Unstructured hexahedral mesh generation is a critical part of the modeling process in the Spectral-Element Method (SEM). We present some examples of seismic wave propagation in complex geological models, automatically meshed on a parallel machine based upon CUBIT (Sandia Laboratory), an advanced 3D unstructured hexahedral mesh generator that offers new opportunities for seismologist to design, assess, and improve the quality of a mesh in terms of both geometrical and numerical accuracy. The main goal is to provide useful tools for understanding seismic phenomena due to surface topography and subsurface structures such as low wave-speed sedimentary basins. Our examples cover several typical geophysical problems: 1) “layer-cake” volumes with ...
In this paper, we present SEM3D: a 3D high-fidelity numerical earthquake simulator that is tailored ...
We present the main properties of the spectral-element method, which is well suited for numerical ca...
International audienceIn this paper, we present SEM3D: a 3D high-fidelity numerical earthquake simul...
Unstructured hexahedral mesh generation is a critical part of the modeling process in the Spectral-E...
We present forward and adjoint spectral-element simulations of coupled acoustic and (an)elastic seis...
The development of accurate numerical methods to simulate wave propagation in three-dimensional (3D)...
In this paper we present a new tool which can be used to simplify and speed up the reconstruction of...
In this dissertation, new and more efficient finite element methods for modelling seismic wave propa...
Abstract. We use a Spectral-Element Method implemented on the Earth Simulator in Japan to simulate b...
We use a parallel spectral-element method to simulate the propagation of seismic waves generated by ...
International audienceIn order to better understand the internal structure of aster- oids orbiting i...
We use a parallel spectral-element method to simulate the propagation of seismic waves generated by ...
Finite-element modelling of seismic wave propagation on tetrahedra requires meshes that accurately f...
The Spectral-Element Method (SEM) is a finite-element method that solves the wave equa-tion in the t...
Abstract We use the Earth Simulator to model seismic wave propagation resulting from large earthquak...
In this paper, we present SEM3D: a 3D high-fidelity numerical earthquake simulator that is tailored ...
We present the main properties of the spectral-element method, which is well suited for numerical ca...
International audienceIn this paper, we present SEM3D: a 3D high-fidelity numerical earthquake simul...
Unstructured hexahedral mesh generation is a critical part of the modeling process in the Spectral-E...
We present forward and adjoint spectral-element simulations of coupled acoustic and (an)elastic seis...
The development of accurate numerical methods to simulate wave propagation in three-dimensional (3D)...
In this paper we present a new tool which can be used to simplify and speed up the reconstruction of...
In this dissertation, new and more efficient finite element methods for modelling seismic wave propa...
Abstract. We use a Spectral-Element Method implemented on the Earth Simulator in Japan to simulate b...
We use a parallel spectral-element method to simulate the propagation of seismic waves generated by ...
International audienceIn order to better understand the internal structure of aster- oids orbiting i...
We use a parallel spectral-element method to simulate the propagation of seismic waves generated by ...
Finite-element modelling of seismic wave propagation on tetrahedra requires meshes that accurately f...
The Spectral-Element Method (SEM) is a finite-element method that solves the wave equa-tion in the t...
Abstract We use the Earth Simulator to model seismic wave propagation resulting from large earthquak...
In this paper, we present SEM3D: a 3D high-fidelity numerical earthquake simulator that is tailored ...
We present the main properties of the spectral-element method, which is well suited for numerical ca...
International audienceIn this paper, we present SEM3D: a 3D high-fidelity numerical earthquake simul...