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CBRAM devices as binary synapses for low-power stochastic neuromorphic systems: Auditory (Cochlea) and visual (Retina) cognitive processing applications

机译：CBRAM设备作为低功率随机神经形态系统的二进制突触：听觉（Cochlea）和视觉（视网膜）认知处理应用

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In this work, we demonstrate an original methodology to use Conductive-Bridge RAM (CBRAM) devices as binary synapses in low-power stochastic neuromorphic systems. A new circuit architecture, programming strategy and probabilistic STDP learning rule are proposed. We show, for the first time, how the intrinsic CBRAM device switching probability at ultra-low power can be exploited to implement probabilistic learning rule. Two complex applications are demonstrated: real-time auditory (from 64-channel human cochlea) and visual (from mammalian visual cortex) pattern extraction. A high accuracy (audio pattern sensitivity >2, video detection rate >95%) and ultra-low synaptic-power dissipation (audio 0.55μW, video 74.2μW) are obtained.

机译：在这项工作中，我们演示了在低功率随机神经形态系统中使用传导桥RAM（CBRAM）设备作为二进制突触的原始方法。提出了一种新的电路结构，编程策略和概率STDP学习规则。我们首次展示了如何利用超低功耗的固有CBRAM器件切换概率来实现概率学习规则。演示了两个复杂的应用程序：实时听觉（来自64通道人耳蜗）和视觉（来自哺乳动物视觉皮层）模式提取。获得了高精度（音频模式灵敏度> 2，视频检测率> 95％）和超低的突触功耗（音频0.55μW，视频74.2μW）。

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《IEEE International Electron Devices Meeting 》|2012年|p.1-4|共4页
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Suri M.; Bichler O.; Querlioz D.; Palma G.; Vianello E.; Vuillaume D.; Gamrat C.; DeSalvo B.;
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中图分类自动化装置与设备 ; 自动化装置与设备 ;
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1. Bio-Inspired Stochastic Computing Using Binary CBRAM Synapses [J] . Suri M., Querlioz D., Bichler O., IEEE Transactions on Electron Devices . 2013 ,第7期

机译：使用二进制CBRAM突触的生物启发式随机计算
2. Low-Power Neuromorphic Hardware for Signal Processing Applications: A Review of Architectural and System-Level Design Approaches [J] . Rajendran Bipin, Sebastian Abu, Schmuker Michael, IEEE Signal Processing Magazine . 2019 ,第6期

机译：用于信号处理应用的低功耗神经形态硬件：体系结构和系统级设计方法的回顾
3. Stochastic CBRAM-Based Neuromorphic Time Series Prediction System [J] . Merkel Cory, Kudithipudi Dhireesha, Suri Manan, ACM Journal on Emerging Technologies in Computing Systems . 2017 ,第3期

机译：随机CBRAM基神经形态时间序列预测系统
4. CBRAM devices as binary synapses for low-power stochastic neuromorphic systems: Auditory (Cochlea) and visual (Retina) cognitive processing applications [C] . Suri M., Bichler O., Querlioz D., IEEE International Electron Devices Meeting . 2012

机译：CBRAM器件作为低功率随机神经晶体系统的二进制突触：听觉（耳蜗）和视觉（视网膜）认知处理应用
5. TWO-DIMENSIONAL CROSS-CORRELATION ANALYSIS OF SPATIO-TEMPORAL VISUAL INFORMATION PROCESSING OF VERTEBRATE RETINA : APPLICATION TO CATFISH RETINAL NEURONS, AND TO GANGLION CELLS OF TADPOLE AND ITS ADULT FROG RETINAS [D] . Hida, Eiki 1988

机译：脊椎动物视网膜时空视觉信息处理的二维互相关分析：在肥大视网膜神经元中，大盲节及其成年成年视网膜的神经节细胞中的应用
6. Stochastic learning in oxide binary synaptic device for neuromorphic computing [O] . Shimeng Yu, Bin Gao, Zheng Fang, 2013

机译：氧化物二元突触设备中用于神经形态计算的随机学习
7. MorphIC: A 65-nm 738k-Synapse/mm$^2$ Quad-Core Binary-Weight Digital Neuromorphic Processor With Stochastic Spike-Driven Online Learning [O] . Charlotte Frenkel, Jean-Didier Legat, David Bol 2019

机译：形势：A 65-NM 738K-Synapse / MM $ ^ 2 $四核二进制重量数字神经胸处理器，具有随机尖峰驱动的在线学习
8. Emerging Neuromorphic Computing Architectures & Enabling Hardware for Cognitive Information Processing Applications [R] . Pino, R. E., Genello, G., Bishop, M., 2010

机译：新兴的神经形态计算架构和用于认知信息处理应用的硬件

CBRAM devices as binary synapses for low-power stochastic neuromorphic systems: Auditory (Cochlea) and visual (Retina) cognitive processing applications

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