Summer Colloquium 2008
Numerical Techniques for Global Atmospheric Models
The Primary Organizers are
Peter H. Lauritzen (NCAR), Christiane Jablonowski (University of Michigan), Mark Taylor (Sandia National Laboratories) and Ramachandran D. Nair (NCAR)
Additional support is provided by NASA.
The colloquium will survey the latest developments in numerical methods for the dynamical cores of Atmospheric General Circulation Models. Dynamical cores are the central component of every climate and weather research model. They solve the equations of motion on the resolved scales and determine not only the choice of the computational grid but also the predicted variables. Research in dynamical cores faces many scientific and computational challenges. For example, there is a high demand for inherent conservation (like conservation of mass, energy or enstrophy) and the anticipated increases in grid resolution put strong demands on the computational efficiency of the numerical schemes on parallel computing platforms. This includes highly scalable numerical methods on non-traditional computational grids such as cubed-sphere, icosahedral or Yin-Yang meshes. Next-generation dynamical cores will also allow for local grid refinement and foster switches in the dynamical approximations that are appropriate for the selected resolution. These choices incorporate hydrostatic and non-hydrostatic equation sets.
Organization
We invite graduate students from the atmospheric sciences, applied mathematics and other relevant disciplines to apply. The course will engage students in the primary options available for global models such as the choice of the computational grids, numerical methods, resolutions, prognostic variables or model equations. Students will participate in lectures and tutorial sessions, but devote a large fraction of time to research projects to be developed in small groups. Each group will be assigned to a specific dynamical core with which they will run idealized test cases. Model-specific tutors will provide expert advise during the hands-on experience. Students will gain in-depth knowledge of the numerical techniques and scientific performance of the dynamical core in question. The goal is to survey the advantages and trade-offs of different computational approaches and grids for climate and weather research.Requirements
Because of the advanced and quantitative nature of the proposed course, the course prerequisites are:1) One year of graduate school in a quantitative physical science relevant to numerical modeling of weather and/or climate,
2) A course in numerical methods for solving partial differential equations,
3) Knowledge of a high-level computer language (Fortran90 or similar),
4) Working knowledge of a Unix or Linux variant of an operating system.
Application deadline: March 1, 2008.
International students are eligible to apply.
There are no registration fees.
Some travel support is available.
Please apply at, http://www.regonline.com/2008-NCAR-ASP-Colloquium
Make sure you have your CV and a recommendation letter ready before applying.
Please note: Applicants will be notified of their acceptance status by the end of March.
More details on the course is available on the Wiki: https://www.wiki.ucar.edu/display/dycores/Home
For questions regarding the colloquium email:
asp-coll1@asp.ucar.edu