Application software developed
FEMINA/3D 3D code for viscous fluid flow, thermal convection, solutal convection and thermal vibrational convection. Includes automatic 2D and 3D unstructured mesh generators for complicated domains, solvers and post-processors. Center for Microgravity and Materials Research, University of Alabama in Huntsville, 1997.
CNSPACK Efficient iterative CG- and CGS-type solvers with preconditioning by high order incomplete decomposition for large sparse unstructured linear systems with apparent computational complexity O(N^{5/4}), compact matrix storage schemes, dynamic memory handling in Fortran-IV/77.
INTERFACE Pure and binary alloy solidification and phase interface front modeling in complicated 2D and 3D axisymmetric domains. Application to USML-2 experiments processing. "An inverse finite element method for pure and binary solidification problems". Journal of Comp. Physics, 130 (1997) 243-255 (with J.I.D. Alexander).
MDG3 Multigrid code for the Solution of 3D Nonlinear Electrostatic Field of Protein Molecule in the Solution, Proc. European conference "Physics en Herbe", Marseille, France, 1992.
MDG2 Highly Efficient Multigrid code for the Solution of Large FEM Problems by Multigrid Method in 2D domains of Complicated Shape. I. Petrenko, S. Purtov, A. Fedoseyev. "Solution of Large FEM Problems by Multigrid Method in Domains of complicated shape". Computer Mechanics of Solids, 1 (1990) 75-108. USSR Exhibition on Science, Technology and Industry, 1987.
MULTIMODE Powerfull code for frequency spectrum computation of electromagnetic fields in axially symmetric cavities and longitudinally homogeneous waveguides of arbitrary shape". Nuclear Instrument and Methods in Physics Research, 227 (1984) 411-419 (with V. Gusev, M. Kaschiev, V. Kaschieva, V. Paramonov).
FEMINA Finite Element Method IN Application: viscous fluid flows, convective heat-mass transfer, stress analysis with finite elements in the domains of complicated geometry. The 2D version of FEMINA code won a Silver Medal in 1986 in Moscow at the National Science and Technology Exhibition of the USSR.
MULTIC code for computations of 3D nonliner static magnetic field with application to the development magnetic systems for particle accelerators. (with V. Balbekov, L. Tkachenko) "MULTIC code for Calculations of 3D-Magnetic Fields". Preprint IHEP 81-121, Serpukhov, 1981, 16p.
LAPLACE Solution for Heat Transfer/Diffusion/Electrostatic/Hydrostatic Problems. (with V.I. Polezhaev) "Finite element method in hydrodynamics, heat and mass transfer problems", Preprint of the Institute for Problems in Mechanics of the Russian Academy of Sciences, Moscow, Russia, 1980, 74 pages.