# This is a typical input file for OASIS 3.0, using netCDF format # for restart input files. Oasis reads in # this file at run-time. Don't hesitate to ask precisions or make # suggestions (oasishelp@cerfacs.fr). This file can be used AS IT IS # to run the CLIM toy model (toyclim). # # Any line beginning with # is ignored. Blank lines are not allowed. # $SEQMODE # This keyword concerns the coupling algorithm. Put here the maximum number # of fields that have to be, at one particular coupling timestep, # exchanged sequentially in a given order. 1 $END ######################################################################### $CHANNEL # The communication technique you want to use. # Choices are MPI1 or MPI2, NONE. # - if you want to use MPI1 or MPI2 message passing, you must write # MPI1 or MPI2 (+ NOBSEND if you do not want to use the default MPI_BSend) # on one line # + one line per model giving for the model the total number of procs, # the number of procs implied in the coupling and, for MPI2 only, an # optional launching argument # MPI1 2 2 1 1 1 1 $END ######################################################################### $NFIELDS # This is the total number of fields being exchanged. # For the definition of the fields, see under $STRINGS keyword # 21 $END ######################################################################### $JOBNAME # This is an acronym for this run (3 characters). CLI $END ########################################################################## $NBMODEL # This gives you the number of models running in this experiment + # their names (6 characters) + , in option, the maximum Fortran unit # number used by each model; 1024 will be used if none are given. # 3 arpege opa9 trip 99 99 99 $END ########################################################################### $RUNTIME # This gives you the total simulated time for this run in seconds (here 6 days) # 2678400 $END ########################################################################### $INIDATE # This is the initial date of the run. This is important only if # FILLING analysis is used for a coupling field in the run. # The format is YYYYMMDD. 00011201 $END ########################################################################### $MODINFO # Indicates if a header is encapsulated within the field brick # in binary restart files for all communication techniques, # (and for coupling field exchanges for PIPE, SIPC and GMEM. # (YES or NOT) NOT $END ########################################################################### $NLOGPRT # Index of printing level in output file cplout: 0 = no printing # 1 = main routines and field names when treated, 2 = complete output 2 $END ########################################################################### $CALTYPE # Calendar type : 0 = 365 day calendar (no leap years) # 1 = 365 day, or 366 days for leap years, calendar # n (>1) = n day month calendar # This is important only if FILLING analysis is used for a coupling # field in the run. # 1 $END ########################################################################### $STRINGS # # The above variables are the general parameters for the experiment. # Everything below has to do with the fields being exchanged. # ############################################################################ # OCEAN --->>> ATMOS # -------------------- ############################################################################ # # Field 1 : sea surface temperature # O_TepMix SISUTESU 1 86400 4 ocean.nc EXPORTED tne1 t127 LAG=+3600 P 2 P 0 # LOCTRANS CHECKIN SCRIPR CHECKOUT # AVERAGE INT=1 BICUBIC LR SCALAR LATLON 10 INT=1 # ############################################################################ # # Field 2 : Sea ice extent # OIceFrac SIICECOV 2 86400 4 ocean.nc EXPORTED tne1 t127 LAG=+3600 P 2 P 0 # LOCTRANS CHECKIN SCRIPR CHECKOUT # AVERAGE INT=1 BICUBIC LR SCALAR LATLON 10 INT=1 # ############################################################################ # # Field 3 : Surface albedo # O_AlbMix SIALBEDO 17 86400 4 ocean.nc EXPORTED tne1 t127 LAG=+3600 P 2 P 0 # LOCTRANS CHECKIN SCRIPR CHECKOUT # AVERAGE INT=1 BICUBIC LR SCALAR LATLON 10 INT=1 # ############################################################################ # # Field 4 : Surface current U # O_OCurx1 SIUOCEAN 47 86400 6 ocean.nc EXPORTED tne1 t127 LAG=+3600 P 2 P 0 # LOCTRANS CHECKIN MASK EXTRAP SCRIPR CHECKOUT # AVERAGE INT=1 9999.99 NINENN 3 0 1 BICUBIC LR SCALAR LATLON 10 INT=1 # ############################################################################ # # Field 5 : Surface current V # O_OCury1 SIVOCEAN 48 86400 6 ocean.nc EXPORTED tne1 t127 LAG=+3600 P 2 P 0 # LOCTRANS CHECKIN MASK EXTRAP SCRIPR CHECKOUT # AVERAGE INT=1 9999.99 NINENN 3 0 1 BICUBIC LR SCALAR LATLON 10 INT=1 # ############################################################################ # ATMOSPHERE --->>> OCEAN # ------------------------- ############################################################################ # # Field 9 : zonal wind stress -> ugrid # COZOTAUX O_OTaux1 23 86400 4 atm.nc EXPORTED t127 une1 LAG=+1800 P 0 P 2 # LOCTRANS CHECKIN SCRIPR CHECKOUT # AVERAGE INT=1 BICUBIC D SCALAR LATITUDE 10 INT=1 # ######################################################################### # # Field 10 : meridional wind stress -> ugrid # COMETAUU O_OTauy1 24 86400 4 atm.nc EXPORTED t127 une1 LAG=+1800 P 0 P 2 # LOCTRANS CHECKIN SCRIPR CHECKOUT # AVERAGE INT=1 BICUBIC D SCALAR LATITUDE 10 INT=1 # ######################################################################### # # Field 11 : meridional wind stress -> vgrid # COMETAUY O_OTauy2 24 86400 4 atm.nc EXPORTED t127 vne1 LAG=+1800 P 0 P 2 # LOCTRANS CHECKIN SCRIPR CHECKOUT # AVERAGE INT=1 BICUBIC D SCALAR LATITUDE 10 INT=1 # ######################################################################### # Field 12 : zonal wind stress -> vgrid # COZOTAUV O_OTaux2 23 86400 4 atm.nc EXPORTED t127 vne1 LAG=+1800 P 0 P 2 # LOCTRANS CHECKIN SCRIPR CHECKOUT # AVERAGE INT=1 BICUBIC D SCALAR LATITUDE 10 INT=1 # ############################################################################ # # Field 13 : Solid precipitation # COTOSOPR OTotSnow 28 86400 5 atm.nc EXPORTED t127 tne1 LAG=+1800 P 0 P 2 # CHECKIN BLASOLD SCRIPR CONSERV CHECKOUT # INT=1 1.1574E-5 0 DISTWGT D SCALAR LATLON 20 4 GLOBAL INT=1 # ############################################################################ # Field 14 : Liquid precipitation # COTOLIPR OTotRain 27 86400 5 atm.nc EXPORTED t127 tne1 LAG=+1800 P 0 P 2 # CHECKIN BLASOLD SCRIPR CONSERV CHECKOUT # INT=1 1.1574E-5 0 DISTWGT D SCALAR LATLON 20 4 GLOBAL INT=1 # ############################################################################ # Field 15 : Evaporation flux # COTHSHSU OTotEvap 25 86400 5 atm.nc EXPORTED t127 tne1 LAG=+1800 P 0 P 2 # CHECKIN BLASOLD SCRIPR CONSERV CHECKOUT # INT=1 # ARPEGE field is negative - NEMO field should be positive -1.1574E-5 0 DISTWGT D SCALAR LATLON 20 4 GLOBAL INT=1 # ######################################################################### # Field 19 : Non solar heat flux # CONSFTOT O_QnsMix 6 86400 4 atm.nc EXPORTED t127 tne1 LAG=+1800 P 0 P 2 # CHECKIN SCRIPR CONSERV CHECKOUT INT=1 DISTWGT D SCALAR LATLON 20 4 GLOBAL INT=1 # ############################################################################ # Field 20 : Solar heat flux # COSHFTOT O_QsrMix 7 86400 4 atm.nc EXPORTED t127 tne1 LAG=+1800 P 0 P 2 # CHECKIN SCRIPR CONSERV CHECKOUT INT=1 DISTWGT D SCALAR LATLON 20 4 GLOBAL INT=1 # ############################################################################ # Field 21 : non solar heat flux derivative # CODFLXDT O_dQnsdT 35 86400 3 atm.nc EXPORTED t127 tne1 LAG=+1800 P 0 P 2 # CHECKIN SCRIPR CHECKOUT INT=1 DISTWGT D SCALAR LATLON 20 4 INT=1 # ############################################################################# # Field 24 : 10 meter wind module # COWINMOD O_Wind10 56 86400 3 atm.nc EXPORTED t127 tne1 LAG=+1800 P 0 P 2 # CHECKIN SCRIPR CHECKOUT INT=1 DISTWGT D SCALAR LATLON 20 4 INT=1 # ############################################################################# # Field 25 : Sublimation # COSUBLIM OIceEvap 41 86400 5 atm.nc EXPORTED t127 tne1 LAG=+1800 P 0 P 2 # CHECKIN BLASOLD SCRIPR CONSERV CHECKOUT INT=1 # ARPEGE field is negative - NEMO field should be positive -1.1574E-5 0 DISTWGT D SCALAR LATLON 20 4 GLOBAL INT=1 # ############################################################################ # Field 17 : Runoff flux (should be delivered to TRIP in mm/day) # CORUNOFF TRRUNOFF 372 86400 4 atm.nc EXPORTED c127 trip LAG=+1800 P 0 P 0 # CHECKIN SCRIPR CONSERV CHECKOUT INT=1 DISTWGT D SCALAR LATLON 20 4 GLOBAL INT=1 # ############################################################################ # Field 18 : Runoff Trip # SORIVERS O_Runoff 32 86400 5 trip.nc EXPOUT trpe rne1 LAG=+10800 P 0 P 2 CHECKIN BLASOLD SCRIPR CONSERV CHECKOUT INT=1 1.1574E-5 0 GAUSWGT LR SCALAR LATLON 10 6 10. GLOBAL INT=1 # ############################################################################# # Field 19 : Calving Antarctic only # # Warning: do exchange antarctic calving BEFORE greenland one # COCALANT OCalvin2 36 86400 5 atm.nc AUXILARY a127 sne1 LAG=+1800 P 0 P 2 # CHECKIN BLASOLD SCRIPR CONSERV CHECKOUT INT=1 1.1574E-5 0 DISTWGT D SCALAR LATLON 20 4 GLOBAL INT=1 # ############################################################################# # Field 20 : Calving Greenland only # COCALVIN OCalving 36 86400 6 atm.nc EXPORTED k127 tne1 LAG=+1800 P 0 P 2 # CHECKIN BLASOLD SCRIPR CONSERV BLASNEW CHECKOUT INT=1 1.1574E-5 0 DISTWGT D SCALAR LATLON 20 4 GLOBAL 1. 1 OCalvin2 1. INT=1 # $END