A technology of full seismic field simulation on high-performance computing systems

The aim of work is developing the technology representing a complex approach for studding geophysical objects with complex subsurface geometry on the basis of numerical modeling of seismic filed from point sources. An important stage of successful solution of dynamic problem of the theory of elasticity is to develop the model representing the object under study in details and carrying out a series of calculations of elastic wave propagation in inhomogeneous media. We present a programs software for solving the forward geophysical tasks using grid methods. Particular attention is paid to the software interface that allows you to carry out the preparation of geophysical models for theoretical experiments. The developing software for simulation is designed for usage on modern high-performance computing systems. Information and analytical set of programs can be used in the interpretation of experimental data, in design and verification of 2D and 2.5D models when compare experimental and theoretical results. Studying the structure of the Baikal rift zone is one of the geophysical tasks where 2D modeling is necessary. This work was partially supported by RFBR grants No. 16-07-01052, 15-31-20150, 15-07-06821, 14-05-00867, 14-07-00312, MES RK 1760/GF4.