Titlebook: Sustained Simulation Performance 2021; Proceedings of the J Michael M. Resch,Johannes Gebert,Wolfgang Bez Conference proceedings 2023 The E

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Supercomputer for Quest to Unsolved Interdisciplinary Datascience (SQUID) and its Five Challenges, set in designing SQUID: Tailor-made computing, HPC and HPDA integration, Cloud-interlinked and -synergized, Secure computing environment, and Data aggregation environment. After that, the future issues to be tackled through the actual operation of SQUID are described.

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Simulation of Field-induced Chiral Phenomena in Inhomogeneous Superconductivity, reduced through acceleration via code optimization that is suitable for vector parallelization. Reducing the calculation time makes it possible to extend the simulation to lower temperatures where the inhomogeneous superconductivity spreads to a greater distance from the interface.

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Exploiting Hybrid Parallelism in the LBM Implementation Musubi on Hawk,th many outbound communications to neighboring partitions. We briefly discuss the hybrid parallelization of . and investigate how the usage of . threads affects the performance when running simulations on the . supercomputer at ..

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Supercomputer for Quest to Unsolved Interdisciplinary Datascience (SQUID) and its Five Challenges, Datascience (SQUID) in May 2021. SQUID is a hybrid supercomputing system composed of three kinds of heterogeneous compute nodes and delivers 16.591 PFlops as the theoretical performance. This paper overviews the architecture and structure of SQUID and then explains the five challenges which we have

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Exploiting Hybrid Parallelism in the LBM Implementation Musubi on Hawk,omputation on .. The Lattice Boltzmann method enables explicit computation of incompressible flows and the mesh discretization can be automatically generated, even for complex geometries. The basic Lattice Boltzmann kernel is fairly simple and involves only few floating point operations for each lat