The physics of continuum domains is described by means of Partial Differential Equa-tions (PDEs), solved according to different algorithms, using numerical methods. The aim of this work is to describe a set of highly efficient iterative methods for solving linear systems with large sparse matrices, rising from the analysis of seismic body wave propagation. These softwares are designed for solving PDEs by means of Finite Element Method (FEM). [DOI: 10.1685/CSC09255] About DO
We report on our work aiming at enabling large-scale simulations of frequency-domain electromagnetic...
Publication rights licensed to ACM. Sparse tiling is a technique to fuse loops that access common da...
This paper considers large-scale simulations of wave propagation phenomena. We argue that it is poss...
AbstractThe grid-characteristic method is commonly used to accurately model elastic waves propagatio...
Wave phenomena manifest in nature as electromagnetic waves, acoustic waves, and gravitational waves ...
first published online October 3, 2013 doi:10.1093/imanum/drt038International audienceThe wave propa...
In this study we focus at examining an efficient high order finite element strategy to compute the d...
This thesis focuses on the theoretical and numerical study of fast methods to solve the equations of...
The first part of my thesis focuses on seismic modeling in fractured media. Several recent developme...
textPurely numerical methods based on the Finite Element Method (FEM) are becoming increasingly pop...
International audienceHybrid meshes comprised of hexahedras and te-trahedras are particularly intere...
Explicit Finite Diferences Methods (FDM) are used for numerical simulations in seismic problems. In ...
Tomography in seismology often leads to underdetermined and inconsistent systems of linear equations...
We present forward and adjoint spectral-element simulations of coupled acoustic and (an)elastic seis...
This paper applies a parallel algorithm for a coupled Finite Element/Scaled Boundary Element (FEM/SB...
We report on our work aiming at enabling large-scale simulations of frequency-domain electromagnetic...
Publication rights licensed to ACM. Sparse tiling is a technique to fuse loops that access common da...
This paper considers large-scale simulations of wave propagation phenomena. We argue that it is poss...
AbstractThe grid-characteristic method is commonly used to accurately model elastic waves propagatio...
Wave phenomena manifest in nature as electromagnetic waves, acoustic waves, and gravitational waves ...
first published online October 3, 2013 doi:10.1093/imanum/drt038International audienceThe wave propa...
In this study we focus at examining an efficient high order finite element strategy to compute the d...
This thesis focuses on the theoretical and numerical study of fast methods to solve the equations of...
The first part of my thesis focuses on seismic modeling in fractured media. Several recent developme...
textPurely numerical methods based on the Finite Element Method (FEM) are becoming increasingly pop...
International audienceHybrid meshes comprised of hexahedras and te-trahedras are particularly intere...
Explicit Finite Diferences Methods (FDM) are used for numerical simulations in seismic problems. In ...
Tomography in seismology often leads to underdetermined and inconsistent systems of linear equations...
We present forward and adjoint spectral-element simulations of coupled acoustic and (an)elastic seis...
This paper applies a parallel algorithm for a coupled Finite Element/Scaled Boundary Element (FEM/SB...
We report on our work aiming at enabling large-scale simulations of frequency-domain electromagnetic...
Publication rights licensed to ACM. Sparse tiling is a technique to fuse loops that access common da...
This paper considers large-scale simulations of wave propagation phenomena. We argue that it is poss...