Embedding Hamiltonian paths in faulty arrangement graphs with the backtracking method

Author

Lo, Ray-Shang ; Chen, Gen-Huey

Author_Institution

Dept. of Electron. Eng., Wu Feng Inst. of Technol., Chiayi, Taiwan

Volume

12

Issue

2

fYear

2001

fDate

2/1/2001 12:00:00 AM

Firstpage

209

Lastpage

222

Abstract

The arrangement graph, denoted by A_n,k, is a generalization of the star graph. A recent work by S.Y. Hsieh et al. (1999) showed that when n-k⩾4 and k=2 or n-k⩾4+[k/2] and k⩾3, A_n,k with k(n-k)-2 random edge faults, can embed a Hamiltonian cycle. In this paper, we generalize Hsieh et al. work by embedding a Hamiltonian path between arbitrary two distinct vertices of the same A_n,k. To overcome the difficulty arising from random selection of the two end vertices, a new embedding method, based on a backtracking technique, is proposed. Our results can tolerate more edge faults than Hsieh et al. results as k⩾7 and 7⩽n-k⩽3+[k/2], although embedding a Hamiltonian path between arbitrary two distinct vertices is more difficult than embedding a Hamiltonian cycle

Keywords

fault tolerant computing; graph theory; multiprocessor interconnection networks; Hamiltonian cycle; Hamiltonian paths embedding; arrangement graph; backtracking method; backtracking technique; faulty arrangement graphs; star graph; Broadcasting; Fault tolerance; Helium; Hypercubes; Multiprocessor interconnection networks; Routing; Tree graphs; Upper bound;

fLanguage

English

Journal_Title

Parallel and Distributed Systems, IEEE Transactions on

Publisher

ieee

ISSN

1045-9219

Type

jour

DOI

10.1109/71.910874

Filename

910874