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HMT-DTC Task

HMT-DTC Task. Ed Tollerud In collaboration with ESRL, RFC’s, WFO’s, and CDWR. DTC Goals and the HMT. Provide early step up for front-line forecasters vis-à-vis ensemble usage Demonstrate usefulness of prototype ensemble forecast systems; thereby

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HMT-DTC Task

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  1. HMT-DTC Task Ed Tollerud In collaboration with ESRL, RFC’s, WFO’s, and CDWR

  2. DTC Goals and the HMT • Provide early step up for front-line forecasters vis-à-vis ensemble usage • Demonstrate usefulness of prototype ensemble forecast systems; thereby • provide long-range guidance for ensemble forecast systems • Enhance and motivate MET development HMT-West ensemble QPF evaluation is current focus to attain these goals

  3. Major accomplishments - past 6 months • Online WRF ensemble verification in near-real-time: • Regionalization of HMT domain • 30-day summaries • Observational data options • Object-based (MODE/MET) verification of historical atmospheric rivers • Direct comparison between GFS and WRF ensemble mean

  4. Online QPF verification for HMT-West • Equitable Threat Scores (ETS) for ensemble members • Forecasts initiated at 1200 UTC 1/17 2010 • Ensemble mean (black) • GFS (green) • 30-day summary boxplots, ETS • January 2010 • Large HMT domain • Intensity thresholds: .01,.1,.5,1,3 in

  5. Planned activities - next 6 months • Revise and expand winter exercise verification demonstration website • Prepare and present preliminary results from 2009-2010 winter exercise verification • Develop probabilistic capabilities for QPF in the HMT • Continue retrospective study of MET/MODE applications to atmospheric river forecasts

  6. Anticipated major accomplishments - next 6 months • Following features added to HMT-West winter verification exercise: • 1-2 new additional baseline models (SREF, NAM,…) • Time series display of MODE attributes • Displays of reliability and ROC diagrams • 6h gage accumulation options

  7. Plans for AOP 2011 • Incorporate spatial verification statistics for ensembles • Implement METvieweronline displays • Collaborate with DET to apply MET-based probabilistic verification techniques • Develop procedures to assess gridded QPE products and their impact on verification • Extend verification to additional meteorological fields • Implement prototype AR verification utility

  8. Anticipated major accomplishments – AOP 2011 • Revised and expanded verification options appropriate for HMT (West and East) • Comprehensive suite of probabilistic verification utilities applied to QPF for HMT • Object-based verification techniques implemented for AR forecasting • Reports and presentations from HMT-West verification activities

  9. Resource requirements for AOP 2011

  10. Challenges (Science and Resources) • Establishing synergistic roles of DET and DTC vis-à-vis ensemble verification • Determining potential use and advantages for regional and episodic verification • Developing appropriate down-scaling methods for baselining and comparison • Improving forecaster access to results of evaluation (ALPS? AWIPS?) • Validating long-range point precipitation forecast for Tillamook for September 2011

  11. HWT-DTC Collaboration Tara Jensen Collaborating with: NOAA: SPC, NSSL, HPC, AWC, ESRL, EMC Universities: OU/CAPS NCAR: MMM UCAR: COMET

  12. HWT-DTC Collaboration Goals • Explore a different R2O Paradigm • “O” is Forecasters, WFOs, and Prediction Centers • Evaluate convection allowing models on leading edge of NWP • Gather robust dataset for ensemble and deterministic studies • Datasets and algorithms leveraged by DET • Demonstrate utility of MET-based objective evaluation in a forecast environment • Provide near real-time evaluation during Spring Experiment • Application of MET feeds back to MET development • Facilitate faster R2O through focused evaluation of key topics identified during Spring Experiment • Perform retrospective studies using DTCs METviewer

  13. Major accomplishments - past 6 months • Enormous expansion of near real-time evaluation capability • Evaluation of 30 models during Spring Experiment (CAPS ensemble+3 operational baselines) • 10 Deterministic and 4 Ensemble products evaluated using traditional and spatial verification methods. • Three additional research models available for retrospective studies • DTC staff participation in each week of Spring Experiment 2010 • Manuscript accepted by AMS Weather and Forecasting.(Kain et. al, 2010 on Impact of radar assimilation on short-term forecasts)

  14. 2010 HWT Spring Experiment – 30 models CAPS SSEF Ensemble PM Mean CAPS 1 km Model CAPS SSEF ARW-CN(control w/ radar assimilation) 3 km HRRR 12km NAM CAPS SSEF ARW-C0(control w/o radar assimilation) • Assimilation continues to show greater skill over no-assimilation • CAPS Ens. Mean generally has • higher skill than 1km deterministic and Operational baselines

  15. Planned activities - next 6 months • Complete re-run of Spring Experiment evaluation • Add additional probabilistic measures(Brier Skill Score, ReliabilityDiagrams, and ROC Curves) • Perform retrospective evaluation of all members/products Probabilistic Verification of Ensemble Products (for a Single Run) Brier Score and decomposition CAPS Simple CAPS Neighborhood SREF Simple

