DocumentCode
3154439
Title
MOS Circuit Models in Network C
Author
Beckett, William S.
Author_Institution
UW/NW VLSI Consortium Department of Computer Science, University of Washington
fYear
1986
fDate
29-2 June 1986
Firstpage
171
Lastpage
178
Abstract
Network C is a programming language designed for constructing simulation models of VLSI circuits and systems. The language, which is a superset of C, supports a range of modeling capabilities including approximate solution of Kirchoff equations at the circuit level and discrete event functional simulation at the system level. When used to model a MOS circuit, the system first decomposes the circuit into a set of independent stages. The values of nodes, represented by piece-wise linear functions, are communicated between stages using discrete event scheduling. The determination of these piece-wise linear functions is based on continuous time calculations. The result of this hybrid approach is a fast simulation capability which maintains enough accuracy to capture both the digital and analog aspects of a circuit´s behavior.
Keywords
Circuit analysis; Circuit simulation; Computer languages; Continuous time systems; Discrete event simulation; Discrete event systems; Intelligent networks; Nonlinear equations; Piecewise linear techniques; Very large scale integration;
fLanguage
English
Publisher
ieee
Conference_Titel
Design Automation, 1986. 23rd Conference on
ISSN
0738-100X
Print_ISBN
0-8186-0702-5
Type
conf
DOI
10.1109/DAC.1986.1586085
Filename
1586085
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