Search results for "Upset"

showing 10 items of 30 documents

High-Energy Electron-Induced SEUs and Jovian Environment Impact

2017

We present experimental evidence of electron-induced upsets in a reference European Space Agency (ESA) single event upset (SEU) monitor, induced by a 200-MeV electron beam at the Very energetic Electronic facility for Space Planetary Exploration in harsh Radiation environments facility at CERN. Comparison of experimental cross sections and simulated cross sections is shown and the differences are analyzed. Possible secondary contributions to the upset rate by neutrons, flash effects, and cumulative dose effects are discussed, showing that electronuclear reactions are the expected SEU mechanism. The ESA Jupiter Icy Moons Explorer mission, to be launched in 2022, presents a challenging radiat…

Nuclear and High Energy Physics02 engineering and technologyRadiationspace technologyelektronit01 natural sciencesUpsetJovianNuclear physicsJupitersymbols.namesakeradiation physics0103 physical sciences0202 electrical engineering electronic engineering information engineeringElectrical and Electronic EngineeringavaruustekniikkaPhysicsSpacecraftta114010308 nuclear & particles physicsbusiness.industryionising radiationionisoiva säteilyelectrons020202 computer hardware & architectureNuclear Energy and EngineeringsäteilyfysiikkaSingle event upsetVan Allen radiation beltPhysics::Space PhysicsElectromagnetic shieldingsymbolsAstrophysics::Earth and Planetary AstrophysicsAtomic physicsbusinessIEEE Transactions on Nuclear Science

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Single-Event Effects in the Peripheral Circuitry of a Commercial Ferroelectric Random Access Memory

2018

International audience; This paper identifies the failure modes of a commercial 130-nm ferroelectric random access memory. The devices were irradiated with heavy-ion and pulsed focused X-ray beams. Various failure modes are observed, which generate characteristic error patterns, affecting isolated bits, words, groups of pages, and sometimes entire regions of the memory array. The underlying mechanisms are discussed.

Nuclear and High Energy PhysicsComputer sciencekäyttömuistit02 engineering and technologysingle-event effect01 natural sciencesMemory arrayElectronic mailX-ray0103 physical sciencesElectronic engineering[SPI.NANO]Engineering Sciences [physics]/Micro and nanotechnologies/MicroelectronicsElectrical and Electronic Engineeringstatic testComputingMilieux_MISCELLANEOUSdynamic testEvent (probability theory)Random access memoryta114ta213010308 nuclear & particles physicsbusiness.industrySEFImuistit (tietotekniikka)021001 nanoscience & nanotechnologyFerroelectricityheavy ionsingle-event upsetNon-volatile memoryFRAMsäteilyfysiikkaNuclear Energy and EngineeringSingle event upsetPhotonics0210 nano-technologybusinessIEEE Transactions on Nuclear Science

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Methodologies for the Statistical Analysis of Memory Response to Radiation

2016

International audience; Methodologies are proposed for in-depth statistical analysis of Single Event Upset data. The motivation for using these methodologies is to obtain precise information on the intrinsic defects and weaknesses of the tested devices, and to gain insight on their failure mechanisms, at no additional cost. The case study is a 65 nm SRAM irradiated with neutrons, protons and heavy ions. This publication is an extended version of a previous study.

Nuclear and High Energy PhysicsEngineeringHardware_PERFORMANCEANDRELIABILITYRadiation[PHYS.NEXP]Physics [physics]/Nuclear Experiment [nucl-ex]01 natural sciencesstatistical analysis0103 physical sciencesStatic testingElectronic engineeringmemory responseStatistical analysisSensitivity (control systems)Static random-access memoryElectrical and Electronic Engineeringstatic testCluster of bit-flipsdynamic test010302 applied physicsSingle event upset SEURandom access memoryta114ta213010308 nuclear & particles physicsbusiness.industrymultiple cell upset (MCU)säteilySRAMReliability engineeringradiationNuclear Energy and EngineeringSingle event upsetradiation effectsbusiness[MATH.MATH-NA]Mathematics [math]/Numerical Analysis [math.NA]Dynamic testing

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From the Reference SEU Monitor to the Technology Demonstration Module On-Board PROBA-II

