Title :
A Scalable Comparison-Based Diagnosis Algorithm for Hypercube-Like Networks
Author :
Tai-Ling Ye ; Sun-Yuan Hsieh
Author_Institution :
Dept. of Comput. Sci. & Inf. Eng., Nat. Cheng Kung Univ., Tainan, Taiwan
Abstract :
Comparison-based diagnosis is a realistic approach to detect faults in multiprocessor systems. The Maeng, Malek (MM) model for comparison-based diagnosis defines a strategy based on sending the same input (or task) from a processor to some pair of distinct neighboring processors, and then comparing their responses. Sengupta and Dahbura proposed a further modification of the MM model, called the MM* model, in which any processor v has to test another two processors if v is adjacent to them. Sengupta and Dahbura presented a O(N5)-time diagnosis algorithm for general diagnosable systems under the MM* model, where N is the number of processors in the system. By exploiting the cycle decomposition property, we improve the above result by presenting a O(N(log2N)2)-time diagnosis algorithm for a class of hypercube-like networks under the MM* model.
Keywords :
fault diagnosis; graph theory; hypercube networks; integrated circuit testing; microprocessor chips; Maeng-Malek model; O(N(log2N)2)-time diagnosis algorithm; O(N5)-time diagnosis algorithm; cycle decomposition property; distinct neighboring processor; fault detection; general diagnosable systems; hypercube-like networks; multiprocessor system; scalable comparison based diagnosis algorithm; Bipartite graph; Computer science; Fault diagnosis; Hypercubes; Multiprocessing systems; Very large scale integration; Comparison diagnosis model; diagnosable systems; diagnosis algorithms; hypercube-like networks; multiprocessor systems; system-level fault diagnosis;
Journal_Title :
Reliability, IEEE Transactions on
DOI :
10.1109/TR.2013.2284743
