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An efficient PGD solver for structural dynamics applications

Clément Vella, Pierre Gosselet and Serge Prudhomme

Article (2024)

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Abstract

We propose in this paper a Proper Generalized Decomposition (PGD) solver for reduced-order modeling of linear elastodynamic problems. It primarily focuses on enhancing the computational efficiency of a previously introduced PGD solver based on the Hamiltonian formalism. The novelty of this work lies in the implementation of a solver that is halfway between Modal Decomposition and the conventional PGD framework, so as to accelerate the fixed-point iteration algorithm. Additional procedures such that Aitken’s delta-squared process and mode-orthogonalization are incorporated to ensure convergence and stability of the algorithm. Numerical results regarding the ROM accuracy, time complexity, and scalability are provided to demonstrate the performance of the new solver when applied to dynamic simulation of a three-dimensional structure.

Uncontrolled Keywords

model reduction; proper generalized decomposition; Hamiltonian formulation; symplectic structure; Ritz Pairs

Subjects: 2950 Applied mathematics > 2950 Applied mathematics
Department: Department of Mathematics and Industrial Engineering
Funders: French Ministry of National Education, Higher Education, Research and Innovation, NSERC / CRSNG
Grant number: RGPIN-2019-7154
PolyPublie URL: https://publications.polymtl.ca/58818/
Journal Title: Advanced Modeling and Simulation in Engineering Sciences (vol. 11)
Publisher: Springer
DOI: 10.1186/s40323-024-00269-z
Official URL: https://doi.org/10.1186/s40323-024-00269-z
Date Deposited: 05 Aug 2024 15:21
Last Modified: 06 Aug 2024 09:03
Cite in APA 7: Vella, C., Gosselet, P., & Prudhomme, S. (2024). An efficient PGD solver for structural dynamics applications. Advanced Modeling and Simulation in Engineering Sciences, 11, 15 (27 pages). https://doi.org/10.1186/s40323-024-00269-z

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