Architecture, defect tolerance, and buffer design for a new ATM switch

Author

Jain, V.K. ; Lin, L. ; Horiguchi, S.

Author_Institution

Univ. of South Florida, Tampa, FL, USA

fYear

1997

fDate

8-10 Oct 1997

Firstpage

248

Lastpage

258

Abstract

This paper presents a modular architecture for a scalable ATM-switch. The cell routing function, and the associated queueing, is distributed over many small clusters of nodes, called basic modules. These basic modules are hierarchically interconnected to form larger switches. In a basic module, every node is interconnected with adjacent nodes in the same module with three of its four links. The fourth link is used to connect either to external ports or to other basic modules at higher levels of the hierarchy. From a hardware implementation perspective, the simplicity of the architecture stems from the fact that each node in the switch consists of two small crossbar switches of low complexity and a buffer, plus a controller. The hierarchial nature of the topology allows for modular growth of the switch. Further, the interconnection topology of the switch makes it suitable for 3-D (stacked VLSI/WSI) implementation

Keywords

B-ISDN; asynchronous transfer mode; integrated circuit interconnections; packet switching; telecommunication network routing; wafer-scale integration; 3D implementation; adjacent nodes; basic modules; buffer design; cell routing function; crossbar switches; defect tolerance; hierarchical interconnection; modular architecture; scalable ATM-switch; stacked VLSI/WSI; Asynchronous transfer mode; Bit rate; Communication switching; Electronic mail; Hardware; Quality of service; Routing; Switches; Telecommunication network topology; Telecommunication traffic;

fLanguage

English

Publisher

ieee

Conference_Titel

Innovative Systems in Silicon, 1997. Proceedings., Second Annual IEEE International Conference on

Conference_Location

Austin, TX

ISSN

1094-7116

Print_ISBN

0-7803-4276-3

Type

conf

DOI

10.1109/ICISS.1997.630267

Filename

630267