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Condition Number Estimation of Preconditioned Matrices

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  • Noriyuki Kushida

Abstract

The present paper introduces a condition number estimation method for preconditioned matrices. The newly developed method provides reasonable results, while the conventional method which is based on the Lanczos connection gives meaningless results. The Lanczos connection based method provides the condition numbers of coefficient matrices of systems of linear equations with information obtained through the preconditioned conjugate gradient method. Estimating the condition number of preconditioned matrices is sometimes important when describing the effectiveness of new preconditionerers or selecting adequate preconditioners. Operating a preconditioner on a coefficient matrix is the simplest method of estimation. However, this is not possible for large-scale computing, especially if computation is performed on distributed memory parallel computers. This is because, the preconditioned matrices become dense, even if the original matrices are sparse. Although the Lanczos connection method can be used to calculate the condition number of preconditioned matrices, it is not considered to be applicable to large-scale problems because of its weakness with respect to numerical errors. Therefore, we have developed a robust and parallelizable method based on Hager’s method. The feasibility studies are curried out for the diagonal scaling preconditioner and the SSOR preconditioner with a diagonal matrix, a tri-daigonal matrix and Pei’s matrix. As a result, the Lanczos connection method contains around 10% error in the results even with a simple problem. On the other hand, the new method contains negligible errors. In addition, the newly developed method returns reasonable solutions when the Lanczos connection method fails with Pei’s matrix, and matrices generated with the finite element method.

Suggested Citation

  • Noriyuki Kushida, 2015. "Condition Number Estimation of Preconditioned Matrices," PLOS ONE, Public Library of Science, vol. 10(3), pages 1-16, March.
  • Handle: RePEc:plo:pone00:0122331
    DOI: 10.1371/journal.pone.0122331
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    Cited by:

    1. Vojtěch Turek, 2019. "Improving Performance of Simplified Computational Fluid Dynamics Models via Symmetric Successive Overrelaxation," Energies, MDPI, vol. 12(12), pages 1-16, June.
    2. Ignacio Algredo-Badillo & José Julio Conde-Mones & Carlos Arturo Hernández-Gracidas & María Monserrat Morín-Castillo & José Jacobo Oliveros-Oliveros & Claudia Feregrino-Uribe, 2020. "An FPGA-based analysis of trade-offs in the presence of ill-conditioning and different precision levels in computations," PLOS ONE, Public Library of Science, vol. 15(6), pages 1-26, June.

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