 Tanana V.P. and Sidikova A.I. |
1-9 |
|
An error estimate of a regularizing algorithm based of the generalized
residual principle when solving integral equations
|
| Krivovichev G.V. and Voskoboinikova E.V. |
10-17 |
|
Application of predictor-corrector finite-difference-based schemes in the
lattice Boltzmann method
|
| Danilin A.V. and Solovjev A.V. |
18-25 |
|
A modification of the CABARET scheme for the computation of multicomponent
gaseous flows
|
| Dudarenko M.A. |
26-38 |
|
Regularization of multilingual topic models
|
| Snytnikov N.V. |
39-51 |
|
A parallel algorithm for solving 2D Poisson's equation in the context
of nonstationary problems
|
| Stoyanovskaya O.P., Snytnikov N.V., and Snytnikov V.N. |
52-60 |
|
An algorithm for solving transient problems of gravitational gas dynamics:
a combination of the SPH method with a grid method of gravitational potential computation
|
| Bogachkova I.A., Zaikin O.S., Kochemazov S.E., Otpushchennikov I.V.,
Semenov A.A., and Khamisov O.O. |
61-77 |
|
Problems of search for collisions of cryptographic hash functions of the
MD family as variants of Boolean satisfiability problem
|
| Arushanyan I.O. |
78-85 |
|
Application of the boundary integral equation method to numerical solution
of Dirichlet's boundary value problem in the elasticity theory on polygons
|
| Nedozhogin N.S., Kopysov S.P., and Novikov A.K. |
86-93 |
|
Parallel forming of preconditioners based on the approximation
of the Sherman-Morrison inversion formula
|
| Snytnikov N.V. |
94-98 |
|
Domain decomposition based on a direct method for solving the three-dimensional
Poisson's equation in nonstationary astrophysical problems
|
| Voevodin Vl.V. |
99-111 |
|
An open AlgoWiki encyclopedia of algorithmic features: from mobile to extreme scales
|
| Melnikova L.A. and Rozenberg V.L. |
112-122 |
|
A stochastic modification of the spherical block-and-fault model of
lithosphere dynamics and seismicity
|
| Podryga V.O., Polyakov S.V., and Puzyrkov D.V. |
123-138 |
|
Supercomputer molecular modeling of thermodynamic equilibrium in
gas-metal microsystems
|
| Berendeev E.A., Vshivkov V.A., Efimova A.A., and Mesyats E.A. |
139-145 |
|
Numerical simulation of the turbulence development at interaction of an electron
beam with plasma
|
| Gurieva Y.L. and Il'in V.P. |
146-154 |
|
On acceleration technologies of parallel decomposition methods
|
| Akimova E.N., Misilov V.E., Skurydina A.F., and Tret'yakov A.I. |
155-164 |
|
Gradient methods for solving inverse gravimetry and magnetometry problems on
the Uran supercomputer
|
| Grechkin-Pogrebnyakov S.R., Kuzmina K.S., and Marchevsky I.K. |
165-176 |
|
An implementation of vortex methods for modeling 2D incompressible flows
using the CUDA technology
|
| Kireev S.E. |
177-186 |
|
Optimization of modeling the water-oil mixture filtration in elastic porous media
for clusters with Xeon Phi accelerators
|
| Salich V.L. |
187-195 |
|
A numerical study of the working process in the chamber of a thruster rocket
engine based on oxygen-hydrogen fuel
|
| Krivovichev G.V. and Mikheev S.A. |
196-204 |
|
Stability study of finite-difference-based lattice Boltzmann schemes
with upwind differences of high order approximation
|
| Bikulov D.A. |
205-214 |
|
An efficient implementation of the lattice Boltzmann method for
hybrid supercomputers
|
| Nokel M.A. and Loukachevitch N.V. |
215-234 |
|
Topic models: adding bigrams and taking account of the similarity between
unigrams and bigrams
|
| Arushanyan O.B., Volchenskova N.I., and Zaletkin S.F. |
235-241 |
|
On an approximate analytical method of solving ordinary differential equations
|
| Pushkaryov K.V. and Koshur V.D. |
242-255 |
|
A hybrid heuristic parallel method of global optimization
|
| Sukhinov A.I., Chistyakov A.E., Semenyakina A.A., and Nikitina A.V. |
256-267 |
|
A parallel implementation of sediment transport and bottom surface reconstruction
problems on the basis of higher-order difference schemes
|
| Voronin K.V. and Solovyev S.A. |
268-280 |
|
Solution of the Helmholtz problem using the preconditioned low-rank
approximation technique
|
| Goncharsky A.A. and Durlevich S.R. |
290-297 |
|
On a problem of the synthesis of nano-optical protection elements
|
| Gromov A.N. |
298-306 |
|
An approach for constructing one-point iterative methods for solving
nonlinear equations of one variable
|
| Kazakov A.L. and Lebedev P.D. |
