source: CONFIG/IPSLCM/IPSLCM5-2/EXPALL/CARD/Chistorical/COMP/lmdz.card @ 1550

Last change on this file since 1550 was 1550, checked in by jgipsl, 13 years ago
  • Added choice of config.def file : set ConfType?=preind/actuel/annuel in lmdz.card. The file config.def_$ConfType? will be used. The differences are :

preind : aer_type = preind, solar and GHG pre-industrial values, pmagic=0 (as piControl, CpiControl?)
actuel : aer_type = actuel, solar and GHG present values, pmagic=0.008 (as EXP00)
annuel : aer_type = annuel, solar and GHG must be updated with annual values from file, pmagic=0.008 (as historical,Chistorical)

  • For pisces, take same value for CO2 as for LMDZ except for CarbonCycle?=y (same treatment as before).

NB! I suppose that LMDZ ATM_Uptdate always is done before pisces MBG_Update.

  • Added choice of output.def file : set OutLev?=low(as EXP00)/medium(as piControl)/high(as histrical) in lmdz.card. The output are now the same as original IPSLCM5A for each experience.

=> In EXPALL, all 5 experiences correspond to original IPSLCM5A experiences, including possibility of new physics in LMDZ as IPSLCM5B and carbon cycle as IPSLCM5C. More testing is needed.

File size: 11.0 KB
Line 
1[Compatibility]
2libIGCM=1.0
3
4[UserChoices]
5# Physics package to use :
6# LMDZ_Physics=AP for standard/old physics(defalut), can be used with LMDZ4_AR5 or LMDZ5/trunk sources
7# LMDZ_Physics=NPv3.0 for new physics, to be used with LMDZ5/trunk revision 1554 or later
8LMDZ_Physics=AP
9
10# Set ConfType to choose parameters for aerosols, solar and green house gazes.
11# The parameter file PARAM/config.def_$ConfType will be used.
12# ConfType=preind/actuel/annuel
13ConfType=annuel
14
15ByPass_hgardfou_teta=n
16ByPass_hgardfou_mats=n
17LMDZ_NbPeriod_adjust=3
18# LMDZ_NbPeriod_adjust=0
19# To force usage of this Bands file, put LMDZ_NbPeriod_adjust=0 and replace XXXXXXX by Restart experiment
20# LMDZ_Bands_file_name=${ARCHIVE}/IGCM_OUT/IPSLCM5A/DEVT/pdControl/XXXXXX/ATM/Debug/pdControl_XXXXXXX_Bands_96x95x19_3prc.dat_3
21
22# Set OutLevel to choose the level of output files from LMDZ. The file PARAM/output.def_$OutLevel will be used.
23# OutLevel=low/medium/high
24OutLevel=high
25
26# To force higher writing level for aerosol.
27# LMDZ_Freq_aero : frequency for writing (in PeriodLength : 10Years = 120) ,
28# LMDZ_Length_aero : length of writing (in PeriodLength : 1Year = 12).
