A Learning-Enabled Neuron Array IC Based Upon Transistor Channel Models of Biological Phenomena

Brink S.; Nease S.; Hasler P.; Ramakrishnan S.; Wunderlich R.; Basu A.; Degnan B.

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A Learning-Enabled Neuron Array IC Based Upon Transistor Channel Models of Biological Phenomena

机译：基于生物现象的晶体管通道模型的可学习的神经元阵列IC

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We present a single-chip array of 100 biologically-based electronic neuron models interconnected to each other and the outside environment through 30,000 synapses. The chip was fabricated in a standard 350 nm CMOS IC process. Our approach used dense circuit models of synaptic behavior, including biological computation and learning, as well as transistor channel models. We use Address-Event Representation (AER) spike communication for inputs and outputs to this IC. We present the IC architecture and infrastructure, including IC chip, configuration tools, and testing platform. We present measurement of small network of neurons, measurement of STDP neuron dynamics, and measurement from a compiled spiking neuron WTA topology, all compiled into this IC.

机译：我们提出了通过30,000个突触相互连接和与外部环境相互连接的100个基于生物学的电子神经元模型的单芯片阵列。该芯片采用标准的350 nm CMOS IC工艺制造。我们的方法使用了密集的突触行为电路模型，包括生物学计算和学习，以及晶体管通道模型。我们将地址事件表示（AER）尖峰通信用于此IC的输入和输出。我们介绍了IC体系结构和基础架构，包括IC芯片，配置工具和测试平台。我们介绍了小型神经元网络的测量，STDP神经元动力学的测量以及来自已编译尖峰神经元WTA拓扑的测量，所有这些都已编译到该IC中。

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来源
《Biomedical Circuits and Systems, IEEE Transactions on》 |2013年第1期|71-81|共11页
作者
Brink S.; Nease S.; Hasler P.; Ramakrishnan S.; Wunderlich R.; Basu A.; Degnan B.;
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作者单位

School of Electrical and Computer Engineering, Georgia Institute of Technology, Atlanta, GA, USA;

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正文语种 eng
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Arrays; Biological system modeling; Integrated circuit modeling; Neurons; Electrical implementation of neurobiology; neuromorphic engineering;

机译：数组;生物系统建模;集成电路建模;神经元;神经生物学的电气实施;神经形态工程;

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1. Simulated Activation Patterns of Biological Neurons Cultured onto a Multi-Electrode Array Based on a Modified Izhikevich's Model [J] . J.H.Saito, E. Pedrino, M. C. Nicoletti, Fundamenta Informaticae . 2013,第1a2期

机译：基于改进的Izhikevich模型的多电极阵列上培养的生物神经元的模拟激活模式
2. Three Series-Connected Transistor Model for a Recess-Channel-Array Transistor and Improvement of Electrical Characteristics by a Bottom Fin Structure [J] . Makoto Yoshida, Jae-Rok Kahng, Joon-Seok Moon, Japanese journal of applied physics . 2009,第5issue1期

机译：隐式通道阵列晶体管的三级串联晶体管模型和通过底部鳍片结构改善电特性
3. Unsupervised Online Learning With Multiple Postsynaptic Neurons Based on Spike-Timing-Dependent Plasticity Using a Thin-Film Transistor-Type NOR Flash Memory Array [J] . Lee Soochang, Kim Chul-Heung, Oh Seongbin, Journal of nanoscience and nanotechnology . 2019,第10期

机译：使用薄膜晶体管型或闪存阵列基于Spike-Timing的依赖性可塑性，在线学习多次突触神经元。
4. Design of an analogue ASIC using subthreshold CMOS transistors to model biological neurons [C] . Alvado, L., Tomas, . 2001

机译：使用亚阈值CMOS晶体管模拟生物神经元的模拟ASIC设计
5. Approaches and evaluation of architectures for chemical and biological sensing based on organic thin-film field-effect transistors and immobilized ion channels integrated with silicon solid-state devices. [D] . Fine, Daniel Hayes. 2007

机译：基于有机薄膜场效应晶体管和与硅固态器件集成在一起的固定离子通道的化学和生物传感体系结构的方法和评估。
6. Enhanced identification and biological validation of differential gene expression via Illumina whole-genome expression arrays through the use of the model-based background correction methodology [O] . Liang-Hao Ding, Yang Xie, Seongmi Park, 2008

机译：通过使用基于模型的背景校正方法通过Illumina全基因组表达阵列增强对差异基因表达的鉴定和生物学验证
7. Charge-based continuous model for long-channel Symmetric Double-Gate Junctionless Transistors [O] . A. Cerdeira, M. Estrada, B. Iniguez, 2013

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A Learning-Enabled Neuron Array IC Based Upon Transistor Channel Models of Biological Phenomena

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