Chang-Hsiung Tsai scite author profile

Processor fault diagnosis is an essential subject for the reliability of a multiprocessor system. The precise strategy and the pessimistic strategy are two classical diagnostic strategies which are based on the well-known PMC model. The precise strategy problem of fault diagnosis is discussed widely and demands that all processors be identified correctly, specifically that all fault-free processors are identified as "fault free" and all faulty processors are identified as "faulty." The pessimistic diagnosis strategy is a process to diagnose faults that allows all faulty processors to be isolated within a set that contains at most one fault-free processor. In this paper, we study the pessimistic diagnosis strategy under the PMC model for hypercube-like multiprocessor systems. The contribution is to propose an efficient pessimistic diagnosis algorithm for hypercube-like multiprocessor systems. If we denote by N the total number of processors in the hypercube-like system to be diagnosed, the algorithm can run in OðNÞ time.

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The super-connected property of recursive circulant graphs

Tsai¹,

Tan

Hsu

2004

Information Processing Letters

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Chang-Hsiung Tsai

Bipanconnectivity and edge-fault-tolerant bipancyclicity of hypercubes

Linear array and ring embeddings in conditional faulty hypercubes

Fault-tolerant hamiltonian laceability of hypercubes

Conditional edge-fault-tolerant edge-bipancyclicity of hypercubes

Path bipancyclicity of hypercubes

On some super fault-tolerant Hamiltonian graphs

A Quick Pessimistic Diagnosis Algorithm for Hypercube-Like Multiprocessor Systems under the PMC Model

The super-connected property of recursive circulant graphs

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