Title :
Internode Distance and Optimal Routing in a Class of Alternating Group Networks
Author :
Chen, Baoxing ; Xiao, Wenjun ; Parhami, Behrooz
Author_Institution :
Dept. of Comput. Sci., South China Univ. of Technol., Guangzhou
Abstract :
Alternating group graphs AGn, studied by Jwo and others, constitute a class of Cayley graphs that possess certain desirable properties compared with other regular networks considered by researchers in parallel and distributed computing. A different form, AN n, of such graphs, proposed by Youhou and dubbed alternating group networks, has been shown to possess advantages over AGn. For example, ANn has a node degree that is smaller by a factor of about 2 while maintaining a diameter comparable to that of AGn, is maximally fault-tolerant, and shares some of the positive structural attributes of the well-known star graph. In this paper, we characterize the distance between any two nodes in ANn and present an optimal (shortest-path) routing algorithm for this class of networks
Keywords :
fault tolerant computing; graph theory; multiprocessor interconnection networks; network routing; Cayley graph; alternating group graph; alternating group network; distributed computing; fault-tolerant network; interconnection network; internode distance; optimal routing; optimal shortest-path routing algorithm; parallel computing; permutation group; regular graph; regular network; star graph; Distributed computing; Hypercubes; Intelligent networks; Multiprocessor interconnection networks; Robustness; Routing; System recovery; Alternating group graph; Cayley graph; diameter; interconnection network; internode distance; optimal routing; permutation group; regular graph; shortest-path routing.;
Journal_Title :
Computers, IEEE Transactions on
DOI :
10.1109/TC.2006.199
