Every day, ECMWF produces various global Analyses and Forecasts and archives them in MARS. The first ECMWF numerical model in 1979 was a grid-point model with 15 levels in the vertical and a horizontal resolution of 1.875 degrees in latitude and longitude, corresponding to a grid length of 200 kilometres. A number of major changes have occurred since ECMWF's activity started:
In June 2013 IFS cycle 38r2 introduced higher vertical resolution in the high-resolution (T1279) forecast and data assimilation of the operational runs at 00 and 12 UTC (HRES) as well as the 06 and 18 UTC cycles of the Boundary Conditions (BC) optional programme. The number of model levels increases from the current 91 levels (L91) to 137 levels (L137).
In November 2013 the vertical resolution and the vertical extent used for the medium-range and monthly ensemble forecasts has changed: the number of levels of the ENS has increased from 62 to 91 with the model top raised from 5 hPa to 0.01 hPa. The MARS streams DCDA, DCWV, ENDA and EWDA were discontinued.
In addition, various other projects run on a regular basis, such as Seasonal Forecast, Multi-Analysis Ensemble, Monthly Forecast and Sensitivity forecast, or have run in the past, for example the ECMWF Re-Analysis. All their outputs are available in MARS. The majority of Observations used as model input are also available in MARS.
A comprehensive list of changes in the ECMWF model can be found on our main website, giving detailed documentation on significant changes to the operational forecasting system.
In order to know the data available from MARS, users need to be familiar with ECMWF's activities. The overview given below is not exhaustive. It is rather meant as an introduction to ECMWF's activities and the most common products. Users wanting to learn more are encouraged to study the User Guide to ECMWF Forecast Products.
The datasets pages on the main website provide a good entry point to browse the archive content in particular for operational and reanalysis data. From there you will also find links into the MARS catalogue, which allows you to browse the entire archive content.
Since 1998, ECMWF's deterministic atmospheric model is coupled with a wave model.
ECMWF runs the WAM model at a finer resolution for a limited area. It used to be called the Mediterranean model but is now known as the European Wave Model. This model is run to 5 days and produces Analysis and Forecast.
ECMWF's Ensemble Prediction System has a coupled atmospheric and wave model. On 28 November 2006 the Variable Resolution Ensemble Prediction System (VarEPS) has been introduced by extending the forecast range from 10 to 15 days with a resolution of T399L62 for day 1 to day 10 (Leg 1) and T255L62 for day 11 to day 15 (Leg 2). On 11 March 2008 the Monthly Forecasting System, running once a week, has been integrated with the VarEPS. The new monthly forecast products were produced for the first time on 13 March 2008.
Also known as short cut-off. Four additional Analyses are run for 00, 06, 12 and 18 UTC with a cut-off time of 4 hours, followed by global 4-day forecasts to provide some Member States with boundary conditions for their limited area models. All Analyses data but only the Forecast from 00 UTC are archived.
Since the 14. March 2006 the BC project has been merged with the main deterministic operational forecast suite. In the new configuration, only the 06 and 18 UTC runs are part of the BC suite. For the 00 and 12 UTC runs data are provided from the main deterministic forecast suite. Now all four data assimilation cycles are based on 6h 4d-Var with a cut-off time of 3 h. Temporary data storage for 3 months will be continued in MARS for 06 and 18 UTC data with STREAM=SCDA.
Every day ECMWF receives Analyses from four centres, NCEP, The Met Office, Météo-France and Deutscher Wetterdienst, and runs 5 forecasts, 1 based on each different analyses plus one compound of all the analyses (consensus) including ECMWF's Analysis.
ECMWF started an experimental programme for seasonal prediction in 1995, which attempts to predict seasonal changes by coupling three models: atmospheric, wave and ocean models. More information on the Seasonal Forecast can be found on the ECMWF Website.
With the same setup as the seasonal forecast, this project runs every week producing forecasts to 32 days, again, coupling atmospheric, wave and ocean models. More information on the Monthly Forecast can be found on the ECMWF Website.
The main purpose of the ocean analysis is to provide initial conditions for the extended range forecasts (seasonal and monthly). There are two streams: The re-analysis stream spans the period 1959 up to 11 days behind real time whereas the real-time stream started in August 2006. More information on the Ocean Analysis can be found on the ECMWF Website.
ECMWF maintains an archive of monthly means data from the atmospheric and wave model archive. The resolution and internal representation of the archive may change according to changes in ECMWF's operational practice.
There is a limited climatology data set, which contains the Geopotential and Temperature on Pressure Levels for each month of the year. The data originally came from NCEP, Washington, and it was processed to store it in MARS. Although it is available to users, it is recommended that modern applications use the Monthly means archive or the Re-Analysis Monthly means archive for climatology purposes.
The ECMWF Re-Analysis (ERA) project has so far produced three datasets:
These available datasets include: analysis, forecast and forecast accumulations as output from atmospheric model, as well as analysis and forecast from a wave model re-analysis. There is also a Monthly Means data set containing data at the resolution of the data assimilation and forecast system used by each Re-Analysis.
The Interactive Grand Global Ensemble, is a key component of THORPEX: a World Weather Research Programme to accelerate the improvements in the accuracy of 1-day to 2 week high-impact weather forecasts for the benefit of humanity. Global ensemble forecasts to around 14 days generated routinely at different centres around the world. Currently data from ECMWF, JMA (Japan), Met Office (UK), CMA (China), NCEP (USA), MSC (Canada), Météo-France, BOM (Australia), CPTEC (Brazil) and KMA (Korea) is archived.
