#- $Id: inca.card 70 2007-06-21 14:20:42Z acosce $
[Compatibility]
libIGCM=1.0

[UserChoices]
#choose if input file will be regrid by xios, or read without regrid with netcdf
xios_read=n
# Set LMDZ_10m_winds to choose if the simulation will use online 10m wind (=y) or offline (=n)
LMDZ_10m_winds=y
#active or not chemistry flux in output 
calcul_flux=n
#choose which type of aircraft you will use (0 - 1 - 2 - 3) (no aircraft / old inca aircraft / new subsonic inca aircraft / subsonic + hypersonic inca aircraft)
flag_plane=1
#choose which time interpolation you want to interpolate sflx file. ( 0 - 1) (no interpolation / point to point interpolation) 
#be careful name of sflx file change with the choice of emi_interp_time ( no file / sflx_p2p.nc) 
emi_interp_time=1
#choose which type of sflx_nat.nc file we are using 
multi_sources_nat=y


#  LAND -> ATM cycle 
#for coupling with Orchidee you need to modify inca.def to specify flux between the two composantes
CoupOrchInca=y

# OCEAN -> ATM cycle 
CoupOceAtm=y
#choice of species transfer from ocean to atmosphere (via lmdz) 
transm_dms_oa=n
transm_n2o_oa=y

# Specify output frequency for output files 
# you can choose the frequency 1d (daily), 1mo (monthly), other (1ts, 5d, etc.) or NONE if to deactivate it
# if you choose 1d the file will be store in CHM/Output/DA
# if you choose 1mo the file will be store in CHM/Output/MO
# if you choose another frequency, the file will be store in CHM/Output/DA by default
output_frequency_ges=1d
output_frequency_coupling=1d

[InitialStateFiles]
List= ()

	
[BoundaryFiles]
List=(${R_IN}/CHM/IPCC_AR6/SFLX/VERS4/${RESOL_CHM}/phy/Historical/ANT/sflx_lmdz_ANT_${year}_phy.nc	,   sflx_ANT.nc         ),\
     (${R_IN}/CHM/IPCC_AR6/SFLX/VERS4/${RESOL_CHM}/phy/Historical/BBG/sflx_lmdz_BBG_${year}_phy.nc    	,   sflx_BBG.nc         ),\
     (${R_IN}/CHM/IPCC_AR6/SFLX/VERS4/${RESOL_CHM}/phy/Historical/NAT_v2/sflx_lmdz_NAT_${year}_phy.nc 	,   sflx_NAT.nc     	),\
     (${R_IN}/CHM/IPCC_AR6/AIRCRAFT/${RESOL_CHM}/aircraft_${year}_phy.nc           			,   aircraft_mth.nc     ),\
     (${R_IN}/CHM/IPCC_AR6/OXYDANTS/${RESOL_CHM}_yearly_interpolated/oxydants_${year}.nc		,   oxydants.nc         )


ListNonDel= (${R_IN}/CHM/INCA144142-L39/npp.nc		            		    	,   npp.nc		),\
            (${R_IN}/CHM/IPCC_AR6/SFLX/VERS4/${RESOL_CHM}/phy/sflx_lmdz_GHG_phy.nc  	,   sflx_GHG.nc 	),\
            (${R_IN}/CHM/IPCC_AR6/SFLX/VERS4/${RESOL_CHM}/phy/sflx_lmdz_MISC_phy.nc 	,   sflx_MISC.nc	),\
            (${R_IN}/CHM/IPCC_AR6/lglived_CMIP6.dat              	    		,   lglived.dat		),\
	    (${R_IN}/CHM/INCA${RESOL_CHM}/landuse.nc	                    		,   landuse.nc		),\
	    (${R_IN}/CHM/INCA${RESOL_CHM}/andres.nc		            		,   andres.nc		),\
	    (${R_IN}/CHM/INCA${RESOL_CHM}/casa_m.nc		            		,   casa_m.nc		),\
	    (${R_IN}/CHM/INCA${RESOL_CHM}/taka.nc		            		,   taka.nc		),\
	    (${R_IN}/CHM/INCA${RESOL_CHM}/casa_h.nc		            		,   casa_h.nc		),\
 	    (${R_IN}/CHM/INCA${RESOL_CHM}/new_phototable.dat   	            		,   phototable.dat	)



