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Erschienen in:
Soft Errors from Space to Ground: Historical Overview, Empirical Evidence, and Future Trends Kapitel lesen Erstes Kapitel lesen

2011 | OriginalPaper | Buchkapitel

7. Integrated Circuit Qualification for Space and Ground-Level Applications: Accelerated Tests and Error-Rate Predictions

verfasst von : Raoul Velazco, Gilles Foucard, Paul Peronnard

Erschienen in: Soft Errors in Modern Electronic Systems

Verlag: Springer US

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Abstract

Integrated circuits (analog, digital or mixed) sensitivity evaluation to Single Event Effects (SEE) requires specific methodologies and dedicated tools. Indeed, such evaluation is based on data gathered from on-line tests performed in a suitable facility (cyclotron, linear accelerator, laser , etc.). The target circuit is exposed to particles fluxes having features (energy and range in Silicon) somewhat representative of the ones the circuit will encounter in its final environment. This chapter will describe and illustrate with experimental results, the methodologies and the hardware and software developments required for the evaluation of the sensitivity to SEE of integrated circuits. Those techniques will be applied to a SRAM-based FPGA and to a complex processor. In case of sequential circuits such as processors, the sensitivity to SEE will strongly depend on the executed program. Hardware/software fault-injection experiments, performed either on the circuit or on an available model, are proved as being complementary of radiation ground testing. Indeed, data issued from fault injection combined with data issued from radiation ground testing allow in accurately predicting the error rate of any program.

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Vorheriges Kapitel Hardware Fault Injection
Nächstes Kapitel Circuit-Level Soft-Error Mitigation
Fußnoten
1
An AOCS (Attitude and Orbit Control Subsystem) module provided by the French Space Agency CNES (Centre National d’Etudes Spatiales).
 
2
The LET (Linear Energy Transfer) is the ionization measurement caused as the incoming particle looses energy along its path. For instance, in Silicon, a particle having a LET of 97 MeV cm2/mg is depositing about 1 pC/μm.
 
3
Manufacturer is e2v semiconductors.
 
4
That program, provided by CNES, is issued from the software “SCA TAFT/PRONAOS”. This software is a System of Attitude Control (SAC) developed for CNES in the PRONAOS (PROjet National d'AstrOnomie Submillimétrique) project frame.
 
5
By the French Space Agency (CNES).
 
6
Version 3.1.2.0 by TRAD-CNES.
 
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E. Normand, “Single-event effects in avionics”, IEEE Transactions on Nuclear Science, Vol. 43, No 2, pp. 461–474, Apr. 1966.CrossRef
2.
T. Ma, P. Dressendorfer, “Ionizing Radiation Effects in MOS Devices and Circuits”, Wiley Eds., New York, 1989.
3.
F. Faccio, “Design Hardening Methodologies for ASICs”, Radiation Effects on Embedded Systems, ISBN-10 1-4020-5645-1, Springer, 2007.
4.
R. Velazco, F. Faure, “Error Rate Prediction of Digital Architecture: Test Methodology and Tools”, Radiation Effects on Embedded Systems, ISBN-10 1-4020-5645-1, Springer, 2007.CrossRef
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Bezerra F. et al, “Commercial Processor Single Event Tests”, 1997 RADECS Conference Data Workshop Record, pp. 41–46.
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J.H. Elder, J. Osborn, W.A. Kolasinsky, R. Koga, “A method for characterizing microprocessor’s vulnerability to SEU”, Transactions on Nuclear Science, Vol. 35, No 6, pp. 1679–1681, Dec. 1988.CrossRef
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S. Duzellier, G. Berger, “Test Facilities for SEE and Dose Testing”, Radiation Effects on Embedded Systems, ISBN-10 1-4020-5645-1, Springer, 2007.
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JEDEC standard, “Measurement and Reporting of Alpha particles and Terrestrial Cosmic Ray-Induced Soft Errors in Semiconductor Devices”, JESD89 Aug. 2001.
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F. Faure, P. Peronnard, R. Velazco, “Thesic+: A flexible system for see testing”, In Proceedings of RADECS, 2002.
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C. Yui, G. Swift, C. Carmichael, “Single Event Upset Susceptibility Testing of the Xilinx Virtex II FPGA”, MAPLD, 2002.
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R. Velazco, S. Rezgui, R. Ecoffet, “Predicting error rate for microprocessor-based digital architectures through C.E.U. (Code Emulating Upsets) injection”, IEEE Transactions on Nuclear Science, Vol. 47, No 6, part 3, Dec. 2000.CrossRef
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A. Lesea, S. Drimer, J. Fabula, C. Carmichael, P. Alfke, “The Rosetta experiment: Atmospheric soft error rate testing in differing technology FPGAs”, IEEE Transactions on Device and Materials Reliability, Vol. 5, No 3, September 2005.CrossRef
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A. Lesea, “Continuing Experiments of Atmospheric Neutron Effects on Deep Submicron Integrated Circuits”, Xilinx WP286, March 10, 2008.
Metadaten
Titel
Integrated Circuit Qualification for Space and Ground-Level Applications: Accelerated Tests and Error-Rate Predictions
verfasst von
Raoul Velazco
Gilles Foucard
Paul Peronnard
Copyright-Jahr
2011
Verlag
Springer US
Buch
Soft Errors in Modern Electronic Systems

Print ISBN: 978-1-4419-6992-7

Electronic ISBN: 978-1-4419-6993-4

Copyright-Jahr: 2011

DOI
https://doi.org/10.1007/978-1-4419-6993-4_7

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