1 / 19

The NOAA Environmental Modeling System at NCEP

The NOAA Environmental Modeling System at NCEP. Thomas Black Mark Iredell Hann-Ming Henry Juang. NOAA/ NWS/ NCEP/ Environmental Modeling Center. 19 th Conference on Numerical Weather Prediction. Omaha, NE. 1 June 2009. NEMS Team at EMC. Hui-ya Chuang

tilly
Télécharger la présentation

The NOAA Environmental Modeling System at NCEP

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. The NOAA Environmental Modeling System at NCEP Thomas Black Mark Iredell Hann-Ming Henry Juang NOAA/ NWS/ NCEP/ Environmental Modeling Center 19th Conference on Numerical Weather Prediction Omaha, NE 1 June 2009

  2. NEMS Team at EMC Hui-ya Chuang Edward Colón (Session 18, A.2) Dusan Jović Sarah Lu Shrinivas Moorthi Matt Pyle Ratko Vasić Jun Wang Wei-yu Yang

  3. Common Modeling Frameworks • A model framework shared among developers offers potentially significant advantages if it lessens the difficulty of exchanging diverse codes and can unify their use/interactions efficiently. • The framework should include global and regional models with separate components for dynamics, physics, data assimilation, post-processing, and ensemble capability for atmosphere, ocean, land, ice, and aerosols while adding minimal computational expense. •In order to unify and streamline efforts within EMC and to enhance the ability to share packages developed elsewhere, construction of the new ESMF-based NEMS framework was undertaken.

  4. Why an ESMF-Based System? • Now being used by a wide variety of developers. •Undergoing continual development guided by direct user involvement. •Offers considerable flexibility in how it is actually employed thereby also providing the opportunity to apply it in a manner that is not too difficult for users to understand. http://www.esmf.ucar.edu

  5. Current NEMS Contents •The forecast component of the Global Forecast System (GFS) and the Nonhydrostatic Multiscale Model (NMM-B) have been placed together under the single controlling layer. •The integration portions of the GFS and NMM-B consist of coupled Dynamics and Physics subcomponents. •Generic output components are in place for the NMM-B and in test phase for the GFS. NEMS-IO writes the final history/restart files. •A common post-processor is available within the output components or as a stand alone process.

  6. Fundamental NEMS Structure MAIN Program Import State Export State ATM Gridded Component INIT-RUN-FINALIZE Import State Export State Import State Export State Output Gridded Component N INIT-RUN-FINALIZE Output Gridded Component 1 INIT-RUN-FINALIZE Import State Export State Import State Export State PHYSICS Gridded Component INIT-RUN-FINALIZE DYNAMICS Gridded Component INIT-RUN-FINALIZE Import State Export State Dyn-Phys COUPLER Component INIT-RUN-FINALIZE

  7. Dynamics Component Dynamics Component Physics Component Physics Component Coupler Component Coupler Component Unified GFS-NAM Execution MAIN Program ATM/composite Gridded Component ATM/NAM Gridded Component ATM/GFS Gridded Component GFS-NAM Coupler Component

  8. Ocean Component GFS Component NAM Component Ice Component Coupler Component Coupler Component Coupled Forecast System Execution MAIN Program CFS Gridded Component OcnIce/MOM Component ATM Component Land Component ATM-Land Coupler Component (may contain flux computations) ATM-MOM Coupler Component (may contain flux computations)

  9. NOAA Environmental Modeling System (NEMS)(uses standard ESMF-compliant software) Application Driver ESMF Superstructure (component definitions, MPI communications, etc) Analysis -------------- Ocean ------------- Wind Waves -------------- LSM ---------------- Ens. Gen. -------------- Ecosystem -------------- Etc Atmospheric Model Dynamics (1,2) Coupler1 Coupler2 Coupler3 Coupler4 Coupler5 Coupler6 Etc. Physics (1,2,3) Chemistry 1-1 1-2 1-3 2-1 2-2 2-3 Multi-component ensemble + Stochastic forcing Bias Corrector Post processor & Product Generator Verification Resolution change ESMF Utilities (clock, error handling, etc) * Earth System Modeling Framework (NCAR/CISL, NASA/GMAO, Navy (NRL), NCEP/EMC, NOAA/GFDL) 2, 3 etc: NCEP-supported thru NUOPC, NASA, NCAR or NOAA institutional commitments Components are: Dynamics (spectral, FV, NMM, FIM, ARW, FISL, COAMPS…)/Physics (GFS, NRL, NCAR, GMAO, ESRL…)

  10. Summary of Planned NEMS Capabilities (1) • Components and capabilities of the NEMS infrastructure • Configuration control • Domain • Resolution (horizontal, vertical) • Standardized fixed field generation (NPS - topography, land use, etc) • Tracer definition • Nesting (static and moving, telescoping, 1-way, 2-way) • Concurrent ensemble execution (single executable, multiple members) • Data assimilation (3D-Var and advanced techniques) • Model dynamics and physics (including WRF schemes) • Atmosphere • Ocean • Land surface and hydrology • Air Quality, aerosols, and trace gases • Post-processor

  11. Summary of Planned NEMS Capabilities (2) • Operational Models • Global Forecast System • GFS • Global Ensemble (GEFS) • GFS • FIM • North American (NAM), standard/on-demand nested apps (e.g. Fire Weather…) • NMM • Short-range Ensemble (SREF) • NMM • ARW • Physics diversity • High Resolution Window (HRW) • NMM • ARW • Rapid Refresh (RR) Ensemble • ARW Dynamics + GSD physics • NMM dynamics + NCEP physics • Aerosols • GOCART • Land Surface & Hydrology (LIS) • Noah & LIS • Hurricane (HUR) • NMM for hurricanes • HYCOM + Wavewatch • Ocean, waves and Seasonal Climate Forecast (CFS) • GFS for climate • MOM4 • HYCOM-Wavewatch

  12. ► First operational application of NEMS planned for 4th Quarter 2010 • 12 km NAM NMM-B • 4 km CONUS Nest • 4-6 km Alaska Nest

  13. Operational 12 km NAM Domain

  14. 4 km CONUS Nest

  15. 4-6 km Alaska Nest

  16. Status Report (1) • Forecast Models • The same layer controls forecast component of GFS and the NMM-B with digital filter(s). • Eventually it will do so for coupled runs and ensembles (GEFS and SREF). • First operational implementation in 4th quarter 2010: NAM with CONUS/Alaska nests. • 3DVAR • Work has begun to include NCEP 3DVAR (GSI).

  17. Status Report (2) • Post-Processor • Unified NCEP Post-processor is operational (stand alone). • Being placed within the output component of NEMS (4th quarter 2010 for NAM). • Output • Generic output components with parallel I/O nearing completion. • Creating such components permits overall generalization and optimization.

  18. Status Report (3) • NOAA/GSD • Collaborating on placing the FIM (Finite-volume Icosahedral Model) under NEMS. • NOAA/GFDL • Collaborating on making the MOM4 an ocean component in the coupled seasonal CFS (Climate Forecast System) and GFS. • NASA/Goddard • Collaborating on Aerosols. • Collaborating on including LIS schemes.

  19. Summary ► NCEP/EMC is constructing NEMS as a single ESMF-based framework for its primary operational systems in order to unify and streamline their development and to expedite interaction with other developers throughout the community. ► The GFS and NMM-B have been placed together under NEMS with additional cores to follow. ► Collaboration is ongoing with other centers to promote the exchange of various modeling systems/packages.

More Related