[ParametersFiles]
List=   (${SUBMIT_DIR}/PARAM/inca.def_N2O, inca.def),\
	(${MODIPSL}/modeles/INCA/src/INCA_XML/context_inca.xml, .)   ,\
	(${MODIPSL}/modeles/INCA/src/INCA_XML/field_def_inca.xml, .) ,\
	(${MODIPSL}/modeles/INCA/src/INCA_XML/file_def_inca_restart.xml, file_def_inca_restart.xml ), \
	(${MODIPSL}/modeles/INCA/src/INCA_XML/file_def_inca_GES.xml, file_def_inca.xml ), \
    	(${MODIPSL}/bin/inca_${ConfChem}.dat, inca.dat)

	

[RestartFiles]
# List restart that have to be saved/restored each loop (file out, saved, and in) :
List= (chem_restart.nc, chem_restart.nc, chem_start.nc)



[OutputText]
List=(inca.out, inca.def,context_inca.xml,field_def_inca.xml,file_def_inca.xml, inca_IDxml.out)

[OutputFiles]
List=	(inca1d_ges.nc		,      ${R_OUT_CHM_O_D}/${PREFIX}_1D_inca_ges.nc	, Post_1D_inca_ges	),\
	(inca1d_coupling.nc	,      ${R_OUT_CHM_O_D}/${PREFIX}_1D_inca_coupling.nc	, Post_1D_inca_coupling ),\
	(inca1mo_ges.nc		,      ${R_OUT_CHM_O_M}/${PREFIX}_1M_inca_ges.nc	, Post_1M_inca_ges 	),\
	(inca1mo_coupling.nc	,      ${R_OUT_CHM_O_M}/${PREFIX}_1M_inca_coupling.nc	, Post_1M_inca_coupling ),\
	(mmr_ce0l_ico.nc        ,      ${R_OUT_CHM_O_D}/${PREFIX}_1D_mmr_ce0l_ico.nc    , NONE		    	)



[Post_1D_inca_ges]
Patches= ()
GatherWithInternal = (lon, lat, presnivs, , time_centered, time_centered_bounds, time_counter, area)
TimeSeriesVars2D = ()
ChunckJob2D = NONE
TimeSeriesVars3D = (vmrch4,vmrco,vmrco2oc,vmrco2bim,vmrco2bih,jn2o,jmcf,vmrn2o,phtrate_jN2O, emin2o)
ChunckJob3D = NONE
Seasonal=OFF



[Post_1M_inca_ges]
Patches= ()
GatherWithInternal = (lon, lat, presnivs, , time_centered, time_centered_bounds, time_counter, area)
TimeSeriesVars2D = ()
ChunckJob2D = NONE
TimeSeriesVars3D = (vmrch4,vmrco,vmrco2oc,vmrco2bim,vmrco2bih,vmrn2o,phtrate_jN2O, emin2o)
ChunckJob3D = NONE
Seasonal=OFF


[Post_1D_inca_coupling]
Patches= ()
GatherWithInternal = (lon, lat, veget, time_counter)
TimeSeriesVars2D = (snowfromOrch,emi_fromOrch_n2o,emi_notfromOrch_n2o)
ChunckJob2D = NONE
TimeSeriesVars3D = (land_flx_n2o, ocean_flx_n2o)
ChunckJob3D = NONE
Seasonal=OFF


[Post_1M_inca_coupling]
Patches= ()
GatherWithInternal = (lon, lat, veget, time_counter)
TimeSeriesVars2D = (snowfromOrch,emi_fromOrch_n2o,emi_notfromOrch_n2o)
ChunckJob2D = NONE
TimeSeriesVars3D = (land_flx_n2o, ocean_flx_n2o)
ChunckJob3D = NONE
Seasonal=OFF