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Low-cost and highly reliable detector for transient and crosstalk faults affecting FPGA interconnects

Low-cost and highly reliable detector for transient and crosstalk faults affecting FPGA interconnects
Low-cost and highly reliable detector for transient and crosstalk faults affecting FPGA interconnects
In this paper we present a novel circuit for the on-line detection of transient and crosstalk faults affecting the interconnects of systems implemented using field programmable gate-arrays (FPGAs). The proposed detector features self-checking ability with respect to faults possibly affecting itself thus being suitable for systems with high reliability requirements, like those for space applications. Compared to alternate solutions, the proposed circuit requires a significantly lower area overhead, while implying a comparable, or lower, impact on system performance. We have verified our circuit operation and self-checking ability by means of post-layout simulations.
3-9810801-0-6
170-175
Omana, Martin
7c091df8-0526-4d15-aa3f-f25dea90dd18
Cazeaux, Jose Manuel
56eb0eda-d852-43af-9227-054d92e9f755
Rossi, Daniele
30c42382-cf0a-447d-8695-fa229b7b8a2f
Metra, Cecilia
c420be13-a9cf-471a-96fb-3f43a694ffae
Omana, Martin
7c091df8-0526-4d15-aa3f-f25dea90dd18
Cazeaux, Jose Manuel
56eb0eda-d852-43af-9227-054d92e9f755
Rossi, Daniele
30c42382-cf0a-447d-8695-fa229b7b8a2f
Metra, Cecilia
c420be13-a9cf-471a-96fb-3f43a694ffae

Omana, Martin, Cazeaux, Jose Manuel, Rossi, Daniele and Metra, Cecilia (2006) Low-cost and highly reliable detector for transient and crosstalk faults affecting FPGA interconnects. Design, Automation and Test in Europe (DATE '06). Proceedings, Munich, Germany. 06 - 10 Mar 2006. pp. 170-175 . (doi:10.1109/DATE.2006.244061).

Record type: Conference or Workshop Item (Paper)

Abstract

In this paper we present a novel circuit for the on-line detection of transient and crosstalk faults affecting the interconnects of systems implemented using field programmable gate-arrays (FPGAs). The proposed detector features self-checking ability with respect to faults possibly affecting itself thus being suitable for systems with high reliability requirements, like those for space applications. Compared to alternate solutions, the proposed circuit requires a significantly lower area overhead, while implying a comparable, or lower, impact on system performance. We have verified our circuit operation and self-checking ability by means of post-layout simulations.

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More information

Published date: March 2006
Venue - Dates: Design, Automation and Test in Europe (DATE '06). Proceedings, Munich, Germany, 2006-03-06 - 2006-03-10
Organisations: Electronic & Software Systems
Learn more about Cyber Physical Systems research

Identifiers

Local EPrints ID: 368892
URI: http://eprints.soton.ac.uk/id/eprint/368892
DOI: doi:10.1109/DATE.2006.244061
ISBN: 3-9810801-0-6
PURE UUID: 798c5da4-0c52-4a33-8293-0bda0cb44df7

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Date deposited: 08 Oct 2014 15:10
Last modified: 14 Mar 2024 17:55

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Contributors

Author: Martin Omana
Author: Jose Manuel Cazeaux
Author: Daniele Rossi
Author: Cecilia Metra

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