Fault tolerant and fault testable hardware design
Fault tolerant and fault testable hardware design
The Cubical Ring Connected Cycles: A Fault Tolerant Parallel Computation Network
IEEE Transactions on Computers
Design & analysis of fault tolerant digital systems
Design & analysis of fault tolerant digital systems
Designing fault-tolerant systems using automorphisms
Journal of Parallel and Distributed Computing
Introduction to parallel algorithms and architectures: array, trees, hypercubes
Introduction to parallel algorithms and architectures: array, trees, hypercubes
CSC '93 Proceedings of the 1993 ACM conference on Computer science
Distributed loop computer networks: a survey
Journal of Parallel and Distributed Computing
IEEE Transactions on Parallel and Distributed Systems
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Our work in deriving and comparing the reliability formulas for three leading hypercubic models-the original hypercube, Shih's cube, and the ring-connected hypercube-demonstrates the superiority of the ring-connected hypercube (RCH) approach. Though it needs twice the links of the original hypercube network, which is the best result to date, the RCH can recover from node failures. The higher resultant reliability of this fault-tolerant architecture makes the RCH an attractive candidate for many critical parallel-computation applications.