Title :
SAPOR: second-order Arnoldi method for passive order reduction of RCS circuits
Author :
Su, Yangfeng ; Wang, Jian ; Zeng, Xuan ; Bai, Zhaojun ; Chiang, Charles ; Zhou, Dian
Author_Institution :
Dept. of Math., Fudan Univ., Shanghai, China
Abstract :
The recently-introduced susceptance element exhibits many prominent features in modeling the on-chip magnetic couplings. For an RCS circuit, it is better to be formulated as a second-order system. Therefore, corresponding MOR (model-order reduction) techniques for second-order systems are desired to efficiently deal with the ever-increasing circuit scale and to preserve essential model properties. We first review the existing MOR methods for RCS circuits, such as ENOR and SMOR, and discuss several key issues related to numerical stability and accuracy of the methods. Then, a technique, SAPOR (second-order Arnoldi method for passive order reduction), is proposed to effectively address these issues. Based on an implementation of a generalized second-order Arnoldi method, SAPOR is numerically stable and efficient. Meanwhile, the reduced-order system also guarantees passivity.
Keywords :
circuit simulation; integrated circuit interconnections; numerical stability; reduced order systems; ENOR; RCS circuits; SAPOR; SMOR; model-order reduction; numerically efficient; numerically stable; on-chip magnetic couplings; passive order reduction; second-order Arnoldi method; second-order system; susceptance element; Circuit simulation; Continuing education; Couplings; Educational programs; Frequency; Inductance; Integrated circuit interconnections; Integrated circuit modeling; Magnetic susceptibility; Reduced order systems;
Conference_Titel :
Computer Aided Design, 2004. ICCAD-2004. IEEE/ACM International Conference on
Print_ISBN :
0-7803-8702-3
DOI :
10.1109/ICCAD.2004.1382546