The EU-funded ENSEMBLES project intends to develop an ensemble prediction system for climate change based on the principal state-of-the-art, high resolution, global and regional Earth System models developed in Europe, validated against quality controlled, high resolution gridded datasets for Europe, to produce for the first time, an objective probabilistic estimate of uncertainty in future climate at the seasonal to decadal and longer timescales. A large set of seasonal, annual and decadal hindcasts is available which have been produced with different forecast systems run by ECMWF, Météo-France, Met Office, IfM, INGV and CERFACS. These systems addressed the important problem of the impact of model uncertainty on forecast error by using the multi-model, stochastic physics and perturbed parameters approaches.
is the acronym of the EU-funded project "Development of a European Multi model Ensemble system for seasonal to inTERannual prediction". The objective of the project is to develop a well-validated European coupled multi-model ensemble forecast system for reliable seasonal to inter annual prediction. Six comprehensive European global coupled atmosphere-ocean models are being installed at ECMWF, those of: ECMWF, Météo-France, LODYC, Met Office, MPI, INGV, INM-HIRLAM and CERFACS.
TOST is the THORPEX Observing System Test, an experiment carried out at the end of 2003 to evaluate targeted observations in an Ensemble Prediction System. There is output from 3 different models, ECMWF, Météo-France and United Kingdom Met Office.
stands for Prediction Of climate Variations On Seasonal to inter annual Time scales. They are a set of experiments from four centres: ECMWF, Météo-France, EDF and Met Office. The experiments are 120 day runs from 9 consecutive starting days, with write-ups every 24 hours of Pressure level and Surface data.
ECSN is the European Climate Support Network. HIRETYCS is the High Resolution Ten Year Climate Simulation. This data set consist of 10-year climate simulations produced at three centres: Centre National de Recherches Météorologiques (CNRM), Max-Planck Institute (MPI) and United Kingdom Met Office.
A vast amount of data is archived daily containing IFS (Integrated Forecast System) experiments produced by ECMWF's Research Department or by Member States' users at ECMWF. Basically, an experiment can address any area of meteorology and it is archived accordingly. Users wanting to retrieve Research experiments need to know in advance the name of the specific experiment and its nature. For this information please, contact User Support.
Some Member States also archive output other than from IFS into MARS. One example of such activity is the COSMO-LEPS forecast suite, running daily at ECMWF.
ECMWF archives a selection of products, both Analysis and Forecast, from other Centres: Exeter, Melbourne, Montreal, Offenbach, Toulouse, Tokyo and Washington. Most of these products exist on the GTS and they are combined to create global fields with ECMWF local GRIB header extensions added. A convention exists to create empty (dummy) fields when there are missing data (e.g. if problems arise at one of the Centres or on the GTS).
There are other fields which are used as input for the ECMWF forecasting system (e.g. Sea Surface Temperatures from Washington which are used by ECMWF's Analysis).
Images from Meteosat and GOES Satellites are coded in GRIB and archived in MARS.
Observations used as input to the assimilation system are also archived in MARS, as well as the Feedback on how the observations are used in the analysis. There are, amongst others:
MARS also holds the observations in the form of files as they are presented to the Analysis (Analysis Input), as well as the feedback files (Analysis Feedback). These are mainly used to allow to reproduce in the future any past operational run. There is one set of files per synoptic time.
There are some known deficiencies in the archives (suspect or missing data). Those are listed in the Data Services pages and in the Archive Changes pages.
Archived data is stored in two WMO formats: GRIB for fields and BUFR for observations. In addition, observation feedback is archived in the ECMWF/IFS format ODB (Observational Data Base). In general, the retrieved data is returned in the archive format. However, with the Data Server or the Web API it is possible to request fields to be returned in netCDF format.
GRIB (GRid In Binary) is a WMO defined format for meteorological field data, or (more generally) any regularly spaced gridded data. All ECMWF model output is in GRIB format with ECMWF local extensions in their headers. The GRIB format is handled via the GRIB software. Fields are archived in one of the following spatial coordinate systems:
Spherical Harmonics (SH) mainly for upper air fields
Gaussian Grid (GG) mainly for surface data, although some upper air fields as well
Latitude/Longitude (LL) other centre's data, wave and ocean data
For the correspondence between the three types of grid resolutions see table 1.
Table 1: Correspondence between resolutions of ECMWF grid types.
| Spectral | Gaussian | Lat/Lon |
| T63 | N48 | 1.875 |
| T106 | N80 | 1.125 |
| T159 | N80 | 1.125 |
| T213 | N160 | 0.5625 |
| T319 | N160 | 0.5625 |
| T511 | N256 | 0.351 |
| T639 | N320 | 0.28125 |
| T799 | N400 | 0.225 |
| T1023 | N512 | 0.176 |
| T1279 | N640 | 0.141 |
| T2047 | N1024 | 0.088 |
The GRIB format is handled via the GRIB software.
BUFR (Binary Universal Form Representation) is a WMO defined format for point data (irregularly spaced), which is used for archived observations. The BUFR format is handled via BUFREX and other EMOSLIB subroutines as described in the BUFR User's Guide.
In the IFS observations are handled by ODB (Observational Data Base).
ODB is a
ODB Observation Feedback (ofb) data is archived in MARS to improve its representation in the MARS meta data. ODB also introduces SQL capabilities to request feedback data.