433 | |
---|
| 434 | ! x comp and y comp of surface ocean current |
---|
| 435 | ! U point to F point |
---|
[3193] | 436 | DO jj=1,jpjm1 |
---|
| 437 | DO ji=1,jpi |
---|
| 438 | ztmp(ji,jj)=0.5*(ssu_m(ji,jj)+ssu_m(ji,jj+1))*fmask(ji,jj,1) |
---|
| 439 | ENDDO |
---|
| 440 | ENDDO |
---|
| 441 | CALL nemo2cice(ztmp,uocn,'F', -1. ) |
---|
[2874] | 442 | |
---|
| 443 | ! V point to F point |
---|
[3193] | 444 | DO jj=1,jpj |
---|
| 445 | DO ji=1,jpim1 |
---|
| 446 | ztmp(ji,jj)=0.5*(ssv_m(ji,jj)+ssv_m(ji+1,jj))*fmask(ji,jj,1) |
---|
| 447 | ENDDO |
---|
| 448 | ENDDO |
---|
| 449 | CALL nemo2cice(ztmp,vocn,'F', -1. ) |
---|
[2874] | 450 | |
---|
[9019] | 451 | IF( ln_ice_embd ) THEN !== embedded sea ice: compute representative ice top surface ==! |
---|
[3625] | 452 | ! |
---|
| 453 | ! average interpolation coeff as used in dynspg = (1/nn_fsbc) * {SUM[n/nn_fsbc], n=0,nn_fsbc-1} |
---|
| 454 | ! = (1/nn_fsbc)^2 * {SUM[n], n=0,nn_fsbc-1} |
---|
| 455 | zintn = REAL( nn_fsbc - 1 ) / REAL( nn_fsbc ) * 0.5_wp |
---|
| 456 | ! |
---|
| 457 | ! average interpolation coeff as used in dynspg = (1/nn_fsbc) * {SUM[1-n/nn_fsbc], n=0,nn_fsbc-1} |
---|
| 458 | ! = (1/nn_fsbc)^2 * (nn_fsbc^2 - {SUM[n], n=0,nn_fsbc-1}) |
---|
| 459 | zintb = REAL( nn_fsbc + 1 ) / REAL( nn_fsbc ) * 0.5_wp |
---|
| 460 | ! |
---|
| 461 | zpice(:,:) = ssh_m(:,:) + ( zintn * snwice_mass(:,:) + zintb * snwice_mass_b(:,:) ) * r1_rau0 |
---|
| 462 | ! |
---|
| 463 | ! |
---|
| 464 | ELSE !== non-embedded sea ice: use ocean surface for slope calculation ==! |
---|
| 465 | zpice(:,:) = ssh_m(:,:) |
---|
| 466 | ENDIF |
---|
| 467 | |
---|
[3189] | 468 | ! x comp and y comp of sea surface slope (on F points) |
---|
| 469 | ! T point to F point |
---|
[5836] | 470 | DO jj = 1, jpjm1 |
---|
| 471 | DO ji = 1, jpim1 |
---|
| 472 | ztmp(ji,jj)=0.5 * ( (zpice(ji+1,jj )-zpice(ji,jj )) * r1_e1u(ji,jj ) & |
---|
| 473 | & + (zpice(ji+1,jj+1)-zpice(ji,jj+1)) * r1_e1u(ji,jj+1) ) * fmask(ji,jj,1) |
---|
| 474 | END DO |
---|
| 475 | END DO |
---|
| 476 | CALL nemo2cice( ztmp,ss_tltx,'F', -1. ) |
---|
[3189] | 477 | |
---|
| 478 | ! T point to F point |
---|
[5836] | 479 | DO jj = 1, jpjm1 |
---|
| 480 | DO ji = 1, jpim1 |
---|
| 481 | ztmp(ji,jj)=0.5 * ( (zpice(ji ,jj+1)-zpice(ji ,jj)) * r1_e2v(ji ,jj) & |
---|
| 482 | & + (zpice(ji+1,jj+1)-zpice(ji+1,jj)) * r1_e2v(ji+1,jj) ) * fmask(ji,jj,1) |
---|
| 483 | END DO |
---|
| 484 | END DO |
---|
[3193] | 485 | CALL nemo2cice(ztmp,ss_tlty,'F', -1. ) |
---|
| 486 | ! |
---|
[2874] | 487 | END SUBROUTINE cice_sbc_in |
---|
| 488 | |
---|
[3152] | 489 | |
---|
[5836] | 490 | SUBROUTINE cice_sbc_out( kt, ksbc ) |
---|
[2874] | 491 | !!--------------------------------------------------------------------- |
---|
| 492 | !! *** ROUTINE cice_sbc_out *** |
---|
[3040] | 493 | !! ** Purpose: Get fields from CICE and set surface fields for NEMO |
---|
[3152] | 494 | !!--------------------------------------------------------------------- |
---|
[2874] | 495 | INTEGER, INTENT( in ) :: kt ! ocean time step |
---|
[4990] | 496 | INTEGER, INTENT( in ) :: ksbc ! surface forcing type |
---|
[3152] | 497 | |
---|
[3625] | 498 | INTEGER :: ji, jj, jl ! dummy loop indices |
---|
[9125] | 499 | REAL(wp), DIMENSION(jpi,jpj) :: ztmp1, ztmp2 |
---|
[2874] | 500 | !!--------------------------------------------------------------------- |
---|
[3193] | 501 | ! |
---|
[3152] | 502 | IF( kt == nit000 ) THEN |
---|
[2874] | 503 | IF(lwp) WRITE(numout,*)'cice_sbc_out' |
---|
[3152] | 504 | ENDIF |
---|
| 505 | |
---|
[2874] | 506 | ! x comp of ocean-ice stress |
---|
[3625] | 507 | CALL cice2nemo(strocnx,ztmp1,'F', -1. ) |
---|
[3193] | 508 | ss_iou(:,:)=0.0 |
---|
[2874] | 509 | ! F point to U point |
---|
[3193] | 510 | DO jj=2,jpjm1 |
---|
| 511 | DO ji=2,jpim1 |
---|
[3625] | 512 | ss_iou(ji,jj) = 0.5 * ( ztmp1(ji,jj-1) + ztmp1(ji,jj) ) * umask(ji,jj,1) |
---|
[3193] | 513 | ENDDO |
---|
| 514 | ENDDO |
---|
[10425] | 515 | CALL lbc_lnk( 'sbcice_cice', ss_iou , 'U', -1. ) |
---|
[2874] | 516 | |
---|
| 517 | ! y comp of ocean-ice stress |
---|
[3625] | 518 | CALL cice2nemo(strocny,ztmp1,'F', -1. ) |
