We study parallelization of direct methods on shared and distributed memory computers using OpenMP and MPI. We describe parallelization of Gaussian elimination using OpenMP and several versions of parallelization using MPI. We also describe parallelization of frontal method
Based on a hierarchical modular modeling the large nonlinear systems of differential algebraic equat...
The need to solve large sparse linear systems of equations efficiently lies at the heart of many app...
This paper provides an introduction to algorithms for fundamental linear algebra problems on various...
AbstractThe solution of linear systems continues to play an important role in scientific computing. ...
This project serves to apply numerical methods to obtain solutions for the wave equation. Paralleliz...
International audienceScientific computing has become an indispensable tool in numerous fields, such...
An introduction to the parallel programming of supercomputers is given. The focus is on the usage of...
AbstractWe consider method of lines solutions of partial differential equations on shared-memory par...
A new family of parallel schemes for directly solving linear systems is presented and analyzed. It i...
This book provides a seamless approach to numerical algorithms, modern programming techniques, and p...
The Finite Element Method (FEM) is used to solve problems like solid deformation and heat diffusion ...
The paper deals with parallel approach for the numerical solution of large, sparse, non-symmetric sy...
Solving linear Diophantine systems of equations is applied in discrete-event systems, model checking...
AbstractWe propose several implementations of Gaussian elimination for solving banded linear systems...
In this review paper, we consider some important developments and trends in algorithm design for t...
Based on a hierarchical modular modeling the large nonlinear systems of differential algebraic equat...
The need to solve large sparse linear systems of equations efficiently lies at the heart of many app...
This paper provides an introduction to algorithms for fundamental linear algebra problems on various...
AbstractThe solution of linear systems continues to play an important role in scientific computing. ...
This project serves to apply numerical methods to obtain solutions for the wave equation. Paralleliz...
International audienceScientific computing has become an indispensable tool in numerous fields, such...
An introduction to the parallel programming of supercomputers is given. The focus is on the usage of...
AbstractWe consider method of lines solutions of partial differential equations on shared-memory par...
A new family of parallel schemes for directly solving linear systems is presented and analyzed. It i...
This book provides a seamless approach to numerical algorithms, modern programming techniques, and p...
The Finite Element Method (FEM) is used to solve problems like solid deformation and heat diffusion ...
The paper deals with parallel approach for the numerical solution of large, sparse, non-symmetric sy...
Solving linear Diophantine systems of equations is applied in discrete-event systems, model checking...
AbstractWe propose several implementations of Gaussian elimination for solving banded linear systems...
In this review paper, we consider some important developments and trends in algorithm design for t...
Based on a hierarchical modular modeling the large nonlinear systems of differential algebraic equat...
The need to solve large sparse linear systems of equations efficiently lies at the heart of many app...
This paper provides an introduction to algorithms for fundamental linear algebra problems on various...