With the rapid developments in parallel compute architectures, algorithms for seismic modeling and imaging need to be reconsidered in terms of parallelization. The aim of this paper is to compare scalability of seismic modeling algorithms: finite differences, continuous mass-lumped finite elements and discontinuous Galerkin finite elements. The performance for these methods is considered for a given accuracy. The experiments were performed on an Intel Sandy Bridge dual 8-core machine and on Intel's 61-core Xeon Phi, which is based on the Many Integrated Core architecture. The codes ran without any modifications. On the Sandy Bridge, the scalability is similar for all methods. On the Xeon Phi, the finite elements outperform finite difference...
A key to reducing the risks and costs associated with oil and gas exploration is the fast, accurate ...
We use a parallel spectral-element method to simulate the propagation of seismic waves generated by ...
Abstract. Benchmark studies were carried out on a recently optimized parallel 3D seismic wave propag...
With the rapid developments in parallel compute architectures, algorithms for seismic modeling and i...
AbstractUnderstanding the wave propagation with respect to the structure of the Earth lies at the he...
In this work we approach the seismic wave propagation problem in two dimensions using the nite ele...
Finite difference methods for solving the wave equation more accurately capture the physics of waves...
In this dissertation, new and more efficient finite element methods for modelling seismic wave propa...
Realistic applications of numerical modeling of acoustic wave dynamics usually demand high-performan...
One major goal of strong motion seismology is the estimation of damage in future earthquake scenario...
Finite difference methods for solving the wave equation more accurately capture the physics of waves...
Large scale ground motion simulation in realistic basins can benefit greatly from the use of paralle...
textOur knowledge of elastic wave propagation in general heterogeneous media with complex geological...
We present a technology of 3D seismic field simulation for high-performance computing systems with G...
Abstract. We use 2166 processors of the MareNostrum (IBM PowerPC 970) supercomputer to model seismic...
A key to reducing the risks and costs associated with oil and gas exploration is the fast, accurate ...
We use a parallel spectral-element method to simulate the propagation of seismic waves generated by ...
Abstract. Benchmark studies were carried out on a recently optimized parallel 3D seismic wave propag...
With the rapid developments in parallel compute architectures, algorithms for seismic modeling and i...
AbstractUnderstanding the wave propagation with respect to the structure of the Earth lies at the he...
In this work we approach the seismic wave propagation problem in two dimensions using the nite ele...
Finite difference methods for solving the wave equation more accurately capture the physics of waves...
In this dissertation, new and more efficient finite element methods for modelling seismic wave propa...
Realistic applications of numerical modeling of acoustic wave dynamics usually demand high-performan...
One major goal of strong motion seismology is the estimation of damage in future earthquake scenario...
Finite difference methods for solving the wave equation more accurately capture the physics of waves...
Large scale ground motion simulation in realistic basins can benefit greatly from the use of paralle...
textOur knowledge of elastic wave propagation in general heterogeneous media with complex geological...
We present a technology of 3D seismic field simulation for high-performance computing systems with G...
Abstract. We use 2166 processors of the MareNostrum (IBM PowerPC 970) supercomputer to model seismic...
A key to reducing the risks and costs associated with oil and gas exploration is the fast, accurate ...
We use a parallel spectral-element method to simulate the propagation of seismic waves generated by ...
Abstract. Benchmark studies were carried out on a recently optimized parallel 3D seismic wave propag...