Multilevel switching memristor by compliance current adjustment for off-chip training of neuromorphic system

•Multi-level operation of Al2O3/TiOx memristor devices for neuromorphic system•Analyzing analogue-grade weight modulation by adjusting compliance current up to 64 levels•Precisely controlled device state with compliance current and off-chip learning verification•Evaluating the recognition performanc...

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Veröffentlicht in:Chaos, solitons and fractals solitons and fractals, 2021-12, Vol.153, p.111587, Article 111587
Hauptverfasser: Kim, Tae-Hyeon, Kim, Sungjoon, Hong, Kyungho, Park, Jinwoo, Hwang, Yeongjin, Park, Byung-Gook, Kim, Hyungjin
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Sprache:eng
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Zusammenfassung:•Multi-level operation of Al2O3/TiOx memristor devices for neuromorphic system•Analyzing analogue-grade weight modulation by adjusting compliance current up to 64 levels•Precisely controlled device state with compliance current and off-chip learning verification•Evaluating the recognition performance of convolutional neural network considering the number of quantization level and accuracy Multilevel operation is one of the most essential properties for synaptic devices to realize hardware artificial neural networks. Compliance current (Icc) adjustment is a multilevel programming method that can be utilized for a large-scale one-transistor and one-resistor (1T1R) array. It protects the devices from permanent breakdown by regulating abrupt switching. However, according to the reported literature so far, the number of conductance states in the Icc control method is insufficient to implement off-chip-trained neuromorphic systems. Therefore, we experimentally explore the feasibility of a larger number of conductance states using the Icc control method. We fabricated an Al2O3/TiOx-based resistive switching memory array, observed the conductance change while increasing Icc during set operations, and 64-level conductance states were statistically demonstrated. Furthermore, we verified that the 64-level states showed recognition performance close to that of a software-based neural network through off-chip learning of the convolutional neural network (CNN) structure. The fabricated synaptic device array with the Icc-control programming method is expected to contribute to the development of hardware neural network by reducing the information loss in the transfer process.
ISSN:0960-0779
1873-2887
DOI:10.1016/j.chaos.2021.111587