Operational and Research Activities at ECMWF Renate Hagedorn European Centre for Medium-Range Weather Forecasts
ECMWF’s… …background and structure …research activities Integrated Forecast System (IFS) …operational activities production, delivery, archiving
Background • Convention establishing ECMWF entered in force on 1st Nov 1975, having been ratified by the following 13 Member states: • Recognition of importance and potential to improve medium-range weather forecasts with benefits to the European economy Protection and safety of population Development of meteorology in Europe / post university training Development of European industry in the field of data-processing • Recognition that resources are needed on a scale exceeding those normally practicable at national level Denmark Spain Ireland Netherlands Switzerland Sweden Belgium Germany France Yugoslavia Austria Finland United Kingdom Portugal (76), Turkey (76), Greece (76), Italy (77), Norway (89) and Luxembourg (2002) are the 6 new members adding up to 18 (minus Yugoslavia)
Today… 13 co-operating states …ECMWF is an independent international organization, supported by 18 member states 13 co-operating states Croatia Czech Republic Co-operating agreements: Estonia Hungary Iceland Latvia Lithuania Montenegro Morocco Romania Serbia Slovakia Slovenia
New Convention • Amendments to the ECMWF Convention were unanimously adopted by Council at its 62nd extraordinary session on 22 April 2005 • Finalization of the ratification process is expected by the end of 2009 • The adopted amendments concern mainly: allowing new Member States to join enlarging ECMWF’s mission to environmental monitoring re-defining some decision making processes (voting rights) widening the possibilities for externally funded projects (e.g. EU) extending official languages to all official languages in Member States (on a request-and-pay basis)
Objectives Operational forecasting up to 15 days ahead (including waves) R & D activities in forecast modelling Data archiving and related services Operational forecasts for the coming month and season Advanced NWP training Provision of supercomputer resources Assistance to WMO programmes Management of Regional Meteorological Data Communications Network (RMDCN)
ECMWF Budget 2009 GNI Scale 2009–2011 Main Revenue 2009 Spain 7.95% Main Revenue 2009 Member States’ contributions £35,593,300 Co-operating States’ contributions £847,400 Other Revenue £1,169,500 Total £37,610,200 Germany 20.20% France 15.46% Luxembourg 0.23% Denmark 1.87% Greece 1.74% Belgium 2.71% Ireland 1.23% Main Expenditure 2009 Staff £14,450,100 Leaving Allowances & Pensions £2,965,200 Computer Expenditure £15,690,600 Buildings £3,634,300 Supplies £870,000 Total £37,610,200 United Kingdom 16.43% Italy 12.66% Turkey 2.38% Netherlands 4.61% Sweden 2.66% Norway 2.13% Finland 1.42% Austria 2.16% Switzerland 2.89% Portugal 1.29% GNI Scale 2009–2011
Organizational structure Policy Advisory Committee 7-18 Members Scientific Advisory Committee 12 Members COUNCIL 18 Member States Technical Advisory Committee 18 Members Finance Committee 7 Members DIRECTOR Dominique Marbouty (France) (230) Advisory Committee on Data Policy 8-31 Members Advisory Committee of Co-operating States 12 Members Operations Walter Zwieflhofer (Austria) (111) Administration Ute Dahremöller (Germany) (25) Research Martin Miller (UK) (90) Computer Division Isabella Weger (Austria) (65) Meteorological Division Erik Andersson (Sweden) (42) Model Division Martin Miller (UK) (24) Data Division Jean-Noel Thepaut (France) (37) Probabilistic Forecasting and Diagnostics Division Tim Palmer (UK) (19)
Principal Goal • Maintain the current, rapid rate of improvement of its global, medium-range weather forecasting products, with particular effort on early warnings of severe weather events.
