DocumentCode
57422
Title
Experimental Characterization and Simulation of Electron-Induced SEU in 45-nm CMOS Technology
Author
Samaras, A. ; Pourrouquet, P. ; Sukhaseum, N. ; Gouyet, L. ; Vandevelde, B. ; Chatry, N. ; Ecoffet, R. ; Bezerra, F. ; Lorfevre, E.
Author_Institution
TRAD Tests & Radiat., Labège, France
Volume
61
Issue
6
fYear
2014
fDate
Dec. 2014
Firstpage
3055
Lastpage
3060
Abstract
This paper presents the single-event upset characterization of a commercial field programmable gate array (FPGA) using electron radiation. FPGA radiation test results under high energy electrons are described and the dependence between electron energy and SEU cross section is highlighted. A technological cross section is performed to evaluate the back end of line (BEOL) layers composition and thickness. These values are used to perform Monte Carlo simulations of the commercial FPGA exposed to 20-MeV primary electron beam. Calculation results show that electrons are able to generate SEU on the FPGA embedded RAM and confirmed experimental data. SEU rates induced by Jovian electrons are estimated using two different tools: Monte Carlo in GEANT4 and the OMERE Software.
Keywords
Monte Carlo methods; electron beam effects; field programmable gate arrays; BEOL layers; CMOS technology; FPGA embedded RAM; FPGA radiation test; GEANT4 software; Jovian electrons; Monte Carlo simulations; OMERE software; SEU cross section; back end of line layers; commercial field programmable gate array; electron radiation; electron volt energy 20 MeV; electron-induced SEU; high energy electrons; primary electron beam; single-event upset characterization; technological cross section; wavelength 45 nm; CMOS technology; Field programmable gate arrays; Monte Carlo methods; Performance evaluation; Radiation effects; Random access memory; Single event upsets; 45-nm FPGA; Monte Carlo simulation; SEU rate; embedded RAM; high-energy electron; radiation test; single-event upset;
fLanguage
English
Journal_Title
Nuclear Science, IEEE Transactions on
Publisher
ieee
ISSN
0018-9499
Type
jour
DOI
10.1109/TNS.2014.2367544
Filename
6966818
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