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Most published authors (scientific articles only) of the journal
scientific articles published in peer review journal, serial, conference publications, indexed in international bibliographical databases and/or having DOI index
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| 1. |
K. N. Volkov |
35 |
| 2. |
V. B. Sulimov |
21 |
| 3. |
O. B. Arushanyan |
20 |
| 4. |
S. Y. Romanov |
19 |
| 5. |
A. G. Yagola |
19 |
| 6. |
A. V. Goncharsky |
16 |
| 7. |
V. N. Emelyanov |
16 |
| 8. |
G. A. Tarnavskii |
16 |
| 9. |
E. V. Chizhonkov |
16 |
| 10. |
S. F. Zaletkin |
15 |
| 11. |
V. V. Lisitsa |
15 |
| 12. |
N. L. Gol'dman |
14 |
| 13. |
G. V. Krivovichev |
13 |
| 14. |
Vad. V. Voevodin |
12 |
| 15. |
G. F. Grigor'ev |
12 |
| 16. |
K. S. Bormotin |
11 |
| 17. |
K. I. Logachev |
11 |
| 18. |
D. A. Nikitenko |
11 |
| 19. |
G. G. Ryabov |
11 |
| 20. |
O. A. Averkova |
10 |
| 21. |
V. A. Vshivkov |
10 |
| 22. |
A. D. Kovalev |
10 |
| 23. |
M. Yu. Kokurin |
10 |
| 24. |
I. V. Kochikov |
10 |
| 25. |
D. V. Lukyanenko |
10 |
| 26. |
V. A. Morozov |
10 |
| 27. |
S. Yu. Seryozhnikov |
10 |
| 28. |
V. N. Snytnikov |
10 |
| 29. |
A. I. Sukhinov |
10 |
| 30. |
A. V. Tikhonravov |
10 |
| 31. |
A. E. Chistyakov |
10 |
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40 most published authors of the journal |
|
| Most cited authors of the journal |
| 1. |
A. V. Gorobets |
45 |
| 2. |
A. I. Sukhinov |
44 |
| 3. |
A. E. Chistyakov |
44 |
| 4. |
I. V. Abalakin |
43 |
| 5. |
P. A. Bakhvalov |
43 |
| 6. |
A. P. Duben |
43 |
| 7. |
T. K. Kozubskaya |
43 |
| 8. |
M. Yu. Medvedik |
30 |
| 9. |
K. N. Volkov |
29 |
| 10. |
S. F. Zaletkin |
25 |
| 11. |
O. B. Arushanyan |
21 |
| 12. |
I. A. Kobelev |
21 |
| 13. |
N. M. Kuz'min |
21 |
| 14. |
A. V. Pisarev |
21 |
| 15. |
A. V. Khoperskov |
21 |
| 16. |
S. S. Khrapov |
21 |
| 17. |
E. V. Chizhonkov |
20 |
| 18. |
A. G. Yagola |
19 |
| 19. |
E. A. Protsenko |
18 |
| 20. |
D. V. Lukyanenko |
17 |
|
40 most cited authors of the journal |
|
| Most cited articles of the journal |
| 1. |
Parallel research code NOISEtte for large-scale CFD and CAA simulations
I. V. Abalakin, P. A. Bakhvalov, A. V. Gorobets, A. P. Duben, T. K. Kozubskaya
Num. Meth. Prog., 2012, 13:3, 110–125 |
43 |
| 2. |
A numerical scheme for simulating the dynamics of surface water
on the basis of the combined SPH-TVD approach
S. S. Khrapov, A. V. Khoperskov, N. M. Kuz'min, A. V. Pisarev, I. A. Kobelev
Num. Meth. Prog., 2011, 12:2, 282–297 |
21 |
| 3. |
A parallel algorithm for computing surface currents in a screen electromagnetic diffraction problem
M. Yu. Medvedik, Yu. G. Smirnov, S. I. Sobolev
Num. Meth. Prog., 2005, 6:1, 99–108 |
16 |
| 4. |
Application of the subhierarchic method in electrodynamic problems
M. Yu. Medvedik
Num. Meth. Prog., 2012, 13:1, 87–97 |
14 |
| 5. |
A survey of algorithms for constructing a Delaunay triangulation
A. V. Skvortsov
Num. Meth. Prog., 2002, 3:1, 14–39 |
10 |
| 6. |
Supercomputer molecular modeling of thermodynamic equilibrium in gas-metal microsystems
V. O. Podryga, S. V. Polyakov, D. V. Puzyrkov
Num. Meth. Prog., 2015, 16:1, 123–138 |
9 |
| 7. |
A small-mode approximation in the stellar dynamo problem
D. D. Sokoloff, S. N. Nefedov
Num. Meth. Prog., 2007, 8:2, 195–204 |
9 |
| 8. |
On second-order accuracy schemes for modeling of plasma oscillations
E. V. Chizhonkov
Num. Meth. Prog., 2020, 21:1, 115–128 |
8 |
| 9. |
Accuracy estimation and comparative analysis
of difference schemes of high-order approximation
A. V. Safronov
Num. Meth. Prog., 2010, 11:1, 137–143 |
8 |
| 10. |
Upwind and Standard Leapfrog Difference Schemes
A. I. Sukhinov, A. E. Chistyakov, E. A. Protsenko
Num. Meth. Prog., 2019, 20:2, 170–181 |
7 |
| 11. |
Parallel partitioning tool GridSpiderPar for large mesh decomposition
E. N. Golovchenko, M. V. Iakobovski
Num. Meth. Prog., 2015, 16:4, 507–517 |
7 |
| 12. |
A parallel implementation of sediment transport and bottom surface reconstruction problems on the basis of higher-order difference schemes
A. I. Sukhinov, A. E. Chistyakov, A. A. Semenyakina, A. Nikitina
