1. 08.11.20151WG4: Sibiy, 2 September 2013 COSMO Project CORSO: Consolidation of Operational and Research results for the Sochi Olympics -2014 Status COSMO of 7 km and 2 km models in Russia Gdaly Rivin, Inna Rozinkina, Denis Blinov Hydrometeorological centre of Russia (Roshydromet) and many of our colleagues

2. CONTENTS 2WG4: Sibiy, 2 September 2013 1.PP CORSO 2.Place, grids, observations (D.Kiktev) 3.COSMO-Ru7, COSMO-Ru2, COSMO-Ru1 (M.Shatunova), COSMO-Ru13, Universiade (Kazan, July-August 2013) 4.Snow (E.Kazakova) 5. Data assimilation (D.Blinov) 6. Plans for Oct. 2013 / 2014 08.11.2015

3. 3WG4: Sibiy, 2 September 2013

4. COSMO Perspective Project CORSO: Consolidation of Operation and Research results for the Sochi Olympic Games The main goal: to enhance and demonstrate the capabilities of COSMO-based systems of short-range numerical weather prediction in winter conditions for mountainous terrain and to assess the effect of practical use of this information during SOCHI-2014 Olympic Games COSMO - METEOROLOGICAL SUPPORT FOR OLYMPICS “SOCHI-2014” Participants: Germany, Italy, Switzerland and Russia. 4 WG4: Sibiy, 2 September 2013 PP CORSO is considered as COSMO contribution into WMO project FROST 08.11.2015

5. 5 TASK 1.High resolution COSMO-modeling for mountainous regions (TL G.Rivin) TASK 2. Downscaling / postprocessing for Sochi area and applications (TL I.Rozinkina) TASK 3. Development and adaptation of COSMO EPSs for Sochi region TLs E. Astakhova, A. Montani PP CORSO (Project Leaders: G.Rivin, I.Rozinkina (Roshydromet) 2.1. Adapted down-scaling techniques for winter conditions in the mountains and IOC requirements (FDP) 2.2. Determination of typical COSMO-model inaccuracies for typical synoptic situations (RDP) 1.1. Improvement of modeling technology of deterministic forecasting of weather conditions with resolution 2.2.km for the North-Caucasian area (SOCHI-2014) (FDP) 1.2. Development of COSMO-So-1km (RDP) 3.1. Adaptation of COSMO LEPS 7 km to the Sochi region and to specific requirements of winter Olympics. Operational ensemble forecasts during the Trials and Olympics (FDP) 3.2. Development and verification of COSMO-RU-LEPS 2.2 km for the Sochi region (with ICs and BCs from SOCHMEL7) (RDP) WG4: Sibiy, 2 September 2013 08.11.2015

6. 6 T1. High resolution Modeling and DAS WG1, WG2, WG3a, WG3b, WG6 T2. Postprocessing / Forecast Interpretation WG4, WG5 T3. High resolution EPS WG5, WG7 WG4: PP CORSO Downscaling for venues and local specific weather conditions Operational forecasts of meteorological fields Forecasts of probability of local weather events WG4: Sibiy, 2 September 2013 08.11.2015

7. CORSO - 18 staff members Roshydromet : 11 - PhD, 6 – postgraduates MSU and HMC, 1 - undergraduates MSU Task 1 High resolution COSMO-modeling for mountainous regions G.Rivin, Yu.Alferov, D.Blinov, M.Chumakov, E.Kazakova, A.Kirsanov, M.Nikitin, V.Perov, I. Rozinkina, M.Schatunova, E.Kukanova; Task 2 Downscaling / postprocessing for Sochi area and applications I. Rozinkina, D.Blinov, A.Bundel, E.Kazakova, V.Kopeikin, A.Muravjov, A.Revokatova, G.Rivin, M.Zaichenko; Task 3 Development and adaptation of COSMO EPS for Sochi region E.Astakhova, A. Montani, D.Alferov, G.Rivin. 08.11.20157WG4: Sibiy, 2 September 2013

