Synaptic electronics and neuromorphic computing

被引:0
|
作者
Navnidhi K. Upadhyay
Saumil Joshi
J. Joshua Yang
机构
[1] University of Massachusetts,Department of Electrical and Computer Engineering
来源
Science China Information Sciences | 2016年 / 59卷
关键词
memristors; neuromorphic engineering; RRAM; synapses; synaptic devices;
D O I
暂无
中图分类号
学科分类号
摘要
In order to map the computing architecture and intelligent functions of the human brain on hardware, we need electronic devices that can emulate biological synapses and even neurons, preferably at the physical level. Beginning with the history of neuromorphic computation, in this article, we will briefly review the architecture of the brain and the learning mechanisms responsible for its plasticity. We will also introduce several memristive devices that have been used to implement electronic synapses, presenting some important milestones in this area of research and discussing their advantages, disadvantages, and future prospects.
引用
收藏
相关论文
共 50 条
  • [1] Synaptic electronics and neuromorphic computing
    Navnidhi K.UPADHYAY
    Saumil JOSHI
    J.Joshua YANG
    [J]. Science China(Information Sciences), 2016, 59 (06) : 56 - 81
  • [2] Synaptic electronics and neuromorphic computing
    Upadhyay, Navnidhi K.
    Joshi, Saumil
    Yang, J. Joshua
    [J]. SCIENCE CHINA-INFORMATION SCIENCES, 2016, 59 (06)
  • [3] Electrolyte-gated transistors for synaptic electronics, neuromorphic computing, and adaptable biointerfacing
    Ling, Haifeng
    Koutsouras, Dimitrios A.
    Kazemzadeh, Setareh
    van de Burgt, Yoeri
    Yan, Feng
    Gkoupidenis, Paschalis
    [J]. APPLIED PHYSICS REVIEWS, 2020, 7 (01):
  • [4] Nanoscale RRAM-based synaptic electronics: toward a neuromorphic computing device
    Park, Sangsu
    Noh, Jinwoo
    Choo, Myung-lae
    Sheri, Ahmad Muqeem
    Chang, Man
    Kim, Young-Bae
    Kim, Chang Jung
    Jeon, Moongu
    Lee, Byung-Geun
    Lee, Byoung Hun
    Hwang, Hyunsang
    [J]. NANOTECHNOLOGY, 2013, 24 (38)
  • [5] Quantum imaging of the reconfigurable VO2 synaptic electronics for neuromorphic computing
    Feng, Ce
    Li, Bo-Wen
    Dong, Yang
    Chen, Xiang-Dong
    Zheng, Yu
    Wang, Ze-Hao
    Lin, Hao-Bin
    Jiang, Wang
    Zhang, Shao-Chun
    Zou, Chong-Wen
    Guo, Guang-Can
    Sun, Fang-Wen
    [J]. SCIENCE ADVANCES, 2023, 9 (40):
  • [6] Organic electronics for neuromorphic computing
    van De Burgt, Yoeri
    Melianas, Armantas
    Keene, Scott Tom
    Malliaras, George
    Salleo, Alberto
    [J]. NATURE ELECTRONICS, 2018, 1 (07): : 386 - 397
  • [7] Organic electronics for neuromorphic computing
    Yoeri van de Burgt
    Armantas Melianas
    Scott Tom Keene
    George Malliaras
    Alberto Salleo
    [J]. Nature Electronics, 2018, 1 : 386 - 397
  • [8] Novel Electronics for Flexible and Neuromorphic Computing
    Lee, Han Eol
    Park, Jung Hwan
    Kim, Tae Jin
    Im, Doyoung
    Shin, Jung Ho
    Kim, Do Hyun
    Mohammad, Baker
    Kang, Il-Suk
    Lee, Keon Jae
    [J]. ADVANCED FUNCTIONAL MATERIALS, 2018, 28 (32)
  • [9] Optoelectronic Synaptic Devices for Neuromorphic Computing
    Wang, Yue
    Yin, Lei
    Huang, Wen
    Li, Yayao
    Huang, Shijie
    Zhu, Yiyue
    Yang, Deren
    Pi, Xiaodong
    [J]. ADVANCED INTELLIGENT SYSTEMS, 2021, 3 (01)
  • [10] Flexible and stretchable synaptic devices for wearable neuromorphic electronics
    Lee, Hyeon-Soo
    Ro, Jun-Seok
    Ko, Gyu-Min
    Park, Hea-Lim
    [J]. FLEXIBLE AND PRINTED ELECTRONICS, 2023, 8 (04):
12345