Hyperbolic tangent activation function integrated circuit implementation for perceptrons

机译：感知器的双曲正切激活函数集成电路实现

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Activation function refers to the mathematical function implemented in multilayer perceptrons to limit the output signal of neurons. The objective of this project is to design a hyperbolic tangent activation function (TANH) for integrated circuit implementation using digital design approach. This paper compares the performances of area, speed and power between ring architecture and tree architecture of activation function using repetitive instantiation of multipliers and adders. TANH function. The project scope covers digital design using Verilog hardware description language followed by functional simulation and synthesis using Silterra 0.18 µm technology files. The activation function performed the TANH function mathematical operation with ±0.02% accuracy. It is shown that the tree architecture performs better than ring architecture with lower propagation delay. On the other hand, ring architecture achieves lower power dissipation.

机译：激活函数是指在多层感知器中实现的用于限制神经元输出信号的数学函数。该项目的目的是使用数字设计方法设计用于集成电路实现的双曲正切激活函数（TANH）。本文使用乘法器和加法器的重复实例化，比较了激活功能的环形体系结构和树型体系结构的面积，速度和功率性能。 TANH功能。项目范围涉及使用Verilog硬件描述语言进行数字设计，然后使用Silterra 0.18 µm技术文件进行功能仿真和综合。激活函数以±0.02％的精度执行TANH函数的数学运算。结果表明，树形结构比环形结构具有更好的传播延迟。另一方面，环形架构可实现更低的功耗。

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来源
《2012 IEEE Student Conference on Research and Development》|2012年|84-87|共4页
会议地点 Pulau Pinang(MY);Pulau Pinang(MY)
作者
Adnan Fadzilatul Husna; Mahmud Mohamad Faiz Omar; Abdullah Wan Fazlida Hanim;
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作者单位

Fakulti Kejuruteraan Elektrik, Universiti Teknologi MARA, Selangor, Malaysiac;

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原文格式 PDF
正文语种 eng
中图分类
关键词
digital neuron; multipliers; tanh implementation;

机译：数字神经元;乘法器; tanh实现;;

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机译：双曲线切线和SIGMOID激活功能的硬件实现
2. Efficient VLSI Implementation of Neural Networks With Hyperbolic Tangent Activation Function [J] . Zamanlooy B., Mirhassani M. IEEE transactions on very large scale integration (VLSI) systems . 2014,第1期

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3. Daily Outflow Prediction by Multi Layer Perceptron with Logistic Sigmoid and Tangent Sigmoid Activation Functions [J] . Mehdi Rezaeian Zadeh, Seifollah Amin, Davar Khalili, Water Resources Management . 2010,第11期

机译：具有Logistic Sigmoid和切线Sigmoid激活函数的多层感知器的每日流量预测
4. Hyperbolic tangent activation function integrated circuit implementation for perceptrons [C] . Adnan Fadzilatul Husna, Mahmud Mohamad Faiz Omar, Abdullah Wan Fazlida Hanim IEEE Student Conference on Research and Development . 2012

机译：用于Perceptrons的双曲线切线激活功能集成电路实现
5. CMOS-Based Implementation of Hyperbolic Tangent Activation Function for Artificial Neural Network [D] . Mohammadi Shakiba, Fatemeh 2018

机译：人工神经网络基于CMOS的双曲正切激活函数的实现
6. Implementation of multilayer perceptron network with highly uniform passive memristive crossbar circuits [O] . F. Merrikh Bayat, M. Prezioso, B. Chakrabarti, -1

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机译：具有过程不敏感性的1 mHz紧凑型数字控制感知器集成电路实现

Hyperbolic tangent activation function integrated circuit implementation for perceptrons

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