AbstractWe investigate the behaviour of Waveform Relaxation methods (WR) for some model problems. First, it is shown how convergence (of the iteration) is related to stability of some one-step integration schemes. Then, we investigate the computational complexity of a 1-D and 2-D heat equation when WR is used in combination with nested iteration and assess its efficiency, in particular, compared to straightforward methods based on Gaussian elimination. Finally, we present some results, showing the performance of WR
A recent class of multirate numerical algorithms, collectively referred to as waveform relaxation me...
Introduction From the end of the 1980's waveform-iteration(relaxation)-based algorithms become...
The authors develop a new class of waveform relaxation algorithms for large systems of ordinary diff...
We investigate the behaviour of Waveform Relaxation methods (WR) for some model problems. First, it ...
AbstractWe investigate the behaviour of Waveform Relaxation methods (WR) for some model problems. Fi...
The error analysis of preconditioned waveform relaxation iterations for differential systems is pres...
Abstract. The error analysis of preconditioned waveform relaxation iterations for differential syste...
Abstract: This paper surveys the family of Waveform Relaxation Methods for solving large systems of ...
. Waveform relaxation algorithms for partial differential equations (PDEs) are traditionally obtaine...
We discuss preconditioning and overlapping of waveform relaxation methods for sparse linear differen...
Abstract Waveform relaxation algorithms for partial dierential equations PDEs are tradi tionally o...
We introduce a new Waveform Relaxation (WR) method based on the Dirichlet-Neumann algorithm and pres...
A recent class of multirate numerical algorithms, collectively referred to as waveform relaxation me...
Schwarz waveform relaxation algorithms (SWR) are naturally parallel solvers for evolution partial di...
AbstractA recent class of multirate numerical algorithms, collectively referred to as waveform relax...
A recent class of multirate numerical algorithms, collectively referred to as waveform relaxation me...
Introduction From the end of the 1980's waveform-iteration(relaxation)-based algorithms become...
The authors develop a new class of waveform relaxation algorithms for large systems of ordinary diff...
We investigate the behaviour of Waveform Relaxation methods (WR) for some model problems. First, it ...
AbstractWe investigate the behaviour of Waveform Relaxation methods (WR) for some model problems. Fi...
The error analysis of preconditioned waveform relaxation iterations for differential systems is pres...
Abstract. The error analysis of preconditioned waveform relaxation iterations for differential syste...
Abstract: This paper surveys the family of Waveform Relaxation Methods for solving large systems of ...
. Waveform relaxation algorithms for partial differential equations (PDEs) are traditionally obtaine...
We discuss preconditioning and overlapping of waveform relaxation methods for sparse linear differen...
Abstract Waveform relaxation algorithms for partial dierential equations PDEs are tradi tionally o...
We introduce a new Waveform Relaxation (WR) method based on the Dirichlet-Neumann algorithm and pres...
A recent class of multirate numerical algorithms, collectively referred to as waveform relaxation me...
Schwarz waveform relaxation algorithms (SWR) are naturally parallel solvers for evolution partial di...
AbstractA recent class of multirate numerical algorithms, collectively referred to as waveform relax...
A recent class of multirate numerical algorithms, collectively referred to as waveform relaxation me...
Introduction From the end of the 1980's waveform-iteration(relaxation)-based algorithms become...
The authors develop a new class of waveform relaxation algorithms for large systems of ordinary diff...