29# To cancel this option put LMDZ_Length_aero=0
30LMDZ_Freq_aero=120
31LMDZ_Length_aero=12
32
33# Set COSP activation and Outputs frequency (monthly, daily, HF) = y/n
34LMDZ_COSP_OK=y
35LMDZ_COSP_monthly=y
36LMDZ_COSP_daily=n
37LMDZ_COSP_hf=n
38
39# LMDZ_COSP_daily1979=y : activate COSP daily output from 1979 and after
40LMDZ_COSP_daily1979=y
41 
42# Set NMC Outputs frequency (monthly, daily, HF) = y/n
43LMDZ_NMC_monthly=y
44LMDZ_NMC_daily=y
45LMDZ_NMC_hf=y
46
47# CARBON_CYCLE=NONE/control/historical
48CARBON_CYCLE=historical
49co2_init=284.725
50
51[InitialStateFiles]
52List=   (${R_INIT}/ATM/${config_UserChoices_TagName}/Albedo.nc, .), \
53        (${R_INIT}/ATM/${config_UserChoices_TagName}/amipbc_sic_1x1_clim.nc, amipbc_sic_1x1.nc), \
54        (${R_INIT}/ATM/${config_UserChoices_TagName}/amipbc_sst_1x1_clim.nc, amipbc_sst_1x1.nc), \
55        (${R_INIT}/ATM/${config_UserChoices_TagName}/ECDYN.nc.20020101,      ECDYN.nc), \
56        (${R_INIT}/ATM/${config_UserChoices_TagName}/ECPHY.nc,      .), \
57        (${R_INIT}/ATM/${config_UserChoices_TagName}/Relief.nc,     .), \
58        (${R_INIT}/ATM/${config_UserChoices_TagName}/Rugos.nc,      .), \
59        (${R_INIT}/ATM/${config_UserChoices_TagName}/landiceref.nc, .), \
60        (${R_INIT}/ATM/${config_UserChoices_TagName}/${opa9_UserChoices_ORCA_version}x${RESOL_ATM}/o2a.nc, .)
61
62[BoundaryFiles]
63List=       ()
64ListNonDel= (${R_BC}/ATM/${config_UserChoices_TagName}/IPCC_AR5/HISTORIQUE/SOLARANDVOLCANOES_1610_2008.txt, SOLARANDVOLCANOES.txt),\
65            (${R_BC}/ATM/${config_UserChoices_TagName}/IPCC_AR5/HISTORIQUE/CH4_1765_2005.txt, CH4.txt),\
66            (${R_BC}/ATM/${config_UserChoices_TagName}/IPCC_AR5/HISTORIQUE/N2O_1765_2005.txt, N2O.txt),\
67            (${R_BC}/ATM/${config_UserChoices_TagName}/IPCC_AR5/HISTORIQUE/CFC11_1765_2005.txt, CFC11.txt),\
68            (${R_BC}/ATM/${config_UserChoices_TagName}/IPCC_AR5/HISTORIQUE/CFC12_1765_2005.txt, CFC12.txt),\
69            (${R_BC}/ATM/${config_UserChoices_TagName}/${RESOL_ATM}/AR5/HISTORIQUE/aerosols_11YearsClim_1855_v3.nc, aerosols.nat.nc)
70
71[SmoothFiles]
72# With AR5 aerosols (including ASSO4M(=SO4), CSSO4M, AIBCM, ASBCM, AIPOMM, ASPOMM, ASSSM, CSSSM, SSSSM, CIDUSTM)
73# With AR5 ozone(tropo + strato from LMDZOR-INCA-REPROBUS simulations)
74List=   (${R_BC}/ATM/${config_UserChoices_TagName}/${RESOL_ATM}/AR5/HISTORIQUE/aerosols_11YearsClim_${year}_v3.nc, aerosols${year}.nc, 1:12:), \
75        (${R_BC}/ATM/${config_UserChoices_TagName}/${RESOL_ATM}/AR5/HISTORIQUE/climoz_LMDZ_${year}_v2.nc,          climoz_LMDZ.nc,     1:12:)
76
77[ParametersFiles]
78List=   (${SUBMIT_DIR}/PARAM/physiq.def_L${RESOL_ATM_Z}_${LMDZ_Physics}, physiq.def), \
79        (${SUBMIT_DIR}/PARAM/gcm.def_${RESOL_ATM_3D},    gcm.def),    \
80        (${SUBMIT_DIR}/PARAM/cosp_input_nl.txt,                .),    \
81        (${SUBMIT_DIR}/PARAM/cosp_output_nl.txt,               .),    \
82        (${SUBMIT_DIR}/PARAM/output.def_${OutLevel},  output.def),    \
83        (${SUBMIT_DIR}/PARAM/config.def_${ConfType},  config.def),    \
84        (${SUBMIT_DIR}/PARAM/run.def, .), \
85        (${SUBMIT_DIR}/PARAM/traceur.def, .)
