source: CONFIG/UNIFORM/v5/IPSLCM5CHT_v5/EXPERIMENTS/IPSLCM5CHT/historical/POST/monitoring01_lmdz.cfg @ 2111

Last change on this file since 2111 was 2111, checked in by acosce, 8 years ago

Add historical simulation for IPSLCM5CHT config

File size: 8.7 KB
Line 
1#**************************************************************
2# Author: Patrick Brockmann
3# Contact: Patrick.Brockmann@cea.fr
4# $Date: 2009/05/14 15:09:35 $
5# $Name: ATLAS_608_1_5 $
6# $Revision: 1.1.1.2 $
7# History:
8# Modification:
9#**************************************************************
10
11##################################################################################################################
12#-----------------------------------------------------------------------------------------------------------------
13#  field | files patterns | files additionnal | operations | title | units | calcul of area
14#-----------------------------------------------------------------------------------------------------------------
15#
16#   field = name of the field to monitore
17#   files patterns = pattern of the files used to monitore the field (must be discriminant)
18#   files additionnal = additionnal files accessible by $FER_DATA
19#   operations = operations to calculate the field
20#   title = variable title
21#   units = variable units
22#   calcul of area = expression to use for the weight average
23#
24# Notes:
25#   - Comment lines begin by # character.
26#   - Separator between fields is | character.
27#   - Operations must use the ferret syntax, if several files are used precise with the syntax d=x to refer to the x dataset.
28#     They must be enclosed by parenthesis if more than one variable is used.
29#   - files patterns,files additionnal,operations,title,units must be enclosed with character ".
30#     Use "" if empty.
31#   - Fields will be presented through an html page with thumbnails global, north, south, land, ocean.
32#     Use a field name with one of these pattern to display it under the corresponding thumbnail.
33#
34##################################################################################################################
35
36color=AECDFF
37smooth=12
38#-----------------------------------------------------------------------------------------------------------------
39#  field | files patterns | files additionnal | operations | title | units | calcul of area
40#-----------------------------------------------------------------------------------------------------------------
41 bils_global    | "bils"                       | "" | "bils[d=1]"               | "Surf. total heat flux (GLOBAL)"         | "W/m^2"     | "aire[d=1]"   
42 nettop_global  | "tops topl"                  | "" | "(tops[d=1]-topl[d=2])"   | "TOA. total heat flux (GLOBAL)"          | "W/m^2"     | "aire[d=1]"
43 nettop0_global | "tops0 topl0"                | "" | "(tops0[d=1]-topl0[d=2])" | "TOA. total heat flux ClearSky (GLOBAL)" | "W/m^2"     | "aire[d=1]"
44 t2m_global     | "t2m"                        | "" | "(t2m[d=1]-273.15)"       | "Temperature at 2 meters (GLOBAL)"       | "degrees C" | "aire[d=1]"
45 t2m_land       | "t2m pourc_ter pourc_lic"    | "" | "(t2m[d=1]-273.15)"       | "Temperature at 2 meters (LAND)"         | "degrees C" | "aire[d=1]*((pourc_ter[d=2]+pourc_lic[d=3])/100.)"
46 tsol_global    | "tsol"                       | "" | "(tsol[d=1]-273.15)"      | "Surface Temperature (GLOBAL)"           | "degrees C" | "aire[d=1]"
47 tsol_land      | "tsol pourc_ter pourc_lic"   | "" | "(tsol[d=1]-273.15)"      | "Surface Temperature (LAND)"             | "degrees C" | "aire[d=1]*((pourc_ter[d=2]+pourc_lic[d=3])/100.)"
48 precip_global  | "precip"                     | "" | "precip[d=1]*86400"       | "Precipitation Totale liq+sol (GLOBAL)"  | "mm/d"      | "aire[d=1]"
49 precip_land    | "precip pourc_ter pourc_lic" | "" | "precip[d=1]*86400"       | "Precipitation Totale liq+sol (LAND)"    | "mm/d"      | "aire[d=1]*((pourc_ter[d=2]+pourc_lic[d=3])/100.)"
50 evap_global    | "evap"                       | "" | "evap[d=1]"               | "Evaporation (GLOBAL)"                   | "kg/(s*m2)" | "aire[d=1]"
51 evap_land      | "evap pourc_ter pourc_lic"   | "" | "evap[d=1]"               | "Evaporation (LAND)"                     | "kg/(s*m2)" | "aire[d=1]*((pourc_ter[d=2]+pourc_lic[d=3])/100.)"
52 flat_global    | "lat_ter pourc_ter lat_sic pourc_sic lat_lic pourc_lic lat_oce pourc_oce" | "" | "(lat_ter[d=1]*pourc_ter[d=2]+lat_sic[d=3]*pourc_sic[d=4]+lat_lic[d=5]*pourc_lic[d=6]+lat_oce[d=7]*pourc_oce[d=8])" | "Latent Heat Flux (GLOBAL)"      | "W/m^2" | "aire[d=1]"
