The boundary element method (BEM) requires only a surface mesh to solve thermoelasticity problems, however, the resulting matrix is fully populated and non-diagonally dominant. Solution of non-homogeneous media by BEM is also problematic due to the lack of a general non-homogeneous fundamental solution. BEM solution of large-scale problems also pose serious challenges due to both storage requirements and the solution of large sets of non-symmetric systems of equations. In this article, we propose an effective and efficient iterative domain decomposition, or artificial sub-sectioning technique, along with a region-by-region iteration algorithm particularly tailored for parallel computation to address these issues. The domain decomposition ap...
The iterative Domain Decomposition Method (DDM) is one of the most effective parallel algorithm for ...
The contribution describes application of parallel computing for numerical solution of boundary valu...
The paper describes numerical experiments with a finite element solution of the thermo-elasticity mo...
The boundary element method (BEM) requires only a surface mesh to solve thermoelasticity problems, h...
The boundary element method (BEM) requires only a surface mesh to solve thermoelasticity problems, h...
The Boundary Element Method (BEM) requires only a surface mesh to solve thermoelasticity problems. H...
The Boundary Element Method (BEM) requires only a surface mesh to solve elasticity problems; however...
The solution of heat conduction problems using the boundary element method (BEM) only requires a sur...
The boundary-element method (BEM) requires only a surface mesh to solve linear and nonlinear heat co...
This paper develops a parallel domain decomposition Laplace transform BEM algorithm for the solution...
This paper develops a parallel domain decomposition Laplace transform BEM algorithm for the solution...
Para resolver problemas de elasticidad con el Método de Elementos de Contorno (MEC) só...
In this paper, we develop a parallel domain decomposition Laplace transform BEM algorithm for the so...
In boundary element methods (BEM), subregioning may be needed either to model complex solids (with c...
ABSTRACT: In this paper, we show the use of parallel computing in the finite element analysis of the...
The iterative Domain Decomposition Method (DDM) is one of the most effective parallel algorithm for ...
The contribution describes application of parallel computing for numerical solution of boundary valu...
The paper describes numerical experiments with a finite element solution of the thermo-elasticity mo...
The boundary element method (BEM) requires only a surface mesh to solve thermoelasticity problems, h...
The boundary element method (BEM) requires only a surface mesh to solve thermoelasticity problems, h...
The Boundary Element Method (BEM) requires only a surface mesh to solve thermoelasticity problems. H...
The Boundary Element Method (BEM) requires only a surface mesh to solve elasticity problems; however...
The solution of heat conduction problems using the boundary element method (BEM) only requires a sur...
The boundary-element method (BEM) requires only a surface mesh to solve linear and nonlinear heat co...
This paper develops a parallel domain decomposition Laplace transform BEM algorithm for the solution...
This paper develops a parallel domain decomposition Laplace transform BEM algorithm for the solution...
Para resolver problemas de elasticidad con el Método de Elementos de Contorno (MEC) só...
In this paper, we develop a parallel domain decomposition Laplace transform BEM algorithm for the so...
In boundary element methods (BEM), subregioning may be needed either to model complex solids (with c...
ABSTRACT: In this paper, we show the use of parallel computing in the finite element analysis of the...
The iterative Domain Decomposition Method (DDM) is one of the most effective parallel algorithm for ...
The contribution describes application of parallel computing for numerical solution of boundary valu...
The paper describes numerical experiments with a finite element solution of the thermo-elasticity mo...