人工神经网络的前向计算模拟实现

2017 Asia Modelling Symposium (AMS) Pub Date : 2017-12-01 DOI:10.1109/AMS.2017.10

S. Mada, Srinivas B. Mandalika

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引用次数: 2

摘要

用于训练人工神经网络(ANN)的算法在其实现中起着重要作用。在多层感知器(MLP)架构中使用反向传播算法的人工神经网络的模拟VLSI实现早前有报道。在本文中，我们使用了一种仅使用前向计算来更新权重的算法，而不是前向和后向计算，从而减少了计算时间。所选择的算法，可以在更短的时间内训练所有类型的架构，即使在反向传播和其他二阶算法失败的情况下。该算法的模拟VLSI实现可以进一步减小面积和功耗。为了验证我们的想法，我们设计并实现了一个两输入一隐藏层一输出的MLP网络。所有模块均在CADENCE Virtuoso工具中使用180nm技术库实现。由此产生的网络架构成功地测试了数字应用程序，如AND, OR和模拟应用程序-压缩和解压

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Analog Implementation of Artificial Neural Networks Using Forward Only Computation

The algorithm used to train an Artificial Neural Network (ANN) plays an important role in its implementation. Analog VLSI implementations of ANN using back propagation algorithm for multi-layer perceptron (MLP) architectures were reported earlier. In this paper, we used an algorithm which uses forward only computation to update the weights, instead of forward and backward computation resulting in reduced computation time. The chosen algorithm, can train all types of architectures in less time, even where back propagation and other second order algorithms fail. An analog VLSI implementation of this algorithm can further reduce the area and power dissipation. To validate our idea, we designed and implemented a two input-one hidden layer-one output MLP network. All the blocks were implemented in CADENCE Virtuoso tool using the 180nm technology library. The resultant network architecture was tested successfully for digital applications like AND, OR and analog applications - compression and decompression

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2017 Asia Modelling Symposium (AMS)

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