Download
1 / 51
510 likes | 512 Views
Join the Northwest Consortium for Regional Climate Modelling and contribute to the production of reliable regional climate predictions through dynamical downscaling of global climate models. Collaborate to explore initial condition, model, and physics uncertainty, filter unrealistic simulations, utilize appropriate nested domain structures, and employ sophisticated post-processing techniques.
E N D
Air Stagnation Advisory Criterion Graphics • Create products based on NWS criteria for Air Stagnation Advisories • Different offices have different criteria
Info Web Page: http://www.atmos.washington.edu/mm5rt/airstagnation/ • Rob and Jacob have decided they like the f3d graphic (3.6) in the Nov 27-Nov 30 case and 3.4 in the Dec 31-Jan 6 case. Dave is aslo going to produce the duration-dependent graphic (since that's what actually meets the full air stagnation advisory criteria for the NWS).
One the fly meteograms, time heights and soundings are fixed • Can choose any location you want.
On the fly 4/3 km graphics generator • http://www.atmos.washington.edu/mm5rt/on_the_fly_plots/ • For use off-campus, you need to login with User: trajectory Password: 7rajectory1
Trajectories: - all trajectories are now displaying terrain height and trajectory height - improved run speed (saved 45 minutes)
Evaluation of WRF 3.8.1 (we are using 3.7.1)Wind a bit worse
Bottom Line: 8.1 does not produce better verification than 7.1. Maybe worse. At this point, no reason to switch
Additional Computer Resources • New, higher speed infiniband switch (56 gbits per second between nodes) • Added 8 nodes of 24 cores each. • Total of 432 cores (processors) on SAGE • We have been testing the new nodes and have been having problems (sudden failures), odd changes in performance with different numbers of cores. • We now believe we have a hardware problem.
New Domain • Have been testing domain, but the sudden failures have slowed us down. • Hopefully, with new memory card, can move forward next week.
Timing (suspect because bad memory) • Using 408 out of 432 cores, the new domain rain 30 minutes slower than current domain • Will rerun timing tests after memory fixed and attempt to use more cores (may have to make slight changes in domain) • Other things to try (nestdown approach with ONLY running 4/3 km domain) • Split domain
6-month Strategic Plan • October: • figure out the problems with the new cluster • Try alternative approaches if necessary to resolve problems and to speed up. • Reduce number of nests (12-4-1.3 km) • Nestdown 1.3 km from 4 km saved every ten minutes. • November • Test new physics (MYNN PBL-–same as used in HRRR), new Morrison P3 microphysics scheme (cheaper and better) • December • Upgrade physics if beneficial • January • Evaluate computer resources and approaches for a 4-km ensemble of the region, using IC and physics uncertainty--could do in off hours. • Feb-March • Start constructing ensemble.
A Northwest Consortium for Regional Climate Modelling Cliff Mass Department of Atmospheric Sciences University of Washington
Society needs reliable information on the regional implications of climate change • Infrastructure decisions are being made now for assets that will last well into the current century when the impact of GW will be substantial • Adaptation planning • Motivation for mitigation efforts
Bottom Line of the Talk There is only one viable method for producing the required regional climate predictions: dynamical downscaling of global climate models But to do this right, there is much that is required.
Requirements • The use of large numbers of global model simulations (GCMs) to explore initial condition, model, and physics uncertainty. • Filtering to remove GCMs unable to simulate realistically the current climate • Use of sufficient resolution in the regional climate models (minimum 12-15 km grid spacing) to get realistic NW circulations • Use of an appropriate nested domain structure of the regional simulations (MUST include the Rockies with sufficient resolution) • Must have sophisticated post-processing to reduce biases and get reliable probabilities.
The Challenge: Can We Do This Right, Together? • Combine regional resources and personnel so that together we can do what one group cannot accomplish alone. • There is a precedent for such combination of resources: the Northwest Modeling Consortium.
Dynamical Downscaling Not Statistical Downscaling • Only fully dynamical downscaling can hope to simulate the non-linearities and complexities of the future climate response. • Examples: • Location and distribution of precipitation changes as stability changes. • Onshore flow and coastal marine clouds enhanced by greater onshore pressure gradients • Albedo feedbacks as snow melts.
Dozens of downscaled GCM runs not 1-3 • There is substantial uncertainty in the GCM simulations and a handful of simulations can not get a handle on the inherent uncertainties. • Sources: physics uncertainty, initial state uncertainty, emission uncertainty, and many more. • GCMs produce a wide variety of local solutions
Over the Northwest, the simulations must have a grid spacing of a least 12-15 km grid spacingBased on over 10 years of twice-daily simulations at 36-12-4-1.3 km at the University of Washington, with objective verification
Integration of ancillary physics/applications (e.g, hydro, coastal ocean, air quality) to create a total environmental modeling system
The Northwest Climate Modeling Consortium: A Proposal • Combine resources of regional government entities, state and Federal agencies, foundations, academic institutions, tribes, and other to create the most robust climate predictions possible. • Similar to the NW modeling consortium, decisions could be make by contributing stakeholders • Amazon has provided a modest amount to start this.
Tasks • Acquire or secure sufficient computer resources for regional climate downscaling and to run additional GCM simulations. • Develop GCM filtering approaches. • Acquire CMIP-5 (6) GCM runs and run/acquire additional simulations. • Run large numbers of regional climate simulations
Tasks • Run applications models (e.g., hydro) • Optimally post-process and combine regional climate simulations to provide robust probabilistic guidance
Products • Model grids and custom products will be available to supporting stakeholders and their designees. • Grids can also be made available to regional climate impacts group (Oregon State, UW CIG, etc.)
