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ROMA - 2015
New Software and Platforms
New Results
Bibliography
New Software and Platforms
New Results
Bibliography


Section: New Results

Load-balanced local time stepping for large-scale wave propagation

Participants : Max Rietmann [Univ. Lugano, CH] , Daniel Peter [Univ. Lugano, CH] , Olaf Schenk [Univ. Lugano, CH] , Bora Uçar, Marcus J. Grote [Univ. Basel, CH] .

In complex acoustic or elastic media, finite element meshes often require regions of refinement to honor external or internal topography, or small-scale features. These localized smaller elements create a bottleneck for explicit time-stepping schemes due to the Courant-Friedrichs-Lewy stability condition. Recently developed local time stepping (LTS) algorithms reduce the impact of these small elements by locally adapting the time-step size to the size of the element. The recursive, multi-level nature of our LTS scheme introduces an additional challenge, as standard partitioning schemes create a strong load imbalance across processors. We examined [33] the use of multi-constraint graph and hypergraph partitioning tools to achieve effective, load-balanced parallelization. We implemented LTS-Newmark in the seismology code SPECFEM3D and compared performance and scalability between different partitioning tools on CPU and GPU clusters using examples from computational seismology.