For the integration of partial differential equations, we distinguish explicit and implicit methods. In this paper, we consider an explicit-implicit method, which follows from the truncation of the solution process of a fully implicit method. Such a method is of interest because not only better vectorizing properties can be obtained by increasing the explicit part, but the method also fits well in a domain-decomposition approach. In this paper, we focus on the feasibility of such methods by studying their stability and accuracy properties. Nevertheless, we also did some experiments on vectorcomputers to show that for a sufficient degree of explicitness our method is more efficient than fully implicit methods
ABSTRACT—The stability and accuracy of the numerical integration of the time-evolution equation obta...
International audienceThis paper introduces a new class of numerical methods for the time integratio...
Since most partial differential equations (PDEs) do not have exact solutions, they are usually solve...
For the integration of partial differential equations, we distinguish explicit and implicit methods....
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...
Various methods have been proposed to integrate dynamical systems arising from spatially discretized...
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...
Time-stepping algorithms and their implementations are a critical component within the solution of t...
Implicit-explicit (IMEX) linear multistep methods are popular techniques for solving partial differ...
Implicit-explicit (IMEX) linear multistep methods are popular techniques for solving partial differe...
Many practical problems in science and engineering are modeled by large systems of ordinary differen...
The class of implicit-explicit (IMEX) methods are numerical scheme designed for numerical solution o...
This paper introduces a new class of numerical methods for the time integration of evolution equatio...
ABSTRACT—The stability and accuracy of the numerical integration of the time-evolution equation obta...
International audienceThis paper introduces a new class of numerical methods for the time integratio...
Since most partial differential equations (PDEs) do not have exact solutions, they are usually solve...
For the integration of partial differential equations, we distinguish explicit and implicit methods....
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...
Various methods have been proposed to integrate dynamical systems arising from spatially discretized...
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...
Time-stepping algorithms and their implementations are a critical component within the solution of t...
Implicit-explicit (IMEX) linear multistep methods are popular techniques for solving partial differ...
Implicit-explicit (IMEX) linear multistep methods are popular techniques for solving partial differe...
Many practical problems in science and engineering are modeled by large systems of ordinary differen...
The class of implicit-explicit (IMEX) methods are numerical scheme designed for numerical solution o...
This paper introduces a new class of numerical methods for the time integration of evolution equatio...
ABSTRACT—The stability and accuracy of the numerical integration of the time-evolution equation obta...
International audienceThis paper introduces a new class of numerical methods for the time integratio...
Since most partial differential equations (PDEs) do not have exact solutions, they are usually solve...