---|
[3193] | 519 | ss_iov(:,:)=0.0 |
---|
[2874] | 520 | ! F point to V point |
---|
| 521 | |
---|
[3193] | 522 | DO jj=1,jpjm1 |
---|
| 523 | DO ji=2,jpim1 |
---|
[3625] | 524 | ss_iov(ji,jj) = 0.5 * ( ztmp1(ji-1,jj) + ztmp1(ji,jj) ) * vmask(ji,jj,1) |
---|
[3193] | 525 | ENDDO |
---|
| 526 | ENDDO |
---|
[10425] | 527 | CALL lbc_lnk( 'sbcice_cice', ss_iov , 'V', -1. ) |
---|
[2874] | 528 | |
---|
| 529 | ! x and y comps of surface stress |
---|
| 530 | ! Combine wind stress and ocean-ice stress |
---|
| 531 | ! [Note that fr_iu hasn't yet been updated, so still from start of CICE timestep] |
---|
[5133] | 532 | ! strocnx and strocny already weighted by ice fraction in CICE so not done here |
---|
[2874] | 533 | |
---|
[3193] | 534 | utau(:,:)=(1.0-fr_iu(:,:))*utau(:,:)-ss_iou(:,:) |
---|
| 535 | vtau(:,:)=(1.0-fr_iv(:,:))*vtau(:,:)-ss_iov(:,:) |
---|
[5133] | 536 | |
---|
| 537 | ! Also need ice/ocean stress on T points so that taum can be updated |
---|
| 538 | ! This interpolation is already done in CICE so best to use those values |
---|
| 539 | CALL cice2nemo(strocnxT,ztmp1,'T',-1.) |
---|
| 540 | CALL cice2nemo(strocnyT,ztmp2,'T',-1.) |
---|
| 541 | |
---|
| 542 | ! Update taum with modulus of ice-ocean stress |
---|
| 543 | ! strocnxT and strocnyT are not weighted by ice fraction in CICE so must be done here |
---|
[5836] | 544 | taum(:,:)=(1.0-fr_i(:,:))*taum(:,:)+fr_i(:,:)*SQRT(ztmp1*ztmp1 + ztmp2*ztmp2) |
---|
[2874] | 545 | |
---|
| 546 | ! Freshwater fluxes |
---|
| 547 | |
---|
[4990] | 548 | IF (ksbc == jp_flx) THEN |
---|
[2874] | 549 | ! Note that emp from the forcing files is evap*(1-aice)-(tprecip-aice*sprecip) |
---|
| 550 | ! What we want here is evap*(1-aice)-tprecip*(1-aice) hence manipulation below |
---|
| 551 | ! Not ideal since aice won't be the same as in the atmosphere. |
---|
| 552 | ! Better to use evap and tprecip? (but for now don't read in evap in this case) |
---|
[3193] | 553 | emp(:,:) = emp(:,:)+fr_i(:,:)*(tprecip(:,:)-sprecip(:,:)) |
---|
[7646] | 554 | ELSE IF (ksbc == jp_blk) THEN |
---|
[3193] | 555 | emp(:,:) = (1.0-fr_i(:,:))*emp(:,:) |
---|
[5407] | 556 | ELSE IF (ksbc == jp_purecpl) THEN |
---|
[3625] | 557 | ! emp_tot is set in sbc_cpl_ice_flx (called from cice_sbc_in above) |
---|
| 558 | ! This is currently as required with the coupling fields from the UM atmosphere |
---|
[3193] | 559 | emp(:,:) = emp_tot(:,:)+tprecip(:,:)*fr_i(:,:) |
---|
| 560 | ENDIF |
---|
[2874] | 561 | |
---|
[4990] | 562 | #if defined key_cice4 |
---|
[3625] | 563 | CALL cice2nemo(fresh_gbm,ztmp1,'T', 1. ) |
---|
| 564 | CALL cice2nemo(fsalt_gbm,ztmp2,'T', 1. ) |
---|
[4990] | 565 | #else |
---|
| 566 | CALL cice2nemo(fresh_ai,ztmp1,'T', 1. ) |
---|
| 567 | CALL cice2nemo(fsalt_ai,ztmp2,'T', 1. ) |
---|
| 568 | #endif |
---|
[2874] | 569 | |
---|
[3625] | 570 | ! Check to avoid unphysical expression when ice is forming (ztmp1 negative) |
---|
| 571 | ! Otherwise we are effectively allowing ice of higher salinity than the ocean to form |
---|
| 572 | ! which has to be compensated for by the ocean salinity potentially going negative |
---|
| 573 | ! This check breaks conservation but seems reasonable until we have prognostic ice salinity |
---|
| 574 | ! Note the 1000.0 below is to convert from kg salt to g salt (needed for PSU) |
---|
| 575 | WHERE (ztmp1(:,:).lt.0.0) ztmp2(:,:)=MAX(ztmp2(:,:),ztmp1(:,:)*sss_m(:,:)/1000.0) |
---|
| 576 | sfx(:,:)=ztmp2(:,:)*1000.0 |
---|
| 577 | emp(:,:)=emp(:,:)-ztmp1(:,:) |
---|
[4990] | 578 | fmmflx(:,:) = ztmp1(:,:) !!Joakim edit |
---|
| 579 | |
---|
[10425] | 580 | CALL lbc_lnk_multi( 'sbcice_cice', emp , 'T', 1., sfx , 'T', 1. ) |
---|
[2874] | 581 | |
---|
| 582 | ! Solar penetrative radiation and non solar surface heat flux |
---|
| 583 | |
---|
| 584 | ! Scale qsr and qns according to ice fraction (bulk formulae only) |
---|
| 585 | |
---|
[7646] | 586 | IF (ksbc == jp_blk) THEN |
---|
[3193] | 587 | qsr(:,:)=qsr(:,:)*(1.0-fr_i(:,:)) |
---|
| 588 | qns(:,:)=qns(:,:)*(1.0-fr_i(:,:)) |
---|
| 589 | ENDIF |
---|
[2874] | 590 | ! Take into account snow melting except for fully coupled when already in qns_tot |
