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Resilient data encoding for fault-prone signal transmission in parallelized signed-digit based arithmetic

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2012

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Gesellschaft für Informatik e.V.

Zusammenfassung

When arithmetic components are parallelized, fault-prone interconnections can tamper results significantly. Constantly progressing technology scaling leads to a steady increase of errors caused by faulty transmission. Resilient data encoding schemes can be used to offset these negative effects. Focusing on parallel signed-digit based arithmetic frequently used in high-speed systems, we propose suitable data encodings that reduce error rates by 25%. Data encoding should be driven by the occurrence probabilities of digits. We develop a methodology to obtain these probabilities, show an example fault-tolerant encoding, and discuss its impact on communicating parallel arithmetic circuits in an example error scenario.

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Neuhäuser, David; Zehendner, Eberhard (2012): Resilient data encoding for fault-prone signal transmission in parallelized signed-digit based arithmetic. ARCS 2012 Workshops. Bonn: Gesellschaft für Informatik e.V.. PISSN: 1617-5468. ISBN: 978-3-88579-294-9. pp. 435-444. Regular Research Papers. München. 28. Februar-2. März 2012

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