Title :
Tradeoff of horizontal decomposition versus vertical stacking in rearrangeable nonblocking networks
Author :
Lea, Chin-Tau ; Shyy, Dong-Jye
Author_Institution :
Sch. of Electr. Eng., Georgia Inst. of Technol., Atlanta, GA, USA
fDate :
6/1/1991 12:00:00 AM
Abstract :
A class of rearrangeable nonblocking networks is presented. The proposed networks are fault-tolerant, self-routing, and intended for a very-high-speed environment. Self-routing networks have one major problem when applied to switching: they are blocking networks. To solve this problem, two methods have been used to create self-routing rearrangeable nonblocking networks: horizontal cascading (HC) and vertical stacking (VS). The authors unify the two approaches and propose a novel class of switching networks. The proposed design principle allows the best tradeoffs among design parameters such as fault tolerance, hardware cost, and the frequency of rearrangement activities. A study of the frequency of rearrangement activities is also presented
Keywords :
switching networks; design parameters; fault tolerance; fault tolerant networks; hardware cost; horizontal cascading; horizontal decomposition; rearrangeable nonblocking networks; rearrangement activities frequency; selfrouting networks; switching networks; vertical stacking; very-high-speed environment; Bipartite graph; Costs; Fault tolerance; Frequency; Hardware; Helium; Intelligent networks; Network topology; Stacking; Switches;
Journal_Title :
Communications, IEEE Transactions on
