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EXAHD: A Massively Parallel Fault Tolerant Sparse Grid Approach for High-Dimensional Turbulent Plasma Simulations.

, , , , , , , , и . Software for Exascale Computing, том 136 из Lecture Notes in Computational Science and Engineering, Springer, (2020)

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Robert Pollinger

Petra Pollinger

Alexander Pöllinger

Felix Pollinger

Josef Pollinger

 

Другие публикации лиц с тем же именем

A mass-conserving sparse grid combination technique with biorthogonal hierarchical basis functions for kinetic simulations., , , и . CoRR, (2022)Beyond Fork-Join: Integration of Performance Portable Kokkos Kernels with HPX., , , , , , и . IPDPS Workshops, стр. 377-386. IEEE, (2021)Stable and mass-conserving high-dimensional simulations with the sparse grid combination technique for full HPC systems and beyond.. University of Stuttgart, Germany, (2024)EXAHD: A Massively Parallel Fault Tolerant Sparse Grid Approach for High-Dimensional Turbulent Plasma Simulations., , , , , , , , и . Software for Exascale Computing, том 136 из Lecture Notes in Computational Science and Engineering, Springer, (2020)Learning-Based Load Balancing for Massively Parallel Simulations of Hot Fusion Plasmas., и . PARCO, том 36 из Advances in Parallel Computing, стр. 137-146. IOS Press, (2019)Distributing Higher-Dimensional Simulations Across Compute Systems: A Widely Distributed Combination Technique., , , и . HiPar@SC, стр. 1-9. IEEE, (2021)Realizing Joint Extreme-Scale Simulations on Multiple Supercomputers - Two Superfacility Case Studies., , , и . SC, стр. 98. IEEE, (2024)Leveraging the Compute Power of Two HPC Systems for Higher-Dimensional Grid-Based Simulations with the Widely-Distributed Sparse Grid Combination Technique., , , , и . SC, стр. 84:1-84:14. ACM, (2023)DisCoTec: Distributed higher-dimensional HPC simulations with the sparse grid combination technique., , , , и . J. Open Source Softw., 10 (106): 7018 (февраля 2025)