001018068 001__ 1018068
001018068 005__ 20231130201845.0
001018068 0247_ $$2datacite_doi$$a10.34734/FZJ-2023-04519
001018068 037__ $$aFZJ-2023-04519
001018068 041__ $$aEnglish
001018068 1001_ $$0P:(DE-Juel1)164813$$aBadwaik, Jayesh$$b0$$eCorresponding author$$ufzj
001018068 1112_ $$aISC High Performance 2024$$cHamburg$$d2023-05-23 - 2023-05-26$$gISC2023$$wGermany
001018068 245__ $$aScalable Lattice Boltzmann Leaps to Exascale
001018068 260__ $$c2023
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001018068 520__ $$aLattice Boltzmann methods (LBM) are trustworthy alternatives to conventionalCFD, showing roughly an order of magnitude performance advantage thanNavier-Stokes approaches in comparable scenarios. The S CALABLE projectbrings together industrial and academic partners to create a new frameworkfor an industrial LBM-based computational fluid dynamics (CFD) solver whichcan achieve high performance, scalability, and energy efficiency.In the context of EuroHPC, LBM is especially well suited to exploit advancedsupercomputer architectures through vectorization, accelerators, and massiveparallelization. To achieve its goals, SCALABLE aims to transfer leading edgeperformance technology between waLBerla and LaBS, thus breaking the silosbetween the worlds of scientific computing and physical flow modelling.
001018068 536__ $$0G:(DE-HGF)POF4-5112$$a5112 - Cross-Domain Algorithms, Tools, Methods Labs (ATMLs) and Research Groups (POF4-511)$$cPOF4-511$$fPOF IV$$x0
001018068 536__ $$0G:(EU-Grant)956000$$aSCALABLE - SCAlable LAttice Boltzmann Leaps to Exascale (956000)$$c956000$$fH2020-JTI-EuroHPC-2019-1$$x1
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001018068 9141_ $$y2023
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