---|
[5407] | 591 | IF (ksbc == jp_purecpl) THEN |
---|
[3193] | 592 | qsr(:,:)= qsr_tot(:,:) |
---|
| 593 | qns(:,:)= qns_tot(:,:) |
---|
| 594 | ELSE |
---|
| 595 | qns(:,:)= qns(:,:)-sprecip(:,:)*Lfresh*(1.0-fr_i(:,:)) |
---|
| 596 | ENDIF |
---|
[2874] | 597 | |
---|
| 598 | ! Now add in ice / snow related terms |
---|
| 599 | ! [fswthru will be zero unless running with calc_Tsfc=T in CICE] |
---|
[4990] | 600 | #if defined key_cice4 |
---|
[3625] | 601 | CALL cice2nemo(fswthru_gbm,ztmp1,'T', 1. ) |
---|
[4990] | 602 | #else |
---|
| 603 | CALL cice2nemo(fswthru_ai,ztmp1,'T', 1. ) |
---|
| 604 | #endif |
---|
[3625] | 605 | qsr(:,:)=qsr(:,:)+ztmp1(:,:) |
---|
[10425] | 606 | CALL lbc_lnk( 'sbcice_cice', qsr , 'T', 1. ) |
---|
[2874] | 607 | |
---|
[3193] | 608 | DO jj=1,jpj |
---|
| 609 | DO ji=1,jpi |
---|
[2874] | 610 | nfrzmlt(ji,jj)=MAX(nfrzmlt(ji,jj),0.0) |
---|
[3193] | 611 | ENDDO |
---|
| 612 | ENDDO |
---|
[2874] | 613 | |
---|
[4990] | 614 | #if defined key_cice4 |
---|
[3625] | 615 | CALL cice2nemo(fhocn_gbm,ztmp1,'T', 1. ) |
---|
[4990] | 616 | #else |
---|
| 617 | CALL cice2nemo(fhocn_ai,ztmp1,'T', 1. ) |
---|
| 618 | #endif |
---|
[3625] | 619 | qns(:,:)=qns(:,:)+nfrzmlt(:,:)+ztmp1(:,:) |
---|
[2874] | 620 | |
---|
[10425] | 621 | CALL lbc_lnk( 'sbcice_cice', qns , 'T', 1. ) |
---|
[2874] | 622 | |
---|
| 623 | ! Prepare for the following CICE time-step |
---|
| 624 | |
---|
[3193] | 625 | CALL cice2nemo(aice,fr_i,'T', 1. ) |
---|
[5407] | 626 | IF ( (ksbc == jp_flx).OR.(ksbc == jp_purecpl) ) THEN |
---|
[3625] | 627 | DO jl=1,ncat |
---|
| 628 | CALL cice2nemo(aicen(:,:,jl,:),a_i(:,:,jl), 'T', 1. ) |
---|
[3193] | 629 | ENDDO |
---|
| 630 | ENDIF |
---|
[2874] | 631 | |
---|
| 632 | ! T point to U point |
---|
| 633 | ! T point to V point |
---|
[3193] | 634 | DO jj=1,jpjm1 |
---|
| 635 | DO ji=1,jpim1 |
---|
| 636 | fr_iu(ji,jj)=0.5*(fr_i(ji,jj)+fr_i(ji+1,jj))*umask(ji,jj,1) |
---|
| 637 | fr_iv(ji,jj)=0.5*(fr_i(ji,jj)+fr_i(ji,jj+1))*vmask(ji,jj,1) |
---|
| 638 | ENDDO |
---|
| 639 | ENDDO |
---|
[2874] | 640 | |
---|
[10425] | 641 | CALL lbc_lnk_multi( 'sbcice_cice', fr_iu , 'U', 1., fr_iv , 'V', 1. ) |
---|
[2874] | 642 | |
---|
[9019] | 643 | ! set the snow+ice mass |
---|
| 644 | CALL cice2nemo(vsno(:,:,:),ztmp1,'T', 1. ) |
---|
| 645 | CALL cice2nemo(vice(:,:,:),ztmp2,'T', 1. ) |
---|
[9935] | 646 | snwice_mass (:,:) = ( rhos * ztmp1(:,:) + rhoi * ztmp2(:,:) ) |
---|
[9019] | 647 | snwice_mass_b(:,:) = snwice_mass(:,:) |
---|
| 648 | snwice_fmass (:,:) = ( snwice_mass(:,:) - snwice_mass_b(:,:) ) / dt |
---|
[3193] | 649 | ! |
---|
[2874] | 650 | END SUBROUTINE cice_sbc_out |
---|
| 651 | |
---|
[3152] | 652 | |
---|
[2874] | 653 | SUBROUTINE cice_sbc_hadgam( kt ) |
---|
| 654 | !!--------------------------------------------------------------------- |
---|
| 655 | !! *** ROUTINE cice_sbc_hadgam *** |
---|
[3040] | 656 | !! ** Purpose: Prepare fields needed to pass to HadGAM3 atmosphere |
---|
[2874] | 657 | !! |
---|
| 658 | !! |
---|
[9124] | 659 | !!--------------------------------------------------------------------- |
---|
[2874] | 660 | INTEGER, INTENT( in ) :: kt ! ocean time step |
---|
[9124] | 661 | !! |
---|
[3625] | 662 | INTEGER :: jl ! dummy loop index |
---|
[3193] | 663 | INTEGER :: ierror |
---|
[9124] | 664 | !!--------------------------------------------------------------------- |
---|
[3193] | 665 | ! |
---|
| 666 | IF( kt == nit000 ) THEN |
---|
[2874] | 667 | IF(lwp) WRITE(numout,*)'cice_sbc_hadgam' |
---|
| 668 | IF( sbc_cpl_alloc() /= 0 ) CALL ctl_stop( 'STOP', 'sbc_cpl_alloc : unable to allocate arrays' ) |
---|
[3193] | 669 | ENDIF |
---|
[2874] | 670 | |
---|
| 671 | ! ! =========================== ! |
---|
| 672 | ! ! Prepare Coupling fields ! |
---|
| 673 | ! ! =========================== ! |
---|
[9019] | 674 | ! |
---|
| 675 | ! x and y comp of ice velocity |
---|
| 676 | ! |
---|
[3193] | 677 | CALL cice2nemo(uvel,u_ice,'F', -1. ) |
---|
| 678 | CALL cice2nemo(vvel,v_ice,'F', -1. ) |
---|
| 679 | ! |
---|
[9019] | 680 | ! Ice concentration (CO_1) = a_i calculated at end of cice_sbc_out |
