用于神经形态计算系统的基于离子驱动电化学随机存取存储器的突触器件：一篇综述。

Ion-Driven Electrochemical Random-Access Memory-Based Synaptic Devices for Neuromorphic Computing Systems: A Mini-Review.

作者信息

Kang Heebum, Seo Jongseon, Kim Hyejin, Kim Hyun Wook, Hong Eun Ryeong, Kim Nayeon, Lee Daeseok, Woo Jiyong

机构信息

School of Electronic and Electrical Engineering, Kyungpook National University, Daegu 41566, Korea.

Department of Electronic Materials Engineering, Kwangwoon University, Seoul 01897, Korea.

出版信息

Micromachines (Basel). 2022 Mar 17;13(3):453. doi: 10.3390/mi13030453.

DOI:10.3390/mi13030453

PMID:35334745

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8950570/

Abstract

To enhance the computing efficiency in a neuromorphic architecture, it is important to develop suitable memory devices that can emulate the role of biological synapses. More specifically, not only are multiple conductance states needed to be achieved in the memory but each state is also analogously adjusted by consecutive identical pulses. Recently, electrochemical random-access memory (ECRAM) has been dedicatedly designed to realize the desired synaptic characteristics. Electric-field-driven ion motion through various electrolytes enables the conductance of the ECRAM to be analogously modulated, resulting in a linear and symmetric response. Therefore, the aim of this study is to review recent advances in ECRAM technology from the material and device engineering perspectives. Since controllable mobile ions play an important role in achieving synaptic behavior, the prospect and challenges of ECRAM devices classified according to mobile ion species are discussed.

摘要

为提高神经形态架构中的计算效率，开发能够模拟生物突触作用的合适存储器件至关重要。更具体地说，不仅需要在存储器中实现多个电导状态，而且每个状态还需通过连续的相同脉冲进行类似调整。最近，电化学随机存取存储器（ECRAM）已被专门设计用于实现所需的突触特性。电场驱动的离子通过各种电解质的运动使得ECRAM的电导能够被类似地调制，从而产生线性和对称响应。因此，本研究的目的是从材料和器件工程的角度回顾ECRAM技术的最新进展。由于可控移动离子在实现突触行为中起着重要作用，因此讨论了根据移动离子种类分类的ECRAM器件的前景和挑战。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7dfc/8950570/d575f179fc2e/micromachines-13-00453-g001.jpg

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用于神经形态计算系统的基于离子驱动电化学随机存取存储器的突触器件：一篇综述。

Ion-Driven Electrochemical Random-Access Memory-Based Synaptic Devices for Neuromorphic Computing Systems: A Mini-Review.

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