32 and 45 nm Radiation-Hardened-by-Design (RHBD) SOI Latches

32 and 45 nm Radiation-Hardened-by-Design (RHBD) SOI Latches

Single event upset (SEU) experimental heavy ion data and modeling results for CMOS, silicon-on-insulator (SOI), 32 nm and 45 nm stacked and DICE latches are presented. Novel data analysis is shown to be important for hardness assurance where Monte Carlo modeling with a realistic heavy ion track stru...

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Veröffentlicht in:IEEE transactions on nuclear science 2011-12, Vol.58 (6), p.2702-2710
Hauptverfasser: Rodbell, K. P., Heidel, D. F., Pellish, J. A., Marshall, P. W., Tang, H. H. K., Murray, C. E., LaBel, K. A., Gordon, M. S., Stawiasz, K. G., Schwank, J. R., Berg, M. D., Kim, H. S., Friendlich, M. R., Phan, A. M., Seidleck, C. M.
Format: Artikel
Sprache:eng
Schlagworte:
32 nm and 45 nm SOI hardened latches
angle dependent cross-section distributions
CMOS
Computer simulation
Cross sections
Data processing
heavy ion modeling
Latches
Mathematical models
Monte Carlo methods
Protons
Radiation hardening
sensitive node separation
Silicon on insulator technology
silicon-on-insulator technology (SOI)
single event effects (SEE)
Single event upset
single event upset (SEU)
Single event upsets
track structures
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Beschreibung
Zusammenfassung:Single event upset (SEU) experimental heavy ion data and modeling results for CMOS, silicon-on-insulator (SOI), 32 nm and 45 nm stacked and DICE latches are presented. Novel data analysis is shown to be important for hardness assurance where Monte Carlo modeling with a realistic heavy ion track structure, along with a new visualization aid (the Angular Dependent Cross-section Distribution, ADCD), allows one to quickly assess the improvements, or limitations, of a particular latch design. It was found to be an effective technique for making SEU predictions for alternative 32 nm SOI latch layouts.
ISSN:0018-9499
1558-1578
DOI:10.1109/TNS.2011.2171715