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@inproceedings{1109051, author = {Amiri, Moslem and Přenosil, Václav}, address = {Brno, Czech Republic}, booktitle = {Proceedings of International Conference on Distance Learning, Simulation and Communication 'DLSC 2013'}, edition = {first}, editor = {Miroslav Hrubý}, keywords = {reliable voter model; triple modular redundancy; TMR; N-modular redundancy; NMR; fault-tolerant voter circuit design}, howpublished = {tištěná verze "print"}, language = {eng}, location = {Brno, Czech Republic}, isbn = {978-80-7231-919-0}, pages = {8-12}, publisher = {University of Defence}, title = {Design of a Simple Reliable Voter for Modular Redundancy Implementations}, year = {2013} }
TY - JOUR ID - 1109051 AU - Amiri, Moslem - Přenosil, Václav PY - 2013 TI - Design of a Simple Reliable Voter for Modular Redundancy Implementations PB - University of Defence CY - Brno, Czech Republic SN - 9788072319190 KW - reliable voter model KW - triple modular redundancy KW - TMR KW - N-modular redundancy KW - NMR KW - fault-tolerant voter circuit design N2 - This article deals with modeling and design of a new fault-tolerant voter circuit. Majority voted redundancy is increasingly implemented in fault-tolerant design today. A voter is used in these implementations to determine a possibly correct result through the majority vote. The reliability of the voter circuit should be much higher than that of the other circuit elements; otherwise it will wipe out the gains of the redundancy scheme. Since almost all the circuit elements are fabricated with the same technology, the voter circuit itself needs to be fault-tolerant. In this paper, we present a novel fault-tolerant voter circuit design with a simple structure, so that it can easily be used for N-modular redundancy implementations as well as for systems with more than a single bit output. ER -
AMIRI, Moslem a Václav PŘENOSIL. Design of a Simple Reliable Voter for Modular Redundancy Implementations. In Miroslav Hrubý. \textit{Proceedings of International Conference on Distance Learning, Simulation and Communication 'DLSC 2013'}. first. Brno, Czech Republic: University of Defence, 2013, s.~8-12. ISBN~978-80-7231-919-0.
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