ECMWF meteorological products from the operational analysis over global area are available for the IPSL scientific community. Products have been extracted at ECWMF on regular latitude/longitude grid and converted from GRIB (meteorological format) to Netcdf (self-describing format, widely used in modelers community).
You must be a member of the IPSL to access to these data. In other cases, write a letter to:
Thierry Desponts Météo-France DP/SERV/ACO 42, avenue Gaspard Coriolis 31057 Toulouse Cedex Tel : +33 5 61 07 80 85 Fax: +33 5 61 07 80 79 e-mail : Cet e-mail est protégé contre les robots collecteurs de mails, votre navigateur doit accepter le Javascript pour le voirIntroduce yourself and request the permission to use the netCDF formatted ECMWF Dataset available at IPSL. Upon receipt of the agreement from Météo-France, fax it to:
Sophie ClochéLaboratoire de Meteorologie Dynamique
Ecole Polytechnique
F-91128 PALAISEAU CEDEX
France
Fax : +33 1 69 33 51 31
Spatial coverage
Global area: 0E to 358.875E , 90N to 90S
regular longitude-latitude mesh: 1.125x1.125deg
Temporal resolution
4 times daily (4xdaily) products:
Analysis
Times : 0 6 12 18 h
step : 0 h
Forecasting
Times : 12 h
Steps :12, 18, 24, 30, 36 h
For the forecast variables, there are 5 forecast times per day : 0, 6, 12, 18 and 24h corresponding to the 5 forecasting steps (12, 18, 24, 30, 36h) starting at the reference time 12h of the day before.
Temporal coverage
| Data type |
4 times daily |
| Surface |
2002/09-present |
| Pressure Level |
2002/09-present |
| Model Level |
2006/01-present |
| Surface pv=+/-2 |
2002/09-present |
Levels
Model levels
- 60 levels before 01/02/2006
- 91 levels after 01/02/2006 included
To represent the vertical variation of the dependent variables 
, 
, 
and 
, the atmosphere is divided into 
layers. These layers are defined by the pressures at the interfaces between them (the `half-levels'), and these pressures are given by
 |
(1) |
. The 
and 
are constants whose values effectively define the vertical coordinate and 
is the surface pressure field.
The values of the 
and 
for all 
are given here to allow the reconstruction of the `full-level' pressure 
associated with each model level (middle of layer) from 
(
)by using equation (1) and the surface pressure field.
Pressure levels
- 21 levels (in hPa) : 1000, 925, 850, 700, 500, 400, 300, 250, 200, 150, 100, 70, 50, 30, 20, 10, 5, 3, 2,1
- 25 levels (in hPa) : from august 2009 in our archive; the 25 levels are available at ECMWF since november 2007. The 4 additional levels are 950, 900, 800, 600
The fields have been interpolated to standard pressure levels from the original model levels.
Available products
Surface
| Long name | Grib id | Netcdf name |
Units | Dataset* | Level type* |
| Sea ice fraction | 31 |
ci |
(0-1) |
AN |
SF |
| Total cloud cover |
164 |
tcc |
(0-1) |
AN |
SF |
| Mean sea level pressure | 151 | msl | Pascal | AN | SF |
| Temperature at 2 meters | 167 | t2 | degK | AN | SF |
| Dew point at 2 meters | 168 | d2 | degK | AN | SF |
| Soil temperature level1 |
139 | stl1 | degK | AN | SF |
| Soil temperature level2 | 170 |
stl2 |
degK | AN | SF |
| Soil temperature level3 | 183 |
stl3 |
degK | AN | SF |
| Soil temperature level4 | 236 |
stl4 |
degK | AN | SF |
| Volumetric soil water level 1 |
39 |
swvl1 |
m**3 s**-3 | AN | SF |
| Volumetric soil water level 2 |
40 |
swvl2 | m**3 s**-3 | AN | SF |
| Volumetric soil water level 3 |
42 |
swvl3 | m**3 s**-3 | AN | SF |
| Volumetric soil water level 4 |
42 |
swvl4 | m**3 s**-3 | AN | SF |
| Geopotentiel |
129 |
geopt |
m**2 s**-2 | AN | SF |
| 10m U wind component | 165 | u10 | m/s | AN | SF |
| 10m V wind component | 166 | v10 | m/s | AN | SF |
| Albedo | 174 | al | - |
AN | SF |
| Land/sea mask | 172 |
lsm |
(0,1) |
AN |
SF |
| Sea surface temperature |
24 |
sstk |
degK |
AN |
SF |
| Skin temperature |
235 |
skt |
degK |
AN |
SF |
| Total column water vapor | 137 | tcwv | kg/m^2 | AN |
SF |
| Snow depth | 141 |
sd |
m of water equivalent | AN |
SF |
| Evaporation | 182 | e | m of water | FC | SF |
| Large scale precipitation | 142 | lsp | m | FC | SF |
| Convective precipitation | 143 | cp | m | FC | SF |
| Surface solar radiation | 176 | ssr | (W/m^2)s | FC | SF |
| Surface thermal radiation | 177 | str | (W/m^2)s | FC | SF |
| Top solar radiation | 178 | tsr | (W/m^2)s | FC | SF |
| Top thermal radiation | 179 | ttr | (W/m^2)s | FC | SF |
| Surface latent heat flux | 147 | slhfl | (W/m^2)s | FC | SF |
| Surface sensible heat flux | 146 | sshfl | (W/m^2)s | FC | SF |
| East /West surface stress | 180 | ewss | (N/m^2)s | FC | SF |
| North/South surface stress | 181 | nsss | (N/m^2)s | FC | SF |
| Downward surface solar radiation | 169 |
ssrd |
W/m^2 s | FC |
SF |
| Downward surface thermal radiation | 175 |
strd |
W/m^2 s | FC |
SF |
| Boundary layer height | 159 |
