Add to ORKGWe present a technology of 3D seismic field simulation for high-performance computing systems with GPUs or Intel Xeon Phi coprocessors. This technology covers adaptation of a mathematical modeling method and development of a parallel algorithm. We describe the parallel realization designed for simulation based on using staggeredgrids and 3D domain decomposition method. We study the parallel algorithm behavior on computing devices: CPUs, GPUs, Xeon Phi coprocessors. We consider the results of experiments that were carried out on cluster NKS-30T of SSCC and cluster MVS-10P of JSCC for different tests for parallel algorithm
Full-waveform inversion has been an essential method for oil and gas industries to approximate the p...
Full-waveform inversion has been an essential method for oil and gas industries to approximate the p...
The propagation of seismic waves is affected by the type of transmission media. Therefore, it is nec...
Abstract. Numerical simulation in exploration geophysics provides important insights into subsurface...
Finite difference methods for solving the wave equation more accurately capture the physics of waves...
Finite difference methods for solving the wave equation more accurately capture the physics of waves...
International audienceWe designed a fast parallel simulator that solves the acoustic wave equation o...
The use of parallel computers makes it feasible to simulate elastic waves throughout large heterogen...
Abstract. Benchmark studies were carried out on a recently optimized parallel 3D seismic wave propag...
Elastic or acoustic wave-field modeling is an important part of seismic exploration. It can be used ...
Parallel processing has changed the way much computational physics is done. Areas such as condensed ...
technical reportA parallel distributed algorithm to simulate the propagation of waves through elast...
Acoustic wave propagation has been the preferred engine for geophysical exploration applications for...
In this paper, we consider 3D wave-packet transform that is useful in 3D data processing. This trans...
The use of parallel computers makes it feasible to simulate elastic waves throughout large heterogen...
Full-waveform inversion has been an essential method for oil and gas industries to approximate the p...
Full-waveform inversion has been an essential method for oil and gas industries to approximate the p...
The propagation of seismic waves is affected by the type of transmission media. Therefore, it is nec...
Abstract. Numerical simulation in exploration geophysics provides important insights into subsurface...
Finite difference methods for solving the wave equation more accurately capture the physics of waves...
Finite difference methods for solving the wave equation more accurately capture the physics of waves...
International audienceWe designed a fast parallel simulator that solves the acoustic wave equation o...
The use of parallel computers makes it feasible to simulate elastic waves throughout large heterogen...
Abstract. Benchmark studies were carried out on a recently optimized parallel 3D seismic wave propag...
Elastic or acoustic wave-field modeling is an important part of seismic exploration. It can be used ...
Parallel processing has changed the way much computational physics is done. Areas such as condensed ...
technical reportA parallel distributed algorithm to simulate the propagation of waves through elast...
Acoustic wave propagation has been the preferred engine for geophysical exploration applications for...
In this paper, we consider 3D wave-packet transform that is useful in 3D data processing. This trans...
The use of parallel computers makes it feasible to simulate elastic waves throughout large heterogen...
Full-waveform inversion has been an essential method for oil and gas industries to approximate the p...
Full-waveform inversion has been an essential method for oil and gas industries to approximate the p...
The propagation of seismic waves is affected by the type of transmission media. Therefore, it is nec...