53 od550aer_forcing       | "od550aer"              | "" | "od550aer[d=1]"           | "Total aerosol optical depth at 550nm"   | "-"         | "aire[d=1]"   
54 od550lt1aer_forcing    | "od550lt1aer"           | "" | "od550lt1aer[d=1]"        | "Fine mode optical depth"                | "-"         | "aire[d=1]"   
55 absvisaer_forcing      | "absvisaer"             | "" | "absvisaer[d=1]"          | "Absorption aerosol visible optical depth" | "-"       | "aire[d=1]"   
56 swtoaas_ant_forcing    | "swtoaas_ant"           | "" | "swtoaas_ant[d=1]"        | "Anthropogenic aerosol radiative forcing all-sky at TOA"         | "W/m^2"   | "aire[d=1]"   
57 swtoacs_ant_forcing    | "swtoacs_ant"           | "" | "swtoacs_ant[d=1]"        | "Anthropogenic aerosol radiative forcing clear-sky at TOA"       | "W/m^2"   | "aire[d=1]"
58 swtoacf_ant_forcing    | "swtoacf_ant"           | "" | "swtoacf_ant[d=1]"        | "Anthropogenic aerosol impact on cloud radiative forcing at TOA" | "W/m^2"   | "aire[d=1]"
59 swsrfas_ant_forcing    | "swsrfas_ant"           | "" | "swsrfas_ant[d=1]"        | "Anthropogenic aerosol radiative forcing all-sky at SRF"         | "W/m^2"   | "aire[d=1]" 
60 swsrfcs_ant_forcing    | "swsrfcs_ant"           | "" | "swsrfcs_ant[d=1]"        | "Anthropogenic aerosol radiative forcing clear-sky at SRF"       | "W/m^2"   | "aire[d=1]"
61 swsrfcf_ant_forcing    | "swsrfcf_ant"           | "" | "swsrfcf_ant[d=1]"        | "Anthropogenic aerosol impact on cloud radiative forcing at SRF" | "W/m^2"   | "aire[d=1]"
62 swtoaas_nat_forcing    | "swtoaas_nat"           | "" | "swtoaas_nat[d=1]"        | "Natural aerosol radiative forcing all-sky at TOA"               | "W/m^2"   | "aire[d=1]"   
63 swtoacs_nat_forcing    | "swtoacs_nat"           | "" | "swtoacs_nat[d=1]"        | "Natural aerosol radiative forcing clear-sky at TOA"             | "W/m^2"   | "aire[d=1]"
64 swtoacf_nat_forcing    | "swtoacf_nat"           | "" | "swtoacf_nat[d=1]"        | "Natural aerosol impact on cloud radiative forcing at TOA"       | "W/m^2"   | "aire[d=1]"
65 swsrfas_nat_forcing    | "swsrfas_nat"           | "" | "swsrfas_nat[d=1]"        | "Natural aerosol radiative forcing all-sky at SRF"               | "W/m^2"   | "aire[d=1]" 
66 swsrfcs_nat_forcing    | "swsrfcs_nat"           | "" | "swsrfcs_nat[d=1]"        | "Natural aerosol radiative forcing clear-sky at SRF"             | "W/m^2"   | "aire[d=1]"
67 swsrfcf_nat_forcing    | "swsrfcf_nat"           | "" | "swsrfcf_nat[d=1]"        | "Natural aerosol impact on cloud radiative forcing at SRF"       | "W/m^2"   | "aire[d=1]"
68 topswai_forcing        | "topswai"               | "" | "topswai[d=1]"            | "AIE at TOA"                             | "W/m^2" | "aire[d=1]"
69 solswai_forcing        | "solswai"               | "" | "solswai[d=1]"            | "AIE at SRF"                             | "W/m^2" | "aire[d=1]"
70 swtoacf_zero_forcing   | "swtoacf_zero"          | "" | "swtoacf_zero[d=1]"       | "Cloud radiative forcing (allsky-clearsky fluxes) at TOA" | "W/m^2" | "aire[d=1]"
71 swsrfcf_zero_forcing   | "swsrfcf_zero"          | "" | "swsrfcf_zero[d=1]"       | "Cloud radiative forcing (allsky-clearsky fluxes) at SRF" | "W/m^2" | "aire[d=1]"
72 tro3_strato_forcing    | "tro3"                  | "" | "tro3[x=@din,y=@din,k=1:7@sum,d=1]"  | "ozone strato k=1:7@sum" | "Mole" | ""
73 tro3_tropo_forcing     | "tro3"                  | "" | "tro3[x=@din,y=@din,k=8:17@sum,d=1]" | "ozone trop k=8:17@sum"  | "Mole" | ""
74 solaire_forcing        | "solaire"               | "" | "solaire[d=1]"   | "Constante solaire"      | "W/m^2" | "1"
75 co2_ppm_forcing        | "co2_ppm"               | "" | "co2_ppm[d=1]"   | "Concentration du CO2"   | "ppm"   | "1"
76 CH4_ppb_forcing        | "CH4_ppb"               | "" | "CH4_ppb[d=1]"   | "Concentration du CH4"   | "ppb"   | "1"
77 N2O_ppb_forcing        | "N2O_ppb"               | "" | "N2O_ppb[d=1]"   | "Concentration du N2O"   | "ppb"   | "1"
78 CFC11_ppt_forcing      | "CFC11_ppt"             | "" | "CFC11_ppt[d=1]" | "Concentration du CFC11" | "ppt"   | "1"
79 CFC12_ppt_forcing      | "CFC12_ppt"             | "" | "CFC12_ppt[d=1]" | "Concentration du CFC12" | "ppt"   | "1"
80## R_ecc_forcing      | "R_ecc"                  | "" | "R_ecc[d=1]"   | "Excentricite"      | "-"     | "1"
81## R_peri_forcing     | "R_peri"                 | "" | "R_peri[d=1]"  | "Equinoxe"          | "-"     | "1"
82## R_incl_forcing     | "R_incl"                 | "" | "R_incl[d=1]"  | "Inclinaison"       | "deg"   | "1"
83#-----------------------------------------------------------------------------------------------------------------
84
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