面向硬件的细胞神经网络学习

Proceedings of the Third IEEE International Workshop on Cellular Neural Networks and their Applications (CNNA-94) Pub Date : 1994-12-18 DOI:10.1109/CNNA.1994.381682

A. Schuler, M. Brabec, D. Schubel, J. Nossek

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引用次数: 6

摘要

本文提出了一种学习方法，其重点是在考虑特定实现的非理想性的情况下找到一组参数值。因此，学习是在更精确的CMOS电池模型上进行的，而不是在Chua和Yang(1988)以及Nossek等人(1990)提出的原始CNN模型上进行的。这种面向硬件的方法应用于基于Rodriguez-Vaazquez等人(1993)和Espejo(1994)的全信号范围模型的电流模式cnn模型，其中动态块由两个电流镜组成。结果表明，通过改变模型，两象限乘法器足以与模板系数相乘，进一步减少了面积消耗。因此，使用面向硬件的学习方法不仅可以为特定的vlsi实现找到模板值，还可以进一步简化cnn的实现。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Hardware-oriented learning for cellular neural networks

The paper presents an approach to learning, which focuses on finding a set of parameter values taking into account the nonidealities of a specific implementation. Therefore learning is done on a more accurate model of a CMOS cell, and not on the original CNN model proposed by Chua and Yang (1988) and Nossek et al. (1990). This hardware-oriented approach is applied to a current-mode CNN-model based on the full-signal-range model of Rodriguez-Vaazquez et al. (1993) and Espejo (1994), where the dynamic block consists of two current mirrors. It is shown, that a two-quadrant multiplier is sufficient for the multiplication with the template coefficients, by changing the model, further reducing the area consumption. Using a hardware-oriented approach to learning thus not only allows to find template values for a specific VLSI-implementation, but may also lead to further simplifications of CNN-implementations.<>

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Proceedings of the Third IEEE International Workshop on Cellular Neural Networks and their Applications (CNNA-94)

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