blh |
m |
FC |
SF |
| Snowfall | 144 |
sf |
m of water equivalent | FC |
SF |
Pressure level
| Long name | Grib id | Netcdf name |
Units | Dataset* | Level type* |
| Geopotentiel | 129 | geopt | m^2/s^2 | AN | PL |
| Temperature | 130 | ta | degK | AN | PL |
| U-velocity | 131 | u | m/s | AN | PL |
| V-velocity | 132 | v | m/s | AN | PL |
| Vertical velocity | 135 | w |
Pascal/s | AN | PL |
| Vorticity (relative) | 138 | vo | s^-1 | AN | PL |
| Divergence | 155 | d | s^-1 | AN | PL |
| Relative humidity | 157 | r | % | AN | PL |
| Potential vorticity |
60 |
pv |
m^2 s^-1 K kg^-1 | AN |
PL |
| Ozone |
203 |
o3 |
Kg/Kg | AN |
PL |
Model level
| Long name | Grib id | Netcdf name | Units | Dataset* |
Level type* |
| Log surface pressure | 152 | lnsp | - | AN | ML(1st level) |
| Cloud liquid water content | 246 | clwc | kg/kg | AN | ML |
| Cloud ice water content | 247 | ciwc | kg/kg | AN | ML |
| Cloud cover | 248 | cc | (0-1) | AN | ML |
Surface PV=+/-2
| Long name | Grib id | Netcdf name |
Units | Dataset* |
Level type* |
| Potential temperature |
3 | pt | degK |
AN | PV |
| Pressure |
54 | pres | Pa |
AN | PV |
*AN: Analysis
*FC: Forecats
*SF: surface
*PL: pressure level
*ML: model level
*PV: the surface pv=+/-2
Access
The access to this dataset is restricted to the members of IPSL.
You can access data by several ways :
- from your login on climserv server, camelot: cd /bdd/OPERA/.
To have an access on our server, please mail to Cet e-mail est protégé contre les robots collecteurs de mails, votre navigateur doit accepter le Javascript pour le voir
- by ftp : ftp://ftp.climserv.ipsl.polytechnique.fr/opera/
- by your login at IDRIS: data are available in the /u/rech/psl/rpsl376/OPERA/NETCDF/ directory. You must be a member of the subipsl subgroup; if it is not the case, please contact Sophie Cloché ( Cet e-mail est protégé contre les robots collecteurs de mails, votre navigateur doit accepter le Javascript pour le voir )
- by OpenDaP at IDRIS (in dowload mode): http://dods.idris.fr:81/rpsl376/OPERA/NETCDF/
- by OpenDaP at IDRIS (in opendap mode):http://dods.idris.fr:81/cgi-bin/nph-dods/rpsl376/rpsl376/OPERA/NETCDF/
Format
The data files are in the netCDF format and are compatible with the CF convention. It defines the meaning of attributes, the naming of variables, the units, the coordinate variables.
The files are organized by variable, by month for analysis and by day for forecast. One file contains one variable, during one month at the 4 synoptic hours for analyses and during on day at the 5 forecast steps for forecast, at all levels for the mutli-level fields. The geophysical values of variables (called unpacked values) are coded on 2 bytes (packed values).
The vast majority of the data that we distribute in netCDF files have been packed into short integers to save space. You must unpack that data to get the correct floating point representation of the data. Each netCDF variable (except some of them) that has been packed has an add_offset and scale_factor attribute associated with it. The scale_factor and add_offset can vary with each netCDF file even for the same variable from the same data set, though this doesn't happen often.
The formula to unpack the data is:
unpacked value = add_offset + ( (packed value) * scale_factor )
Related file Naming and Structure information
The ECMWF data are stored on the directory: /bdd/OPERA/- The subdirectories are the following:
/FFF/GEO_RES/XXX/AA_LL/YYYY/name_file
FFF: format (NETCDF)
GEO: geographical aera (GLOBAL)
RES: resolution (1125 for 1.125 degrees)
XXX: is the temporal resolution (4xdaily)
AA_LL: AA is the type of data (AN for Analysis or FC for Forecast)
LL is the level type (SF, PL, ML,PV)
SF: surface
PL: Pressure level
ML:Model level
PV: On the surface pv=+/-2
YYYY: year
- File names:
NAME.YYYY[MM][DD].ABC.[GEO_RES].EXT
NAME: is the netcdf parameter name (see table)
YYYY: year
MM: month
DD: day
A: type(a: analysis, f:forecast)
B: level type (s:surface,v: surface pv, t: isentropic level, p: pressure level, m: model level)
C: temporal resolution (h: 4 x daily, d: daily mean, m: monthly mean)
GEO: geographical area (GLOBAL for global area; this extension is not present on filename for products before 2006)
RES: resolution (1125 for 1.125 degrees; this extension is not present on filename for products before 2006)
EXT: format (.nc forNetcdf)
Original source
European Centre for Medium-Range Weather Forecasts.
Usage restrictions
The ECMWF data are restricted to non-commercial use. For additional information or permission to use ECMWF data, contact the European Centre for Medium-Range Weather Forecasts
Contact
Sophie Cloché-IPSL Ecole Polytechnique 91128 Palaiseau cedex FRANCE Tel: 33 (1) 69 33 51 31mail: Cet e-mail est protégé contre les robots collecteurs de mails, votre navigateur doit accepter le Javascript pour le voir