Kalinin A.O. and Sokoloff D.D. |
1-6 |
Intermittency of vector fields and natural random number generators
|
Gromov A.N. |
7-12 |
Increasing the interval of convergence for a generalized Newton's method
of solving nonlinear equations
|
Wang Y., Luk'yanenko D.V., and Yagola A.G. |
13-20 |
Regularized inversion of full tensor magnetic gradient data
|
Vorozhtsov E.V. |
21-43 |
Construction of third-order schemes using Lagrange-Burmann expansions
for the numerical integration of inviscid gas equations
|
Kireev I.V. |
44-54 |
An orthogonal power method of solving the partial eigenproblem for a
symmetric nonnegative definite matrix
|
Evstigneev N.M. and Ryabkov O.I. |
55-64 |
Application of multiGPU+CPU architecture for the direct numerical simulation
of laminar-turbulent transition
|
Klimonov I.A., Korneev V.D., and Sveshnikov V.M. |
65-71 |
Parallelization technologies for solving three-dimensional boundary
value problems on quasi-structured grids using the CPU+GPU hybrid computing environment
|
Volokhov V.M., Martynenko S.I., Toktaliev P.D., Yanovskiy L.S., and Volokhov A.V. |
72-80 |
New approaches to the development of highly efficient parallel algorithms for
numerical solution of boundary value problems on structured grids
|
Volkov K.N., Emelyanov V.N., Teterina I.V., and Yakovchuk M.S. |
81-100 |
Methods and concepts of vortex flow visualization in the problems
of computational fluid dynamics
|
Barkalov K.A., Lebedev I.G., Sovrasov V.V., and Sysoyev A.V. |
101-110 |
Implementation of a parallel algorithm for searching the global extremum
of a function on Intel Xeon Phi
|
Levin I.I., Dordopulo A.I., Doronchenko Yu.I., Raskladkin M.K., and Fedorov A.M. |
111-120 |
A reconfigurable computer system based on FPGAs with liquid cooling
|
Arushanyan O.B. and Zaletkin S.F. |
121-131 |
Approximate solution of the Cauchy problem for ordinary differential
equations by the method of Chebyshev series
|