Search results for "Static random-access memory"

showing 10 items of 13 documents

A Methodology for the Analysis of Memory Response to Radiation through Bitmap Superposition and Slicing

2015

A methodology is proposed for the statistical analysis of memory radiation test data, with the aim of identifying trends in the single-even upset (SEU) distribution. The treated case study is a 65nm SRAM irradiated with neutrons, protons and heavy-ions.

Computer sciencebitmap slicingParallel computingHardware_PERFORMANCEANDRELIABILITYRadiationSlicingUpsetElectronic mailSuperposition principleStatic random-access memoryMemoriesstatic testNuclear Experimentdynamic testta114ta213computer.file_formatSRAMBitmap[SPI.TRON]Engineering Sciences [physics]/ElectronicsMultiple Cell Upset (MCU)MCUSERBitmapradiation testevent accumulationSingle Event Upset (SEU)AlgorithmcomputerSEUTest data
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Memory irradiation measurements for the European SMART-1 spacecraft

2005

Three different types of memory circuits, that are intended to be used on board of the European satellite SMART-1, have been radiation hardness tested according to ESA's specification. Since the satellite is equipped with an electric propulsion engine, the spacecraft will be exposed to radiation during a long time when passing the radiation belt of the Earth. A standard DRAM circuit from SAMSUNG will serve as building block of the mass memory of SMART-1, and has been tested for total dose and proton induced single event upset (SEU). The DRAM memory showed surprisingly good resistance against radiation. The proton SEU cross sections for the radiation tolerant SRAM and FIFO circuits have also…

EngineeringHardware_MEMORYSTRUCTURESSpacecraftFIFO (computing and electronics)business.industryElectrical engineeringHardware_PERFORMANCEANDRELIABILITYElectrically powered spacecraft propulsionSingle event upsetStatic random-access memorybusinessRadiation hardeningDramElectronic circuitRADECS 2001. 2001 6th European Conference on Radiation and Its Effects on Components and Systems (Cat. No.01TH8605)
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Soft errors in commercial off-the-shelf static random access memories

2016

International audience; This article reviews state-of-the-art techniques for the evaluation of the effect of radiation on static random access memory (SRAM). We detailed irradiation test techniques and results from irradiation experiments with several types of particles. Two commercial SRAMs, in 90 and 65 nm technology nodes, were considered as case studies. Besides the basic static and dynamic test modes, advanced stimuli for the irradiation tests were introduced, as well as statistical post-processing techniques allowing for deeper analysis of the correlations between bit-flip cross-sections and design/architectural characteristics of the memory device. Further insight is provided on the …

ImaginationDynamic test modeComputer sciencemedia_common.quotation_subject01 natural sciencesParticle detector[SPI]Engineering Sciences [physics]0103 physical sciencesMaterials ChemistryElectronic engineeringStatic random-access memoryElectrical and Electronic EngineeringLayer (object-oriented design)Ionizing Particlesmedia_common010302 applied physics[PHYS]Physics [physics]010308 nuclear & particles physicsDetectorCondensed Matter PhysicsSRAMBit mappingElectronic Optical and Magnetic MaterialsStatic test modeMarch testParticle detectorCommercial off-the-shelfRandom accessDynamic testing
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Synaptic Scaling Enables Dynamically Distinct Short- and Long-Term Memory Formation

2013

Memory storage in the brain relies on mechanisms acting on time scales from minutes, for long-term synaptic potentiation, to days, for memory consolidation. During such processes, neural circuits distinguish synapses relevant for forming a long-term storage, which are consolidated, from synapses of short-term storage, which fade. How time scale integration and synaptic differentiation is simultaneously achieved remains unclear. Here we show that synaptic scaling – a slow process usually associated with the maintenance of activity homeostasis – combined with synaptic plasticity may simultaneously achieve both, thereby providing a natural separation of short- from long-term storage. The inter…

Memory Long-TermComputer scienceModels Neurological03 medical and health sciencesCellular and Molecular Neuroscience0302 clinical medicineBernstein ConferenceStatic random-access memorylcsh:QH301-705.5Auxiliary memory030304 developmental biologyNeuronsComputational Neuroscience0303 health sciencesNeuronal PlasticitySynaptic scalingConsolidation (soil)RecallLong-term memoryGeneral NeuroscienceComputational BiologyMemory Short-Termlcsh:Biology (General)SynapsesSynaptic plasticityPoster PresentationMemory consolidationMemory storage; brain; Synaptic Scaling;Neuroscience030217 neurology & neurosurgeryResearch Article
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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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Influence of beam conditions and energy for SEE testing

2012

GANIL/Applications industrielles; The effects of heavy-ion test conditions and beam energy on device response are investigated. These effects are illustrated with two types of test vehicles: SRAMs and power MOSFETs. In addition, GEANT4 simulations have also been performed to better understand the results. Testing to high fluence levels is required to detect rare events. This increases the probability of nuclear interactions. This is typically the case for power MOSFETs, which are tested at high fluences for single event burnout or gate rupture detection, and for single-event-upset (SEU) measurement in SRAMs below the direct ionization threshold. Differences between various test conditions (…

Nuclear and High Energy PhysicsMaterials scienceIon beamPopulationchemistry.chemical_elementPower MOSFETsIonOpticsXenonIonizationion beam energyStatic random-access memoryElectrical and Electronic Engineeringspecie effectPower MOSFETeducationShadow mappingPhysicseducation.field_of_studyRange (particle radiation)power MOSFETta114business.industrySRAMNuclear Energy and EngineeringOrders of magnitude (time)chemistry[PHYS.COND.CM-MS]Physics [physics]/Condensed Matter [cond-mat]/Materials Science [cond-mat.mtrl-sci]Atomic physicsspecies effectSRAM.businessBeam (structure)Energy (signal processing)Voltage2011 12th European Conference on Radiation and Its Effects on Components and Systems
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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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Mechanisms of Electron-Induced Single-Event Latchup

2019

In this paper, possible mechanisms by which electrons can induce single-event latchups in electronics are discussed. The energy deposition and the nuclear fragments created by electrons in silicon are analyzed in this context. The cross section enhancement effect in the presence of high-Z materials is discussed. First experimental results of electron-induced latchups are shown in static random access memory devices with low linear energy transfer thresholds. The radiation hardness assurance implications and future work are discussed.

Nuclear and High Energy PhysicsWork (thermodynamics)Materials scienceSiliconchemistry.chemical_elementLinear energy transferContext (language use)Electronhiukkaskiihdyttimetelektronit01 natural sciencesradiation physics0103 physical sciencesElectronicsStatic random-access memoryDetectors and Experimental TechniquesElectrical and Electronic EngineeringRadiation hardeningta114010308 nuclear & particles physicsbusiness.industryelectronsparticle acceleratorssäteilyfysiikkaNuclear Energy and EngineeringchemistryOptoelectronicsbusinessIEEE Transactions on Nuclear Science
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