Principal Goal
Principal Goal
Complimentary Goals • In addition to the principal goal of maintaining the current, rapid rate of improvements, the complimentary goals are: To improve the quality and scope of monthly and seasonal-to-interannual forecasts To enhance support to Member States national forecasting activities by providing suitable boundary conditions for limited-area models To deliver real-time analysis and forecasts of atmospheric composition To carry out climate monitoring through regular re-analyses of the Earth-system To contribute towards the optimization of the Global Observing System
Numerical Weather Prediction • The behaviour of the atmosphere is governed by a set of physical laws • Equations cannot be solved analytically, numerical methods are needed • Additionally, knowledge of initial conditions of system necessary • Incomplete picture from observations can be completed by data assimilation • Interactions between atmosphere and land/ocean important
Strategy • Development of a suitably comprehensive Earth-system assimilation capability to make best use of all available data • Development of a suitably comprehensive and integrated high-resolution Earth-system modelling facility • Development of the methodology of ensemble forecasting for medium-range and seasonal forecasting • Operational delivery of an enhanced range of meteorological and associated products • Maintenance and extension of the Centre’s scientific and technical collaborations
Research Department Model Division Probabilistic Forecasting Martin Miller (UK) (26) Probabilistic Forecasting & Diagnostics Division Tim Palmer (UK) (18) Data Division Jean-Noel Thepaut (France) (36) Physical Aspects Anton Beljaars (Netherlands) (12) Satellite Data Peter Bauer (Germany) (14) Seasonal Forecast Franco Molteni (Italy) (9) Numerical Aspects Agathe Untch (Germany) (7) Data Assimilation Lars Isaksen (Denmark) (15) Predictability & Diagnostics Tim Palmer (UK) (7) Ocean Waves Peter Janssen (Netherlands) (3) Re-Analysis Project Dick Dee (Netherlands) (3)
ECMWF’s operational analysis and forecasting system The comprehensive earth-system model developed at ECMWF forms the basis for all the data assimilation and forecasting activities. All the main applications required are available through one integrated computer software system (a set of computer programs written in Fortran) called the Integrated Forecast System or IFS • Numerical scheme: TL799L91 (799 waves around a great circle on the globe, 91 levels 0-80 km) semi-Lagrangian formulation 1,630,000,000,000,000 computations required for each 10-day forecast • Time step: 12 minutes • Prognostic variables: wind, temperature, humidity, cloud fraction and water/ice content, pressure at surface grid-points, ozone • Grid: Gaussian grid for physical processes, ~25 km, 76,757,590 grid points
Deterministic model grid (T799)
EPS model grid (T399)
Numerical Methods and Adiabatic Formulation of Models: The wave model Coupled ocean wave model (WAM cycle4) 2 versions: global and regional (European Shelf & Mediterranean) numerical scheme: irregular lat/lon grid, 40 km spacing; spectrum with 30 frequencies and 24 directions coupling: wind forcing of waves every 15 minutes, two way interaction of winds and waves, sea state dep. drag coefficient extreme sea state forecasts: freak waves wave model forecast results can be used as a tool to diagnose problems in the atmospheric model Numerical Methods and Adiabatic Formulation of Models: 30 March - 3 April 2009
Physical aspects, included in IFS • Orography (terrain height and sub-grid-scale characteristics) • Four surface and sub-surface levels (allowing for vegetation cover, gravitational drainage, capillarity exchange, surface / sub-surface runoff) • Stratiform and convective precipitation • Carbon dioxide (345 ppmv fixed), aerosol, ozone • Solar angle • Diffusion • Ground & sea roughness • Ground and sea-surface temperature • Ground humidity • Snow-fall, snow-cover and snow melt • Radiation (incoming short-wave and out-going long-wave) • Friction (at surface and in free atmosphere) • Sub-grid-scale orographic drag • Gravity waves and blocking effects • Evaporation, sensible and latent heat flux Parameterization of Diabatic Processes 11 – 21 May 2009
Starting a forecast: The initial conditions
