標題: Development of a Parallel Explicit Finite-Volume Euler Equation Solver using the Immersed Boundary Method with Hybrid MPI-CUDA Paradigm
作者: Kuo, F. A.
Chiang, C. H.
Lo, M. C.
Wu, J. S.
機械工程學系
Department of Mechanical Engineering
關鍵字: Euler equations;Finite volume method;Immersed boundary method;GPU
公開日期: 1-二月-2020
摘要: This study proposed the application of a novel immersed boundary method (IBM) for the treatment of irregular geometries using Cartesian computational grids for high speed compressible gas flows modelled using the unsteady Euler equations. Furthermore, the method is accelerated through the use of multiple Graphics Processing Units - specifically using Nvidia's CUDA together with MPI - due to the computationally intensive nature associated with the numerical solution to multi-dimensional continuity equations. Due to the high degree of locality required for efficient multiple GPU computation, the Split Harten-Lax-van-Leer (SHLL) scheme is employed for vector splitting of fluxes across cell interfaces. NVIDIA visual profiler shows that our proposed method having a computational speed of 98.6 GFLOPS and 61% efficiency based on the Roofline analysis that provides the theoretical computing speed of reaching 160 GLOPS with an average 2.225 operations/byte. To demonstrate the validity of the method, results from several benchmark problems covering both subsonic and supersonic flow regimes are presented. Performance testing using 96 GPU devices demonstrates a speed up of 89 times that of a single GPU (i.e. 92% efficiency) for a benchmark problem employing 48 million cells. Discussions regarding communication overhead and parallel efficiency for varying problem sizes are also presented.
URI: http://dx.doi.org/10.1017/jmech.2019.9
http://hdl.handle.net/11536/153720
ISSN: 1727-7191
DOI: 10.1017/jmech.2019.9
期刊: JOURNAL OF MECHANICS
Volume: 36
Issue: 1
起始頁: 87
結束頁: 102
顯示於類別:期刊論文