Num. Meth. Prog., 2015, 16:2, 256–267 |
7 |
| 13. |
Algorithms of optimal packing construction for planar compact sets
A. L. Kazakov, P. D. Lebedev
Num. Meth. Prog., 2015, 16:2, 307–317 |
7 |
| 14. |
Parallel implementation of a three-dimensional hydrodynamic model of shallow water basins on supercomputing systems
A. I. Sukhinov, A. E. Chistyakov
Num. Meth. Prog., 2012, 13:1, 290–297 |
7 |
| 15. |
On a posteriori accuracy estimates for solutions of linear
ill-posed problems and extra-optimal regularizing algorithms
A. S. Leonov
Num. Meth. Prog., 2010, 11:1, 14–24 |
7 |
| 16. |
A rate of convergence and error estimates for difference methods used to approximate solutions to ill-posed Cauchy problems in a Banach space
A. B. Bakushinskii, M. Yu. Kokurin, V. V. Klyuchev
Num. Meth. Prog., 2006, 7:2, 163–171 |
7 |
| 17. |
A separating plane algorithm with limited memory for convex nonsmooth optimization
E. A. Nurminski
Num. Meth. Prog., 2006, 7:1, 133–137 |
7 |
| 18. |
Mpi+openmp implementation of conjugate gradients method with preconditioner of the block incomplete inverse triangular decomposition of the first order
O. Yu. Milyukova
Num. Meth. Prog., 2022, 23:3, 191–206 |
6 |
| 19. |
Blow-up phenomena in the model of a space charge stratification in semiconductors: numerical analysis of original equation reduction to a differential-algebraic system
D. V. Luk'yanenko, A. A. Panin
Num. Meth. Prog., 2016, 17:4, 437–446 |
6 |
| 20. |
The method of collocations and least residuals for three-dimensional Navier-Stokes equations
V. P. Shapeev, E. V. Vorozhtsov, V. I. Isaev, S. V. Idimeshev
Num. Meth. Prog., 2013, 14:3, 306–322 |
6 |
| 21. |
Implementation of the lattice Boltzmann method on GPU clusters
D. A. Bikulov, D. S. Senin, D. S. Demin, A. V. Dmitriev, N. E. Grachev
Num. Meth. Prog., 2012, 13:1, 13–19 |
6 |
| 22. |
Markov's formula with two fixed nodes for numerical integration and its application in orthogonal expansions
S. F. Zaletkin
Num. Meth. Prog., 2005, 6:3, 1–17 |
6 |
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| Most requested articles of the journal |
|
|
| 1. |
Computational algorithm for the continuation of potential fields towards gravitating masses
P. N. Vabishchevich
Num. Meth. Prog., 2024, 25:1, 1–9 | 9 |
| 2. |
Finite difference schemes for integrating the equations for sample particle motion in a fluid or gas flow
K. N. Volkov
Num. Meth. Prog., 2004, 5:1, 1–17 | 7 |
| 3. |
A lattice Monte Carlo model for nanostructure formation analysis
A. N. Karpov, A. V. Zverev, A. G. Nastovjak, S. V. Usenkov, N. L. Shwartz
Num. Meth. Prog., 2014, 15:3, 388–399 | 6 |
| 4. |
Influence of perturbations in transmission conditions on the convergence of the domain decomposition method for the Helmholtz equation
A. F. Zaitseva, V. V. Lisitsa
Num. Meth. Prog., 2014, 15:3, 476–486 | 6 |
| 5. |
On an algorithmic feasibility of source conditions in iterative
methods of solving irregular nonlinear equations
M. Yu. Kokurin
Num. Meth. Prog., 2011, 12:1, 146–151 | 5 |
| 6. |
A parallel SSOR preconditioner for solving the problems of electromagnetism
in frequency domains
D. S. Butyugin
Num. Meth. Prog., 2011, 12:1, 120–127 | 4 |
| 7. |
Application of HPC-technologies to solving spatial multiphysics
problems
V. A. Vasiljev, M. V. Kraposhin, A. Yu. Nitzkiy, A. V. Yuskin
Num. Meth. Prog., 2011, 12:1, 160–169 | 4 |
| 8. |
On the peculiarities of solving large systems of linear algebraic
equations on high performance computing systems of different architecture
B. I. Krasnopolsky
Num. Meth. Prog., 2011, 12:1, 176–182 | 4 |
| 9. |
A test suite for analyzing the performance features of graphics
processing units
A. V. Adinetz, P. A. Shvets
Num. Meth. Prog., 2011, 12:4, 94–97 | 4 |
| 10. |
An error estimate for approximate solutions to elliptic equations with non-coercive bilinear form
A. N. Bogolyubov, A. A. Panin
Num. Meth. Prog., 2009, 10:1, 34–48 | 4 |
|
| Total publications: |
1119 |
| Scientific articles: |
1118 |
| Authors: |
1273 |
| Citations: |
798 |
| Cited articles: |
346 |
|
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