Title :
A scalable and fully distributed architecture for Ethernet switching
Author :
Herbert, Marc ; Primet, Pascale ; Tourancheau, Bemard ; Lefevre, Laurent
Abstract :
We propose a new scalable et flexible architecture for Ethernet switching. First we identify the legacy bottlenecks in classical Ethernet backbones: mainly the tree topology and the redundant packet forwarding decisions. Then we describe how a fully distributed communication architecture, based on proven, high-performance computing concepts (source routing, multistage interconnection, wormhole switching) can provide a scalable backbone inside, with Ethernet compatibility outside. Thanks to carefully placed intelligence, materialized as "network processors", we show that not only scalability is enhanced but also flexibility and global transistor count. We present a prototype of this architecture implemented with Myrinet technology.
Keywords :
local area networks; multistage interconnection networks; network topology; packet switching; redundancy; routing protocols; trees (mathematics); Ethernet backbones; Ethernet compatibility; Ethernet switching; Myrinet technology; distributed communication architecture; flexibility; global transistor count; high-performance computing; legacy bottlenecks; multistage interconnection; network processors; redundant packet forwarding decisions; scalable architecture; source routing; tree topology; wormhole switching; Communication switching; Computer architecture; Distributed computing; Ethernet networks; Intelligent networks; Network topology; Prototypes; Routing; Scalability; Spine;
Conference_Titel :
High Performance Switching and Routing, 2002. Merging Optical and IP Technologies. Workshop on
Print_ISBN :
4-88552-184-X
DOI :
10.1109/HPSR.2002.1024242
