Title :
Efficient approximation of symbolic network functions using matroid intersection algorithms
Author :
Yu, Qicheng ; Sechen, Carl
Author_Institution :
Crystal Semicond. Product Div., Cirrus Logic Inc., Nashua, NH, USA
fDate :
10/1/1997 12:00:00 AM
Abstract :
An efficient and effective approximation strategy is crucial to the success of symbolic analysis of large analog circuits. In this paper we propose a new approximation strategy for the symbolic analysis of linear circuits in the complex frequency domain. The strategy directly generates common spanning trees of a two-graph in decreasing order of tree admittance product, using matroid intersection algorithms. The strategy reduces the total time for computing an approximate symbolic expression in expanded format to polynomial with respect to the circuit size under the assumption that the number of product terms retained in the final expression is polynomial. Experimental results are clearly superior to those reported in previous works
Keywords :
frequency-domain analysis; function approximation; linear network analysis; matrix algebra; symbol manipulation; trees (mathematics); admittance; frequency domain; large analog circuit; linear circuit; matroid intersection algorithm; network function approximation; polynomial time; spanning tree; symbolic analysis; two-graph; Admittance; Algorithm design and analysis; Analog circuits; Approximation algorithms; Computer networks; Frequency domain analysis; Polynomials; Transfer functions; Tree graphs; Voltage;
Journal_Title :
Computer-Aided Design of Integrated Circuits and Systems, IEEE Transactions on