---|
| 681 | ! |
---|
| 682 | ! Snow and ice thicknesses (CO_2 and CO_3) |
---|
| 683 | ! |
---|
| 684 | DO jl = 1, ncat |
---|
| 685 | CALL cice2nemo( vsnon(:,:,jl,:), h_s(:,:,jl),'T', 1. ) |
---|
| 686 | CALL cice2nemo( vicen(:,:,jl,:), h_i(:,:,jl),'T', 1. ) |
---|
| 687 | END DO |
---|
| 688 | ! |
---|
[2874] | 689 | END SUBROUTINE cice_sbc_hadgam |
---|
| 690 | |
---|
| 691 | |
---|
| 692 | SUBROUTINE cice_sbc_final |
---|
| 693 | !!--------------------------------------------------------------------- |
---|
| 694 | !! *** ROUTINE cice_sbc_final *** |
---|
| 695 | !! ** Purpose: Finalize CICE |
---|
| 696 | !!--------------------------------------------------------------------- |
---|
[9124] | 697 | ! |
---|
[2874] | 698 | IF(lwp) WRITE(numout,*)'cice_sbc_final' |
---|
[9124] | 699 | ! |
---|
[3193] | 700 | CALL CICE_Finalize |
---|
[9124] | 701 | ! |
---|
[2874] | 702 | END SUBROUTINE cice_sbc_final |
---|
| 703 | |
---|
[9124] | 704 | |
---|
[2874] | 705 | SUBROUTINE cice_sbc_force (kt) |
---|
| 706 | !!--------------------------------------------------------------------- |
---|
| 707 | !! *** ROUTINE cice_sbc_force *** |
---|
| 708 | !! ** Purpose : Provide CICE forcing from files |
---|
| 709 | !! |
---|
| 710 | !!--------------------------------------------------------------------- |
---|
| 711 | !! ** Method : READ monthly flux file in NetCDF files |
---|
| 712 | !! |
---|
| 713 | !! snowfall |
---|
| 714 | !! rainfall |
---|
| 715 | !! sublimation rate |
---|
| 716 | !! topmelt (category) |
---|
| 717 | !! botmelt (category) |
---|
| 718 | !! |
---|
| 719 | !! History : |
---|
| 720 | !!---------------------------------------------------------------------- |
---|
| 721 | USE iom |
---|
[9124] | 722 | !! |
---|
| 723 | INTEGER, INTENT( in ) :: kt ! ocean time step |
---|
| 724 | !! |
---|
[2874] | 725 | INTEGER :: ierror ! return error code |
---|
| 726 | INTEGER :: ifpr ! dummy loop index |
---|
| 727 | !! |
---|
| 728 | CHARACTER(len=100) :: cn_dir ! Root directory for location of CICE forcing files |
---|
| 729 | TYPE(FLD_N), DIMENSION(jpfld) :: slf_i ! array of namelist informations on the fields to read |
---|
| 730 | TYPE(FLD_N) :: sn_snow, sn_rain, sn_sblm ! informations about the fields to be read |
---|
| 731 | TYPE(FLD_N) :: sn_top1, sn_top2, sn_top3, sn_top4, sn_top5 |
---|
| 732 | TYPE(FLD_N) :: sn_bot1, sn_bot2, sn_bot3, sn_bot4, sn_bot5 |
---|
| 733 | !! |
---|
| 734 | NAMELIST/namsbc_cice/ cn_dir, sn_snow, sn_rain, sn_sblm, & |
---|
| 735 | & sn_top1, sn_top2, sn_top3, sn_top4, sn_top5, & |
---|
| 736 | & sn_bot1, sn_bot2, sn_bot3, sn_bot4, sn_bot5 |
---|
[4230] | 737 | INTEGER :: ios |
---|
[2874] | 738 | !!--------------------------------------------------------------------- |
---|
| 739 | |
---|
| 740 | ! ! ====================== ! |
---|
| 741 | IF( kt == nit000 ) THEN ! First call kt=nit000 ! |
---|
| 742 | ! ! ====================== ! |
---|
[4990] | 743 | ! namsbc_cice is not yet in the reference namelist |
---|
| 744 | ! set file information (default values) |
---|
| 745 | cn_dir = './' ! directory in which the model is executed |
---|
| 746 | |
---|
| 747 | ! (NB: frequency positive => hours, negative => months) |
---|
| 748 | ! ! file ! frequency ! variable ! time intep ! clim ! 'yearly' or ! weights ! rotation ! landmask |
---|
| 749 | ! ! name ! (hours) ! name ! (T/F) ! (T/F) ! 'monthly' ! filename ! pairs ! file |
---|
| 750 | sn_snow = FLD_N( 'snowfall_1m' , -1. , 'snowfall' , .true. , .true. , ' yearly' , '' , '' , '' ) |
---|
| 751 | sn_rain = FLD_N( 'rainfall_1m' , -1. , 'rainfall' , .true. , .true. , ' yearly' , '' , '' , '' ) |
---|
| 752 | sn_sblm = FLD_N( 'sublim_1m' , -1. , 'sublim' , .true. , .true. , ' yearly' , '' , '' , '' ) |
---|
| 753 | sn_top1 = FLD_N( 'topmeltn1_1m' , -1. , 'topmeltn1' , .true. , .true. , ' yearly' , '' , '' , '' ) |
---|
| 754 | sn_top2 = FLD_N( 'topmeltn2_1m' , -1. , 'topmeltn2' , .true. , .true. , ' yearly' , '' , '' , '' ) |
---|
| 755 | sn_top3 = FLD_N( 'topmeltn3_1m' , -1. , 'topmeltn3' , .true. , .true. , ' yearly' , '' , '' , '' ) |
---|
