Information flow in digital metal-oxide semiconductor circuits

Author

Ingenbleek, Bernd ; Woelcken, Klaus ; Matthaus, Claudia

Author_Institution

German Res. Center for Comput. Sci., St. Augustin, West Germany

Volume

9

Issue

2

fYear

1989

fDate

4/1/1989 12:00:00 AM

Firstpage

69

Lastpage

79

Abstract

Static algorithms designed to symbolically describe an electrical network and derive subnetworks of a given maximal size are presented. These algorithms further provide the solution order of the subnetworks. This network splitting allows for strong local feedback that would otherwise cause convergence speed problems. Signal-flow graphs that describe the influence of each element in the circuit on its neighbors serve as the basis for these algorithms. Cycles in the signal-flow graph represent feedback in an electrical network. By removing the cycles, one can naturally determine (by leveling) a favorable solution order for the differential equations and small-equation systems. The work presented here also provides the basis for designing the parallelization of a differential equation solver.<>

Keywords

circuit analysis computing; digital integrated circuits; metal-insulator-semiconductor devices; differential equations; digital metal-oxide semiconductor circuits; electrical network; signal flow graphs; static algorithms; strong local feedback; Algorithm design and analysis; Circuit simulation; Computational modeling; Convergence; Coupling circuits; Differential equations; Force feedback; Intelligent networks; MOS devices; SPICE;

fLanguage

English

Journal_Title

Micro, IEEE

Publisher

ieee

ISSN

0272-1732

Type

jour

DOI

10.1109/40.24851

Filename

24851