  16. Anticipated major accomplishments - next 6 months • Analysis for presentations (Severe Local Storms and AMS) • Investigate physics perturbations on Accumulated Precip. and Reflectivity • Evaluate performance of probability products for QPF • Determine meaningful metrics from object-oriented evaluation of Radar Echo Top • Report on impact of Radar Assimilation on 0-12 hr forecast • Targeted analysis using METviewerto facilitate 2011 Spring Experiment planning • Quality-checked and complete dataset available to collaborators for their own investigation

  17. Plans for AOP 2011 • Contribute to R2O into SPC, HPC and AWC? by providing objective evaluation for their Spring Experiment foci: • Severe • Convective Initiation/Lightning • QPF/Heavy Rain • Ensemble Product Evaluation • Perform retrospective studies • Provide feedback to researchers on ensemble configuration and product generation • Leverage DET Verification Module • Help develop link between DET and HWT

  18. Anticipated major accomplishments – AOP 2011 • Near real-time objective evaluation for: • Simulated Satellite • Lightning Product • QPF and Probabilistic (PQPF) fields • Reflectivity (if desired) • Evaluation products available within 30 min – 2 hours of valid time (rather than 6-18 hours) • DTC staff member participationduring each week of Spring Experiment • Submit Journal article on QPF/PQPF evaluation

  19. Resource requirements for AOP 2011 * Spring Experiment participant Compute Resources: HPC facility like NOAA-Jet system or NCAR Bluefire system Goal is to use DET Verification Module.

  20. Challenges • How to balance expectations with budget • HWT Collaboration started small • Success has garnered more requests and expectation • Budget has not grown • How to serve the needs of additional testbeds • AWC planning to start separate Aviation Weather Testbed • Indicated interest in DTC participation - How do we fund activity? • HPC planning to continue using HWT facility • What if their evaluation needs expand? • Defining HWT-DTC Collaboration and DET interaction • What is appropriate evolution of these complimentary tasks?

  21. DTC Ensemble Testbed Zoltan Toth Collaborators: NOAA/NCEP/EMC DET website: http://www.dtcenter.org/det

  22. Goals for setting up new DET task • Develop and maintain DET infrastructure • Support its use by community • Establish NCEP operational system as benchmark • Test and evaluate new community methods • Transition successful methods to NCEPand other agencies • Link up with ensemble work in other test-beds

  23. DET MODULES Module 1: Configuration Module 2: Initial Perturbations Module 3: Model Perturbations Module 4: Statistical Post-Processing External Input(HMT, HWT, HFIP, etc) Module 5: Product Generation Module 6: Verification

  24. Major accomplishments - past 6 months • Initial plans developed for • Overall architecture of DET infrastructure • Each of 6 modules • Test and Evaluation • Initial tests for establishing basic capabilities for 2 modules • Configuration • Initial perturbations • Collaboration with other DTC tasks / projects • HMT – Joint plans for testing DET & HMT ensemble generation • HWT – Joint plans for evaluation of 2011 HWT ensemble • Outreach • Organized DET Workshop and engaged with WRF Ensemble WG • Activities coordinated with NCEP/EMC via regular meetings

  25. DET Workshop • Organized by DTC with input from WRF Ensemble WG • Aug. 18-19, Boulder • Excellent opportunity for connecting DET with community • 50 plus participants from community & agencies • Total of 6 Breakout sessions focused on • Configuration • Preliminary plans for testing • Extensive set of important recommendations • To be used for updating DET plans • WRF Ensemble WG meeting, Aug 20 • Additional recommendations

  26. Planned activities - next 6 months • Complete planning for overall design and 6 modules • Develop and test initial perturbation methods • Collaborate closely with NCEP/EMC for their next implementation • Complete protocol for T&E • Continue coordination / collaboration with HMT & HWT • Leverage winter 2010/11 HMT ensemble for DET testing • Prepare for joint evaluation of 2011 HWT ensemble

  27. Anticipated major accomplishments - next 6 months • Detailed plan for infrastructure – overall design plus 6 modules • Basic capability for modules 1-2 • Initial tests contributing to next NCEP implementation • In collaboration with NCEP • Protocol for T&E & basic capability for verification module (#6) • Joint plans / activities with HMT & HWT • Testing of generation & verification of ensemble (HMT) • Evaluation plan of ensemble (HWT) Basic capability – Functionality tested / supported Benchmark – Methods used in operations can be replicated

  28. Plans for AOP 2011 • Benchmark for module 2 • Contribute to next NCEP implementation; Replicate next NCEP configuration • T&E for module 2 • Use T&E protocol and verification module • Contribute to NCEP implementation for module 2 (FY11-12) • Test improved method, contribute with algorithm & software • Basic capability for module 3 • Initial tests with NEMS compatible and WRF models • Contribute to design and evaluation of HMT & HWT ensembles • Collaborative effort

