二元耦合吸引子神经网络的可扩展结构

Proceedings of Fifth International Conference on Microelectronics for Neural Networks Pub Date : 1996-02-12 DOI:10.1109/MNNFS.1996.493793

N. Hendrich

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引用次数: 5

摘要

本文提出了一种具有片上学习功能的二元权值Hopfield吸引子神经网络的数字结构。提出了一种新的二元权重网络学习规则，该规则允许模式存储容量达到/spl alpha/=0.4，并且硬件开销很小。由于使用二进制耦合，网络具有最小的存储需求。灵活的通信结构允许多个芯片级联，以便建立完全连接，块连接或前馈网络。系统性能和通信带宽与芯片数量成线性关系。一个原型芯片已经制造出来，功能齐全。一个模式识别应用表明了二元耦合网络的性能。

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A scalable architecture for binary couplings attractor neural networks

This paper presents a digital architecture with on-chip learning for Hopfield attractor neural networks with binary weights. A new learning rule for the binary weights network is proposed that allows pattern storage up to capacity /spl alpha/=0.4 and incurs very low hardware overhead. Due to the use of binary couplings the network has minimal storage requirements. A flexible communication structure allows cascading of multiple chips in order to build fully connected, block connected, or feed-forward networks. System performance and communication bandwidth scale linear with the number of chips. A prototype chip has been fabricated and is fully functional. A pattern recognition application shows the performance of the binary couplings network.

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Proceedings of Fifth International Conference on Microelectronics for Neural Networks

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