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Highly Linear and Symmetric Weight Modification in HfO<sub>2</sub>‐Based Memristive Devices for High‐Precision Weight Entries

Jin Joo Ryu, Kanghyeok Jeon, Guhyun Kim, Guhyun Kim, Min Yang, Chunjoong Kim, Doo Seok Jeong, Gun Hwan Kim, Gun Hwan Kim

2020Advanced Electronic Materials25 citationsDOI

Abstract

Abstract In this study, highly reliable and accurate weight‐modification behaviors are realized using a W/Al 2 O 3 (3 nm)/HfO 2 (7 nm)/TiN memristive device. The accuracy of the simulated inference of the MNIST dataset when considering the weight‐modification behavior is ≈95%. It is determined the optimal programming voltage pulsing conditions considering i) a high linearity in the weight‐modification, ii) symmetry between potentiation and depression, and iii) an alleviation of the voltage‐driving circuit overhead for the related part of weight‐modification process. Particular emphasis is placed on the last concern, and thus, the fixed shape of each programming pulse for both potentiation and depression are utilized. The optimal pulse design is 500 µs for the pulse rising, plateau, and falling times and a 2 V amplitude at the absolute scale. Additionally, the nonparametric method to evaluate the linearity and symmetry as opposed to the application of several parametric methods are proposed. The nonparametric method is based on an evaluation of actual data rather than models, and thus considers the actual variability in the conductance change, which is otherwise often ignored in the parameter optimization process.

Topics & Concepts

Materials scienceLinearityOverhead (engineering)Symmetry (geometry)VoltageParametric statisticsMNIST databaseElectronic circuitControl theory (sociology)Electronic engineeringBiological systemComputer scienceMathematicsArtificial neural networkElectrical engineeringEngineeringStatisticsArtificial intelligenceGeometryControl (management)BiologyOperating systemAdvanced Memory and Neural ComputingFerroelectric and Negative Capacitance DevicesSemiconductor materials and devices
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