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Computer Research and Modeling, 2018, Volume 10, Issue 5, Pages 631–643
DOI: https://doi.org/10.20537/2076-7633-2018-10-5-631-643
(Mi crm676)
 

SPECIAL ISSUE

Mathematical simulation of vortex motion in the astrophysical objects on the basis of the gas-dynamic model

A. V. Babakova, V. M. Chechetkinb

a Institute for Computer Aided Design of RAS, 19/18 Vtoraya Brestskaya st., Moscow, 123056, Russia
b Keldysh Institute of Applied Mathematics of RAS, 4 Miusskaya sq., Moscow, 125047, Russia
References:
Abstract: The application of a conservative numerical method of fluxes is examined for studying the vortex structures in the massive, fast-turned compact astrophysical objects, which are in self-gravity conditions. The simulation is accomplished for the objects with different mass and rotational speed. The pictures of the vortex structure of objects are visualized. In the calculations the gas-dynamic model is used, in which gas is accepted perfected and nonviscous. Numerical procedure is based on the finite-difference approximation of the conservation laws of the additive characteristics of medium for the finite volume. The “upwind” approximations of the densities of distribution of mass, components of momentum and total energy are applied. For the simulation of the objects, which possess fast-spin motion, the control of conservation for the component of moment of momentun is carried out during calculation. Evolutionary calculation is carried out on the basis of the parallel algorithms, realized on the computer complex of cluster architecture. Algorithms are based on the standardized system of message transfer Message Passing Interface (MPI). The blocking procedures of exchange and non-blocking procedures of exchange with control of the completion of operation are used. The parallelization on the space in two or three directions is carried out depending on the size of integration area and parameters of computational grid. For each subarea the parallelization based on the physical factors is carried out also: the calculations of gas dynamics part and gravitational forces are realized on the different processors, that allows to raise the efficiency of algorithms. The real possibility of the direct calculation of gravitational forces by means of the summation of interaction between all finite volumes in the integration area is shown. For the finite volume methods this approach seems to more consecutive than the solution of Poisson’s equation for the gravitational potential. Numerical calculations were carried out on the computer complex of cluster architecture with the peak productivity 523 TFlops. In the calculations up to thousand processors was used.
Keywords: mathematical simulation, conservative difference schemes, numerical methods, parallel algorithms, gas dynamics, astrophysics, massive stars, gravity, convection, vortex structures, supernovae.
Received: 03.06.2018
Revised: 22.08.2018
Accepted: 21.09.2018
Document Type: Article
UDC: 519.6, 524.3, 533
Language: Russian
Citation: A. V. Babakov, V. M. Chechetkin, “Mathematical simulation of vortex motion in the astrophysical objects on the basis of the gas-dynamic model”, Computer Research and Modeling, 10:5 (2018), 631–643
Citation in format AMSBIB
\Bibitem{BabChe18}
\by A.~V.~Babakov, V.~M.~Chechetkin
\paper Mathematical simulation of vortex motion in the astrophysical objects on the basis of the gas-dynamic model
\jour Computer Research and Modeling
\yr 2018
\vol 10
\issue 5
\pages 631--643
\mathnet{http://mi.mathnet.ru/crm676}
\crossref{https://doi.org/10.20537/2076-7633-2018-10-5-631-643}
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  • https://www.mathnet.ru/eng/crm/v10/i5/p631
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    References:32
     
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