MODELING OF PHYSICAL AND CHEMICAL PROCESSES USING CUDA TECHNOLOGY
Application of numerical methods is getting more and increasingly popular in relation to growing laborintensive experiments and the complexity of obtaining detailed information about the flows and chemical processes that occur in them. For example: in the study of chemical lasers, modeling the processes occurring in a fire. This paper describes the development of a system of fast CUDA parallel algorithms for solving difference equations (Navier - Stokes, Poisson) and chemical kinetics, obtained in problems with the modeling of reactions flowing in their variety of substances.
2. Ferziger, J.H. Computational Methods for Fluid Dynamics. M. Peric.-Berlin: Springer-Verlag, 2002.
3. Zhang, Y. Fast tridiagonal solvers on the GPU // Proceedings of the 15th ACM SIGPLAN Symposium on Principles and Practice of Parallel Programming (PPoPP). - 2010. - P. 127-136.
4. Cohen, J. A Fast Double Precision CFD Code using CUDA // Parallel Computational Fluid Dynamics: Recent Advances and Future Directions. - 2009. P. 414-430.
5. Jacobsen, D.A. An MPI-CUDA Implementation for Massively Parallel Incompressible Flow Computations on Multi-GPU Clusters // 48th AIAA aerospace sciences meeting including the new horizons forum and aerospace exposition (4-7 January 2010, Orlando, Florida). - paper no: AIAA 2010-522. - 2010.