2008

The reference SEU Monitor system designed and presented in 2005 (R. H. SOslashrensen, F.-X. Guerre, and A. Roseng ldquoDesign, testing and calibration of a reference SEU monitor system,rdquo in Proc. RADECS, 2005, pp. B3-1-B3-7) has now been used by many researchers at many radiation test sites and has provided valuable calibration data in support of numerous projects. As some of these findings and results give new insight into improved inter-facility calibrations and provide additional inputs into ongoing SEE research, a few of the more interesting cases are presented. Furthermore the dasiadetector elementpsila, the Atmel AT60142F SRAM, now in a hybrid configuration, will form the key dete…

Nuclear and High Energy PhysicsEngineeringbusiness.industryDetectorOn boardRadiation testingNuclear Energy and EngineeringSingle event upsetCalibrationKey (cryptography)Electronic engineeringSatelliteStatic random-access memoryElectrical and Electronic EngineeringbusinessComputer hardwareIEEE Transactions on Nuclear Science

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Investigation on MCU Clustering Methodologies for Cross-Section Estimation of RAMs

2015

International audience; Various failure scenarios may occur during irradiation testing of SRAMs, which may generate different characteristic Multiple Cell Upset (MCU) error patterns. This work proposes a method based on spatial and temporal criteria to identify them.

Nuclear and High Energy PhysicsEngineeringcomputer.software_genreUpsetCross section (physics)Static testingCluster of bit flipsStatic random-access memoryElectrical and Electronic Engineeringradiation testingstatic testCluster analysisdynamic test[PHYS]Physics [physics]single event upset (SEU)ta213ta114Cross sectionbusiness.industrySEFImultiple cell upset (MCU)SRAM[SPI.TRON]Engineering Sciences [physics]/ElectronicsRAMRadiation testingMicrocontrollerMCUNuclear Energy and EngineeringSEU clusterData miningbusinesscomputerDynamic testing

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SEE on Different Layers of Stacked-SRAMs

2015

International audience; This paper presents heavy-ion and proton radiation test results of a 90 nm COTS SRAM with stacked structure. Radiation tests were made using high penetration heavy-ion cocktails at the HIF (Belgium) and at RADEF (Finland) as well as low energy protons at RADEF. The heavy-ion SEU cross-section showed an unusual profile with a peak at the lowest LET (heavy-ion with the highest penetration range). The discrepancy is due to the fact that the SRAM is constituted of two vertically stacked dice. The impact of proton testing on the response of both stacked dice is presented. The results are discussed and the SEU cross-sections of the upper and lower layers are compared. The …

Nuclear and High Energy PhysicsSEE rateMaterials scienceProtonDiceRadiationLow energyProton radiation90 nmElectronic engineering90 nmStatic random-access memoryElectrical and Electronic Engineeringradiation testingstacked dice[PHYS]Physics [physics]single event upset (SEU)ta213ta114business.industrymultiple cell upset (MCU)SRAM[SPI.TRON]Engineering Sciences [physics]/ElectronicsRadiation testingNuclear Energy and EngineeringOptoelectronicsbusinessstatic and dynamic mode testingIEEE Transactions on Nuclear Science

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Electron-Induced Upsets and Stuck Bits in SDRAMs in the Jovian Environment

2021

This study investigates the response of synchronous dynamic random access memories to energetic electrons and especially the possibility of electrons to cause stuck bits in these memories. Three different memories with different node sizes (63, 72, and 110 nm) were tested. Electrons with energies between 6 and 200 MeV were used at RADiation Effects Facility (RADEF) in Jyvaskyla, Finland, and at Very energetic Electron facility for Space Planetary Exploration missions in harsh Radiative environments (VESPER) in The European Organization for Nuclear Research (CERN), Switzerland. Photon irradiation was also performed in Jyvaskyla. In these irradiation tests, stuck bits originating from electro…