307-317 |
|
Algorithms of optimal packing construction for planar compact sets
|
| Sadovskii V.M. and Chentsov E.P. |
318-327 |
|
Analysis of resonant excitation of layered and block media on the
basis of discrete models
|
| Sukhinov A.I., Protsenko E.A., Chistyakov A.E., and Shreter S.A. |
328-338 |
|
Comparison of computational efficiency of explicit and implicit schemes
for the sediment transport problem in coastal zones
|
| Nurislamov O.R., Lepikhin S.A., and Galimzyanov M.N. |
339-347 |
|
Formation of hydrate particles in the process of gas bubble rising
|
| Palachev I.A. |
348-359 |
|
A method of redundant constraint elimination in the problem of body recovery
based on support function measurements
|
| Matveev S.A. |
360-368 |
|
A parallel implementation of a fast method for solving the Smoluchowski-type
kinetic equations of aggregation and fragmentation processes
|
| Zheltkov D.A. and Tyrtyshnikov E.E. |
369-375 |
|
A parallel implementation of the matrix cross approximation method
|
| Bormotin K.S., Oleinikov A.I., and Ovcharov I.O. |
376-386 |
|
Modeling of riveted assembly of wing sheathing with forward stiffeners
|
| Lisitsa V.V. |
387-406 |
|
Dispersion analysis of the discontinuous Galerkin method as applied to
the equations of dynamic elasticity theory
|
| Pirova A.Yu., Meyerov I.B., Kozinov E.A., and Lebedev S.A. |
407-420 |
|
A parallel multilevel nested dissection algorithm for shared-memory
computing systems
|
| Daeva S.G. and Setukha A.V. |
421-435 |
|
On the numerical solution of the Neumann boundary value problem
for the Helmholtz equation using the method of hypersingular
integral equations
|
| Danilin A.V., Solovjev A.V., and Zaitsev A.M. |
436-445 |
|
A modification of the CABARET scheme for numerical simulation of multicomponent
gaseous flows in two-dimensional domains
|
| Novikov E.A. |
446-455 |
|
A variable structure algorithm using the (3,2)-scheme and the
Fehlberg method
|
| Dryazhenkov A.A. |
456-463 |
|
A modified generalized residual method for minimization problems with
errors of a known level in weakened norms
|
| Goncharsky A.V. and Romanov S.Yu. |
464-475 |
|
Iterative methods for solving inverse problems of ultrasonic tomography
|
| Logachev K.I., Pusanok A.I., Logachev A.K., and Tolmacheva E.I. |
464-475 |
|
Numerical modeling of air-jet flows under the action of an input-exhaust
system
|
| Meyerov I.B., Bastrakov S.I., Surmin I.A., Gonoskov A.A., Efimenko E.S.,
Bashinov A.V., Korzhimanov A.V., Larin A.V., Muraviev A.A., Rozanov A.I., and Savichev M.R. |
486-500 |
|
Three-dimensional particle-in-cell plasma simulation on Intel Xeon Phi:
performance optimization and case study
|
| Gavrilov S.V. |
501-506 |
|
An iterative method for determining the shape and conductivity of a homogeneous
inclusion in the two-dimensional electrical impedance tomography problem
|
| Golovchenko E.N. and Yakobovskiy M.V. |
507-517 |
|
Parallel partitioning tool GridSpiderPar for large mesh decomposition
|
| Plenkin A.V., Chernyshenko A.Yu., Chugunov V.N., and Kapyrin I.V. |
518-533 |
|
Adaptive unstructured mesh generation methods for hydrogeological problems
|
| Ivanova E.V. and Sokolinsky L.B. |
534-542 |
|
Using Intel Xeon Phi coprocessors for execution of natural join on compressed data
|
| Glinskiy B.M., Kulikov I.M., Snytnikov A.V., Chernykh I.G., and Weins D.V. |
543-556 |
|
A multilevel approach to algorithm and software design for exaflops supercomputers
|
| Ryabov G.G. and Serov V.A. |
557-565 |
|
Composition of infinitary structures
|
| Kharchenko S.A. |
566-577 |
|
A parallel algorithm for the sparse QR decomposition of a rectangular
upper quasi-triangular matrix with ND-type sparsity
|
| Nikolskiy V.P. and Stegailov V.V. |
578-585 |
|
Efficiency of ARM processors for classical molecular dynamics
|
| Gadylshin K.G. and Protasov M.I. |
586-594 |
|
Calculation of exact frequency-dependent rays when the solution of the
Helmholtz equation is known
|
| Marchevsky I.K. and Puzikova V.V. |
595-606 |
|
Efficiency study of computation parallelization for viscous incompressible
flow simulation on computing systems with shared memory by the LS-STAG method
|
| Glinskiy B.M., Kostin V.I., Kuchin N.V., Solovyev S.A., and Cheverda V.A. |
607-616 |
|
Aspects of parallel computing to solve Helmholtz equation by a direct
solver with low-rank approximation and the HSS format of data storage
|