Sveshnikov Viktor Mitrofanovich

Publications in Math-Net.Ru

1. Estimates of CPU load unbalance in parallelizing the solution of 3D boundary value problems on quasi-structured grids
   
   Sib. Zh. Vychisl. Mat., 27:1 (2024),  61–70
2. Acceleration of parallel solution of 2D boundary value problems with two-grid preconditioning
   
   Num. Meth. Prog., 25:2 (2024),  187–196
3. Calculation of electric field when modeling of intense charged particles beams in complex 2D domains
   
   Num. Meth. Prog., 25:1 (2024),  10–18
4. Mathematical modeling of intense charged particles beams in extended electron-optical systems
   
   Matem. Mod., 34:3 (2022),  71–84
5. Experimental study of some solvers of 3D boundary subproblems on the regular subgrids of quasi-structured parallelepipedal meshes
   
   Sib. Zh. Vychisl. Mat., 25:4 (2022),  429–440
6. Experimental study of the efficiency of solving 2D boundary value problems on subgrids of quasistructured rectangular grids
   
   Sib. Zh. Vychisl. Mat., 24:3 (2021),  277–288
7. Numerical simulation of the operation of a wide-aperture electron gun with a grid plasma emitter and beam output into the atmosphere
   
   Prikl. Mekh. Tekh. Fiz., 60:5 (2019),  3–12
8. A new non-overlapping domain decomposition method for the 3-D Laplace exterior problem
   
   Sib. Zh. Vychisl. Mat., 21:4 (2018),  435–449
9. Parallelization technologies and grid data structures for solving three-dimensional boundary value problems in complex domains on quasistructured grids
   
   Num. Meth. Prog., 19:4 (2018),  496–506
10. Acceleration of parallel algorithms for solving three-dimensional boundary value problems on quasi-structured grids
    
    Num. Meth. Prog., 19:2 (2018),  121–129
11. On the construction of two-dimensional local-modified quasistructured grids and solving on them two-dimensional boundary value problem in the domains with curvilinear boundary
    
    Vestn. YuUrGU. Ser. Vych. Matem. Inform., 6:2 (2017),  5–21
12. Parallel algorithms and domain decomposition technologies for solving three-dimensional boundary value problems on quasi-structured grids
    
    Sib. Zh. Vychisl. Mat., 19:2 (2016),  183–194
13. Parallelization technologies for solving three-dimensional boundary value problems on quasi-structured grids using the CPU+GPU hybrid computing environment
    
    Num. Meth. Prog., 17:1 (2016),  65–71
14. Method of decomposition of the computational domain in problems of high-current electronics
    
    Sib. Zh. Ind. Mat., 18:2 (2015),  124–130
15. About parallelization of solving of boundary value problems on quasistructured grids
    
    Vestn. YuUrGU. Ser. Vych. Matem. Inform., 2:3 (2013),  63–72
16. Construction of Quasi-Structured Locally Modified Grids for Solving Problems of High Current Electronics
    
    Vestnik YuUrGU. Ser. Mat. Model. Progr., 2012, no. 14,  130–140
17. Construction of Direct and Iterative Decomposition Methods
    
    Sib. Zh. Ind. Mat., 12:3 (2009),  99–109
18. On grid technologies for two-dimensional boundary value problems
    
    Sib. Zh. Ind. Mat., 3:1 (2000),  124–136
19. Numerical calculation of beams of charged particles by the method of iterations over subdomains
    
    Zh. Vychisl. Mat. Mat. Fiz., 30:11 (1990),  1675–1688
20. Numerical calculation of relativistic multiple-cavity systems
    
    Prikl. Mekh. Tekh. Fiz., 29:6 (1988),  10–15
21. Calculation of high power relativistic beams with consideration of collision effects
    
    Prikl. Mekh. Tekh. Fiz., 27:1 (1986),  3–8
22. Calculation of the motion of relativistic beams of charged particles in electromagnetic fields
    
    Prikl. Mekh. Tekh. Fiz., 20:3 (1979),  3–8
23. Numerical calculation of nonstationary gharged-particle beams
    
    Prikl. Mekh. Tekh. Fiz., 15:6 (1974),  31–39