Nuclear and High Energy Physics[SPI.NANO] Engineering Sciences [physics]/Micro and nanotechnologies/MicroelectronicskäyttömuistitHardware_PERFORMANCEANDRELIABILITYElectronRadiationelektronit01 natural sciencesJovianelektroniikkakomponentitElectron radiationJupiterelectron radiation0103 physical sciencesRadiative transfer[SPI.NANO]Engineering Sciences [physics]/Micro and nanotechnologies/MicroelectronicsElectrical and Electronic EngineeringavaruustekniikkaPhysicsHardware_MEMORYSTRUCTURESLarge Hadron Collider010308 nuclear & particles physicsionisoiva säteilystuck bits[SPI.TRON] Engineering Sciences [physics]/Electronics[INFO.INFO-ES] Computer Science [cs]/Embedded Systemstotal ionizing dose[SPI.TRON]Engineering Sciences [physics]/ElectronicsComputational physicssäteilyfysiikkaNuclear Energy and Engineeringradiation effectssingle event upsets[INFO.INFO-ES]Computer Science [cs]/Embedded SystemsNode (circuits)Random accessIEEE Transactions on Nuclear Science

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0.1-10 MeV Neutron Soft Error Rate in Accelerator and Atmospheric Environments

2021

Neutrons with energies between 0.1-10 MeV can significantly impact the Soft Error Rate (SER) in SRAMs manufactured in scaled technologies, with respect to high-energy neutrons. Their contribution is evaluated in accelerator, ground level and avionic (12 km of altitude) environments. Experimental cross sections were measured with monoenergetic neutrons from 144 keV to 17 MeV, and results benchmarked with Monte Carlo simulations. It was found that even 144 keV neutrons can induce upsets due to elastic scattering. Moreover, neutrons in the 0.1-10 MeV energy range can induce more than 60% of the overall upset rate in accelerator applications, while their contribution can exceed 18% in avionics.…

Nuclear and High Energy PhysicsprotonitMesonAstrophysics::High Energy Astrophysical Phenomenaparticle beamsMonte Carlo methodNuclear TheorykäyttömuistitCOTS SRAMAcceleratoraerospace electronicsSEU cross sections7. Clean energy01 natural sciencesUpsetelektroniikkakomponentitNuclear physicsavionicslife estimation0103 physical sciencesNeutronground-levelElectrical and Electronic EngineeringNuclear ExperimentRadiation hardeningmesonsavaruustekniikkaElastic scatteringPhysicsRange (particle radiation)protons010308 nuclear & particles physicsneutronsneutronitlow-energy neutronssensitivityAccelerators and Storage RingsMonte Carlo -menetelmätSoft errorNuclear Energy and Engineeringintermediate-energy neutronssäteilyfysiikka13. Climate action

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Assessment of Proton Direct Ionization for the Radiation Hardness Assurance of Deep Submicron SRAMs Used in Space Applications

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 dir…

Nuclear and High Energy PhysicsprotonitmikroelektroniikkaProtonkäyttömuistitSpace (mathematics)01 natural sciencesSpace explorationUpset010305 fluids & plasmasMargin (machine learning)Ionization0103 physical sciencesElectrical and Electronic EngineeringDetectors and Experimental TechniquesRadiation hardeningavaruustekniikkaPhysics010308 nuclear & particles physicsionisoiva säteilymuistit (tietotekniikka)Computational physicsCharacterization (materials science)Nuclear Energy and Engineeringsäteilyfysiikka13. Climate action

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Proton Direct Ionization Upsets at Tens of MeV

2023

Experimental monoenergetic 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 and extending up to tens of MeV. The SEU cross Section from 20-MeV protons exceeds the 200-MeV proton SEU cross Section by almost a factor of 3. Similarly, monoenergetic neutron cross sections at 14 MeV are about a factor of 3 lower than the 20-MeV proton cross section. Because of Monte Carlo (MC) simulations, it was determined that this strong enhancement is due to the proton direct ionization process as opposed to the elastic and inelastic scattering processes that dominate the SEU res…

Nuclear and High Energy Physicsprotonitprotonsionitionisoiva säteilyscatteringneutronsenergiansiirtoMonte-Carlo simulationsneutronitmuistit (tietotekniikka)proton direct ionizationMonte Carlo -menetelmätNuclear Energy and Engineeringrandom access memorytrajectorydelta-raysNuclear Physics - Experimentsingle event upsetsElectrical and Electronic Engineeringliike-energia

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