Paper Info
Title
Model Order Reduction of Parameterized Interconnect Networks via a Two-Directional Arnoldi Process
Abstract
This paper presents a multiparameter moment-matching-based model order reduction technique for parameterized interconnect networks via a novel two-directional Arnoldi process (TAP). It is referred to as a Parameterized Interconnect Macromodeling via a TAP (PIMTAP) algorithm. PIMTAP inherits the advantages of previous multiparameter moment-matching algorithms and avoids their shortfalls. It is numerically stable and adaptive. PIMTAP model yields the same form of the original state equations and preserves the passivity of parameterized RLC networks like the well-known method passive reduced-order interconnect macromodeling algorithm for nonparameterized RLC networks.
Year
DOI
Venue
2008
10.1109/TCAD.2008.927768
IEEE Trans. on CAD of Integrated Circuits and Systems
Keywords
DocType
Volume
integrated circuit interconnections,previous multiparameter,passive reduced-order,integrated circuit modelling,original state equation,novel two-directional arnoldi process,parameterized interconnect networks,Arnoldi process,passive reduced-order interconnect macromodeling algorithm nonparameterized RLC networks,parameterized rlc network,TAP algorithm,multiparameter moment-matching-based model order,nonparameterized rlc network,model order reduction,macromodeling algorithm,parameterized interconnect macromodeling,pimtap model yield,2D Arnoldi process,multiparameter moment-matching-based model order reduction technique,parameterized model order reduction (PMOR),two-directional arnoldi process,moment matching
Journal
27
Issue
ISSN
Citations 
9
0278-0070
4
PageRank 
References 
Authors
0.47
10
4
Name
Order
Citations
PageRank
Yung-Ta Li1161.53
Zhaojun Bai2661107.69
Yangfeng Su323522.05
Xuan Zeng440875.96