Geodesic
Numerical simulation of aero- and gasdynamic problems on the hybrid supercomputer ``MVS-EXPRESS''
Matematičeskoe modelirovanie, Tome 22 (2010) no. 4, pp. 90-98.

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In this article we investigate possibility of simultaneous usage of several graphic accelerators NVidia GeForce for numerical simulation of aero- and gasdynamics problems. The software package for solving Euler's equations on hybrid supercomputer “MVS-EXPRESS” was written. “MVS-EXPRESS” is test hybrid NUMA-cluster created in Keldysh institute of applied mathematics, and contains NVidia GPU on each of six nodes. The software allows us to solve problems, both on multiple-purpose processors, and on graphic accelerators.
Keywords: aero- and gasdynamic, supercomputer
Mots-clés : Euler's equations. 
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A. A. Davydov. Numerical simulation of aero- and gasdynamic problems on the hybrid supercomputer ``MVS-EXPRESS''. Matematičeskoe modelirovanie, Tome 22 (2010) no. 4, pp. 90-98. http://geodesic.mathdoc.fr/item/MM_2010_22_4_a5/

[1] AMD Inc. ATI Web Site http://ati.amd.com

[2] NVIDIA Corporation http://nvidia.com

[3] Davydov A. A., “Primenenie graficheskikh protsessorov dlya rascheta zadach aerodinamiki”, XVII Vserossiiskaya konferentsiya “Teoreticheskie osnovy i konstruirovanie chislennykh algoritmov dlya resheniya zadach matematicheskoi fiziki s prilozheniem k mnogoprotsessornym sistemam”, posvyaschennaya pamyati K. I. Babenko

[4] Voevodin V. V., Voevodin Vl. V., Parallelnye vychisleniya, BKhV-Peterburg, SPb., 2002, 608 pp.

[5] Godunov S. K., Zabrodin A. V., Ivanov M. Ya., Kraiko A. N., Prokopov G. P., Chislennoe reshenie mnogomernykh zadach gazovoi dinamiki, Nauka, M., 1976 | MR | Zbl

[6] Andreev S. S., Davydov A. A., Dbar S. A., Karagichev A. B., Latsis A. O., Plotkina E. A., “Maket gibridnogo superkompyutera MVS-ekspress”, XVII Vserossiiskaya konferentsiya “Teoreticheskie osnovy i konstruirovanie chislennykh algoritmov dlya resheniya zadach matematicheskoi fiziki s prilozheniem k mnogoprotsessornym sistemam”, posvyaschennaya pamyati K. I. Babenko, Novorossiiskaya oblast, p. Dyurso, 2008

[7] Chzhen P., Otryvnye techeniya, v. 3, Mir, M., 1973

[8] Zubkov A. I., Garanin A. F., Safronov V. F., Sukhanovskaya L. D., Tretyakov P. K., “Sverkhzvukovoe obtekanie osesimmetrichnykh tel pri gorenii v perednikh i donnykh zonakh otryva”, Teplofizika i aeromekhanika, 12:1 (2005), 1–12 | MR

[9] http://www.parallel.ru/tech/tech_dev/ifaces.html

[10] Chetverushkin B. N., “High-performance computing: fundamental problems in industrial applications”, Parallel, distributed and Grid computing for engineering, eds. B. H. V. Topping, P. Ivanyi, Saxe-Coburg Publications, Stirlingshire, Scotland, 2009, 369–388