论文信息 - Radiation-induced single event transients modeling and testing on nanometric flash-based technologies

Radiation-induced single event transients modeling and testing on nanometric flash-based technologies

Abstract The increasing technology node scaling makes VLSI devices extremely vulnerable to Single Event Effects (SEEs) induced by highly charged particles such as heavy ions, increasing the sensitivity to Single Event Transients (SETs). In this paper, we describe a new methodology combining an analytical and oriented model for analyzing the sensitivity of SET nanometric technologies. The paper includes radiation test experiments performed on Flash-based FPGAs using heavy ions radiation beam. Experimental results are detailed and commented demonstrating the effective mitigation capabilities thanks to the adoption of the developed model.

Luca Sterpone | Boyang Du | Sarah Azimi

[1] M Friendlich,et al. SEU Analysis of Complex Circuits Implemented in Actel RTAX-S FPGA Devices , 2011, IEEE Transactions on Nuclear Science.

[2] S. Rezgui,et al. Configuration and Routing Effects on the SET Propagation in Flash-Based FPGAs , 2008, IEEE Transactions on Nuclear Science.

[3] Sana Rezgui,et al. SET Characterization and Mitigation in 65-nm CMOS Test Structures , 2012, IEEE Transactions on Nuclear Science.

[4] J.J. Wang,et al. Total ionizing dose effects on flash-based field programmable gate array , 2004, IEEE Transactions on Nuclear Science.

[5] L. Sterpone,et al. An Analytical Model of the Propagation Induced Pulse Broadening (PIPB) Effects on Single Event Transient in Flash-Based FPGAs , 2011, IEEE Transactions on Nuclear Science.

[6] Luca Sterpone,et al. Accurate Mitigation of Single Event Effects on Flash-based FPGAs: A new Design Flow , 2013 .

[7] Luca Sterpone,et al. Analysis and mitigation of single event effects on flash-based FPGAS , 2014, 2014 19th IEEE European Test Symposium (ETS).

[8] S. Gerardin,et al. Methodologies to Study Frequency-Dependent Single Event Effects Sensitivity in Flash-Based FPGAs , 2009, IEEE Transactions on Nuclear Science.