Design and technology aspects of VLSIs for ATM switches

Author

Banniza, Thomas R. ; Eilenberger, Gert J. ; Pauwels, Bart ; Therasse, Yves

Author_Institution

SEL-Alcatel Res. Center, Stuttgart, Germany

Volume

9

Issue

8

fYear

1991

fDate

10/1/1991 12:00:00 AM

Firstpage

1255

Lastpage

1264

Abstract

A system concept based on a multipath self-routing switching principle and on an internal transfer mode using multislot cells is introduced. With the utilization of a shared buffer memory structure, this concept allows for a single-chip realization of the switching elements and fulfils important system requirements like fault tolerance, independence of the switch core from external data formats and traffic characteristics, and modular extendibility from small to very large systems. An example implementation of the concept with the resulting functional partitioning in boards and chips is given. Performance study results, as a basis for dimensioning, are also presented. The most important design aspects and a possible tool chain exploiting a hardware description language, logic simulator, and logic compiler are highlighted

Keywords

BIMOS integrated circuits; CMOS integrated circuits; ISDN; broadband networks; electronic switching systems; time division multiplexing; ATM switch VLSI design; B-ISDN; BiCMOS; CMOS; asynchronous transfer mode; design aspects; fault tolerance; functional partitioning; hardware description language; internal transfer mode; logic compiler; logic simulator; modular extendibility; multipath self-routing switching; multislot cells; shared buffer memory structure; tool chain; Asynchronous transfer mode; B-ISDN; CMOS technology; Fault tolerant systems; Hardware design languages; Logic design; Power semiconductor switches; Switching systems; Traffic control; Very large scale integration;

fLanguage

English

Journal_Title

Selected Areas in Communications, IEEE Journal on

Publisher

ieee

ISSN

0733-8716

Type

jour

DOI

10.1109/49.105172

Filename

105172