Large-scale finite element analysis often requires the iterative solution of equations with many unknowns. Preconditioners based on domain decomposition concepts have proven effective at accelerating the convergence of iterative methods like conjugate gradients for such problems. A study of two new domain decomposition preconditioners is presented here. The first is based on a substructuring approach and can viewed as a primal counterpart of the dual-primal variant of the finite element tearing and interconnecting method called FETI-DP. The second uses an algebraic approach to construct a coarse problem for a classic overlapping Schwarz method. The numerical properties of both preconditioners are shown to scale well with problem size. Altho...
International audienceWe consider the Finite Element approximation of the solution to nonlinear elli...
In this article we address the question of efficiently solving the algebraic linear system of equati...
The Finite Element Tearing and Interconnecting (FETI) and its variants are probably the most celebra...
In this article we consider the application of Schwarz-type domain decomposition preconditioners for...
In this article we consider the application of Schwarz-type domain decomposition preconditioners for...
This thesis investigates domain decomposition methods, commonly classified as either overlapping Sch...
AbstractWithin the FETI domain decomposition method applied to nonsymmetric linear systems, a generi...
Solving the linear elasticity and Stokes equations by an optimal domain decomposition method derived...
Research on failure mechanisms of engineering components often focuses on modeling complex, nonlinea...
AbstractIn this article we briefly discuss two preconditioner techniques, the Neumann–Neumann-precon...
In this thesis we investigate nummerically the convergence properties of the control volume finite e...
This work documents two contributions to the parallel resolution of large systems of equations resul...
The simulation of processes in highly heterogeneous media comes with many challenges. In particular ...
International audienceThis article is concerned with a multi-scale domain decomposition method (DDM)...
The numerical simulation of microstructure models in 3D requires, due to enormous d.o.f., significan...
International audienceWe consider the Finite Element approximation of the solution to nonlinear elli...
In this article we address the question of efficiently solving the algebraic linear system of equati...
The Finite Element Tearing and Interconnecting (FETI) and its variants are probably the most celebra...
In this article we consider the application of Schwarz-type domain decomposition preconditioners for...
In this article we consider the application of Schwarz-type domain decomposition preconditioners for...
This thesis investigates domain decomposition methods, commonly classified as either overlapping Sch...
AbstractWithin the FETI domain decomposition method applied to nonsymmetric linear systems, a generi...
Solving the linear elasticity and Stokes equations by an optimal domain decomposition method derived...
Research on failure mechanisms of engineering components often focuses on modeling complex, nonlinea...
AbstractIn this article we briefly discuss two preconditioner techniques, the Neumann–Neumann-precon...
In this thesis we investigate nummerically the convergence properties of the control volume finite e...
This work documents two contributions to the parallel resolution of large systems of equations resul...
The simulation of processes in highly heterogeneous media comes with many challenges. In particular ...
International audienceThis article is concerned with a multi-scale domain decomposition method (DDM)...
The numerical simulation of microstructure models in 3D requires, due to enormous d.o.f., significan...
International audienceWe consider the Finite Element approximation of the solution to nonlinear elli...
In this article we address the question of efficiently solving the algebraic linear system of equati...
The Finite Element Tearing and Interconnecting (FETI) and its variants are probably the most celebra...