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Total Ionizing Dose Effects on Long-Term Data Retention Characteristics of Commercial 3-D NAND Memories

Matchima Buddhanoy, Preeti Kumari, Umeshwarnath Surendranathan, M. Wasiolek, Khalid Hattar, Biswajit Ray

2021IEEE Transactions on Nuclear Science23 citationsDOIOpen Access PDF

Abstract

This article evaluates the data retention characteristics of irradiated multilevel-cell (MLC) 3-D NAND flash memories. We irradiated the memory chips by a Co-60 gamma-ray source for up to 50 krad(Si) and then wrote a random data pattern on the irradiated chips to find their retention characteristics. The experimental results show that the data retention property of the irradiated chips is significantly degraded when compared to the un-irradiated ones. We evaluated two independent strategies to improve the data retention characteristics of the irradiated chips. The first method involves high-temperature annealing of the irradiated chips, while the second method suggests preprogramming the memory modules before deploying them into radiation-prone environments.

Topics & Concepts

Data retentionIrradiationIonizing radiationAnnealing (glass)Materials scienceNAND gateAbsorbed doseOptoelectronicsDegradation (telecommunications)RadiationComputer scienceComputer hardwareLogic gatePhysicsOpticsNuclear physicsAlgorithmTelecommunicationsComposite materialAdvanced Data Storage TechnologiesSemiconductor materials and devicesAdvanced Memory and Neural Computing