Assessment of Proton Direct Ionization for the Radiation Hardness Assurance of Deep Submicron SRAMs Used in Space Applications
Coronetti, A., Garcìa Alìa, R., Wang, J., Tali, M., Cecchetto, M., Cazzaniga, C., Javanainen, A., Saigné, F., & Leroux, P. (2021). Assessment of Proton Direct Ionization for the Radiation Hardness Assurance of Deep Submicron SRAMs Used in Space Applications. IEEE Transactions on Nuclear Science, 68(5), 937-948. https://doi.org/10.1109/TNS.2021.3061209
Published in
IEEE Transactions on Nuclear ScienceAuthors
Date
2021Copyright
© Authors, 2021
Proton direct ionization from low-energy protons has been shown to have a potentially significant impact on the accuracy of prediction methods used to calculate the upset rates of memory devices in space applications for state-of-the-art deep sub-micron technologies. The general approach nowadays is to consider a safety margin to apply over the upset rate computed from high-energy proton and heavy ion experimental data. The data reported here present a challenge to this approach. Different upset rate prediction methods are used and compared in order to establish the impact of proton direct ionization on the total upset rate. No matter the method employed the findings suggest that proton direct ionization can contribute to up to 90% of the total upset rate on average for a general selection of space orbits, with peaks of up to 99%. Such results suggest that an approach based on the characterization of the low-energy portion of the proton spectrum would be more convenient for similar technologies than the application of a general safety margin. Based on data presented here, the previously proposed margin of 5 is exceeded, by large amounts in some cases.
...
Publisher
IEEEISSN Search the Publication Forum
0018-9499Keywords
Publication in research information system
https://converis.jyu.fi/converis/portal/detail/Publication/51629769
Metadata
Show full item recordCollections
Related funder(s)
European Commission; European Space AgencyFunding program(s)
MSCA Innovative Training Networks (ITN); Others
The content of the publication reflects only the author’s view. The funder is not responsible for any use that may be made of the information it contains.
Additional information about funding
This study has received funding from the European Union’s Horizon 2020 research and innovation programme under the MSC grant agreement no. 721624 and in part by the European Space Agency (ESA/ESTEC) at the University of Jyvaskylä under Contract 4000124504/18/NL/KML/zkLicense
Related items
Showing items with similar title or keywords.
-
Proton Direct Ionization in Sub-Micron Technologies : Test Methodologies and Modelling
Lüdeke, Sascha; Cardenas, Gabriel Duran; Hajdas, Wojtek; Jaatinen, Jukka; Kettunen, Heikki; Poivey, Christian; Rossi, Mikko; Tanios, Bendy; Vogiatzi Stergiani, Marina; Javanainen, Arto (Institute of Electrical and Electronics Engineers (IEEE), 2023)Two different low energy proton (LEP) test methods, one with quasi-monoenergetic and the other with very wide proton beam energy spectra, have been studied. The two test methodologies have been applied to devices that were ... -
Proton Direct Ionization in Sub-Micron Technologies : Numerical Method for RPP Parameter Extraction
Lüdeke, Sascha; Javanainen, Arto (Institute of Electrical and Electronics Engineers (IEEE), 2022)This work introduces a numerical method to iteratively extract parameters of a rectangular parallelepiped (RPP) sensitive volume (SV) from experimental proton direct ionization SEU data. The method combines two separate ... -
Proton direct ionization upsets at tens of MeV
Coronetti, Andrea; Alia, Ruben Garcia; Lucsanyi, David; Wang, Jialei; Saigne, Frederic; Javanainen, Arto; Leroux, Paul; Prinzie, Jeffrey (Institute of Electrical and Electronics Engineers (IEEE), 2023)Experimental mono-energetic proton single-event upset (SEU) cross-sections of a 65 nm low core-voltage static random access memory (SRAM) were found to be exceptionally high not only at low energies (< 3 MeV), but also at ... -
SEU characterization of commercial and custom-designed SRAMs based on 90 nm technology and below
Coronetti, Andrea; Cecchetto, Matteo; Wang, Jialei; Tali, Maris; Fernandez Martinez, Pablo; Kastriotou, Maria; Papadopoulou, Athina; Bilko, Kacper; Castellani, Florent; Sacristan, Mario; Garcia Alia, Ruben; Cazzaniga, Carlo; Morilla, Yolanda; Martin-Holgado, Pedro; Van Goethem, Marc-Jan; Kiewiet, Harry; Van Der Graaf, Emil; Brandenburg, Sytze; Hajdas, Wojtek; Sinkunaite, Laura; Marszalek, Miroslaw; Kettunen, Heikki; Rossi, Mikko; Jaatinen, Jukka; Javanainen, Arto; Moscatello, Marie-Helene; Dubois, Anthony; Fiore, Salvatore; Bazzano, Giulia; Frost, Christopher; Letiche, Manon; Farabolini, Wilfrid; Gilardi, Antonio; Corsini, Roberto; Puchner, Helmut (IEEE, 2020)The R2E project at CERN has tested a few commercial SRAMs and a custom-designed SRAM, whose data are complementary to various scientific publications. The experimental data include low- and high-energy protons, heavy ions, ... -
Low-Power, Subthreshold Reference Circuits for the Space Environment : Evaluated with γ-rays, X-rays, Protons and Heavy Ions
Andreou, Charalambos M.; González-Castaño, Diego Miguel; Gerardin, Simone; Bagatin, Marta; Rodriguez, Faustino Gómez; Paccagnella, Alessandro; Prokofiev, Alexander V.; Javanainen, Arto; Virtanen, Ari; Liberali, Valentino; Calligaro, Cristiano; Nahmad, Daniel; Georgiou, Julius (MDPI AG, 2019)The radiation tolerance of subthreshold reference circuits for space microelectronics is presented. The assessment is supported by measured results of total ionization dose and single event transient radiation-induced ...