Proceedings ArticleDOI
Soft errors in Flash-based FPGAs: Analysis methodologies and first results
Niccolò Battezzati,Filomena Decuzzi,Luca Sterpone,Massimo Violante +3 more
- pp 723-724
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TLDR
Reconfigurable platforms are getting more and more interesting for space applications due to their flexibility and low cost, along with high performance and low power dissipation that new devices provide, however, space environment is rich in radiation that can induce soft errors in electronic parts.Abstract:
Reconfigurable platforms are getting more and more interesting for space applications due to their flexibility and low cost, along with high performance and low power dissipation that new devices provide. However, space environment is rich in radiation that can induce soft errors in electronic parts. Last years have been characterized by the increase of interest in Commercial-Off-The-Shelf COTS) FPGAs with respect to radiation hardened ones, because of their higher performance and the cost of the latter, one or two order of magnitude higher. However, electronic devices operating in space live in a harsh environment characterized by high charged particles such as heavy ions, which can induce modifications in the correct circuit behavior (soft errors) leading to failures. Radiation has two major effects on such devices: Single Event Effects (SEEs), soft errors caused by a single particle, and Total Ionizing Dose (TID), the effect of radiation accumulation.read more
Citations
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System-level Fault-Tolerance Analysis of Small Satellite On-Board Computers
TL;DR: This work proposes a novel simulation-based statistical approach to assist the satellite designers in performing OBC fault-tolerance analysis based on high-level system modeling and an object-oriented fault injection mechanism.
Journal ArticleDOI
System fault-tolerance analysis of COTS-based satellite on-board computers
Dmitry Burlyaev,Rene van Leuken +1 more
TL;DR: A statistical simulation approach for fault-tolerance analysis of satellite On-Board Computers (OBCs) that are based on Commercial Off-The-Shelf (COTS) components that revealed critical fault-Tolerance drawbacks of the initial system design that could have lead to satellite mission failure.
Journal ArticleDOI
SEE Characterization of the New RTAX-DSP (RTAX-D) Antifuse-Based FPGA
S. Rezgui,P Louris,R Sharmin +2 more
TL;DR: A comprehensive SEE characterization at high-frequencies (up to 120 MHz) of the new space-flight RTAX-D antifuse-based FPGA family is presented and SEU/SET mitigation solutions were implemented in the new embedded DSP blocks and theFPGA core and tested in heavy-ion beams.
Proceedings Article
A novel soft error mitigation approach for SRAM-based FPGAs
Sascha Lutzel,Christian Siemers +1 more
TL;DR: A novel approach of soft error mitigation technique for SRAM-based Field Programmable Gate Arrays without using the Triple Modular Redundancy approach, which shows that it is possible to mitigate soft errors in a efficient way but not with the same safety level TMR does.
References
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Journal ArticleDOI
New Methodologies for SET Characterization and Mitigation in Flash-Based FPGAs
TL;DR: In this article, single event transient characterization and mitigation techniques unique for nonvolatile field programmable gate arrays (FPGAs) are investigated, and their implementation on a flash-based FPGA and evaluation in-beam show their efficacy with little area overhead but moderately high time penalty for highly scaled technologies.
Proceedings ArticleDOI
New Reprogrammable and Non-Volatile Radiation Tolerant FPGA: RTA3P
TL;DR: Heavy-ion and proton test results utilizing novel test methodologies of reprogrammable and non-volatile flash-based FPGAs are presented and discussed and shows no major concern or disruption to all of the circuit features.
Proceedings ArticleDOI
On the Evaluation of Radiation-Induced Transient Faults in Flash-Based FPGAs
Niccolò Battezzati,Simone Gerardin,A. Manuzzato,Alessandro Paccagnella,S. Rezgui,Luca Sterpone,Massimo Violante +6 more
TL;DR: A new methodology for effectively measuring the width of radiation-induced transient faults thus allowing tuning known mitigation techniques accordingly and demonstrating that the proposed methodology is a viable solution to measure the transient pulses width.