86
87[RestartFiles]
88List=   (restart.nc, restart.nc, start.nc), \
89        (restartphy.nc, restartphy.nc,  startphy.nc)
90
91[OutputText]
92List=   ()
93#List=   (lmdz.x.prt)
94
95[OutputFiles]
96List=   (histmth.nc,       ${R_OUT_ATM_O_M}/${PREFIX}_1M_histmth.nc,       Post_1M_histmth),       \
97        (histmthCOSP.nc,   ${R_OUT_ATM_O_M}/${PREFIX}_1M_histmthCOSP.nc,   Post_1M_histmthCOSP),   \
98        (histmthNMC.nc,    ${R_OUT_ATM_O_M}/${PREFIX}_1M_histmthNMC.nc,    Post_1M_histmthNMC),    \
99        (dynzon.nc,        ${R_OUT_ATM_O_M}/${PREFIX}_1M_dynzon.nc,        Post_1M_dynzon),        \
100        (paramLMDZ_phy.nc, ${R_OUT_ATM_O_M}/${PREFIX}_1M_paramLMDZ_phy.nc, Post_1M_paramLMDZ_phy), \
101        (histday.nc,       ${R_OUT_ATM_O_D}/${PREFIX}_1D_histday.nc,       Post_1D_histday),       \
102        (histdayCOSP.nc,   ${R_OUT_ATM_O_D}/${PREFIX}_1D_histdayCOSP.nc,   Post_1D_histdayCOSP),   \
103        (histdayNMC.nc,    ${R_OUT_ATM_O_D}/${PREFIX}_1D_histdayNMC.nc,    Post_1D_histdayNMC),    \
104        (histhf.nc,        ${R_OUT_ATM_O_H}/${PREFIX}_HF_histhf.nc,        Post_HF_histhf),        \
105        (histhfCOSP.nc,    ${R_OUT_ATM_O_H}/${PREFIX}_HF_histhfCOSP.nc,    Post_HF_histhfCOSP),    \
106        (histhfNMC.nc,     ${R_OUT_ATM_O_H}/${PREFIX}_HF_histhfNMC.nc,     Post_HF_histhfNMC),     \
107        (histhf3h.nc,      ${R_OUT_ATM_O_H}/${PREFIX}_3H_histhf3h.nc,      Post_3H_histhf3h),      \
108        (histhf3hm.nc,     ${R_OUT_ATM_O_H}/${PREFIX}_3H_histhf3hm.nc,     Post_3H_histhf3hm)
109
110[Post_1M_histmth]
111Patches= ()
112GatherWithInternal = (lon, lat, presnivs, time_counter, time_counter_bnds, aire)
113TimeSeriesVars2D = (bils, cldh, cldl, cldm, cldq, cldt, evap, flat, ftime_con, iwp, lwp, LWdnSFC, LWdnSFCclr, LWupSFCclr, LWdn200, LWdn200clr, LWup200, LWup200clr, precip, prw, pluc, psol, q2m, rh2m, sens, sicf, slp, snow, soll0, soll, sols0, sols, SWdnSFC, SWupSFC, SWup200, SWdnTOA, SWupTOA, SWdn200, SWdnSFCclr, SWupSFCclr, SWupTOAclr, t2m, t2m_max, t2m_min, taux, taux_ter, taux_sic, taux_lic, taux_oce, tauy, tauy_ter, tauy_sic, tauy_lic, tauy_oce, lat_ter, lat_sic, lat_lic, lat_oce, nettop, pbase, ptop, topl0, topl, tops0, tops, topswad, topswai, tsol, tsol_ter, tsol_lic, tsol_oce, tsol_sic , u10m, u500, v10m, v500, w500, pourc_ter, pourc_oce, pourc_sic, pourc_lic, wind10m, od550aer, od550lt1aer, absvisaer, loadoa, loadbc, loadso4, loaddust, loadss, sconcoa, sconcbc, sconcso4, sconcdust, sconcss, reffclwtop, cldncl, swtoaas_ant, swtoacs_ant, swtoacf_ant, swsrfas_ant, swsrfcs_ant, swsrfcf_ant, swtoaas_nat, swtoacs_nat, swtoacf_nat, swsrfas_nat, swsrfcs_nat, swsrfcf_nat, solswai, swtoacf_zero, swsrfcf_zero)