| 756 | sn_top4 = FLD_N( 'topmeltn4_1m' , -1. , 'topmeltn4' , .true. , .true. , ' yearly' , '' , '' , '' ) |
---|
| 757 | sn_top5 = FLD_N( 'topmeltn5_1m' , -1. , 'topmeltn5' , .true. , .true. , ' yearly' , '' , '' , '' ) |
---|
| 758 | sn_bot1 = FLD_N( 'botmeltn1_1m' , -1. , 'botmeltn1' , .true. , .true. , ' yearly' , '' , '' , '' ) |
---|
| 759 | sn_bot2 = FLD_N( 'botmeltn2_1m' , -1. , 'botmeltn2' , .true. , .true. , ' yearly' , '' , '' , '' ) |
---|
| 760 | sn_bot3 = FLD_N( 'botmeltn3_1m' , -1. , 'botmeltn3' , .true. , .true. , ' yearly' , '' , '' , '' ) |
---|
| 761 | sn_bot4 = FLD_N( 'botmeltn4_1m' , -1. , 'botmeltn4' , .true. , .true. , ' yearly' , '' , '' , '' ) |
---|
| 762 | sn_bot5 = FLD_N( 'botmeltn5_1m' , -1. , 'botmeltn5' , .true. , .true. , ' yearly' , '' , '' , '' ) |
---|
| 763 | |
---|
[4230] | 764 | REWIND( numnam_ref ) ! Namelist namsbc_cice in reference namelist : |
---|
| 765 | READ ( numnam_ref, namsbc_cice, IOSTAT = ios, ERR = 901) |
---|
[11536] | 766 | 901 IF( ios /= 0 ) CALL ctl_nam ( ios , 'namsbc_cice in reference namelist' ) |
---|
[2874] | 767 | |
---|
[4230] | 768 | REWIND( numnam_cfg ) ! Namelist namsbc_cice in configuration namelist : Parameters of the run |
---|
| 769 | READ ( numnam_cfg, namsbc_cice, IOSTAT = ios, ERR = 902 ) |
---|
[11536] | 770 | 902 IF( ios > 0 ) CALL ctl_nam ( ios , 'namsbc_cice in configuration namelist' ) |
---|
[4624] | 771 | IF(lwm) WRITE ( numond, namsbc_cice ) |
---|
[2874] | 772 | |
---|
| 773 | ! store namelist information in an array |
---|
| 774 | slf_i(jp_snow) = sn_snow ; slf_i(jp_rain) = sn_rain ; slf_i(jp_sblm) = sn_sblm |
---|
| 775 | slf_i(jp_top1) = sn_top1 ; slf_i(jp_top2) = sn_top2 ; slf_i(jp_top3) = sn_top3 |
---|
| 776 | slf_i(jp_top4) = sn_top4 ; slf_i(jp_top5) = sn_top5 ; slf_i(jp_bot1) = sn_bot1 |
---|
| 777 | slf_i(jp_bot2) = sn_bot2 ; slf_i(jp_bot3) = sn_bot3 ; slf_i(jp_bot4) = sn_bot4 |
---|
| 778 | slf_i(jp_bot5) = sn_bot5 |
---|
| 779 | |
---|
| 780 | ! set sf structure |
---|
| 781 | ALLOCATE( sf(jpfld), STAT=ierror ) |
---|
| 782 | IF( ierror > 0 ) THEN |
---|
| 783 | CALL ctl_stop( 'cice_sbc_force: unable to allocate sf structure' ) ; RETURN |
---|
| 784 | ENDIF |
---|
| 785 | |
---|
| 786 | DO ifpr= 1, jpfld |
---|
| 787 | ALLOCATE( sf(ifpr)%fnow(jpi,jpj,1) ) |
---|
| 788 | ALLOCATE( sf(ifpr)%fdta(jpi,jpj,1,2) ) |
---|
| 789 | END DO |
---|
| 790 | |
---|
| 791 | ! fill sf with slf_i and control print |
---|
| 792 | CALL fld_fill( sf, slf_i, cn_dir, 'cice_sbc_force', 'flux formulation for CICE', 'namsbc_cice' ) |
---|
| 793 | ! |
---|
| 794 | ENDIF |
---|
| 795 | |
---|
| 796 | CALL fld_read( kt, nn_fsbc, sf ) ! Read input fields and provides the |
---|
| 797 | ! ! input fields at the current time-step |
---|
| 798 | |
---|
| 799 | ! set the fluxes from read fields |
---|
| 800 | sprecip(:,:) = sf(jp_snow)%fnow(:,:,1) |
---|
| 801 | tprecip(:,:) = sf(jp_snow)%fnow(:,:,1)+sf(jp_rain)%fnow(:,:,1) |
---|
[3040] | 802 | ! May be better to do this conversion somewhere else |
---|
[9935] | 803 | qla_ice(:,:,1) = -rLsub*sf(jp_sblm)%fnow(:,:,1) |
---|
[2874] | 804 | topmelt(:,:,1) = sf(jp_top1)%fnow(:,:,1) |
---|
| 805 | topmelt(:,:,2) = sf(jp_top2)%fnow(:,:,1) |
---|
| 806 | topmelt(:,:,3) = sf(jp_top3)%fnow(:,:,1) |
---|
| 807 | topmelt(:,:,4) = sf(jp_top4)%fnow(:,:,1) |
---|
| 808 | topmelt(:,:,5) = sf(jp_top5)%fnow(:,:,1) |
---|
| 809 | botmelt(:,:,1) = sf(jp_bot1)%fnow(:,:,1) |
---|
| 810 | botmelt(:,:,2) = sf(jp_bot2)%fnow(:,:,1) |
---|
| 811 | botmelt(:,:,3) = sf(jp_bot3)%fnow(:,:,1) |
---|
| 812 | botmelt(:,:,4) = sf(jp_bot4)%fnow(:,:,1) |
---|
| 813 | botmelt(:,:,5) = sf(jp_bot5)%fnow(:,:,1) |
---|
| 814 | |
---|
| 815 | ! control print (if less than 100 time-step asked) |
---|
| 816 | IF( nitend-nit000 <= 100 .AND. lwp ) THEN |
---|
| 817 | WRITE(numout,*) |
---|
| 818 | WRITE(numout,*) ' read forcing fluxes for CICE OK' |
---|
| 819 | CALL FLUSH(numout) |
---|
| 820 | ENDIF |
---|
| 821 | |
---|
| 822 | END SUBROUTINE cice_sbc_force |
---|
| 823 | |
---|
| 824 | SUBROUTINE nemo2cice( pn, pc, cd_type, psgn) |
---|
| 825 | !!--------------------------------------------------------------------- |
---|
