论文信息 - A multifrontal block ILU preconditioner for the 3D finite-element eigenvalue analysis of lossy slow-wave structures of traveling-wave tubes

A multifrontal block ILU preconditioner for the 3D finite-element eigenvalue analysis of lossy slow-wave structures of traveling-wave tubes

A novel multifrontal block incomplete LU preconditioner (MFBILU) for large-scale complex unsymmetric linear generalized eigenvalue problems (GEPs), which are formed by the 3D finite-element (FE) eigenvalue analysis of lossy slow-wave structures (SWSs) of traveling-wave tubes (TWTs). We organized it with the p-type multigrid preconditioner (PMP) and obtained a novel mixed high efficient preconditioner. By simulating many practical SWSs with the new preconditioner, it was shown that the high-frequency parameters of SWSs can be obtained rapidly and accurately and with low memory requirement. This would make the modeling of SWSs cheaper and more efficient.

Bin Li | Li Xu | Hao Wang | Jianqing Li

[1] Jin-Fa Lee,et al. p-Type multiplicative Schwarz (pMUS) method with vector finite elements for modeling three-dimensional waveguide discontinuities , 2004, IEEE Transactions on Microwave Theory and Techniques.

[2] Joseph W. H. Liu,et al. The Multifrontal Method for Sparse Matrix Solution: Theory and Practice , 1992, SIAM Rev..

[3] Quan Hu,et al. Theory and Design of Microwave-Tube Simulator Suite , 2009, IEEE Transactions on Electron Devices.

[4] Bin Li,et al. Accurate and Fast Finite-Element Modeling of Attenuation in Slow-Wave Structures for Traveling-Wave Tubes , 2012, IEEE Transactions on Electron Devices.

[5] Bin Li,et al. A Novel Approach of Removing Spurious DC Modes in Finite-Element Solution for Modeling Microwave Tubes , 2010, IEEE Transactions on Electron Devices.

[6] John K. Reid,et al. The Multifrontal Solution of Indefinite Sparse Symmetric Linear , 1983, TOMS.