Convergence properties are presented for Newton additive and multiplicative Schwarz (AS and MS) iterative methods for the solution of nonlinear systems in several variables. These methods consist of approximate solutions of the linear Newton step using either AS or MS iterations, where overlap between subdomains can be used. Restricted versions of these methods are also considered. These Schwarz methods can also be used to precondition a Krylov subspace method for the solution of the linear Newton steps. Numerical experiments on parallel computers are presented, indicating the effectiveness of these methods.The Spanish Ministry of Science and Education (TIN2005-09037-C02-02); Universidad de Alicante (VIGROB-020); the U.S. Department of ...
Nonlinear domain decomposition (DD) methods, such as, e.g., ASPIN (Additive Schwarz Preconditioned I...
Iterative substructuring Domain Decomposition (DD) methods have been extensively studied, and they a...
AbstractIn this paper, we consider an algebraic additive Schwarz iteration scheme for solving the fi...
Abstract. Convergence properties are presented for Newton additive and multiplicative Schwarz iterat...
Convergence properties are presented for Newton additive and multiplicative Schwarz (AS and MS) iter...
AbstractIn recent years, an algebraic framework was introduced for the analysis of convergence of Sc...
For linear problems, domain decomposition methods can be used directly as iterative solvers, but als...
For linear problems, domain decomposition methods can be used directly as iterative solvers, but als...
AbstractWe study convergence conditions for the additive and the multiplicative splitting iteration ...
The convergence of multiplicative Schwarz-type methods for solving linear systems when the coefficie...
This thesis concerns the interaction of two widely known topics in the field of applied mathematics...
AbstractWe introduce parallel interval Newton–Schwarz-like methods for nonlinear systems of equation...
Abstract. Inexact Newton algorithms are commonly used for solving large sparse nonlinear system of e...
We introduce in this paper a new tool to prove the convergence of the overlapping optimized Schwarz ...
International audienceOptimized Schwarz methods (OSM) are very popular methods which were introduced...
Nonlinear domain decomposition (DD) methods, such as, e.g., ASPIN (Additive Schwarz Preconditioned I...
Iterative substructuring Domain Decomposition (DD) methods have been extensively studied, and they a...
AbstractIn this paper, we consider an algebraic additive Schwarz iteration scheme for solving the fi...
Abstract. Convergence properties are presented for Newton additive and multiplicative Schwarz iterat...
Convergence properties are presented for Newton additive and multiplicative Schwarz (AS and MS) iter...
AbstractIn recent years, an algebraic framework was introduced for the analysis of convergence of Sc...
For linear problems, domain decomposition methods can be used directly as iterative solvers, but als...
For linear problems, domain decomposition methods can be used directly as iterative solvers, but als...
AbstractWe study convergence conditions for the additive and the multiplicative splitting iteration ...
The convergence of multiplicative Schwarz-type methods for solving linear systems when the coefficie...
This thesis concerns the interaction of two widely known topics in the field of applied mathematics...
AbstractWe introduce parallel interval Newton–Schwarz-like methods for nonlinear systems of equation...
Abstract. Inexact Newton algorithms are commonly used for solving large sparse nonlinear system of e...
We introduce in this paper a new tool to prove the convergence of the overlapping optimized Schwarz ...
International audienceOptimized Schwarz methods (OSM) are very popular methods which were introduced...
Nonlinear domain decomposition (DD) methods, such as, e.g., ASPIN (Additive Schwarz Preconditioned I...
Iterative substructuring Domain Decomposition (DD) methods have been extensively studied, and they a...
AbstractIn this paper, we consider an algebraic additive Schwarz iteration scheme for solving the fi...