Document Type
Conference Proceeding
Publication Date
11-17-2019
Abstract
We study the simulation of stellar mergers, which requires complex simulations with high computational demands. We have developed Octo-Tiger, a finite volume grid-based hydrodynamics simulation code with Adaptive Mesh Refinement which is unique in conserving both linear and angular momentum to machine precision. To face the challenge of increasingly complex, diverse, and heterogeneous HPC systems, Octo-Tiger relies on high-level programming abstractions. We use HPX with its futurization capabilities to ensure scalability both between nodes and within, and present first results replacing MPI with libfabric achieving up to a 2.8x speedup. We extend Octo-Tiger to heterogeneous GPU-accelerated supercomputers, demonstrating node-level performance and portability. We show scalability up to full system runs on Piz Daint. For the scenario's maximum resolution, the compute-critical parts (hydrodynamics and gravity) achieve 68.1% parallel efficiency at 2048 nodes.
Publication Source (Journal or Book title)
International Conference for High Performance Computing, Networking, Storage and Analysis, SC
Recommended Citation
Dai, G., Amini, P., Biddiscombe, J., Diehl, P., Frank, J., Huck, K., Kaiser, H., Marcello, D., Pfander, D., & Pfüger, D. (2019). From piz daint to the stars: Simulation of stellar mergers using high-level abstractions. International Conference for High Performance Computing, Networking, Storage and Analysis, SC https://doi.org/10.1145/3295500.3356221