| 826 | !! *** ROUTINE nemo2cice *** |
---|
| 827 | !! ** Purpose : Transfer field in NEMO array to field in CICE array. |
---|
| 828 | #if defined key_nemocice_decomp |
---|
| 829 | !! |
---|
| 830 | !! NEMO and CICE PE sub domains are identical, hence |
---|
| 831 | !! there is no need to gather or scatter data from |
---|
| 832 | !! one PE configuration to another. |
---|
| 833 | #else |
---|
| 834 | !! Automatically gather/scatter between |
---|
| 835 | !! different processors and blocks |
---|
| 836 | !! ** Method : A. Ensure all haloes are filled in NEMO field (pn) |
---|
| 837 | !! B. Gather pn into global array (png) |
---|
| 838 | !! C. Map png into CICE global array (pcg) |
---|
| 839 | !! D. Scatter pcg to CICE blocks (pc) + update haloes |
---|
| 840 | #endif |
---|
| 841 | !!--------------------------------------------------------------------- |
---|
[3193] | 842 | CHARACTER(len=1), INTENT( in ) :: & |
---|
| 843 | cd_type ! nature of pn grid-point |
---|
| 844 | ! ! = T or F gridpoints |
---|
| 845 | REAL(wp), INTENT( in ) :: & |
---|
| 846 | psgn ! control of the sign change |
---|
| 847 | ! ! =-1 , the sign is modified following the type of b.c. used |
---|
| 848 | ! ! = 1 , no sign change |
---|
| 849 | REAL(wp), DIMENSION(jpi,jpj) :: pn |
---|
[2874] | 850 | #if !defined key_nemocice_decomp |
---|
[3625] | 851 | REAL(wp), DIMENSION(jpiglo,jpjglo) :: png2 |
---|
[3193] | 852 | REAL (kind=dbl_kind), dimension(nx_global,ny_global) :: pcg |
---|
[2874] | 853 | #endif |
---|
[3193] | 854 | REAL (kind=dbl_kind), dimension(nx_block,ny_block,max_blocks) :: pc |
---|
| 855 | INTEGER (int_kind) :: & |
---|
| 856 | field_type, &! id for type of field (scalar, vector, angle) |
---|
| 857 | grid_loc ! id for location on horizontal grid |
---|
[2874] | 858 | ! (center, NEcorner, Nface, Eface) |
---|
| 859 | |
---|
[3193] | 860 | INTEGER :: ji, jj, jn ! dummy loop indices |
---|
[5836] | 861 | !!--------------------------------------------------------------------- |
---|
[2874] | 862 | |
---|
[3193] | 863 | ! A. Ensure all haloes are filled in NEMO field (pn) |
---|
[2874] | 864 | |
---|
[10425] | 865 | CALL lbc_lnk( 'sbcice_cice', pn , cd_type, psgn ) |
---|
[2874] | 866 | |
---|
| 867 | #if defined key_nemocice_decomp |
---|
| 868 | |
---|
[3193] | 869 | ! Copy local domain data from NEMO to CICE field |
---|
| 870 | pc(:,:,1)=0.0 |
---|
[3625] | 871 | DO jj=2,ny_block-1 |
---|
| 872 | DO ji=2,nx_block-1 |
---|
| 873 | pc(ji,jj,1)=pn(ji-1+ji_off,jj-1+jj_off) |
---|
[3193] | 874 | ENDDO |
---|
| 875 | ENDDO |
---|
[2874] | 876 | |
---|
| 877 | #else |
---|
| 878 | |
---|
[3193] | 879 | ! B. Gather pn into global array (png) |
---|
[2874] | 880 | |
---|
[3193] | 881 | IF ( jpnij > 1) THEN |
---|
| 882 | CALL mppsync |
---|
| 883 | CALL mppgather (pn,0,png) |
---|
| 884 | CALL mppsync |
---|
| 885 | ELSE |
---|
| 886 | png(:,:,1)=pn(:,:) |
---|
| 887 | ENDIF |
---|
[2874] | 888 | |
---|
[3193] | 889 | ! C. Map png into CICE global array (pcg) |
---|
[2874] | 890 | |
---|
| 891 | ! Need to make sure this is robust to changes in NEMO halo rows.... |
---|
| 892 | ! (may be OK but not 100% sure) |
---|
| 893 | |
---|
[3193] | 894 | IF (nproc==0) THEN |
---|
[2874] | 895 | ! pcg(:,:)=0.0 |
---|
[3193] | 896 | DO jn=1,jpnij |
---|
[3625] | 897 | DO jj=nldjt(jn),nlejt(jn) |
---|
| 898 | DO ji=nldit(jn),nleit(jn) |
---|
| 899 | png2(ji+nimppt(jn)-1,jj+njmppt(jn)-1)=png(ji,jj,jn) |
---|
[3193] | 900 | ENDDO |
---|
| 901 | ENDDO |
---|
| 902 | ENDDO |
---|
[3625] | 903 | DO jj=1,ny_global |
---|
| 904 | DO ji=1,nx_global |
---|
| 905 | pcg(ji,jj)=png2(ji+ji_off,jj+jj_off) |
---|
| 906 | ENDDO |
---|
| 907 | ENDDO |
---|
[3193] | 908 | ENDIF |
---|
[2874] | 909 | |
---|
| 910 | #endif |
---|
| 911 | |
---|
[3193] | 912 | SELECT CASE ( cd_type ) |
---|
| 913 | CASE ( 'T' ) |
---|
| 914 | grid_loc=field_loc_center |
---|
| 915 | CASE ( 'F' ) |
---|
| 916 | grid_loc=field_loc_NEcorner |
---|
| 917 | END SELECT |
---|
[2874] | 918 | |
---|
[3193] | 919 | SELECT CASE ( NINT(psgn) ) |
---|
| 920 | CASE ( -1 ) |
---|
| 921 | field_type=field_type_vector |
---|
| 922 | CASE ( 1 ) |
---|
