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    NCU Institutional Repository > 理學院 > 數學系 > 期刊論文 >  Item 987654321/51180


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    題名: A parallel polynomial Jacobi-Davidson approach for dissipative acoustic eigenvalue problems
    作者: Huang,TM;Hwang,FN;Lai,SH;Wang,WC;Wei,ZH
    貢獻者: 數學系
    關鍵詞: LINEAR-SYSTEMS;QUANTUM-DOT;FORMULATION;ALGORITHM
    日期: 2011
    上傳時間: 2012-03-27 18:24:14 (UTC+8)
    出版者: 國立中央大學
    摘要: We consider a rational algebraic large sparse eigenvalue problem arising in the discretization of the finite element method for the dissipative acoustic model in the pressure formulation. The presence of nonlinearity due to the frequency-dependent impedance poses a challenge in developing an efficient numerical algorithm for solving such eigenvalue problems. In this article, we reformulate the rational eigenvalue problem as a cubic eigenvalue problem and then solve the resulting cubic eigenvalue problem by a parallel restricted additive Schwarz preconditioned Jacobi-Davidson algorithm (ASPJD). To validate the ASPJD-based eigensolver. we numerically demonstrate the optimal convergence rate of our discretization scheme and show that ASPJD converges successfully to all target eigenvalues. The extraneous root introduced by the problem reformulation does not cause any observed side effect that produces an undesirable oscillatory convergence behavior. By performing intensive numerical experiments, we identify an efficient correction-equation solver, an effective algorithmic parameter setting, and an optimal mesh partitioning. Furthermore, the numerical results suggest that the ASPJD-based eigensolver with an optimal mesh partitioning results in superlinear scalability on a distributed and parallel computing cluster scaling up to 192 processors. (C) 2010 Elsevier Ltd. All rights reserved.
    關聯: COMPUTERS & FLUIDS
    顯示於類別:[數學系] 期刊論文

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