Publications

Mario Heene. A Massively Parallel Combination Technique for the Solution of High-Dimensional PDEs. 2018. [PUMA: HPC combination_technique plasma_physics sparse_grids]

Mario Heene, Alfredo Parra Hinojosa, Hans-Joachim Bungartz, and Dirk Pflüger. A massively-parallel, fault-tolerant solver for high-dimensional PDEs. European Conference on Parallel Processing, 635--647, 2016. [PUMA: HPC combination_technique load_balancing plasma_physics sparse_grids]

Rafael Lago, Michael Obersteiner, Theresa Pollinger, Johannes Rentrop, Hans-Joachim Bungartz, Tilman Dannert, Michael Griebel, Frank Jenko, and Dirk Pflüger. EXAHD: A massively parallel fault tolerant sparse grid approach for high-dimensional turbulent plasma simulations. Software for Exascale Computing-SPPEXA 2016-2019, 301--329, 2020. [PUMA: combination_technique hpc myown plasma_physics sparse_grids]

Theresa Pollinger, Johannes Rentrop, Dirk Pflüger, and Katharina Kormann. A stable and mass-conserving sparse grid combination technique with biorthogonal hierarchical basis functions for kinetic simulations. Journal of Computational Physics, October 2023. [PUMA: Vlasov-Poisson biorthogonal combination_technique hpc myown numerical_stability plasma_physics sparse_grids wavelets] URL

Theresa Pollinger, Marcel Hurler, Michael Obersteiner, and Dirk Pflüger. Distributing Higher-Dimensional Simulations Across Compute Systems: A Widely Distributed Combination Technique. 2021 IEEE/ACM International Workshop on Hierarchical Parallelism for Exascale Computing (HiPar), 1--9, 2021. [PUMA: combination_technique hpc myown parallelism processing simulation sparse_grids] URL

Mario Heene, Alfredo Parra Hinojosa, Hans-Joachim Bungartz, and Dirk Pflüger. A massively-parallel, fault-tolerant solver for high-dimensional PDEs. European Conference on Parallel Processing, 635--647, 2016. [PUMA: HPC combination_technique load_balancing plasma_physics sparse_grids]

Mario Heene. A Massively Parallel Combination Technique for the Solution of High-Dimensional PDEs. 2018. [PUMA: HPC combination_technique plasma_physics sparse_grids]

Theresa Pollinger, and Dirk Pflüger. Learning-Based Load Balancing for Massively Parallel Simulations of Hot Fusion Plasmas. Advances in Parallel Computing, (36)Parallel Computing: Technology Trends:137–146, IOS Press, 2020. [PUMA: HPC combination_technique load_balancing machine_learning myown plasma_physics sparse_grids] URL