Dissent in a Majority Voting System
IEEE Transactions on Computers
Switch Complexity in Systems with Hybrid Redundancy
IEEE Transactions on Computers
A Highly Efficient Redundancy Scheme: Self-Purging Redundancy
IEEE Transactions on Computers
Fault-Tolerance of the Iterative Cell Array Switch for Hybrid Redundancy
IEEE Transactions on Computers
The place of self-repairing facilities in computers with deadlines to meet
IRE-ACM-AIEE '57 (Eastern) Papers and discussions presented at the December 9-13, 1957, eastern joint computer conference: Computers with deadlines to meet
AFIPS '70 (Spring) Proceedings of the May 5-7, 1970, spring joint computer conference
An Algebraic Model of Fault-Masking Logic Circuits
IEEE Transactions on Computers
Hi-index | 14.98 |
A fault-tolerance technique for digital systems, Sift-Out Modular Redundancy, is proposed and designed. An appropriate number of identical channels are provided for each module. The number of channels depend upon the particular application, and all channels are active as long as they are fault-free. Upon the failure of a channel, its contribution to the module output ceases. The configuration tolerates up to L - 2 channel failures, if L is the initial number of channels. Sift-out redundancy is easy to implement, and shows several advantages when compared to existing redundancy techniques.