source: CONFIG/UNIFORM/v7/ICOLMDZORINCA_v7/EXPERIMENTS/LMDZORINCA/AER_LR/COMP/inca.card @ 5542

Last change on this file since 5542 was 5542, checked in by acosce, 4 years ago

Add new configuration to coupled lmdzorinca with dynamico.
In first step this configuration use lmdz dynamics, and read forcing files with XIOS

File size: 6.6 KB
Line 
1#- $Id: inca.card 70 2007-06-21 14:20:42Z acosce $
2[Compatibility]
3libIGCM=1.0
4
5[UserChoices]
6# Set LDMZ_10m_winds to choose if the simulation will use online 10m wind (=y) or offline (=n)
7LMDZ_10m_winds=n
8#choose threshold (10m winds)  parameter value
9wind_parameter=0.78
10#choose seasalt correctif
11seasalt_corr=1.06
12# heat fluxes computed with feedback corresponding to 0 --> no aerosol effects, 1--> aerosol effects selected by ok_ade, ok_aie
13feedb=0
14#coupled model with ORCH
15#if yes, you need to put to CHEMISTRY_BVOC=y in orchidee.def and decomment lines for fertilizer and bbg in orchidee.card
16CoupOrchInca=n
17#active or not chemistry flux in output
18calcul_flux=n
19#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)
20flag_plane=0
21#choose which time interpolation you want to interpolate sflx file. ( 0 - 1) (no interpolation / point to point interpolation)
22#be careful name of sflx file change with the choice of emi_interp_time ( no file / sflx_p2p.nc)
23emi_interp_time=1
24
25# Specify output frequency for output files
26# File aerosols_from_inca will be systematically write in output with a monthly frequency - you cannot manage it from this card
27# for other files you can choose the frequency 1d (daily), 1mo (monthly), other (1ts, 5d, etc.) or NONE if to deactivate it
28# if you choose 1d the file will be store in CHM/Output/DA
29# if you choose 1mo the file will be store in CHM/Output/MO
30# if you choose another frequency, the file will be store in CHM/Output/DA by default
31output_frequency_chem=1d
32output_frequency_emi=1d
33output_frequency_species=1d
34output_frequency_forcage=1d
35output_frequency_aero=1d
36output_frequency_dep=1d
37output_frequency_washrate=NONE
38output_frequency_veget=NONE
39output_frequency_reacflux=NONE
40output_frequency_phtrate=NONE
41output_frequency_invariants=NONE
42
43
44[InitialStateFiles]
45List= ()
46       
47[BoundaryFiles]
48List=(${R_IN}/CHM/IPCC_AR6/OXYDANTS/${RESOL_CHM}_yearly_interpolated/oxydants_${year}.nc,   oxydants.nc         ),\
49     (/ccc/work/cont003/subipsl/subipsl/ECMWF320x160/AN${year}/165_${year}${month}.nc      , u10xios.nc)\
50     (/ccc/work/cont003/subipsl/subipsl/ECMWF320x160/AN${year}/166_${year}${month}.nc      , v10xios.nc)
51
52
53ListNonDel= (${R_IN}/CHM/FILES_LONxLAT/landuse_lmdz_dyn.nc                  ,   landuse.nc      )\
54            (${R_IN}/CHM/FILES_LONxLAT/npp_dyn.nc                           ,   npp.nc          )\
55            (${R_IN}/CHM/INCA${RESOL_CHM}/dustincaEC.nc, dustEC.nc)\
56            (${R_IN}/CHM/INCA${RESOL_CHM}/new_phototable.dat                ,   phototable.dat  )\
57            (/ccc/work/cont003/igcmg/igcmg/IGCM/CHM/IPCC_AR6/SFLX/VERS3/144142-L79/ANT/sflx_lmdz_ANT_2000_dyn.nc,   sflx_ANT_LR.nc ),\
58            (/ccc/work/cont003/igcmg/igcmg/IGCM/CHM/IPCC_AR6/SFLX/VERS3/144142-L79/BBG/sflx_lmdz_BBG_2000_dyn.nc,   sflx_BBG_LR.nc ),\
59            (/ccc/work/cont003/igcmg/igcmg/IGCM/CHM/IPCC_AR6/SFLX/VERS3/144142-L79/sflx_lmdz_GHG_dyn.nc ,   sflx_GHG_LR.nc     )\
60            (/ccc/work/cont003/igcmg/igcmg/IGCM/CHM/IPCC_AR6/SFLX/VERS3/144142-L79/sflx_lmdz_NAT_dyn.nc ,   sflx_NAT_LR.nc     )\
61            (/ccc/work/cont003/igcmg/igcmg/IGCM/CHM/IPCC_AR6/SFLX/VERS3/144142-L79/sflx_lmdz_MISC_dyn.nc ,   sflx_MISC_LR.nc    )
62
63           
64[ParametersFiles]
65List=   (${SUBMIT_DIR}/PARAM/inca.def, .),\
66        (${MODIPSL}/modeles/INCA/src/INCA_XML/context_inca.xml, .)   ,\
