Defect tolerance: Fundamental limits and examples

Tang, Jennifer; Wang, Da; Polyanskiy, Yury; Wornell, Gregory W.

doi:10.1109/isit.2016.7541855

2016 IEEE International Symposium on Information Theory (ISIT) 2016

DOI: 10.1109/isit.2016.7541855

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Defect tolerance: Fundamental limits and examples

Jennifer Tang¹,

Da Wang²,

Yury Polyanskiy³

et al.

Abstract: Abstract-This paper addresses the problem of adding redundancy to a collection of physical objects so that the overall system is more robust to failures. In contrast to its information counterpart, which can exploit parity to protect multiple information symbols from a single erasure, physical redundancy can only be realized through duplication and substitution of objects. We propose a bipartite graph model for designing defect-tolerant systems in which defective objects are replaced by judiciously connected r… Show more

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Defect tolerance: Fundamental limits and examples

Tang¹,

Wang²,

Polyanskiy³

et al. 2016

2016 IEEE International Symposium on Information Theory (ISIT)

View full text Add to dashboard Cite

Abstract-This paper addresses the problem of adding redundancy to a collection of physical objects so that the overall system is more robust to failures. In contrast to its information counterpart, which can exploit parity to protect multiple information symbols from a single erasure, physical redundancy can only be realized through duplication and substitution of objects. We propose a bipartite graph model for designing defect-tolerant systems in which defective objects are replaced by judiciously connected redundant objects. The fundamental limits of this model are characterized under various asymptotic settings and both asymptotic and finite-size systems that approach these limits are constructed. Among other results, we show that simple modular redundancy is in general suboptimal. As we develop, this combinatorial problem of defect tolerant system design has a natural interpretation as one of graph coloring, and the analysis is significantly different from that traditionally used in information redundancy for error-control codes.

show abstract

Defect tolerance: Fundamental limits and examples

Tang¹,

Wang²,

Polyanskiy³

et al. 2016

2016 IEEE International Symposium on Information Theory (ISIT)

View full text Add to dashboard Cite

show abstract

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Defect tolerance: Fundamental limits and examples

Cited by 1 publication

References 14 publications

Defect tolerance: Fundamental limits and examples

Defect tolerance: Fundamental limits and examples

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