  29. Anticipated major accomplishments – AOP 2011 • Benchmark for module 2 • Milestone: Build initial perturbation module replicating next NCEP SREF implementation • T&E for module 2 • Milestone: Complete tests of new initial perturbation configuration • Contribute to NCEP implementation for module 2 (FY11-12) • Milestone: Collaborate with NCEP scientists and contribute to development of new initial perturbation method • Basic capability for module 3 • Milestone: Demonstrate basic capabilities for model-related uncertainty (NEMS / WRF) • Contribute to design and evaluation of HMT & HWT ensembles • Milestones: • Test DET benchmark configuration for initial perturbation module in HMT ensemble • Contribution to evaluation of HWT ensemble

  30. Resource requirements for AOP 2011

  31. Challenges • Identify CPU resources for computer intensive DET work • Internal GSD & NCAR resources very limited • Prepare & submit proposals for external resources • Agencies and community desire quick setup of & extensive testing by DET • Mismatch between funding and expectations • How can DTC build benchmarks faster? • How can DTC engage other agencies / programs / projects? • HFIP, NUOPC, NEXTGEN, FAA, AFWA, etc • Contingency plan assuming additional funding • Accelerate integrated development of & community support for modules 4-6 • Basic capability for modules 4-5 – AOP11 • Benchmark for modules 4-6 – AOP12

  32. DET TIMELINE – STARTING MARCH 2011 • AOP11 deliverables – Basic capabilities, benchmarks • Basic capability for module 3 • Benchmark + T&E for module 2 • Contribute to NCEP implementation for modules 2 (FY11-12) • Contribute to design and evaluation of HMT & HWT ensembles • AOP12 deliverables – Benchmarks, T&E • Benchmark + T&E for module 3 • Basic capability for modules 4-5 • T&E of community methods for module 2 • AOP13 deliverables • Benchmark for modules 4 & 6 • Contribute to NCEP implementation for module 4 (FY13-14) • T&E of community methods for all modules • Update benchmarks

  33. DTC NEMS Laurie Carson Collaborators: NOAA/NCEP/EMC, NOAA/ESRL

  34. DTC NEMS Goals • Define community software goals for the NEMS modeling framework and operational model configurations • Gain expertise in the NEMS framework, by participating in and assisting the on-going development, with a community support focus • Develop an O2R and R2O ops-concept that supports the needs of both the research and the operational user

  35. Progress to-date: past 6 months • Explore approaches and ideas to help define DTC NEMS community software goals and timeline • On-going: internal (DTC) and external (EMC, NCAR, GSD) discussions • NEMS software status and near-term plans at EMC • 1-2 year plans including FIM, RapidRefresh, SREF • Technical expert meeting planned to focus on the research and operations connections between WRF and NEMS • Develop DTC expertise in NEMS software • On-going: technical discussions with NEMS developers • Code repository • Task/Work plan for Software Engineer hire • Software Engineer hire to focus on NEMS development (at EMC) • starting Oct 4, 2010 • Technical Meeting: October 5, 2010

  36. Planned activities - next 6 months • DTC Software Engineer • Will reside at EMC to further facilitate the information exchange and DTC contributions • Add in-depth knowledge of NEMS to the DTC • Contribute to the development of NEMS software • Begin work on a draft code management plan • Hold a technical information exchange meeting • Fall 2010: DTC, NOAA-EMC, NOAA-GSD, NCAR-MMM • overlap between WRF and NEMS with respect to community support • maintain a connection with the broad research community • use this as a path-finder to explore R2O and O2R mechanisms

  37. Anticipated major accomplishments - next 6 months • Refine work plan for DTC-NEMS software engineer • Add I/O layer capabilities to NEMS that will benefit research communities • Computing Platform Portability (systems, compilers) • Inter-operability with other community software • Users Guides, sample datasets, and examples of use • Technical meeting Oct 5, 2010 in Boulder • Focus on upcoming interactions between WRF and NEMS components

  38. Plans for AOP 2011 • Strengthen the foundation of DTC expertise with the NEMS software • Continue to contribute to the development process for NEMS, with a community user focus. • Refine DTC NEMS community software goals and timeline • Develop, with EMC, a NEMS code management plan to support community software and operational system goals

  39. Anticipated major accomplishments – AOP 2011 • DTC NEMS code management plan • Continued Technical Interchange Meetings • DTC NEMS community software plan, including a path from R2O and O2R

  40. Resource requirements for AOP 2011

  41. Challenges • Engagement of the NWP research community is a critical component to making contributions to the operational NWP capabilities • NEMS is still under active development, so any decision to package a software release to the research community must be done with careful coordination between EMC and DTC • A fully supported community software package requires considerable resources from DTC. Is this the best use of DTC resources?

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