Publikation: Towards parallel time-stepping for the numerical simulation of atherosclerotic plaque growth
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2023
Autor:innen
Heinlein, Alexander
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Journal of Computational Physics. Elsevier. 2023, 491, 112347. ISSN 0021-9991. eISSN 1090-2716. Verfügbar unter: doi: 10.1016/j.jcp.2023.112347
Zusammenfassung
The numerical simulation of atherosclerotic plaque growth is computationally prohibitive, since it involves a complex cardiovascular fluid-structure interaction (FSI) problem with a characteristic time scale of milliseconds to seconds, as well as a plaque growth process governed by reaction-diffusion equations, which takes place over several months. In this work we combine a temporal homogenization approach, which separates the problem in computationally expensive FSI problems on a micro scale and a reaction-diffusion problem on the macro scale, with parallel time-stepping algorithms. It has been found in the literature that parallel time-stepping algorithms do not perform well when applied directly to the FSI problem. To circumvent this problem, a parareal algorithm is applied on the macro-scale reaction-diffusion problem instead of the micro-scale FSI problem. We investigate modifications in the coarse propagator of the parareal algorithm, in order to further reduce the number of costly micro problems to be solved. The approaches are tested in detailed numerical investigations based on serial simulations.
Zusammenfassung in einer weiteren Sprache
Fachgebiet (DDC)
510 Mathematik
Schlagwörter
Atherosclerotic plaque growth, Temporal homogenization, Parallel time-stepping, Parareal algorithm, Fluid-structure interactions
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FREI, Stefan, Alexander HEINLEIN, 2023. Towards parallel time-stepping for the numerical simulation of atherosclerotic plaque growth. In: Journal of Computational Physics. Elsevier. 2023, 491, 112347. ISSN 0021-9991. eISSN 1090-2716. Verfügbar unter: doi: 10.1016/j.jcp.2023.112347BibTex
@article{Frei2023-10Towar-75418,
title={Towards parallel time-stepping for the numerical simulation of atherosclerotic plaque growth},
year={2023},
doi={10.1016/j.jcp.2023.112347},
volume={491},
issn={0021-9991},
journal={Journal of Computational Physics},
author={Frei, Stefan and Heinlein, Alexander},
note={Article Number: 112347}
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<dcterms:abstract>The numerical simulation of atherosclerotic plaque growth is computationally prohibitive, since it involves a complex cardiovascular fluid-structure interaction (FSI) problem with a characteristic time scale of milliseconds to seconds, as well as a plaque growth process governed by reaction-diffusion equations, which takes place over several months. In this work we combine a temporal homogenization approach, which separates the problem in computationally expensive FSI problems on a micro scale and a reaction-diffusion problem on the macro scale, with parallel time-stepping algorithms. It has been found in the literature that parallel time-stepping algorithms do not perform well when applied directly to the FSI problem. To circumvent this problem, a parareal algorithm is applied on the macro-scale reaction-diffusion problem instead of the micro-scale FSI problem. We investigate modifications in the coarse propagator of the parareal algorithm, in order to further reduce the number of costly micro problems to be solved. The approaches are tested in detailed numerical investigations based on serial simulations.</dcterms:abstract>
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