######################################################################### # This is a typical input file for OASIS3-MCT. # Keywords used in previous versions of OASIS3 # but now obsolete are marked "Not used" # Don't hesitate to ask precisions or make suggestions (oasishelp@cerfacs.fr). # # Any line beginning with # is ignored. Blank lines are not allowed. # ######################################################################### # # NFIELDS: total number of fields being exchanged $NFIELDS 3 ######################################################################### # NBMODEL: number of models and their names (6 characters) $NBMODEL 2 toyexe wwatch ########################################################################### # RUNTIME: total simulated time for the actual run in seconds ( ########################################################################### # NLOGPRT: debug and time statistics informations printed in log file # First number: 0 one log file for master, and one for other procs # 1 one log file for master, and one for other errors # 2 one file per proc with normal diagnostics # 5 as 2 + initial debug info # 10 as 5 + routine calling tree # 12 as 10 + some routine calling notes # 15 as 12 + even more debug diagnostics # 20 as 15 + some extra runtime analysis # 30 full debug information # Second number: time statistics # 0 nothing calculated # 1 one file for proc 0 and min/max of other procs # 2 as 1 + one file per proc # 3 as 2 + proc 0 writes all procs results in its file $NLOGPRT 1 1 ########################################################################### # Beginning of fields exchange definition $STRINGS # # For each exchanged field: # # line 1: field in sending model, field in target model, unused, coupling # period, number of transformation, restart file, field status # line 2: nb of pts for sending model grid (without halo) first dim, and second dim, # for target grid first dim, and second dim, sending model grid name, target # model grid name, lag = time step of sending model # line 3: sending model grid periodical (P) or regional (R), and nb of overlapping # points, target model grid periodical (P) or regional (R), and number of # overlapping points # line 4: list of transformations performed # line 5: parameters for each transformation # # See the correspondances between variables in models and in OASIS: # Note: for CROCO and WRF nesting capability is usable in coupled # mode. For CROCO, the domain of the sent variables is # defined by the last number of coupled field name; for the # received variable the CROCO domain is defined by the # associated CPLMASK ( CROCO_VAR_CPLMASK* ), and the domain # of the coupled model by the extension _EXT. For WRF, WRF # domain is defined by the number after WRF_d, and the # domain of the coupled model (CROCO for example) is given # by EXT_d in coupled field name # # |--------------------------------------------------------------| # | Possibly sent fields by CROCO: CROCO | OASIS | # |--------------------------------------------------------------| # | t(:,:,N,nnew,itemp) | CROCO_SST | # | zeta | CROCO_SSH | # | u,v (at rho points) | CROCO_UOCE CROCO_VOCE | # | u,v (at rho points) | # | in E/N dir(rotated grids)| CROCO_EOCE CROCO_NOCE | # |--------------------------------------------------------------| # | Possibly received fields by CROCO: CROCO | OASIS | # |--------------------------------------------------------------| # | srflx | CROCO_SRFL | # | stflx(:,:,isalt) | CROCO_EVPR | # | stflx(,:,:,itemp) | CROCO_STFL | # | sustr | CROCO_UTAU CROCO_ETAU | # | svstr | CROCO_VTAU CROCO_NTAU | # | smstr | CROCO_TAUM | # | patm2d | CROCO_PSFC | # | whrm | CROCO_HS | # | wfrq | CROCO_T0M1 | # | wdrx,wdre | CROCO_DIR | # | foc | CROCO_FOC | # | wlm | CROCO_LM | # | ubr | CROCO_UBRX CROCO_UBRY | # | ust_ext | CROCO_USSX CROCO_USSY | # | twox,twoy | CROCO_UTWO CROCO_VTWO | # | etwo,ntwo | CROCO_ETWO CROCO_NTWO | # | tawx,tawy | CROCO_UTAW CROCO_VTAW | # | etaw,ntaw | CROCO_ETAW CROCO_NTAW | # |--------------------------------------------------------------| # | Possibly sent fields by WW3: WW3 | OASIS | # |--------------------------------------------------------------| # | not defined | WW3_ODRY | # | T0M1 | WW3_T0M1 | # | HS | WW3__OHS WW3__AHS | # | THM | WW3__DIR | # | TAW | WW3_TAWX WW3_TAWY | # | TWO | WW3_TWOX WW3_TWOY | # | BHD | WW3__BHD | # | UBR | WW3__UBR | # | FOC | WW3__FOC | # | LM | WW3___LM | # | CUR | WW3_WSSU WW3_WSSV | # | ACHA | WW3_ACHA | # | FP | WW3___FP | # |--------------------------------------------------------------| # | Possibly received fields by WW3: WW3 | OASIS | # |--------------------------------------------------------------| # | not defined | WW3_OWDH WW3_OWDU WW3_OWDV | # | SSH | WW3__SSH | # | CUR | WW3_OSSU WW3_OSSV | # | WND | WW3__U10 WW3__V10 | # |--------------------------------------------------------------| # | Possibly sent fields by WRF: WRF | OASIS | # |--------------------------------------------------------------| # | QFX-(RAINCV+RAINNCV+ | # | SNOWNCV+HAILNCV+ | # | GRAUPELNCV)/DT | WRF_d01_EXT_d01_EVAP-PRECIP | # | (RAINCV+RAINNCV)/DT | WRF_d01_EXT_d01_LIQUID_PRECIP | # | (SNOWNCV+HAILNCV+ | # | GRAUPELNCV)/DT | WRF_d01_EXT_d01_SOLID_PRECIP | # | QFX | WRF_d01_EXT_d01_TOTAL_EVAP | # | GSW | WRF_d01_EXT_d01_SURF_NET_SOLAR | # | GLW-STBOLT*EMISS | # | *SST**4 | WRF_d01_EXT_d01_SURF_NET_LONGWAVE | # | -LH | WRF_d01_EXT_d01_SURF_LATENT | # | -HFX | WRF_d01_EXT_d01_SURF_SENSIBLE | # | GLW-STBOLT*EMISS | # | *SST**4-LH-HFX | WRF_d01_EXT_d01_SURF_NET_NON-SOLAR | # | taut * u_uo / wspd | WRF_d01_EXT_d01_TAUX | # | taut * u_uo / wspd | WRF_d01_EXT_d01_TAUY | # | taut | WRF_d01_EXT_d01_TAUMOD | # | cosa*taui - sina*tauj| WRF_d01_EXT_d01_TAUE | # | cosa*tauj - sina*taui| WRF_d01_EXT_d01_TAUN | # | u_uo | WRF_d01_EXT_d01_WND_U_01 | # | v_vo | WRF_d01_EXT_d01_WND_V_01 | # | cosa*u_uo - sina*v_vo| WRF_d01_EXT_d01_WND_E_01 | # | cosa*v_vo - sina*u_uo| WRF_d01_EXT_d01_WND_N_01 | # | psfc | WRF_d01_EXT_d01_PSFC | # |--------------------------------------------------------------| # | Possibly received fields by WRF: WRF | OASIS | # |--------------------------------------------------------------| # | SST | WRF_d01_EXT_d01_SST | # | UOCE | WRF_d01_EXT_d01_UOCE | # | VOCE | WRF_d01_EXT_d01_VOCE | # | UOCE | WRF_d01_EXT_d01_EOCE | # | VOCE | WRF_d01_EXT_d01_NOCE | # | CHA_COEF | WRF_d01_EXT_d01_CHA_COEF | # |--------------------------------------------------------------| # # ------------------------------------ # WRF (wrfexe) ==> WW3 (wwatch) # ------------------------------------ #~~~~~~~~~~~ # U_01 : wind U component at first level (m/s) #~~~~~~~~~~~ TOY_U_01 WW3__U10 1 2 atm.nc EXPORTED toyt ww3t LAG= R 0 R 0 LOCTRANS SCRIPR AVERAGE DISTWGT LR SCALAR LATLON 1 4 # #~~~~~~~~~~~ # V_01 : wind V component at first level (m/s) #~~~~~~~~~~~ TOY_V_01 WW3__V10 1 2 atm.nc EXPORTED toyt ww3t LAG= R 0 R 0 LOCTRANS SCRIPR AVERAGE DISTWGT LR SCALAR LATLON 1 4 # # ------------------------------------ # WW3 (wwatch) ==> WRF (wrfexe) # ------------------------------------ # #~~~~~~~~~~~ # CHA_COEF : Charnock coefficient #~~~~~~~~~~~ WW3_ACHA TOY__CHA 1 2 wav.nc EXPORTED ww3t toyt LAG= R 0 R 0 LOCTRANS SCRIPR AVERAGE DISTWGT LR SCALAR LATLON 1 4 # ########################################################################### $END