Computational methods of continuum mechanics for exaflop computer systems [Алгоритмы решения задач механики сплошной среды для экзафлопсных систем]

The article deals with applied issues which arise when cxascale computing are used to solve applied problems. Based on the review of works in this area, the most pressing issues related to exascale calculations are highlighted. Particular attention is paid to software features, algorithms and numerical methods for ехаflор supercomputers. The requirements for such programs and algorithms are formulated. Based on the review of existing approaches related to achieving high performance, the main fundamentally different and non-overlapping directions for improving the performance of calculations are highlighted. The question of the necessity for criteria of applicability for computational algorithms for exaflop supercomputers is raised. Currently, the only criterion which is used, demands the absence of a siginificant drop in efficieney in the transition from a petaflop calculation to a ten-petaflop calculation. In the absence of the possibility of such calculations, simulation modelling can he carried out. Examples of development for new and adaptation of existing algorithms and numerical methods for solving problems of continuum mechanics are given. The, fundamental difference between algorithms specially designed for exascale machines and algorithms adapted for exaflops is shown. The analysis of publications has showed that in the field of solving problems of continuum mechanics, the approach not associated with the development of new, but rather with the adaptation of existing numerical methods and algorithms to the architecture of exaflop supercomputers prevails. The analysis of the most popular applications is made. The most relevant application of exaflop supercomputers in this area is computational fluid dynamics. This is because hydrodynamic applications are rich and diverse field. The number of publications indicates that the involvement of high-performance computing now is available and in demand. © 2021 The Pharmaceutical Society of Japan

Authors
Snytnikov Aleksey V. , Lazareva Galina G.
Number of issue
5
Language
Russian
Pages
81-94
Status
Published
Volume
26
Year
2021
Organizations
  • 1 Institute of Automation and Electrometry SB RAS, Novosibirsk, 630090, Russian Federation
  • 2 Novosibirsk State Technical University, Novosibirsk, 630073, Russian Federation
  • 3 Peoples Friendship University of Russia, Moscow, 117198, Russian Federation
  • 4 Novosibirsk State University, Novosibirsk, 630090, Russian Federation
Keywords
Exaflops calculations; Mathematical modelling of problems in contiimum mechanics; Nunierical methuds
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