114ChunckJob2D = NONE
115TimeSeriesVars3D = (upwd, lwcon, iwcon, lcc3dcon, lcc3dstra, temp, theta, ovap, ovapinit, geop, vitu, vitv, vitw, pres, rneb, rnebcon, rhum, mc, paprs, scdnc, ec550aer, concoa, concbc, concso4, concss, concdust, reffclws, reffclwc, Aga, rlu, rsu, rld, rsd, rlucs, rsucs, rldcs, rsdcs, tnt, dtdyn, dtphy, dtlschr, tntr, tntc, tntscpbl, tnhus, dqdyn, tnhusc, dqvdf, tnhusscpbl, dqphy, evu, kz, mcd)
116ChunckJob3D = 100Y
117Seasonal=ON
118
119[Post_1M_histmthCOSP]
120Patches = ()
121GatherWithInternal = (lon, lat, pressure2, height, sza, time_counter, time_counter_bnds)
122TimeSeriesVars2D = (cllcalipso, clmcalipso, clhcalipso, cltcalipso, tclisccp, albisccp, ctpisccp)
123ChunckJob2D = NONE
124TimeSeriesVars3D = (clcalipso, clisccp2_c01, clisccp2_c02, clisccp2_c03, clisccp2_c04, clisccp2_c05, clisccp2_c06, clisccp2_c07, parasol_refl)
125ChunckJob3D = 100Y
126Seasonal=OFF
127
128[Post_1M_histmthNMC]
129Patches = ()
130GatherWithInternal = (lon, lat, plev, time_counter, time_counter_bnds)
131TimeSeriesVars2D = ()
132ChunckJob2D = NONE
133TimeSeriesVars3D = (ta, zg, hus, hur, ua, va, wap, psbg, uv, vq, vT, wq, vphi, wT, uxu, vxv, TxT, tro3, tro3_daylight)
134ChunckJob3D = 100Y
135Seasonal=ON
136
137[Post_1M_dynzon]
138Patches = ()
139GatherWithInternal = (lon, lat, presnivs, time_counter, time_counter_bnds)
140TimeSeriesVars2D = ()
141ChunckJob2D = NONE
142TimeSeriesVars3D = ()
143ChunckJob3D = NONE
144Seasonal=OFF
145
146[Post_1M_paramLMDZ_phy]
147Patches=()
148GatherWithInternal = (lon, lat, time_counter, time_counter_bnds)
149TimeSeriesVars2D =(R_ecc,  R_peri, R_incl, solaire, co2_ppm, CH4_ppb, N2O_ppb, CFC11_ppt, CFC12_ppt)
150ChunckJob2D = NONE
151TimeSeriesVars3D = ()
152ChunckJob3D = NONE
153Seasonal=OFF
154
155[Post_1D_histday]
156Patches= ()
157GatherWithInternal = (lon, lat, presnivs, time_counter, time_counter_bnds)
158TimeSeriesVars2D = (bils, cldh, cldl, cldm, cldq, cldt, evap, flat, iwp, lwp, pbase, ptop, precip, pluc, plul, prw, psol, rh2m, rh2m_min, rh2m_max, q2m, sens, sicf, slp, soll, sols, snow, LWdnSFC, LWdnSFCclr, SWdnSFC, SWdnSFCclr, SWdnTOA, LWupSFCclr, SWupSFC, SWupSFCclr, SWupTOA, SWupTOAclr, t2m, t2m_max, t2m_min, topl, topl0, tops, tsol, t700, u10m, v10m, wind10m, wind10max, w500)
159ChunckJob2D = 50Y
160TimeSeriesVars3D = (lwcon, iwcon, mc, rhum, rneb, temp, theta, ovap, geop, vitu, vitv, vitw, pres, paprs)
161ChunckJob3D = 10Y
162Seasonal=OFF
163
164[Post_1D_histdayCOSP]
165Patches = ()
