S.I. Martynenko | 1-11 |
A robust multigrid technique for solving systems of partial
differential equations
|
G.A. Tarnavsky, S.I. Shpak, and M.S. Obrecht | 12-26 |
Numerical modeling and computer algorithm for the process of segregation of
alloy impurities at the boundary of an oxidation wave in semiconductor
substrates
|
V.A. Morozov | 27-33 |
Signal reconstruction by the method of regularization
|
V.N. Strakhov and A.V. Strakhov | 34-55 |
Parallel methods for finding stable approximate solutions to linear systems
with perturbed right-hand sides
|
S.K. Tatevyan, N.A. Sorokin, and S.F. Zaljotkin | 56-64 |
Construction of polynomial approximations for numerical solution of
ordinary differential equations
|
A.B. Bakushinsky and M.Yu. Kokurin | 65-91 |
Conditions of sourcewise representation and rates of convergence of methods
for solving ill-posed operator equations. Part II
|
A.L. Alexandrov, G.A. Tarnavsky, S.I. Shpak, A.I. Gulidov, and M.S. Obrecht | 92-111 |
Numerical simulation for the problem of dynamics of oxide film growth in
semiconductor substrates on the basis of geometrical approach and the Deal-Grove method
|
V.F. Volkov | 112-122 |
Geometric modeling of complex configurations in aerodynamic problems
|
F.P. Vasil'ev | 123-130 |
Regularization methods with set extension for solving unstable problems of
minimization
|
S.K. Tatevyan, N.A. Sorokin, and S.F. Zaljotkin | 131-158 |
Markov's formula for numerical integration and its application in orthogonal
expansions
|
G.M. Chammud | 159-166 |
A three-dimensional family of seven-step Runge-Kutta methods of order six
|
G.M. Agayan and S.Yu. Serezhnikov | 167-174 |
Visualization of diffraction effects in the design of
computer-generated holograms
|
I.O. Arushanian and G.M. Kobelkov | 175-183
|
Application of a least-squares finite element method to the plane
problem of elasticity
|