Multiprocessor architecture machines offer promising opportunities to achieve significant speedup in solving large systems of Ordinary Differential Equations (ODEs.) Often, large systems of ODEs have components that vary with different rates. If numerical solution is computed for the system as a whole, the step size will limited by the fastest component. Multirate methods avoid this restriction by partitioning the system of equations into smaller subsystems and integrating each separately. Step sizes are chosen for each subsystem and are synchronized among slow and fast subsystems. A partitioned system of ODEs can be integrated in parallel but synchronization of step sizes can severely limit speedup. The synchronization overhead can be avoi...
For large systems of ordinary differential equations (ODEs), some components may show a more active ...
Consider the coupling of two multi-physics systems of time-dependent ODEs. We propose a new Waveform...
The authors develop a new class of waveform relaxation algorithms for large systems of ordinary diff...
Multiprocessor architecture machines offer promising opportunities to achieve significant speedup in...
It is the purpose of this paper to provide an acceleration of waveform relaxation (WR) methods for ...
Waveform relaxation is a numerical method for solving large-scale systems of ordinary differential e...
Waveform relaxation is a numerical method for solving large-scale systems of ordinary differential e...
In this paper we present an extension of the wra for solving large systems of odes. The wra is well ...
AbstractIn this paper, it is shown how to adapt an existing package (VODE) for solving systems of or...
We apply a Runge-Kutta-based waveform relaxation method to initial-value problems for implicit diffe...
AbstractThe study of high-dimensional differential equations is challenging and difficult due to the...
AbstractWe are interested in solving linear time-dependent index one differential algebraic equation...
This thesis reports the continuing effort towards establishing a parallel numerical algorithm known ...
An extension of the waveform relaxation (WR) algorithm to systems of differential/algebraic equation...
Abstract: This paper surveys the family of Waveform Relaxation Methods for solving large systems of ...
For large systems of ordinary differential equations (ODEs), some components may show a more active ...
Consider the coupling of two multi-physics systems of time-dependent ODEs. We propose a new Waveform...
The authors develop a new class of waveform relaxation algorithms for large systems of ordinary diff...
Multiprocessor architecture machines offer promising opportunities to achieve significant speedup in...
It is the purpose of this paper to provide an acceleration of waveform relaxation (WR) methods for ...
Waveform relaxation is a numerical method for solving large-scale systems of ordinary differential e...
Waveform relaxation is a numerical method for solving large-scale systems of ordinary differential e...
In this paper we present an extension of the wra for solving large systems of odes. The wra is well ...
AbstractIn this paper, it is shown how to adapt an existing package (VODE) for solving systems of or...
We apply a Runge-Kutta-based waveform relaxation method to initial-value problems for implicit diffe...
AbstractThe study of high-dimensional differential equations is challenging and difficult due to the...
AbstractWe are interested in solving linear time-dependent index one differential algebraic equation...
This thesis reports the continuing effort towards establishing a parallel numerical algorithm known ...
An extension of the waveform relaxation (WR) algorithm to systems of differential/algebraic equation...
Abstract: This paper surveys the family of Waveform Relaxation Methods for solving large systems of ...
For large systems of ordinary differential equations (ODEs), some components may show a more active ...
Consider the coupling of two multi-physics systems of time-dependent ODEs. We propose a new Waveform...
The authors develop a new class of waveform relaxation algorithms for large systems of ordinary diff...