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Вычислительные методы и приложения
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Additive schemes (splitting schemes) for systems of partial derivative equations
P. N. Vabishchevich
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1–6 |
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Modeling of floating ice vibrations during plane landing on
ice airdromes
A. A. Kuleshov, V. V. Mymrin
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7–13 |
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On a posteriori accuracy estimates for solutions of linear
ill-posed problems and extra-optimal regularizing algorithms
A. S. Leonov
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14–24 |
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Convergence rate estimation for finite-difference methods
of solving the ill-posed Cauchy problem for second-order
linear differential equations in a Banach space
A. B. Bakushinskii, M. Yu. Kokurin, V. V. Klyuchev
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25–31 |
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Application of the immersed boundary method for solving the
system of Navier–Stokes equations in domains with complex geometry
E. V. Mortikov
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32–42 |
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Modeling of separated flows near a suction slot
I. N. Logachev, K. I. Logachev, V. Yu. Zorya, O. A. Averkova
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43–52 |
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An explicit multi-step algorithm for the simulation of
self-gravitating gas dynamics
O. A. Stadnichenko, V. N. Snytnikov
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53–67 |
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Mathematical simulation of separated flows at the inlet of a plane
screened channel
I. N. Logachev, K. I. Logachev, O. A. Averkova
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68–77 |
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An iterative method for solving the regularized Bingham problem
P. P. Grinevich, M. A. Ol'shanskii
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78–87 |
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Parallel implementation of 2D IIR-filters using image processing
distributed systems
A. V. Nikonorov, M. G. Milyutkin, V. A. Fursov
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88–94 |
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Numerical modeling and experimental research of the “Karabetov Mountain”
mud volcano by vibroseismic methods
B. M. Glinskii, D. A. Karavaev, V. V. Kovalevsky, V. N. Martynov
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95–104 |
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Application of parallel algorithms for solving hydrodynamic problems by the vortex element method
I. K. Marchevsky, G. A. Scheglov
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105–110 |
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Application of supercomputers for the molecular dynamics simulation of
processes in condensed matter
A. V. Yanilkin, P. A. Zhilyaev, A. Yu. Kuksin, H. E. Norman, V. V. Pisarev, V. V. Stegailov
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111–116 |
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Modeling of impact processes in a textile armor and in a human body on a computational cluster SKIF Ural
N. Yu. Dolganina, S. B. Sapozhnikov, A. A. Maricheva
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117–126 |
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Combined MPI+threads parallel implementation of the block method
for heat-transfer simulation in structurally inhomogeneous media
D. B. Volkov-Bogorodskii, G. B. Sushko, S. A. Kharchenko
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127–136 |
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Accuracy estimation and comparative analysis
of difference schemes of high-order approximation
A. V. Safronov
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137–143 |
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Solving the Boltzmann equation on GPU
Yu. Yu. Kloss, F. G. Cheremisin, P. V. Shuvalov
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144–152 |
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Программирование
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Remote computer simulation of shock-wave structures in
hypersonic gas flows: “workplace as a service” cloud
computing technology
G. A. Tarnavskii
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1–25 |
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Automation tools for the documentation of large software packages
O. B. Arushanyan, N. A. Bogomolov, N. I. Volchenskova, A. D. Kovalev
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26–30 |
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NPB UA benchmark scaling to thousands of Blue Gene/P cores using
PGAS-like OpenMP extension
A. A. Korzh
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31–41 |
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GRID technologies in computing chemistry
V. M. Volokhov, D. A. Varlamov, A. V. Pivushkov, G. A. Pokatovich, N. F. Surkov
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42–49 |
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