基于忆阻交叉棒的多层感知器的实现

C. Yakopcic, T. Taha
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引用次数: 10

摘要

本文描述了一种基于忆阻器的神经形态系统,该系统可用于各种多层神经网络算法的非原位训练。该系统是基于模拟神经元电路,能够执行精确的点积计算。所提出的非原位编程技术可用于将许多关键的神经算法直接映射到忆阻交叉栅中的电阻网格上。利用这种权重到横杆的映射方法以及点积计算电路,可以很容易地实现复杂的神经算法。为了证明该电路的有效性和通用性,我们训练了一个多层感知器(MLP)来执行索贝尔边缘检测。在这些模拟之后,分析了忆阻器精度和神经元电路增益与输出误差的关系。此外,本文还讨论了电路噪声和神经网络布局对测试精度的影响。
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Memristor crossbar based implementation of a multilayer perceptron
This paper describes a memristor-based neuromorphic system that can be used for ex-situ training of various multi-layer neural network algorithms. This system is based on an analog neuron circuit that is capable of performing an accurate dot product calculation. The presented ex-situ programming technique can be used to map many key neural algorithms directly onto the grid of resistances in a memristor crossbar. Using this weight-to-crossbar mapping approach along with the dot product calculation circuit, complex neural algorithms can be easily implemented using this system. To show the effectiveness and versatility of this circuit, a Multilayer Perceptron (MLP) is trained to perform Sobel edge detection. Following these simulations, an analysis was presented that shows how both memristor accuracy and neuron circuit gain relates to output error. Additionally, this paper discusses how circuit noise and neural network layout contribute to testing accuracy.
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