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Enabling local time stepping in the parallel implicit solution of reaction-diffusion equations via space-time finite elements on shallow tree meshes
D. Krause,
R. Krause
*
*
Corresponding author for this work
Applied Mathematics and Computational Science
Research output
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Article
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peer-review
9
Scopus citations
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Dive into the research topics of 'Enabling local time stepping in the parallel implicit solution of reaction-diffusion equations via space-time finite elements on shallow tree meshes'. Together they form a unique fingerprint.
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Mathematics
Time Step
100%
Diffusion Equation
100%
Implicit Solution
100%
Reaction-Diffusion System
100%
Local Time
100%
Nonlinear
33%
Time Approach
33%
Computational Cost
16%
PDE
16%
Time Discretization
16%
Time Step Size
16%
Heat Equation
16%
Non-Linear Partial Differential Equations
16%
Equation System
16%
Numerical Experiment
16%
Data Structure
16%
Engineering
Local Time
100%
Diffusion Equation
100%
Discontinuous Galerkin
50%
Global Time
50%
Numerical Experiment
25%
Element Method
25%
Nonlinear Partial Differential Equation
25%
Adaptive Mesh
25%
Implicit Time
25%
Memory Footprint
25%
Step Size α
25%
Computational Cost
25%
Discretization
25%
Partial Differential Equation
25%
Equation System
25%
Keyphrases
Time Step Control
50%
Mesh Data Structures
25%
Stabilization Schemes
25%
Space-time Approach
25%
Low Memory Footprint
25%
Mortar Element Method
25%