67    (${MODIPSL}/modeles/INCA/src/INCA_XML/context_input_inca.xml, .)   ,\
68    (${MODIPSL}/modeles/INCA/src/INCA_XML/context_oxydants_inca.xml, .)   ,\
69    (${MODIPSL}/modeles/INCA/src/INCA_XML/context_winds_inca.xml, .)   ,\
70    (${MODIPSL}/modeles/INCA/src/INCA_XML/context_start_AER_inca.xml, context_start_inca.xml)   ,\
71    (${MODIPSL}/modeles/INCA/src/INCA_XML/context_sflx_inca.xml, .)   ,\
72        (${MODIPSL}/modeles/INCA/src/INCA_XML/field_def_inca.xml, .) ,\
73        (${MODIPSL}/modeles/INCA/src/INCA_XML/file_def_inca_restart.xml, file_def_inca_restart.xml ), \
74        (${MODIPSL}/modeles/INCA/src/INCA_XML/file_def_inca_AER.xml, file_def_inca.xml ), \
75        (${MODIPSL}/bin/inca_${ResolAtm}_${OptMode}_${ConfChem}.dat, inca.dat)
76
77[RestartFiles]
78# List restart that have to be saved/restored each loop (file out, saved, and in) :
79List= (reprecipinsoil.dat, precipinsoil.dat, precipinsoil.dat),\
80      (chem_restart.nc, chem_restart.nc, chem_start.nc)
81 
82
83
84[OutputText]
85List=(inca.out, inca.def,context_inca.xml,field_def_inca.xml,file_def_inca.xml, inca_IDxml.out)
86
87[OutputFiles]
88List=           (inca1d_emi.nc         ,      ${R_OUT_CHM_O_D}/${PREFIX}_1D_inca_emi.nc        ,    NONE  ),\
89        (inca1d_species.nc     ,      ${R_OUT_CHM_O_D}/${PREFIX}_1D_inca_species.nc    ,    NONE  ),\
90        (inca1d_dep.nc        ,      ${R_OUT_CHM_O_D}/${PREFIX}_1D_inca_dep.nc       ,    NONE  ),\
91        (inca1d_aero.nc        ,      ${R_OUT_CHM_O_D}/${PREFIX}_1D_inca_aero.nc       ,    NONE ),\
92        (inca1d_forcage.nc     ,      ${R_OUT_CHM_O_D}/${PREFIX}_1D_inca_forcage.nc    ,    NONE),\
93        (inca1d_invariants.nc  ,      ${R_OUT_CHM_O_D}/${PREFIX}_1D_inca_invariants.nc ,    NONE  ),\
94        (inca1d_reacflux.nc    ,      ${R_OUT_CHM_O_D}/${PREFIX}_1D_inca_reacflux.nc   ,    NONE  ),\
95        (inca1d_chem.nc        ,      ${R_OUT_CHM_O_D}/${PREFIX}_1D_inca_chem.nc       ,    NONE  ),\
96        (inca1d_washrate.nc    ,      ${R_OUT_CHM_O_D}/${PREFIX}_1D_inca_washrate.nc   ,    NONE  ),\
97        (inca1mo_emi.nc         ,      ${R_OUT_CHM_O_M}/${PREFIX}_1M_inca_emi.nc        ,    NONE  ),\
98        (inca1mo_species.nc     ,      ${R_OUT_CHM_O_M}/${PREFIX}_1M_inca_species.nc    ,    NONE  ),\
99        (inca1mo_dep.nc        ,      ${R_OUT_CHM_O_M}/${PREFIX}_1M_inca_dep.nc       ,    NONE  ),\
100        (inca1mo_forcage.nc     ,      ${R_OUT_CHM_O_M}/${PREFIX}_1M_inca_forcage.nc    ,    NONE  ),\
101        (inca1mo_invariants.nc  ,      ${R_OUT_CHM_O_M}/${PREFIX}_1M_inca_invariants.nc ,    NONE  ),\
102        (inca1mo_reacflux.nc    ,      ${R_OUT_CHM_O_M}/${PREFIX}_1M_inca_reacflux.nc   ,    NONE  ),\
103        (inca1mo_chem.nc        ,      ${R_OUT_CHM_O_M}/${PREFIX}_1M_inca_chem.nc       ,    NONE  ),\
104        (inca1mo_washrate.nc    ,      ${R_OUT_CHM_O_M}/${PREFIX}_1M_inca_washrate.nc   ,    NONE  ),\
105        (aerosols_from_inca.nc   ,      ${R_OUT_CHM_O_M}/${PREFIX}_1M_aerosols_from_inca.nc,    NONE  )
106
107[Post_1D_inca_aero]
108Patches= ()
109GatherWithInternal = (lon, lat, presnivs, time_centered, time_centered_bounds, time_counter, area)
110TimeSeriesVars2D = (loaddustci, loadno3ci, loadbcai, loadoaai, loadsscs, loadso4cs, loadno3cs, loadssas, loadbcas, loadoaas, loadso4as, loadnh4as, loadno3as, loadssss)
111ChunckJob2D = NONE
112TimeSeriesVars3D = ()
113ChunckJob3D = NONE
114Seasonal=OFF
115
116[Post_1D_inca_species]
117Patches= ()
118GatherWithInternal = (lon, lat, presnivs, time_centered, time_centered_bounds,time_counter, area)
119TimeSeriesVars2D = ()
120ChunckJob2D = NONE
121TimeSeriesVars3D = (mmrso4cs, mmrso4as, mmrdms, mmrssss, mmrbcai, mmrdustci, mmrbcas)
122ChunckJob3D = NONE
123Seasonal=OFF
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