Finite difference methods for solving the wave equation more accurately capture the physics of waves propagating through the earth than asymptotic solution methods. Unfortunately, finite difference simulations for 3D elastic wave propagation are expensive. The authors model waves in a 3D isotropic elastic earth. The wave equation solution consists of three velocity components and six stresses. The partial derivatives are discretized using 2nd-order in time and 4th-order in space staggered finite difference operators. Staggered schemes allow one to obtain additional accuracy (via centered finite differences) without requiring additional storage. The serial code is most unique in its ability to model a number of different types of seismic sou...
Abstract We present an efficient technique to simulate seismic wave propagation in structures includ...
textOur knowledge of elastic wave propagation in general heterogeneous media with complex geological...
International audienceWe present a frequency-domain finite-difference method for modeling 3D acousti...
Finite difference methods for solving the wave equation more accurately capture the physics of waves...
Abstract. In a three-dimensional isotropic elastic earth, the wave equation solution consists of thr...
Abstract. The 3D finite difference modeling of the wave propagation of M>8 earthquakes in subduct...
Abstract. Benchmark studies were carried out on a recently optimized parallel 3D seismic wave propag...
technical reportA parallel distributed algorithm to simulate the propagation of waves through elast...
Numerical simulation of wave propagation in poroelastic media demands significantly more computation...
Computational power has advanced to a state where we can begin to perform wavefield simulations for ...
Summarization: When treating the forward full waveform case, a fast and accurate algorithm for model...
The use of parallel computers makes it feasible to simulate elastic waves throughout large heterogen...
We present a technology of 3D seismic field simulation for high-performance computing systems with G...
In this work we approach the seismic wave propagation problem in two dimensions using the nite ele...
We present an efficient method for wavefield modeling in arhi-trarily inhomogeneous 3-D elastic medi...
Abstract We present an efficient technique to simulate seismic wave propagation in structures includ...
textOur knowledge of elastic wave propagation in general heterogeneous media with complex geological...
International audienceWe present a frequency-domain finite-difference method for modeling 3D acousti...
Finite difference methods for solving the wave equation more accurately capture the physics of waves...
Abstract. In a three-dimensional isotropic elastic earth, the wave equation solution consists of thr...
Abstract. The 3D finite difference modeling of the wave propagation of M>8 earthquakes in subduct...
Abstract. Benchmark studies were carried out on a recently optimized parallel 3D seismic wave propag...
technical reportA parallel distributed algorithm to simulate the propagation of waves through elast...
Numerical simulation of wave propagation in poroelastic media demands significantly more computation...
Computational power has advanced to a state where we can begin to perform wavefield simulations for ...
Summarization: When treating the forward full waveform case, a fast and accurate algorithm for model...
The use of parallel computers makes it feasible to simulate elastic waves throughout large heterogen...
We present a technology of 3D seismic field simulation for high-performance computing systems with G...
In this work we approach the seismic wave propagation problem in two dimensions using the nite ele...
We present an efficient method for wavefield modeling in arhi-trarily inhomogeneous 3-D elastic medi...
Abstract We present an efficient technique to simulate seismic wave propagation in structures includ...
textOur knowledge of elastic wave propagation in general heterogeneous media with complex geological...
International audienceWe present a frequency-domain finite-difference method for modeling 3D acousti...