To reduce the overhead involved with the solution of the coupled system of physical and mesh PDEs, we propose a family of parallel solvers based on domain decomposition approaches. In this short talk I will review theoretical results obtained for the convergence of Schwarz methods for the steady state equidistribution principle at both the continuous and discrete levels and for a particular MMPDE solved by Rotheâ s method.Non UBCUnreviewedAuthor affiliation: Memorial University of NewfoundlandFacult
In this lecture, we concern the numerical solution of PDE problems and describe overlapping domain d...
This paper examines the potential of parallel computation methods for partial differential equations...
The purpose of this book is to offer an overview of the most popular domain decomposition methods fo...
To reduce the overhead involved with the solution of the coupled system of physical and mesh PDEs, w...
Abstract. Moving mesh methods based on the equidistribution principle are powerful techniques for th...
Abstract. Moving mesh methods based on the equidistribution principle are powerful techniques for th...
It has been rightly predicted that parallel computing is inevitable. This thesis at-tempts to study ...
To solve boundary value problems whose solutions contain moving fronts or sharp variations, moving m...
AbstractThe report presents some results in solving finite element equations via a parallel version ...
Schwarz domain decomposition methods have been invented by Hermann Amandus Schwarz in 1869. Basicall...
This paper examines the potential of parallel computation methods for pamal differential equations (...
. We describe and compare some recent domain decomposition algorithms of Schwarz type with respect t...
In this paper we review several methods for solving large sparse linear systems arising from discret...
The solution of partial differential equations (PDEs) with disparate space and time scales often ben...
We consider a parallel implementation of the additive two-level Schwarz domain decomposition techniq...
In this lecture, we concern the numerical solution of PDE problems and describe overlapping domain d...
This paper examines the potential of parallel computation methods for partial differential equations...
The purpose of this book is to offer an overview of the most popular domain decomposition methods fo...
To reduce the overhead involved with the solution of the coupled system of physical and mesh PDEs, w...
Abstract. Moving mesh methods based on the equidistribution principle are powerful techniques for th...
Abstract. Moving mesh methods based on the equidistribution principle are powerful techniques for th...
It has been rightly predicted that parallel computing is inevitable. This thesis at-tempts to study ...
To solve boundary value problems whose solutions contain moving fronts or sharp variations, moving m...
AbstractThe report presents some results in solving finite element equations via a parallel version ...
Schwarz domain decomposition methods have been invented by Hermann Amandus Schwarz in 1869. Basicall...
This paper examines the potential of parallel computation methods for pamal differential equations (...
. We describe and compare some recent domain decomposition algorithms of Schwarz type with respect t...
In this paper we review several methods for solving large sparse linear systems arising from discret...
The solution of partial differential equations (PDEs) with disparate space and time scales often ben...
We consider a parallel implementation of the additive two-level Schwarz domain decomposition techniq...
In this lecture, we concern the numerical solution of PDE problems and describe overlapping domain d...
This paper examines the potential of parallel computation methods for partial differential equations...
The purpose of this book is to offer an overview of the most popular domain decomposition methods fo...