Time-stepping algorithms and their implementations are a critical component within the solution of time-dependent partial differential equations (PDEs). In this article, we present a generic framework - both in terms of algorithms and implementations - that allows an almost seamless switch between various explicit, implicit and implicit-explicit (IMEX) time-stepping methods. We put particular emphasis on how to incorporate time-dependent boundary conditions, an issue that goes beyond classical ODE theory but which plays an important role in the time-stepping of the PDEs arising in computational fluid dynamics. Our algorithm is based upon J.C. Butcher\u27s unifying concept of general linear methods that we have extended to accommodate the fa...
The objectives of this thesis are to design, analyze and numerically investigate easily implementabl...
Abstract. This paper constructs extrapolated implicit-explicit time stepping methods that allow one ...
A numerical time integration algorithm that combines the high accuracy of the precise time integrati...
Implicit-explicit (IMEX) linear multistep methods are popular techniques for solving partial differ...
The numerical solution of time-dependent ordinary and partial differential equations presents a numb...
The numerical solution of time-dependent ordinary and partial differential equations presents a numb...
Implicit-explicit (IMEX) linear multistep methods are popular techniques for solving partial differe...
For the integration of partial differential equations, we distinguish explicit and implicit methods....
Many practical problems in science and engineering are modeled by large systems of ordinary differen...
Abstract. In this paper we consider a new formulation of implicit-explicit (IMEX) methods for the nu...
International audienceThe main purpose of the paper is to show how to use implicit-explicit (IMEX) R...
This article is devoted to the construction of a new class of semi-Lagrangian (SL) schemes with impl...
Dahlquist, Liniger, and Nevanlinna proposed a two-step time-stepping scheme for systems of ordinary ...
Linearly-implicit two-step peer methods are successfully applied in the numerical solution of ordina...
A sub-time stepping method is described for computational fluid dynamics problems that utilize impli...
The objectives of this thesis are to design, analyze and numerically investigate easily implementabl...
Abstract. This paper constructs extrapolated implicit-explicit time stepping methods that allow one ...
A numerical time integration algorithm that combines the high accuracy of the precise time integrati...
Implicit-explicit (IMEX) linear multistep methods are popular techniques for solving partial differ...
The numerical solution of time-dependent ordinary and partial differential equations presents a numb...
The numerical solution of time-dependent ordinary and partial differential equations presents a numb...
Implicit-explicit (IMEX) linear multistep methods are popular techniques for solving partial differe...
For the integration of partial differential equations, we distinguish explicit and implicit methods....
Many practical problems in science and engineering are modeled by large systems of ordinary differen...
Abstract. In this paper we consider a new formulation of implicit-explicit (IMEX) methods for the nu...
International audienceThe main purpose of the paper is to show how to use implicit-explicit (IMEX) R...
This article is devoted to the construction of a new class of semi-Lagrangian (SL) schemes with impl...
Dahlquist, Liniger, and Nevanlinna proposed a two-step time-stepping scheme for systems of ordinary ...
Linearly-implicit two-step peer methods are successfully applied in the numerical solution of ordina...
A sub-time stepping method is described for computational fluid dynamics problems that utilize impli...
The objectives of this thesis are to design, analyze and numerically investigate easily implementabl...
Abstract. This paper constructs extrapolated implicit-explicit time stepping methods that allow one ...
A numerical time integration algorithm that combines the high accuracy of the precise time integrati...