Jun 20, 2015 · In this paper we give a comprehensive overview of our node-level optimization of the high-order finite element software SeisSol aiming at ...

The results show that the node-level optimization of the high-order finite element software SeisSol is able to reduce the computational error by up to five ...

In this paper we give a comprehensive overview of our node-level optimization of the high-order finite element software SeisSol aiming at minimizing energy- ...

In this paper we give a comprehensive overview of our nodelevel optimization of the high-order finite element software SeisSol aiming at minimizing energy- ...

High-Order ADER-DG Minimizes Energy- and Time-to-Solution of SeisSol. https://doi.org/10.1007/978-3-319-20119-1_25 ·. Journal: Lecture Notes in Computer ...

High-order ADER-DG minimizes energy-and time-to-solution of SeisSol. A Breuer, A Heinecke, L Rannabauer, M Bader. High Performance Computing: 30th International ...

May 28, 2018 · SeisSol is based on an Arbitrary high-order DERivative DG (ADER-DG) ... High-order ADER-DG minimizes energy-and time-to-solution of SeisSol.

High-Order ADER-DG Minimizes Energy- and Time-to-Solution of SeisSol - A. Breuer, A. Heinecke, L. Rannabauer, M.Bader: High Performance Computing, Lecture ...

High-order ADER-DG minimizes energy-and time-to-solution of SeisSol. A Breuer, A Heinecke, L Rannabauer, M Bader. High Performance Computing: 30th ...

Feb 13, 2024 · SeisSol employs the ADER (arbitrary high-order derivatives) ... High-order ADER-DG minimizes energy- and time-to-solution of SeisSol.