Realistic applications of numerical modeling of acoustic wave dynamics usually demand high-performance computing because of the large size of study domains and demanding accuracy requirements on simulation results. Forward modeling of seismic motion on a given subsurface geological structure is by itself a good example of such applications, and when used as a component of seismic inversion tools or as a guide for the design of seismic surveys, its computational cost increases enormously. In the case of finite difference methods (or any other volumen-discretization scheme), memory and computing demands rise with grid refinement, which may be necessary to reduce errors on numerical wave patterns and better capture target physical devices. In ...
International audienceWe present a finite-difference frequency-domain method for 3D visco-acoustic w...
We present results of numerical simulations of acoustic waves with the use of the Graphics Processin...
International audienceWe present a frequency-domain finite-difference method for modeling 3D acousti...
Realistic applications of numerical modeling of acoustic wave dynamics usually demand high-performan...
[ANGLÈS] Nowadays, numerical simulations of acoustic propagation phenonema demand high performance c...
International audienceWe designed a fast parallel simulator that solves the acoustic wave equation o...
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...
Full-waveform inversion has been an essential method for oil and gas industries to approximate the p...
International audienceWe accelerate a three-dimensional finite-difference in the time domain (FDTD) ...
We present a technology of 3D seismic field simulation for high-performance computing systems with G...
Full waveform inversion is a widely used technique to estimate the subsurface parameters with the he...
A successful application-oriented reconfigurable coprocessor design requires not only a powerful FPG...
International audienceWe present a finite-difference frequency-domain method for 3D visco-acoustic w...
We present results of numerical simulations of acoustic waves with the use of the Graphics Processin...
International audienceWe present a frequency-domain finite-difference method for modeling 3D acousti...
Realistic applications of numerical modeling of acoustic wave dynamics usually demand high-performan...
[ANGLÈS] Nowadays, numerical simulations of acoustic propagation phenonema demand high performance c...
International audienceWe designed a fast parallel simulator that solves the acoustic wave equation o...
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...
Full-waveform inversion has been an essential method for oil and gas industries to approximate the p...
International audienceWe accelerate a three-dimensional finite-difference in the time domain (FDTD) ...
We present a technology of 3D seismic field simulation for high-performance computing systems with G...
Full waveform inversion is a widely used technique to estimate the subsurface parameters with the he...
A successful application-oriented reconfigurable coprocessor design requires not only a powerful FPG...
International audienceWe present a finite-difference frequency-domain method for 3D visco-acoustic w...
We present results of numerical simulations of acoustic waves with the use of the Graphics Processin...
International audienceWe present a frequency-domain finite-difference method for modeling 3D acousti...