166GatherWithInternal = (lon, lat, pressure2, height, sza, time_counter, time_counter_bnds)
167TimeSeriesVars2D = (cllcalipso, clmcalipso, clhcalipso, cltcalipso, tclisccp, albisccp, ctpisccp)
168ChunckJob2D = 200Y
169TimeSeriesVars3D = (clcalipso, clisccp2_c01, clisccp2_c02, clisccp2_c03, clisccp2_c04, clisccp2_c05, clisccp2_c06, clisccp2_c07, parasol_refl)
170ChunckJob3D = 10Y
171Seasonal=OFF
172
173[Post_1D_histdayNMC]
174Patches = ()
175GatherWithInternal = (lon, lat, plev, time_counter, time_counter_bnds)
176TimeSeriesVars2D = ()
177ChunckJob2D = NONE
178TimeSeriesVars3D = (ta, zg, hus, hur, ua, va, wap)
179ChunckJob3D = 10Y
180Seasonal=OFF
181
182[Post_HF_histhf]
183Patches= ()
184GatherWithInternal = (lon, lat, presnivs, time_counter, time_counter_bnds)
185TimeSeriesVars2D = (cldt, psol, q2m, slp, SWnetOR, SWdownOR, LWdownOR, precip, pluc, plul, t2m, tsol, u10m, v10m)
186ChunckJob2D = 50Y
187TimeSeriesVars3D = (temp, theta, ovap, vitu, vitv)
188ChunckJob3D = 10Y
189Seasonal=OFF
190
191[Post_HF_histhfCOSP]
192Patches = ()
193GatherWithInternal = (lon, lat, height, sza, time_counter, time_counter_bnds)
194TimeSeriesVars2D = (cllcalipso, clmcalipso, clhcalipso, cltcalipso)
195ChunckJob2D = OFF
196TimeSeriesVars3D = (clcalipso, parasol_refl, cfad_lidarsr532_c01, cfad_lidarsr532_c02, cfad_lidarsr532_c03, cfad_lidarsr532_c04, cfad_lidarsr532_c05, cfad_lidarsr532_c06, cfad_lidarsr532_c07, cfad_lidarsr532_c08, cfad_lidarsr532_c09, cfad_lidarsr532_c10, cfad_lidarsr532_c11, cfad_lidarsr532_c12, cfad_lidarsr532_c13, cfad_lidarsr532_c14, cfad_lidarsr532_c15)
197ChunckJob3D = OFF
198Seasonal=OFF
199
200[Post_HF_histhfNMC]
201Patches = ()
202GatherWithInternal = (lon, lat, plev, time_counter, time_counter_bnds)
203TimeSeriesVars2D = ()
204ChunckJob2D = NONE
205TimeSeriesVars3D = (ta, zg, hus, hur, ua, va, wap)
206ChunckJob3D = 10Y
207Seasonal=OFF
208
209[Post_3H_histhf3h]
210Patches= ()
211GatherWithInternal = (lon, lat, presnivs, time_counter)
212TimeSeriesVars2D = (phis, tsol, t2m, q2m, u10m, v10m, psol, topl, bils, t100, u100, v100, w100, t50, u50, v50, w50, t10, u10, v10, w10)
213ChunckJob2D = 50Y
214TimeSeriesVars3D = ()
215ChunckJob3D = OFF
216Seasonal=OFF
217
218[Post_3H_histhf3hm]
219Patches= ()
220GatherWithInternal = (lon, lat, presnivs, time_counter, time_counter_bnds)
221TimeSeriesVars2D = (precip, flat, sens, LWdnSFC, LWupSFC, SWdnSFC, SWupSFC, pluc, snow, LWdnSFCclr, SWdnSFCclr, LWupSFCclr, SWupSFCclr, cldt)
222ChunckJob2D = 50Y
223TimeSeriesVars3D = ()
224ChunckJob3D = OFF
225Seasonal=OFF
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