source: CONFIG/UNIFORM/v6/NEMO_v6/EXPERIMENTS/ORCA1_LIM3_PISCES/ia/COMP/opa9.card @ 2663

Last change on this file since 2663 was 2663, checked in by cetlod, 6 years ago

Minors corrections on NEMO_v6 configurations

File size: 9.1 KB
Line 
1[Compatibility]
2libIGCM=1.0
3
4[UserChoices]
5#==============================================================
6#-- Name of directory for COMMON ACCOUNT at idris or CCRT
7#-- available directories are:  v3, v3_1, v3_2
8#-- related to NEMO_tag_revision (nemo_v3, nemo_v3_1, nemo_v3_2_beta)
9#-- NOTE: if you use COMMON ACCOUNT you have to de-comment it
10OPA_version=v3.6_stable
11#==============================================================
12
13#-- if you run interannual is "y", if not (=climatology) is "n"
14Interannual_Run=y
15
16[Interannual]
17#==================================================================================================
18#-- Surface Boundary Condition original files name ( get by the job ) same as the ones in namelist
19#==================================================================================================
20#-- NOTE: MANDATORY STRUCTURE OF FILE NAMES GET BY THE JOB :
21#-- "basename_yyyy.nc"          ( for interannual data )
22#-- "basename.nc"               ( for climatologycal data )
23#-- MANDATORY: NAMES USED IN List_jobsbc VARIABLE MUST BE ONLY THE BASENAME
24
25# default climatology, bulk_clio:
26#List_jobsbc=(flx, taux_1m, tauy_1m)
27# example for interannual, bulk core, forcing CORE2:
28###List_jobsbc=(u_10.15JUNE2009_fill, v_10.15JUNE2009_fill, ncar_rad.15JUNE2009_fill, t_10.15JUNE2009_fill, q_10.15JUNE2009_fill, ncar_precip.15JUNE2009_fill,weights_WOA13d1_2_eorca1_bilinear, weights_3D_WOA13d1_2_eorca1_bilinear, weights_coreII_2_eorca1_bicubic, weights_coreII_2_eorca1_bilinear, weights_reg05_2_eorca1_bilinear,weights_Goutorbe1_2_eorca1_bilinear )   
29
30# example for interannual, bulk core, forcing DRAKKAR:
31#List_jobsbc=(radlw_DFS4-ORCA2, radsw_DFS4-ORCA2, q2_DFS4-ORCA2, t2_DFS4-ORCA2, u10_DFS4-ORCA2, v10_DFS4-ORCA2, snow_DFS4-ORCA2, precip_DFS4-ORCA2)
32List_jobsbc=(u_10_fill, v_10_fill, ncar_rad_fill, t_10_fill, q_10_fill, ncar_precip_fill)
33
34[InitialStateFiles]
35List=   (${SUBMIT_DIR}/PARAM/EMPave_old.dat, EMPave_old.dat)
36
37
38[BoundaryFiles]
39List=   ()
40ListNonDel= (${R_BC}/OCE/${config_UserChoices_TagName}/${opa9_UserChoices_OPA_version}/eORCA_R1_ahmcoef_v1.0.nc, ahmcoef.nc), \
41            (${R_BC}/OCE/${config_UserChoices_TagName}/${opa9_UserChoices_OPA_version}/eORCA_R1_bathy_meter_v2.0.nc, bathy_meter.nc), \
42            (${R_BC}/OCE/${config_UserChoices_TagName}/${opa9_UserChoices_OPA_version}/eORCA_R1_coordinates_v1.0.nc, coordinates.nc), \
43            (${R_BC}/OCE/${config_UserChoices_TagName}/${opa9_UserChoices_OPA_version}/conservative_temperature_WOA13_decav_Reg1L75_clim.nc, .), \
44            (${R_BC}/OCE/${config_UserChoices_TagName}/${opa9_UserChoices_OPA_version}/absolute_salinity_WOA13_decav_Reg1L75_clim.nc, .), \
45            (${R_BC}/OCE/${config_UserChoices_TagName}/${opa9_UserChoices_OPA_version}/sss_absolute_salinity_WOA13_decav_Reg1L75_clim.nc, .), \
46            (${R_BC}/OCE/${config_UserChoices_TagName}/${opa9_UserChoices_OPA_version}/absolute_salinity_WOA13_decav_Reg1L75_clim.nc, data_1m_salinity_nomask.nc), \
47            (${R_BC}/OCE/${config_UserChoices_TagName}/${opa9_UserChoices_OPA_version}/Goutorbe_ghflux.nc, .),\
