This thesis aims to implement time integrators in the FEniCS framework. More specifically, the thesis focuses on selecting suitable time integrators, implement these and verify that the implementation works by applying them to various relevant test problems. This work resulted in a module for FEniCS, named Gryphon. The thesis is divided into four parts.The first part builds a theoretical framework which will motivate why singly diagonally implicit Runge-Kutta methods with an explicit first stage (ESDIRKs) should be considered for solving stiff ordinary differential equations (ODEs). It will also be shown how an ESDIRK method can be utilized to solve time dependent partial differential equations (PDEs) by solving the semidiscretized system a...
This thesis consists of three parts. Part I: Theoretical study on conjugate symplecticity of B-serie...
International audienceThis paper introduces a new class of numerical methods for the time integratio...
FEniCS is a collection of software tools for the automated solution of differential equations by fin...
This thesis aims to implement time integrators in the FEniCS framework. More specifically, the thesi...
Time-stepping algorithms and their implementations are a critical component within the solution of t...
Several real-world requests that involve conditions where different physical phenomena perform on ve...
Stiff systems of ordinary differential equations (ODEs) play an essential role in the temporal integ...
A numerical time integration algorithm that combines the high accuracy of the precise time integrati...
We propose an efficient and generic algorithm for rigorous integration forward in time of partial di...
The last decades have seen a strongly increasing use of computers for modeling larger and more compl...
Time–fractional partial differential equations can be numerically solved by first discretizing with ...
Mathematical models that couple partial differential equations (PDEs) and spatially distributed ordi...
This paper introduces a new class of numerical methods for the time integration of evolution equatio...
The thesis is concerned with the improvement and evaluation of hybridized discontinuous Galerkin (HD...
International audienceScikit-FDiff is a new tool for Partial Differential Equation (PDE) solving, wr...
This thesis consists of three parts. Part I: Theoretical study on conjugate symplecticity of B-serie...
International audienceThis paper introduces a new class of numerical methods for the time integratio...
FEniCS is a collection of software tools for the automated solution of differential equations by fin...
This thesis aims to implement time integrators in the FEniCS framework. More specifically, the thesi...
Time-stepping algorithms and their implementations are a critical component within the solution of t...
Several real-world requests that involve conditions where different physical phenomena perform on ve...
Stiff systems of ordinary differential equations (ODEs) play an essential role in the temporal integ...
A numerical time integration algorithm that combines the high accuracy of the precise time integrati...
We propose an efficient and generic algorithm for rigorous integration forward in time of partial di...
The last decades have seen a strongly increasing use of computers for modeling larger and more compl...
Time–fractional partial differential equations can be numerically solved by first discretizing with ...
Mathematical models that couple partial differential equations (PDEs) and spatially distributed ordi...
This paper introduces a new class of numerical methods for the time integration of evolution equatio...
The thesis is concerned with the improvement and evaluation of hybridized discontinuous Galerkin (HD...
International audienceScikit-FDiff is a new tool for Partial Differential Equation (PDE) solving, wr...
This thesis consists of three parts. Part I: Theoretical study on conjugate symplecticity of B-serie...
International audienceThis paper introduces a new class of numerical methods for the time integratio...
FEniCS is a collection of software tools for the automated solution of differential equations by fin...