Collaborative Research: Elements: A Physics-Rich, Singularity-Free, Spherical AMR Framewor — NSF Award to University of Notre Dame
This project addresses the needs of scientific communities studying the Earth, planets, stars, and their cosmic environments for a robust and extensible modeling framework specifically adapted to the surface of a sphere. The aim is to develop a very general scientific software framework called GeoMesh-HAMMER that is su
| Award title | Collaborative Research: Elements: A Physics-Rich, Singularity-Free, Spherical AMR Framewor |
|---|---|
| Award ID | 2514038 |
| Awardee | University of Notre Dame |
| City | NOTRE DAME |
| State | IN |
| Amount obligated | $329,253 |
| Principal investigator | Dinshaw Balsara |
| Program | PHYSICS AT THE INFO FRONTIER, Software Institutes |
| Start date | 09/01/2025 |
| Abstract | This project addresses the needs of scientific communities studying the Earth, planets, stars, and their cosmic environments for a robust and extensible modeling framework specifically adapted to the surface of a sphere. The aim is to develop a very general scientific software framework called GeoMesh-HAMMER that is suitable for running on supercomputers. GeoMesh-HAMMER will be used to study the dynamics of different space plasma environments, including the magnetospheres around planets, stellar |
| Source | NSF Awards |
$799/mo
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