Theory and numerics of subspace approximation of eigenvalue problems
Large-scale eigenvalue problems arise in various fields of science and engineering and demand computationally efficient solutions. In this study, we investigate the subspace approximation for parametric linear eigenvalue problems, aiming to mitigate the computational burden associated with high-fide...
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| creator | Cheung, Siu Wun Choi, Youngsoo Chung, Seung Whan Fattebert, Jean-Luc Kendrick, Coleman Osei-Kuffuor, Daniel |
| description | Large-scale eigenvalue problems arise in various fields of science and
engineering and demand computationally efficient solutions. In this study, we
investigate the subspace approximation for parametric linear eigenvalue
problems, aiming to mitigate the computational burden associated with
high-fidelity systems. We provide general error estimates under non-simple
eigenvalue conditions, establishing the theoretical foundations for our
methodology. Numerical examples, ranging from one-dimensional to
three-dimensional setups, are presented to demonstrate the efficacy of reduced
basis method in handling parametric variations in boundary conditions and
coefficient fields to achieve significant computational savings while
maintaining high accuracy, making them promising tools for practical
applications in large-scale eigenvalue computations. |
| doi_str_mv | 10.48550/arxiv.2412.08891 |
| format | Article |
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engineering and demand computationally efficient solutions. In this study, we
investigate the subspace approximation for parametric linear eigenvalue
problems, aiming to mitigate the computational burden associated with
high-fidelity systems. We provide general error estimates under non-simple
eigenvalue conditions, establishing the theoretical foundations for our
methodology. Numerical examples, ranging from one-dimensional to
three-dimensional setups, are presented to demonstrate the efficacy of reduced
basis method in handling parametric variations in boundary conditions and
coefficient fields to achieve significant computational savings while
maintaining high accuracy, making them promising tools for practical
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engineering and demand computationally efficient solutions. In this study, we
investigate the subspace approximation for parametric linear eigenvalue
problems, aiming to mitigate the computational burden associated with
high-fidelity systems. We provide general error estimates under non-simple
eigenvalue conditions, establishing the theoretical foundations for our
methodology. Numerical examples, ranging from one-dimensional to
three-dimensional setups, are presented to demonstrate the efficacy of reduced
basis method in handling parametric variations in boundary conditions and
coefficient fields to achieve significant computational savings while
maintaining high accuracy, making them promising tools for practical
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engineering and demand computationally efficient solutions. In this study, we
investigate the subspace approximation for parametric linear eigenvalue
problems, aiming to mitigate the computational burden associated with
high-fidelity systems. We provide general error estimates under non-simple
eigenvalue conditions, establishing the theoretical foundations for our
methodology. Numerical examples, ranging from one-dimensional to
three-dimensional setups, are presented to demonstrate the efficacy of reduced
basis method in handling parametric variations in boundary conditions and
coefficient fields to achieve significant computational savings while
maintaining high accuracy, making them promising tools for practical
applications in large-scale eigenvalue computations.</abstract><doi>10.48550/arxiv.2412.08891</doi><oa>free_for_read</oa></addata></record> |
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| subjects | Computer Science - Numerical Analysis Mathematics - Numerical Analysis |
| title | Theory and numerics of subspace approximation of eigenvalue problems |
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