Numerical simulation of high-speed air flows with high-temperature effects on graphics processor units

Результат исследований: Публикации в книгах, отчётах, сборниках, трудах конференцийстатья в сборнике

Выдержка

Numerical simulation of shock wave phenomena in supersonic compressible flows with high-temperature effects is discussed. The finite volume method is applied to solve unsteady three-dimensional compressible Navier–Stokes equations on unstructured meshes. Hightemperature gas effects altering the gas dynamical processes are taken into account. Possibilities of the use of graphics processor units (GPUs) for the simulation of high-speed flows are demonstrated. Solutions of some test cases on GPUs are reported, and a comparison between
computational results of equilibrium chemically reacting and perfect air
flowfields is performed. Speedup of solution on GPUs with respect to the
solution on central processor units (CPUs) is compared. The results obtained provide promising perspective for designing a GPU-based software framework for practical applications.
Язык оригиналаанглийский
Название основной публикации5th International Conference on Information Technologies and High-Performance Computing, ITHPC 2019
Подзаголовок основной публикацииShort Paper Proceedings
РедакторыSergey I. Smagin, Alexander A. Zatsarinnyy
Страницы139-146
Том2426
СостояниеОпубликовано - 1 янв 2019
СобытиеV International Conference on Information Technologies and High-Performance Computing - Хабаровск, Российская Федерация
Продолжительность: 16 сен 201919 сен 2019

Серия публикаций

НазваниеCEUR Workshop Proceedings
ISSN (печатное издание)1613-0073

Конференция

КонференцияV International Conference on Information Technologies and High-Performance Computing
Сокращенный заголовокITHPC 2019
СтранаРоссийская Федерация
ГородХабаровск
Период16/09/1919/09/19

Отпечаток

air flow
temperature effects
central processing units
high speed
simulation
compressible flow
finite volume method
gases
shock waves
mesh
computer programs

Предметные области Scopus

  • Компьютерные науки (все)

Цитировать

Emelyanov, V. N., Karpenko, A. G., & Volkov, K. N. (2019). Numerical simulation of high-speed air flows with high-temperature effects on graphics processor units. В S. I. Smagin, & A. A. Zatsarinnyy (Ред.), 5th International Conference on Information Technologies and High-Performance Computing, ITHPC 2019: Short Paper Proceedings (Том 2426, стр. 139-146). (CEUR Workshop Proceedings).
Emelyanov, Vladislav N. ; Karpenko, Anton G. ; Volkov, Konstantin N. . / Numerical simulation of high-speed air flows with high-temperature effects on graphics processor units. 5th International Conference on Information Technologies and High-Performance Computing, ITHPC 2019: Short Paper Proceedings . редактор / Sergey I. Smagin ; Alexander A. Zatsarinnyy. Том 2426 2019. стр. 139-146 (CEUR Workshop Proceedings).
@inbook{eb3636af903545159ebf07138745c070,
title = "Numerical simulation of high-speed air flows with high-temperature effects on graphics processor units",
abstract = "Numerical simulation of shock wave phenomena in supersonic compressible flows with high-temperature effects is discussed. The finite volume method is applied to solve unsteady three-dimensional compressible Navier–Stokes equations on unstructured meshes. Hightemperature gas effects altering the gas dynamical processes are taken into account. Possibilities of the use of graphics processor units (GPUs) for the simulation of high-speed flows are demonstrated. Solutions of some test cases on GPUs are reported, and a comparison betweencomputational results of equilibrium chemically reacting and perfect airflowfields is performed. Speedup of solution on GPUs with respect to thesolution on central processor units (CPUs) is compared. The results obtained provide promising perspective for designing a GPU-based software framework for practical applications.",
author = "Emelyanov, {Vladislav N.} and Karpenko, {Anton G.} and Volkov, {Konstantin N.}",
year = "2019",
month = "1",
day = "1",
language = "English",
volume = "2426",
series = "CEUR Workshop Proceedings",
pages = "139--146",
editor = "Smagin, {Sergey I. } and Zatsarinnyy, {Alexander A. }",
booktitle = "5th International Conference on Information Technologies and High-Performance Computing, ITHPC 2019",

}

Emelyanov, VN, Karpenko, AG & Volkov, KN 2019, Numerical simulation of high-speed air flows with high-temperature effects on graphics processor units. в SI Smagin & AA Zatsarinnyy (ред.), 5th International Conference on Information Technologies and High-Performance Computing, ITHPC 2019: Short Paper Proceedings . том. 2426, CEUR Workshop Proceedings, стр. 139-146, Хабаровск, Российская Федерация, 16/09/19.

Numerical simulation of high-speed air flows with high-temperature effects on graphics processor units. / Emelyanov, Vladislav N. ; Karpenko, Anton G. ; Volkov, Konstantin N. .

5th International Conference on Information Technologies and High-Performance Computing, ITHPC 2019: Short Paper Proceedings . ред. / Sergey I. Smagin; Alexander A. Zatsarinnyy. Том 2426 2019. стр. 139-146 (CEUR Workshop Proceedings).

Результат исследований: Публикации в книгах, отчётах, сборниках, трудах конференцийстатья в сборнике

TY - CHAP

T1 - Numerical simulation of high-speed air flows with high-temperature effects on graphics processor units

AU - Emelyanov, Vladislav N.

AU - Karpenko, Anton G.

AU - Volkov, Konstantin N.

PY - 2019/1/1

Y1 - 2019/1/1

N2 - Numerical simulation of shock wave phenomena in supersonic compressible flows with high-temperature effects is discussed. The finite volume method is applied to solve unsteady three-dimensional compressible Navier–Stokes equations on unstructured meshes. Hightemperature gas effects altering the gas dynamical processes are taken into account. Possibilities of the use of graphics processor units (GPUs) for the simulation of high-speed flows are demonstrated. Solutions of some test cases on GPUs are reported, and a comparison betweencomputational results of equilibrium chemically reacting and perfect airflowfields is performed. Speedup of solution on GPUs with respect to thesolution on central processor units (CPUs) is compared. The results obtained provide promising perspective for designing a GPU-based software framework for practical applications.

AB - Numerical simulation of shock wave phenomena in supersonic compressible flows with high-temperature effects is discussed. The finite volume method is applied to solve unsteady three-dimensional compressible Navier–Stokes equations on unstructured meshes. Hightemperature gas effects altering the gas dynamical processes are taken into account. Possibilities of the use of graphics processor units (GPUs) for the simulation of high-speed flows are demonstrated. Solutions of some test cases on GPUs are reported, and a comparison betweencomputational results of equilibrium chemically reacting and perfect airflowfields is performed. Speedup of solution on GPUs with respect to thesolution on central processor units (CPUs) is compared. The results obtained provide promising perspective for designing a GPU-based software framework for practical applications.

UR - http://ceur-ws.org/Vol-2426/

UR - http://www.scopus.com/inward/record.url?scp=85071416552&partnerID=8YFLogxK

M3 - Article in an anthology

VL - 2426

T3 - CEUR Workshop Proceedings

SP - 139

EP - 146

BT - 5th International Conference on Information Technologies and High-Performance Computing, ITHPC 2019

A2 - Smagin, Sergey I.

A2 - Zatsarinnyy, Alexander A.

ER -

Emelyanov VN, Karpenko AG, Volkov KN. Numerical simulation of high-speed air flows with high-temperature effects on graphics processor units. В Smagin SI, Zatsarinnyy AA, редакторы, 5th International Conference on Information Technologies and High-Performance Computing, ITHPC 2019: Short Paper Proceedings . Том 2426. 2019. стр. 139-146. (CEUR Workshop Proceedings).