Accurate numerical solution of time-dependent, high-dimensional partial differential equations (PDEs) usually requires efficient numerical techniques and massive-scale parallel computing. In this thesis, we implement and evaluate discretization schemes suited for PDEs of higher dimensionality, focusing on high order of accuracy and low computational cost. Spatial discretization is particularly challenging in higher dimensions. The memory requirements for uniform grids quickly grow out of reach even on large-scale parallel computers. We utilize high-order discretization schemes and implement adaptive mesh refinement on structured hyperrectangular domains in order to reduce the required number of grid points and computational work. We allow f...
In this thesis we propose a new algorithm for solving PDEs on massively parallel computers. The Nest...
The solution of high-dimensional problems, especially high-dimensional partial differential equation...
Scientific computing and computer simulation play an increasingly important role in scientific inves...
Accurate numerical solution of time-dependent, high-dimensional partial differential equations (PDEs...
Accurate numerical simulation of time-dependent phenomena in many spatial dimensions is a challengin...
A fully adaptive numerical scheme for solving PDEs based on a finite volume discretization with exp...
In this paper, we discuss some of the issues in obtaining high performance for block-structured adap...
Abstract. We present two parallel multilevel methods for solving large-scale discretized partial dif...
INTRODUCTION We consider partial differential equations, e.g. an elliptic scalar differential equat...
Abstract. Competitive numerical simulation codes solving partial dif-ferential equations have to tap...
We present an adaptive methodology for the solution of (linear and) non-linear time dependent proble...
© The Author(s) 2021.Efficient exploitation of exascale architectures requires rethinking of the num...
Abstract. With the continued evolution of computing architectures towards many-core com-puting, algo...
We present a new approach to the use of parallel computers with adaptive finite element methods. Thi...
International audienceNumerical simulation of the nonlinear reaction-diffusion equations in computat...
In this thesis we propose a new algorithm for solving PDEs on massively parallel computers. The Nest...
The solution of high-dimensional problems, especially high-dimensional partial differential equation...
Scientific computing and computer simulation play an increasingly important role in scientific inves...
Accurate numerical solution of time-dependent, high-dimensional partial differential equations (PDEs...
Accurate numerical simulation of time-dependent phenomena in many spatial dimensions is a challengin...
A fully adaptive numerical scheme for solving PDEs based on a finite volume discretization with exp...
In this paper, we discuss some of the issues in obtaining high performance for block-structured adap...
Abstract. We present two parallel multilevel methods for solving large-scale discretized partial dif...
INTRODUCTION We consider partial differential equations, e.g. an elliptic scalar differential equat...
Abstract. Competitive numerical simulation codes solving partial dif-ferential equations have to tap...
We present an adaptive methodology for the solution of (linear and) non-linear time dependent proble...
© The Author(s) 2021.Efficient exploitation of exascale architectures requires rethinking of the num...
Abstract. With the continued evolution of computing architectures towards many-core com-puting, algo...
We present a new approach to the use of parallel computers with adaptive finite element methods. Thi...
International audienceNumerical simulation of the nonlinear reaction-diffusion equations in computat...
In this thesis we propose a new algorithm for solving PDEs on massively parallel computers. The Nest...
The solution of high-dimensional problems, especially high-dimensional partial differential equation...
Scientific computing and computer simulation play an increasingly important role in scientific inves...