see next eight days Data Assimilation • Observations measure the current state, but provide an incomplete picture Observations made at irregularly spaced points, often with large gaps Observations made at various times, not all at ‘analysis time’ Observations have errors Many observations not directly of model variables see next eight days • The forecast model can be used to process the observations and produce a more complete picture (data assimilation) start with previous analysis use model to make short-range forecast for current analysis time correct this ‘background’ state using the new observations • The forecast model is very sensitive to small differences in initial conditions accurate analysis crucial for accurate forecast EPS used to represent the remaining analysis uncertainty
What is an ensemble forecast? Temperature Forecast time Initial condition Forecast Complete description of weather prediction in terms of a Probability Density Function (PDF)
Flow dependence of forecast errors 26th June 1995 26th June 1994 If the forecasts are coherent (small spread) the atmosphere is in a more predictable state than if the forecasts diverge (large spread)
Why Probabilities? • Open air restaurant scenario: open additional tables: £20 extra cost, £100 extra income (if T>24ºC) weather forecast: 30% probability for T>24ºC what would you do? • Test the system for 100 days: 30 x T>24ºC -> 30 x (100 – 20) = 2400 70 x T<24ºC -> 70 x ( 0 – 20) = -1400 +1000 • Employing extra waiter (spending £20) is beneficial when probability for T>24 ºC is greater 20% • The higher/lower the cost loss ratio, the higher/lower probabilities are needed in order to benefit from action on forecast
ECMWF’s Ensemble Prediction Systems • Account for initial uncertainties by running ensemble of forecasts from slightly different initial conditions singular vector approach to sample perturbations • Model uncertainties are represented by “stochastic physics” • Medium-range VarEPS (15-day lead) runs twice daily (00 and 12 UTC) day 0-10: TL399L62 (0.45°, ~50km), 50+1 members day 9-15: TL255L62 (0.7°, ~80km), 50+1 members • Extended time-range EPS systems: monthly and seasonal forecasts coupled atmosphere-ocean model (IFS & HOPE) monthly forecast (4 weeks lead) runs once a week seasonal forecast (6 months lead) runs once a month Predictability, Diagnostics and Extended Range Forecasting 16 - 25 March 2009
Operations Department Computer Division Isabella Weger (Austria) (68) Meteorological Division Erik Andersson (Sweden) (37) Computer Operations Sylvia Baylis (UK) (32) Meteorological Applications Alfred Hofstadler (Austria) (9) Network and Computer Security Rémy Giraud (France) (12) Meteorological Operations David Richardson (UK) (13) Servers & Desktops Richard Fisker (Denmark) (9) Data & Services Baudouin Raoult (France) (8) Systems Software Neil Storer (UK) (8) Graphics Stefan Siemen (Germany) (6) User Support Umberto Modigliani (Italy) (6)
Current Computer Configuration
RMDCN Network
User support for special projects http://www.ecmwf.int/about/computer_access_registration/Special_Projects.html
ECMWF model suites • Deterministic high-resolution global atmospheric model TL799 91 levels; range=10 days • Medium-range ensemble prediction system TL399 / TL255 62 levels; range=15 days control + 50 perturbed members • Monthly forecast system TL255 62 level (atm.), 1.4 º x 0.3-1.4º, 29 vertical levels (ocean) 51-member ensemble; range=32 days • Seasonal forecast system TL159 62 level (atm.), 1.4 º x 0.3-1.4º, 29 vertical levels (ocean) 41-member ensemble; range=6 months
Main operational suites
Data Dissemination
The ECMWF archive The largest NWP archive worldwide Built since ECMWF operations started in 1979 Holds more than 5 petabytes today 6 terabytes added daily Contains: All data used All analyses All forecasts Reanalyses Fully accessible on-line to Member States users
MARS
ECMWF Data Server • DEMETER • ERA-40 • ERA-15 • ENACT A new service that gives researchers immediate and free access to datasets from ECMWF. • DEMETER • ERA-40 • ERA-15 • ENACT • ENSEMBLES / GEMS - Monthly and daily data - Select area - GRIB or NetCDF - Plotting facility
Meteorological Operations • Daily report (data and forecast monitoring, unusual events,…) • Forecast verification • Development of new products (EFI, tropical cyclones,…) • Data and satellite monitoring • User guides / meetings
Met Ops daily report
Monitoring of model performance
Product Development
Forecast Products: 1979 1 forecast (200 km resolution) issued 5 days a week
Forecast Products: 2009 www.ecmwf.int/products/forecasts wide range of forecast products from deterministic high resolution forecast to probabilistic EPS products www.ecmwf.int/products/forecasts
Products for end users
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