8. PP CORSO Phase 1Phase 2Phase 3 2011 / 20122012 / 20132013 / 2014  Choice of strategy  Proposals for development and modification of algorithms  Preliminary tests Tests Pre-operational running Feed-back from forecasters Tuning implementation Operational runs Analysis of results All algorithms must be implemented very fast, based the previous experience of COSMO-countries (incl. know-how for mountain forecasting) 8WG4: Sibiy, 2 September 201308.11.2015

9. WG4: Sibiy, 2 September 20139 THE MAIN DIFFICULTIES OF THE PP CORSO 1.Complex geographical conditions: sea - land winter T differences high mountains near cost the area of venues is located near boundary snow and/or fractional cover 2.Insufficient density of network of measurements 3.The significant part of winter weather processes is due by the local orography 4.The level of skill of forecasts for T2m and precipitation must be better 5. Computers 08.11.2015

10. Daily 4 times (00, 06, 12, 18 h UTC): prepares more than 8000 (total for 1 day) weather forecast maps and about 1000 (total for 1 day) meteograms (images) sends these maps and meteograms to the weather forecasting offices of Roshydromet spreads on a FTP-servers the GRIB and graphical files (about 70 Gb) Forecast system COSMO-Ru7/2 10 WG4: Sibiy, 2 September 2013 08.11.2015

11. 11WG4: Sibiy, 2 September 2013

12. Two clusters of «Sochi-2014» Olympic venues Ice sports competitions Snow sports competitions 12WG4: Sibiy, 2 September 2013 Sochi Adler Krasnaya Polyana 08.11.2015

13. Grids COSMO-Ru7/Ru2 08.11.201513WG4: Sibiy, 2 September 2013 Sochi Adler Krasnaya Polyana Akhun

14. Location of the meteorological stations and COSMO-Ru2 (Sochi) model’s grid-points (mountain sector) (view from SW) 14WG4: Sibiy, 2 September 201308.11.2015 Krasnaya Polyana Kordon Laura Aibga

15. 980 1130 1755 1945 08.11.201515WG4: Sibiy, 2 September 2013

16. 08.11.201516WG4: Sibiy, 2 September 2013

17. GME  x = 20 км COSMO-Ru7  x = 7 km COSMO-Ru2  x =2.2 км COSMO-RuSib  x =14 км GME: начальные и граничные данные 08.11.2015WG4: Sibiy, 2 September 201317 Universiade COSMO-Ru6,, Δt=60 s COSMO-Ru13, Δt=120 s Domain: 900 km * 1000 km Grid: 420*470 * 50 Step: 2.2 км Time step: 20 c Forecast: 24 / 42 h Domain: 4900 km * 4340 km Grid: 700*620 * 40 Step: 7 km Time step: 66 c Forecast: 78 h Domain: 5000 km * 3500 km Grid: 360*250 * 40 Step: 14 km Time step: 80 c Forecast: 78 h Grid: 1 474 562 * 60 Step: 20 km Time step: 110 s

18. 08.11.2015WG4: Sibiy, 2 September 201318 Domain: 13200 km * 6600 km Grid: 1000*500 * 40 Step: 13.2 km Forecast: 120 h Cores: 288 COSMO-Ru13  x =13.2 km Domain: 13200 km * 6600 km Grid: 2000*1000 * 40 Step: 6.6 km Forecast: 48 / 78 h Cores: 288 ETR SIB Far East

19. 08.11.2015WG4: Sibiy, 2 September 201319

20. 08.11.2015WG4: Sibiy, 2 September 201320

21. 08.11.2015WG4: Sibiy, 2 September 201321

22. 08.11.2015WG4: Sibiy, 2 September 201322

23. Tornado (1536 cores) ModelCoresTime Sochi-2014, 42 h, 420 х 470 (2.2 km) 28850 min COSMO-Ru7, 78 h, 700 х 620 (7 km) 288 50 min ENA: EuNorthAsia, 78 h, 1000 х 500 (13.2km) 28850 min 23WG4: Sibiy, 2 September 201308.11.2015

24. WG4: Sibiy, 2 September 201324 --06 000 2.50 03.40 Time DA Ru7 DA CFO- Ru2 DA SFO- Ru2 DA Ru13 Technological line of COSMO-Ru

