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J Sci Comput 24:45–78įischer P, Lottes J, Pointer WD, Siegel A (2008) Petascale algorithms for reactor hydrodynamics. Lottes JW, Fischer P (2005) Hybrid multigrid/Schwarz algorithms for the spectral element method. In: Kornhuber R, Hoppe R, Périaux J, Pironneau O, Widlund O, Xu J (eds) Domain decomposition methods in science and engineering series. įischer P, Lottes JW (2004) Hybrid Schwarz-multigrid methods for the spectral element method: extensions to Navier–Stokes.
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J Supercomput 67(2):528–564įischer P, Lottes JW, Kerkemeier SG Nek5000 web page. Niemeyer K, Sung C (2014) Recent progress and challenges in exploiting graphics processors in computational fluid dynamics. Xia Y, Luo H, Luo L, Edwards J, Lou J (2015) OpenACC acceleration of an unstructured CFD solver based on a reconstructed discontinuous Galerkin method for compressible flows. In: The proceedings of the first workshop on accelerator programming using directives SC14, LA, USA, pp 47–54
SIMPLY FORTRAN CUDA SUPPORT CODE
Kraus J, Schlottke M, Adinetz A, Pleiter D (2014) Accelerating a C++ CFD code with OpenACC. In: The proceeding of 13th IEEE/ACM international symposium on cluster, cloud, and grid computing, Delft, The Netherlands Hoshino T, Maruyama N, Matsuoka S, Takaki R (2013) CUDA vs OpenACC: performance case studies with kernel benchmarks and a memory-bound CFD application. Jespersen DC (2010) Acceleration of a CFD code with a GPU. In: Int J High Perform Comput Appl (accepted) Otten M, Gong J, Mametjanov A, Vose A, Levesque J, Fischer P, Min M (2015) An MPI/OpenACC implementation of a high order electromagnetics solver with GPUDirect communication.