48            (${R_BC}/OCE/${config_UserChoices_TagName}/${opa9_UserChoices_OPA_version}/eORCA_R1_runoff_clim_v1.0_nomask.nc, .),\
49            (${R_BC}/OCE/${config_UserChoices_TagName}/${opa9_UserChoices_OPA_version}/subbasins.nc, .),\
50            (${R_BC}/OCE/${config_UserChoices_TagName}/${opa9_UserChoices_OPA_version}/merged_ESACCI_BIOMER4V1R1_CHL_REG05.nc, .),\
51            (${R_BC}/OCE/${config_UserChoices_TagName}/${opa9_UserChoices_OPA_version}/eORCA_R1_K1_v1.0.nc, K1rowdrg.nc),\
52            (${R_BC}/OCE/${config_UserChoices_TagName}/${opa9_UserChoices_OPA_version}/eORCA_R1_M2_v1.0.nc, M2rowdrg.nc),\
53            (${R_BC}/OCE/${config_UserChoices_TagName}/${opa9_UserChoices_OPA_version}/eORCA_R1_maskITF_v1.0.nc, mask_itf.nc),  \
54            (${R_BC}/OCE/${config_UserChoices_TagName}/${opa9_UserChoices_OPA_version}/weights_WOA13d1_2_eorca1_bilinear.nc, .), \
55            (${R_BC}/OCE/${config_UserChoices_TagName}/${opa9_UserChoices_OPA_version}/weights_3D_WOA13d1_2_eorca1_bilinear.nc, .), \
56            (${R_BC}/OCE/${config_UserChoices_TagName}/${opa9_UserChoices_OPA_version}/weights_coreII_2_eorca1_bicubic.nc, .), \
57            (${R_BC}/OCE/${config_UserChoices_TagName}/${opa9_UserChoices_OPA_version}/weights_coreII_2_eorca1_bilinear.nc, .), \
58            (${R_BC}/OCE/${config_UserChoices_TagName}/${opa9_UserChoices_OPA_version}/weights_reg05_2_eorca1_bilinear.nc, .), \
59            (${R_BC}/OCE/${config_UserChoices_TagName}/${opa9_UserChoices_OPA_version}/weights_Goutorbe1_2_eorca1_bilinear.nc, .)
60
61
62
63[ParametersFiles]
64List=   (${SUBMIT_DIR}/PARAM/namelist_ref,        namelist_ref),   \
65        (${SUBMIT_DIR}/PARAM/namelist_${RESOL_OCE}${EXPTYPE}_cfg,  namelist_cfg),   \
66        (${SUBMIT_DIR}/PARAM/domain_def.xml,      domain_def.xml), \
67        (${SUBMIT_DIR}/PARAM/field_def.xml,       field_def.xml),  \
68        (${SUBMIT_DIR}/PARAM/iodef_lim3.xml,      iodef.xml)
69
70
71[RestartFiles]
72List=   (${config_UserChoices_JobName}_${NEMO_END}_restart.nc,  restart.nc, restart.nc), \
73        (EMPave.dat,  EMPave.dat, EMPave_old.dat)
74
75[OutputText]
76List=   (ocean.output, solver.stat, STRAIT.dat, namelist_ref, namelist_cfg )
77
78[OutputFiles]
79List=   \
80        (${PREFIX_WF1}_grid_T.nc,${R_OUT_OCE_WF1}/${PREFIX}_${WF1}_grid_T.nc, Post_1D_grid_T ),\
81        (${PREFIX_WF1}_scalar.nc,${R_OUT_OCE_WF1}/${PREFIX}_${WF1}_scalar.nc, Post_1D_scalar ),\
82        (${PREFIX_WF1}_SBC_scalar.nc,${R_OUT_OCE_WF1}/${PREFIX}_${WF1}_SBC_scalar.nc,Post_1D_scalar  ),\
83        (${PREFIX_WF2}_SBC.nc,${R_OUT_OCE_WF2}/${PREFIX}_${WF2}_SBC.nc, NONE),\
84        (${PREFIX_WF2}_grid_T.nc,${R_OUT_OCE_WF2}/${PREFIX}_${WF2}_grid_T.nc, NONE ),\
85        (${PREFIX_WF2}_grid_U.nc,${R_OUT_OCE_WF2}/${PREFIX}_${WF2}_grid_U.nc, NONE ),\
86        (${PREFIX_WF2}_grid_V.nc,${R_OUT_OCE_WF2}/${PREFIX}_${WF2}_grid_V.nc, NONE ),\
87        (${PREFIX_WF2}_grid_W.nc,${R_OUT_OCE_WF2}/${PREFIX}_${WF2}_grid_W.nc, NONE ),\
88        (${PREFIX_WF3}_grid_T.nc,${R_OUT_OCE_WF3}/${PREFIX}_${WF3}_grid_T.nc, Post_1M_grid_T ),\
89        (${PREFIX_WF3}_grid_U.nc,${R_OUT_OCE_WF3}/${PREFIX}_${WF3}_grid_U.nc, Post_1M_grid_U ),\
90        (${PREFIX_WF3}_grid_V.nc,${R_OUT_OCE_WF3}/${PREFIX}_${WF3}_grid_V.nc, Post_1M_grid_V ),\
91        (${PREFIX_WF3}_grid_W.nc,${R_OUT_OCE_WF3}/${PREFIX}_${WF3}_grid_W.nc, Post_1M_grid_W ),\
