Efficient truncated randomized SVD for mesh-free kernel methods [Formula presented]

A. Noorizadegan; C. S. Chen; R. Cavoretto; A. De Rossi

doi:10.1016/j.camwa.2024.03.021

Efficient truncated randomized SVD for mesh-free kernel methods [Formula presented]

A. Noorizadegan
, C. S. Chen^*
, R. Cavoretto^*
, A. De Rossi^*

^*Corresponding author for this work

Department of Mathematics

Research output: Contribution to journal › Journal article › peer-review

16 Citations (Scopus)

Abstract

This paper explores the utilization of randomized SVD (rSVD) in the context of kernel matrices arising from radial basis functions (RBFs) for the purpose of solving interpolation and Poisson problems. We propose a truncated version of rSVD, called trSVD, which yields a stable solution with a reduced condition number in comparison to the non-truncated variant, particularly when manipulating the scale or shape parameter of RBFs. Notably, trSVD exhibits exceptional proficiency in capturing the most significant singular values, enabling the extraction of critical information from the data. When compared to the conventional truncated SVD (tSVD), trSVD achieves comparable accuracy while demonstrating improved efficiency. Furthermore, we explore the potential of trSVD by employing scale parameter strategies, such as leave-one-out cross-validation and effective condition number. Then, we apply trSVD to solve a 2D Poisson equation, thereby showcasing its efficacy in handling partial differential equations. In summary, this study offers an efficient and accurate solver for RBF problems, demonstrating its practical applicability. The code implementation is provided to the scientific community for their access and reference.

Original language	English
Pages (from-to)	12-20
Number of pages	9
Journal	Computers and Mathematics with Applications
Volume	164
Early online date	4 Apr 2024
DOIs	https://doi.org/10.1016/j.camwa.2024.03.021
Publication status	Published - 15 Jun 2024

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This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 9 Industry, Innovation, and Infrastructure

User-Defined Keywords

Effective condition number
Kernel methods
Radial basis functions
Randomized singular value decomposition
Shape parameter

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10.1016/j.camwa.2024.03.021

Cite this

@article{342c3154474a4923bbd22432b9299b79,

title = "Efficient truncated randomized SVD for mesh-free kernel methods [Formula presented]",

abstract = "This paper explores the utilization of randomized SVD (rSVD) in the context of kernel matrices arising from radial basis functions (RBFs) for the purpose of solving interpolation and Poisson problems. We propose a truncated version of rSVD, called trSVD, which yields a stable solution with a reduced condition number in comparison to the non-truncated variant, particularly when manipulating the scale or shape parameter of RBFs. Notably, trSVD exhibits exceptional proficiency in capturing the most significant singular values, enabling the extraction of critical information from the data. When compared to the conventional truncated SVD (tSVD), trSVD achieves comparable accuracy while demonstrating improved efficiency. Furthermore, we explore the potential of trSVD by employing scale parameter strategies, such as leave-one-out cross-validation and effective condition number. Then, we apply trSVD to solve a 2D Poisson equation, thereby showcasing its efficacy in handling partial differential equations. In summary, this study offers an efficient and accurate solver for RBF problems, demonstrating its practical applicability. The code implementation is provided to the scientific community for their access and reference.",

keywords = "Effective condition number, Kernel methods, Radial basis functions, Randomized singular value decomposition, Shape parameter",

author = "A. Noorizadegan and Chen, \{C. S.\} and R. Cavoretto and \{De Rossi\}, A.",

note = "We sincerely thank the reviewers for their invaluable insights and constructive feedback. The first two authors gratefully acknowledge the financial support of the National Science and Technology Council of Taiwan under grant numbers 109-2221-E002-006-MY3, 111-2811-E-002-062, 111-2221-E-002-054-MY3, 112-2221-E-007-028. We also want to acknowledge the NTUCE-NCREE Joint Artificial Intelligence Research Center and the National Center of High-performance Computing (NCHC) in Taiwan for providing computational and storage resources. The work of R.C. and A.D. has been supported by GNCS-INdAM, and by the Spoke “FutureHPC \& BigData” of the ICSC–National Research Center in “High-Performance Computing, Big Data and Quantum Computing”, funded by European Union – NextGenerationEU. This research has been accomplished within the RITA “Research ITalian network on Approximation” and the UMI Group TAA “Approximation Theory and Applications”. Publisher Copyright: {\textcopyright} 2024 The Authors",

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doi = "10.1016/j.camwa.2024.03.021",

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journal = "Computers and Mathematics with Applications",

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T1 - Efficient truncated randomized SVD for mesh-free kernel methods [Formula presented]

AU - Noorizadegan, A.

