Criticality of Low-Energy Protons in Single-Event Effects Testing of Highly-Scaled Technologies

Abstract

We report low-energy proton and low-energy alpha particle SEE data on a 32 nm SOI CMOS SRAM that demonstrates the criticality of using low-energy protons for SEE testing of highly-scaled technologies. Low-energy protons produced a significantly higher fraction of multi-bit upsets relative to single-bit upsets when compared to similar alpha particle data. This difference highlights the importance of performing hardness assurance testing with protons that include energy distribution components below 2 MeV. The importance of low-energy protons to system-level single-event performance is based on the technology under investigation as well as the target radiation environment.

References

Page 1

	Year	Citations
Impact of Low-Energy Proton Induced Upsets on Test Methods and Rate Predictions Brian D. Sierawski, Jonathan A. Pellish, Robert A. Reed, IEEE Transactions on Nuclear Science Rate PredictionsLow Energy ProtonsElectrical EngineeringHeavy Ion PhysicEngineering	2009	191
Low-Energy Proton-Induced Single-Event-Upsets in 65 nm Node, Silicon-on-Insulator, Latches and Memory Cells Kenneth P. Rodbell, David F. Heidel, Henry H. K. Tang, IEEE Transactions on Nuclear Science EngineeringIon Beam InstrumentationProton IrradiationNanoelectronicsMemory Cells	2007	183
Single-Event Upsets and Multiple-Bit Upsets on a 45 nm SOI SRAM David F. Heidel, Paul W. Marshall, Jonathan A. Pellish, IEEE Transactions on Nuclear Science Hardware SecurityElectrical EngineeringEngineeringVlsi DesignPhysics	2009	162
Low Energy Proton Single-Event-Upset Test Results on 65 nm SOI SRAM David F. Heidel, Paul W. Marshall, Kenneth A. LaBel, IEEE Transactions on Nuclear Science Hardware SecurityExperimental ResultsElectrical EngineeringEngineeringPhysics	2008	156
Heavy Ion, High-Energy, and Low-Energy Proton SEE Sensitivity of 90-nm RHBD SRAMs Ethan H. Cannon, Manuel Cabanas-Holmen, J.L. Wert, IEEE Transactions on Nuclear Science EngineeringRadiation ExposureMagnetic ResonanceHeavy IonRadiation Protection	2010	77
Crocker Nuclear Laboratory (CNL) radiation effects measurement and test facility C.M. Castaneda Nuclear PhysicsMeasurementRadiation ExposureAccelerator PhysicRadiation Protection	2002	67
Hardness Assurance for Proton Direct Ionization-Induced SEEs Using<newline/> a High-Energy Proton Beam Nathaniel A. Dodds, J.R. Schwank, M.R. Shaneyfelt, IEEE Transactions on Nuclear Science Hardness AssuranceTotal Error RateExperimental Nuclear PhysicsNuclear PhysicsPhysics	2014	57
Judging the reliability of stopping power tables and programs for protons and alpha particles using statistical methods H. Paul, Andreas Schinner Nuclear Instruments and Methods in Physics Research Section B Beam Interactions with Materials and Atoms Nuclear DecayReliability EngineeringEngineeringStatistical MethodsHigh-energy Nuclear Reaction	2004	56
Soft Error Sensitivities in 90 nm Bulk CMOS SRAMs R.K. Lawrence, Jason F. Ross, N.F. Haddad, Hardware SecurityNon-volatile MemoryElectrical EngineeringEngineeringVlsi Design	2009	45
MUSCA SEP<sup>3</sup> contributions to investigate the direct ionization proton upset in 65nm technology for space, atmospheric and ground applications G. Hubert, S. Duzellier, F. Bezerra, EngineeringNuclear PhysicsPhysicsMusca SepAerospace Engineering	2009	36

Page 1