| 923 | field_type=field_type_scalar |
---|
| 924 | END SELECT |
---|
[2874] | 925 | |
---|
| 926 | #if defined key_nemocice_decomp |
---|
[3193] | 927 | ! Ensure CICE halos are up to date |
---|
| 928 | CALL ice_HaloUpdate (pc, halo_info, grid_loc, field_type) |
---|
[2874] | 929 | #else |
---|
[3193] | 930 | ! D. Scatter pcg to CICE blocks (pc) + update halos |
---|
| 931 | CALL scatter_global(pc, pcg, 0, distrb_info, grid_loc, field_type) |
---|
[2874] | 932 | #endif |
---|
| 933 | |
---|
| 934 | END SUBROUTINE nemo2cice |
---|
| 935 | |
---|
| 936 | SUBROUTINE cice2nemo ( pc, pn, cd_type, psgn ) |
---|
| 937 | !!--------------------------------------------------------------------- |
---|
| 938 | !! *** ROUTINE cice2nemo *** |
---|
| 939 | !! ** Purpose : Transfer field in CICE array to field in NEMO array. |
---|
| 940 | #if defined key_nemocice_decomp |
---|
| 941 | !! |
---|
| 942 | !! NEMO and CICE PE sub domains are identical, hence |
---|
| 943 | !! there is no need to gather or scatter data from |
---|
| 944 | !! one PE configuration to another. |
---|
| 945 | #else |
---|
| 946 | !! Automatically deal with scatter/gather between |
---|
| 947 | !! different processors and blocks |
---|
| 948 | !! ** Method : A. Gather CICE blocks (pc) into global array (pcg) |
---|
| 949 | !! B. Map pcg into NEMO global array (png) |
---|
| 950 | !! C. Scatter png into NEMO field (pn) for each processor |
---|
| 951 | !! D. Ensure all haloes are filled in pn |
---|
| 952 | #endif |
---|
| 953 | !!--------------------------------------------------------------------- |
---|
| 954 | |
---|
[3193] | 955 | CHARACTER(len=1), INTENT( in ) :: & |
---|
| 956 | cd_type ! nature of pn grid-point |
---|
| 957 | ! ! = T or F gridpoints |
---|
| 958 | REAL(wp), INTENT( in ) :: & |
---|
| 959 | psgn ! control of the sign change |
---|
| 960 | ! ! =-1 , the sign is modified following the type of b.c. used |
---|
| 961 | ! ! = 1 , no sign change |
---|
| 962 | REAL(wp), DIMENSION(jpi,jpj) :: pn |
---|
[2874] | 963 | |
---|
| 964 | #if defined key_nemocice_decomp |
---|
[3193] | 965 | INTEGER (int_kind) :: & |
---|
| 966 | field_type, & ! id for type of field (scalar, vector, angle) |
---|
| 967 | grid_loc ! id for location on horizontal grid |
---|
| 968 | ! (center, NEcorner, Nface, Eface) |
---|
[2874] | 969 | #else |
---|
[3193] | 970 | REAL (kind=dbl_kind), dimension(nx_global,ny_global) :: pcg |
---|
[2874] | 971 | #endif |
---|
| 972 | |
---|
[3193] | 973 | REAL (kind=dbl_kind), dimension(nx_block,ny_block,max_blocks) :: pc |
---|
[2874] | 974 | |
---|
[3193] | 975 | INTEGER :: ji, jj, jn ! dummy loop indices |
---|
[2874] | 976 | |
---|
| 977 | |
---|
| 978 | #if defined key_nemocice_decomp |
---|
| 979 | |
---|
[3193] | 980 | SELECT CASE ( cd_type ) |
---|
| 981 | CASE ( 'T' ) |
---|
| 982 | grid_loc=field_loc_center |
---|
| 983 | CASE ( 'F' ) |
---|
| 984 | grid_loc=field_loc_NEcorner |
---|
| 985 | END SELECT |
---|
[2874] | 986 | |
---|
[3193] | 987 | SELECT CASE ( NINT(psgn) ) |
---|
| 988 | CASE ( -1 ) |
---|
| 989 | field_type=field_type_vector |
---|
| 990 | CASE ( 1 ) |
---|
| 991 | field_type=field_type_scalar |
---|
| 992 | END SELECT |
---|
[2874] | 993 | |
---|
[3193] | 994 | CALL ice_HaloUpdate (pc, halo_info, grid_loc, field_type) |
---|
[2874] | 995 | |
---|
| 996 | |
---|
[3193] | 997 | pn(:,:)=0.0 |
---|
| 998 | DO jj=1,jpjm1 |
---|
| 999 | DO ji=1,jpim1 |
---|
[3625] | 1000 | pn(ji,jj)=pc(ji+1-ji_off,jj+1-jj_off,1) |
---|
[3193] | 1001 | ENDDO |
---|
| 1002 | ENDDO |
---|
[2874] | 1003 | |
---|
| 1004 | #else |
---|
| 1005 | |
---|
[3193] | 1006 | ! A. Gather CICE blocks (pc) into global array (pcg) |
---|
[2874] | 1007 | |
---|
[3193] | 1008 | CALL gather_global(pcg, pc, 0, distrb_info) |
---|
[2874] | 1009 | |
---|
| 1010 | ! B. Map pcg into NEMO global array (png) |
---|
| 1011 | |
---|
| 1012 | ! Need to make sure this is robust to changes in NEMO halo rows.... |
---|
| 1013 | ! (may be OK but not spent much time thinking about it) |
---|
[3625] | 1014 | ! Note that non-existent pcg elements may be used below, but |
---|
