A CMOS-memristive self-learning neural network for pattern classification applications

M. Payvand, Justin Rofeh, A. Sodhi, L. Theogarajan
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引用次数: 21

Abstract

Memristors have proven to be powerful analogs of neural synapses. While there have been some efforts to exploit this feature, the intrinsic analog nature of the memristive element has not been fully utilized. This paper presents a hardware-efficient neuromorphic CMOS-memristor pattern classifier. The system takes advantage of the memristor as a true analog memory, and Spike Timing Dependent Plasticity (STDP) is utilized to program memristors in a recurrent neural network. System co-simulations are performed in Verilog-AMS with CMOS devices and previously published memristive models. The results indicate the power of this approach in pattern classification using unsupervised learning.
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一种用于模式分类的cmos记忆自学习神经网络
记忆电阻器已被证明是神经突触的强大类似物。虽然已经有一些努力来利用这一特性,但记忆元件固有的模拟性质尚未得到充分利用。本文提出了一种硬件高效的神经形态cmos记忆电阻模式分类器。该系统利用忆阻器作为真正的模拟存储器,并利用脉冲时序相关的可塑性(STDP)对递归神经网络中的忆阻器进行编程。系统联合仿真在Verilog-AMS中使用CMOS器件和先前发表的记忆模型进行。结果表明了该方法在使用无监督学习的模式分类中的强大功能。
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