92        (${PREFIX_WF4}_grid_T.nc,${R_OUT_OCE_WF4}/${PREFIX}_${WF4}_grid_T.nc, Post_1Y_grid_T ),\
93        (${PREFIX_WF4}_grid_U.nc,${R_OUT_OCE_WF4}/${PREFIX}_${WF4}_grid_U.nc, Post_1Y_grid_U ),\
94        (${PREFIX_WF4}_grid_V.nc,${R_OUT_OCE_WF4}/${PREFIX}_${WF4}_grid_V.nc, Post_1Y_grid_V ),\
95        (${PREFIX_WF4}_grid_W.nc,${R_OUT_OCE_WF4}/${PREFIX}_${WF4}_grid_W.nc, Post_1Y_grid_W ),\
96        (mesh_mask.nc     ,               ${R_OUT_OCE_O}/${config_UserChoices_JobName}_mesh_mask.nc, NONE),\
97        (output.abort.nc  ,               ${R_OUT_OCE_D}/${PREFIX}_output.abort.nc,                  NONE),\
98        (output.init.nc   ,               ${R_OUT_OCE_O_I}/${config_UserChoices_JobName}_${PeriodDateBegin}_output.init.nc, NONE)
99
100# Daily analysis
101
102[Post_1D_scalar]
103Patches = ()
104GatherWithInternal = (time_counter)
105TimeSeriesVars2D = (masstot, voltot, sshtot, sshsteric, sshthster, temptot, saltot)
106ChunckJob2D = NONE
107TimeSeriesVars3D = ()
108ChunckJob3D = NONE
109Seasonal=OFF
110
111[Post_1D_grid_T]
112Patches = ()
113GatherWithInternal = (nav_lon, nav_lat, time_counter)
114TimeSeriesVars2D = (tos, sos, zos, mldr10_1dcy, sstdcy)
115ChunckJob2D = NONE
116TimeSeriesVars3D = ()
117ChunckJob3D = NONE
118Seasonal=OFF
119
120
121# Monthly analysis
122
123[Post_1M_grid_T]
124Patches = ()
125GatherWithInternal = (nav_lon, nav_lat, time_counter)
126TimeSeriesVars2D = (friver, hfcorr, mldkz5, mldr10_1, nshfls, omlmax, pbo, rsntds, sos, tos, wfo, wfcorr, zos, zossq)
127ChunckJob2D = NONE
128TimeSeriesVars3D = (rhopoto, rsds, so, thetao)
129ChunckJob3D = 10Y
130Seasonal=OFF
131
132[Post_1M_grid_U]
133Patches = ()
134GatherWithInternal = (nav_lon, nav_lat, time_counter)
135TimeSeriesVars2D = (uos,tauuo)
136ChunckJob2D = NONE
137TimeSeriesVars3D = (uo)
138ChunckJob3D = 10Y
139Seasonal=OFF
140
141[Post_1M_grid_V]
142Patches = ()
143GatherWithInternal = (nav_lon, nav_lat, time_counter)
144TimeSeriesVars2D = (vos, tauvo)
145ChunckJob2D = NONE
146TimeSeriesVars3D = (vo)
147ChunckJob3D = 10Y
148Seasonal=OFF
149
150[Post_1M_grid_W]
151Patches = ()
152GatherWithInternal = (nav_lon, nav_lat, time_counter)
153TimeSeriesVars2D = ()
154ChunckJob2D = NONE
155TimeSeriesVars3D = (difvho, wo)
156ChunckJob3D = 10Y
157Seasonal=OFF
158
159
160## Yearly analysis
161
162[Post_1Y_grid_T]
163Patches = ()
164GatherWithInternal = (nav_lon, nav_lat, time_counter)
165TimeSeriesVars2D = (friver, nshfls, omlmax, rsntds, soprecip, sos, sosflxdo, sowindsp, tos, tohfls, wfo, wfcorr, zos, zossq)
166ChunckJob2D = NONE
167TimeSeriesVars3D = (rsds, so, thetao)
168ChunckJob3D = 10Y
169Seasonal=OFF
170
171
172[Post_1Y_grid_U]
173Patches = ()
174GatherWithInternal = (nav_lon, nav_lat, time_counter)
175TimeSeriesVars2D = (tauuo, uos)
176ChunckJob2D = NONE
177TimeSeriesVars3D = (uo, uocetr_eff)
178ChunckJob3D = 10Y
179Seasonal=OFF
180
181[Post_1Y_grid_V]
182Patches = ()
183GatherWithInternal = (nav_lon, nav_lat, time_counter)
184TimeSeriesVars2D = (tauvo, vos)
185ChunckJob2D = NONE
186TimeSeriesVars3D = (vo, vocetr_eff)
187ChunckJob3D = 10Y
188Seasonal=OFF
189
190[Post_1Y_grid_W]
191Patches = ()
192GatherWithInternal = (nav_lon, nav_lat, time_counter)
193TimeSeriesVars2D = ()
194ChunckJob2D = NONE
195TimeSeriesVars3D = (difvho, wo, wocetr_eff)
196ChunckJob3D = 10Y
197Seasonal=OFF
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