| 1015 | ! the lbclnk call on pn will replace these with sensible values |
---|
[2874] | 1016 | |
---|
[3193] | 1017 | IF (nproc==0) THEN |
---|
| 1018 | png(:,:,:)=0.0 |
---|
| 1019 | DO jn=1,jpnij |
---|
[3625] | 1020 | DO jj=nldjt(jn),nlejt(jn) |
---|
| 1021 | DO ji=nldit(jn),nleit(jn) |
---|
| 1022 | png(ji,jj,jn)=pcg(ji+nimppt(jn)-1-ji_off,jj+njmppt(jn)-1-jj_off) |
---|
[3193] | 1023 | ENDDO |
---|
| 1024 | ENDDO |
---|
| 1025 | ENDDO |
---|
| 1026 | ENDIF |
---|
[2874] | 1027 | |
---|
[3193] | 1028 | ! C. Scatter png into NEMO field (pn) for each processor |
---|
[2874] | 1029 | |
---|
[3193] | 1030 | IF ( jpnij > 1) THEN |
---|
| 1031 | CALL mppsync |
---|
| 1032 | CALL mppscatter (png,0,pn) |
---|
| 1033 | CALL mppsync |
---|
| 1034 | ELSE |
---|
| 1035 | pn(:,:)=png(:,:,1) |
---|
| 1036 | ENDIF |
---|
[2874] | 1037 | |
---|
| 1038 | #endif |
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| 1039 | |
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[3193] | 1040 | ! D. Ensure all haloes are filled in pn |
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[2874] | 1041 | |
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[10425] | 1042 | CALL lbc_lnk( 'sbcice_cice', pn , cd_type, psgn ) |
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[2874] | 1043 | |
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| 1044 | END SUBROUTINE cice2nemo |
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| 1045 | |
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| 1046 | #else |
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| 1047 | !!---------------------------------------------------------------------- |
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| 1048 | !! Default option Dummy module NO CICE sea-ice model |
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| 1049 | !!---------------------------------------------------------------------- |
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| 1050 | CONTAINS |
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| 1051 | |
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[4990] | 1052 | SUBROUTINE sbc_ice_cice ( kt, ksbc ) ! Dummy routine |
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[9927] | 1053 | IMPLICIT NONE |
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| 1054 | INTEGER, INTENT( in ) :: kt, ksbc |
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[2874] | 1055 | WRITE(*,*) 'sbc_ice_cice: You should not have seen this print! error?', kt |
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| 1056 | END SUBROUTINE sbc_ice_cice |
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| 1057 | |
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[4990] | 1058 | SUBROUTINE cice_sbc_init (ksbc) ! Dummy routine |
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[9927] | 1059 | IMPLICIT NONE |
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| 1060 | INTEGER, INTENT( in ) :: ksbc |
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| 1061 | WRITE(*,*) 'cice_sbc_init: You should not have seen this print! error?', ksbc |
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[2874] | 1062 | END SUBROUTINE cice_sbc_init |
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| 1063 | |
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| 1064 | SUBROUTINE cice_sbc_final ! Dummy routine |
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[9927] | 1065 | IMPLICIT NONE |
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[2874] | 1066 | WRITE(*,*) 'cice_sbc_final: You should not have seen this print! error?' |
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| 1067 | END SUBROUTINE cice_sbc_final |
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| 1068 | |
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| 1069 | #endif |
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| 1070 | |
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| 1071 | !!====================================================================== |
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| 1072 | END MODULE sbcice_cice |
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