25. 08.11.2015WG4: Sibiy, 2 September 201325 2013-08-26-00 COSMO-Ru2, Canada: GEM-2.5 and GEM-1 WMO project FROST (PL – Dmitry Kiktev): http://frost2014.meteoinfo.ru http://frost2014.meteoinfo.ru

26. 08.11.2015WG4: Sibiy, 2 September 201326 Roza Hutor (1580 m) 2013-08-26-00 COSMO-Ru2, Canada: GEM-2.5 and GEM-1

27. 08.11.2015WG4: Sibiy, 2 September 201327 Krasnaya Polyana (Red Glade) 2013-09-01-12 COSMO-Ru2, COSMO-Ru7 and WRF-NMMB-1

28. 08.11.2015WG4: Sibiy, 2 September 201328 ENA-13 km

29. 08.11.2015WG4: Sibiy, 2 September 201329 COSMO-Ru7

30. 08.11.2015WG4: Sibiy, 2 September 201330 01–28 Feb 2013: Ru7oper, P sea COSMO-Ru7: SFO (Sochi-2014) RMSE: Средняя квадр. ошибка MAE: Средн. абс.ошибка ME: Средняя ошибка

31. 08.11.2015WG4: Sibiy, 2 September 201331 01–28 Feb 2013: Ru7oper, T2m COSMO-Ru7: SFO (Sochi-2014) RMSE: Средняя квадр. ошибка MAE: Средн. абс.ошибка ME: Средняя ошибка

32. 08.11.201532WG4: Sibiy, 2 September 2013

33. 08.11.201533WG4: Sibiy, 2 September 2013

34. 08.11.201534WG4: Sibiy, 2 September 2013

35. PP CORSO Phase 1Phase 2Phase 3 2011 / 20122012 / 20132013 / 2014  Choice of strategy  Proposals for development and modification of algorithms  Preliminary tests Tests Pre-operational running Feed-back from forecasters Tuning implementation Operational runs Analysis of results All algorithms must be implemented very fast, based the previous experience of COSMO-countries (incl. know-how for mountain forecasting) 35WG4: Sibiy, 2 September 201308.11.2015

36. FDP & RDP CORSO DELIVERABLES 1.Increased skill of operational COSMO-Ru7 and COSMO-Ru2 for key meteorological parameters; 2.Research technology COSMO-Ru1 with horizontal resolution ≈ 1km; 3.Operational implementation of tools allowing the forecasting of local weather conditions in the venues, visualization support, guidelines for forecasters; 4.Adapted postprocessing techniques for winter weather conditions in sub- tropical mountain conditions and satisfying the requirements of the winter Olympics; 5.Recommendations for operational forecasters in using the high-resolution model output with special attention to possible model error spatial and temporal structures for different weather types; 6.Programming tools for object-oriented and multi-scale verification of hydrodynamic mesoscale forecasts 7. RDP: Developed weather types classification approaches, results of case studies for the Sochi2014 region; 8.A COSMO-LEPS system with 7 km resolution adapted to the Sochi region and to specific requirements of winter Olympics (SOCHMEL7). Operational ensemble forecasts during the Olympics. Technology of presentation and interpretation of SOCHMEL7 results in operational mode; 9.COSMO-RU-LEPS 2.2 km for the Sochi region (with ICs and BCs from SOCHMEL7. 36WG4: Sibiy, 2 September 201308.11.2015

37. Oct. 2013 / 2014 to improve near-surface (first - T2m) forecasts: - TERRA development - DAS implementation - Snow-cover assimilation to increase the model resolution (orographic effects) to develop the statistical postprocessing with small training period to develop the probabilistiс forecasting for significant weather phenomena WG4: Sibiy, 2 September 20133708.11.2015

38. 38WG4: Sibiy, 2 September 2013 COSMO Project CORSO: Consolidation of Operational and Research results for the Sochi Olympics -2014 Status of 7 km and 2 km models in Russia Gdaly Rivin, Inna Rozinkina, Denis Blinov Hydrometeorological centre of Russia (Roshydromet) and many of our colleagues