AbstractThe grid-characteristic method is commonly used to accurately model elastic waves propagation within the application of mechanical stress tests, collision of solid bodies and others. In this note, we discuss the application of the grid-characteristic method to numerical simulation of seismic waves which is an important problem in geophysics. A computational code for this application has been developed in our team. We studied its low-level optimization with streaming SIMD instructions (SSE and AVX). Beyond, we parallelized our code with MPI and reached parallel efficiency of up to 70% when using 16’000 computational cores
We use 1944 processors of the Earth Simulator to model seismic wave propagation resulting from large...
Abstract We use the Earth Simulator to model seismic wave propagation resulting from large earthquak...
This volume is an introductory text to a range of numerical methods used today to simulate time-depe...
AbstractThe grid-characteristic method is commonly used to accurately model elastic waves propagatio...
This work is devoted to the modification of the grid-characteristic numerical method. We propose usi...
Finite difference methods for solving the wave equation more accurately capture the physics of waves...
Interest in computational methods for calculating wave scattering from fractured geological clusters...
In this work we approach the seismic wave propagation problem in two dimensions using the nite ele...
Realistic applications of numerical modeling of acoustic wave dynamics usually demand high-performan...
The finite element method (FEM) can accurately calculate seismic ground motions for complex topograp...
In this dissertation, new and more efficient finite element methods for modelling seismic wave propa...
textOur knowledge of elastic wave propagation in general heterogeneous media with complex geological...
Finite difference methods for solving the wave equation more accurately capture the physics of waves...
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...
We use 1944 processors of the Earth Simulator to model seismic wave propagation resulting from large...
Abstract We use the Earth Simulator to model seismic wave propagation resulting from large earthquak...
This volume is an introductory text to a range of numerical methods used today to simulate time-depe...
AbstractThe grid-characteristic method is commonly used to accurately model elastic waves propagatio...
This work is devoted to the modification of the grid-characteristic numerical method. We propose usi...
Finite difference methods for solving the wave equation more accurately capture the physics of waves...
Interest in computational methods for calculating wave scattering from fractured geological clusters...
In this work we approach the seismic wave propagation problem in two dimensions using the nite ele...
Realistic applications of numerical modeling of acoustic wave dynamics usually demand high-performan...
The finite element method (FEM) can accurately calculate seismic ground motions for complex topograp...
In this dissertation, new and more efficient finite element methods for modelling seismic wave propa...
textOur knowledge of elastic wave propagation in general heterogeneous media with complex geological...
Finite difference methods for solving the wave equation more accurately capture the physics of waves...
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...
We use 1944 processors of the Earth Simulator to model seismic wave propagation resulting from large...
Abstract We use the Earth Simulator to model seismic wave propagation resulting from large earthquak...
This volume is an introductory text to a range of numerical methods used today to simulate time-depe...