AU - Chen, C. S.

AU - Cavoretto, R.

AU - De Rossi, A.

N1 - We sincerely thank the reviewers for their invaluable insights and constructive feedback. The first two authors gratefully acknowledge the financial support of the National Science and Technology Council of Taiwan under grant numbers 109-2221-E002-006-MY3, 111-2811-E-002-062, 111-2221-E-002-054-MY3, 112-2221-E-007-028. We also want to acknowledge the NTUCE-NCREE Joint Artificial Intelligence Research Center and the National Center of High-performance Computing (NCHC) in Taiwan for providing computational and storage resources. The work of R.C. and A.D. has been supported by GNCS-INdAM, and by the Spoke “FutureHPC & BigData” of the ICSC–National Research Center in “High-Performance Computing, Big Data and Quantum Computing”, funded by European Union – NextGenerationEU. This research has been accomplished within the RITA “Research ITalian network on Approximation” and the UMI Group TAA “Approximation Theory and Applications”. Publisher Copyright: © 2024 The Authors

PY - 2024/6/15

Y1 - 2024/6/15

N2 - This paper explores the utilization of randomized SVD (rSVD) in the context of kernel matrices arising from radial basis functions (RBFs) for the purpose of solving interpolation and Poisson problems. We propose a truncated version of rSVD, called trSVD, which yields a stable solution with a reduced condition number in comparison to the non-truncated variant, particularly when manipulating the scale or shape parameter of RBFs. Notably, trSVD exhibits exceptional proficiency in capturing the most significant singular values, enabling the extraction of critical information from the data. When compared to the conventional truncated SVD (tSVD), trSVD achieves comparable accuracy while demonstrating improved efficiency. Furthermore, we explore the potential of trSVD by employing scale parameter strategies, such as leave-one-out cross-validation and effective condition number. Then, we apply trSVD to solve a 2D Poisson equation, thereby showcasing its efficacy in handling partial differential equations. In summary, this study offers an efficient and accurate solver for RBF problems, demonstrating its practical applicability. The code implementation is provided to the scientific community for their access and reference.

AB - This paper explores the utilization of randomized SVD (rSVD) in the context of kernel matrices arising from radial basis functions (RBFs) for the purpose of solving interpolation and Poisson problems. We propose a truncated version of rSVD, called trSVD, which yields a stable solution with a reduced condition number in comparison to the non-truncated variant, particularly when manipulating the scale or shape parameter of RBFs. Notably, trSVD exhibits exceptional proficiency in capturing the most significant singular values, enabling the extraction of critical information from the data. When compared to the conventional truncated SVD (tSVD), trSVD achieves comparable accuracy while demonstrating improved efficiency. Furthermore, we explore the potential of trSVD by employing scale parameter strategies, such as leave-one-out cross-validation and effective condition number. Then, we apply trSVD to solve a 2D Poisson equation, thereby showcasing its efficacy in handling partial differential equations. In summary, this study offers an efficient and accurate solver for RBF problems, demonstrating its practical applicability. The code implementation is provided to the scientific community for their access and reference.

KW - Effective condition number

KW - Kernel methods

KW - Radial basis functions

KW - Randomized singular value decomposition

KW - Shape parameter

UR - https://www.scopus.com/pages/publications/85189521077

U2 - 10.1016/j.camwa.2024.03.021

DO - 10.1016/j.camwa.2024.03.021

M3 - Journal article

AN - SCOPUS:85189521077

SN - 0898-1221

VL - 164

SP - 12

EP - 20

JO - Computers and Mathematics with Applications

JF - Computers and Mathematics with Applications

ER -

Efficient truncated randomized SVD for mesh-free kernel methods [Formula presented]

Abstract

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