Programmable analogue VLSI implementation for asymmetric sigmoid neural activation function and its derivative

Tabarce S.; Tavares V.G.; de Oliveira P.G.

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Programmable analogue VLSI implementation for asymmetric sigmoid neural activation function and its derivative

机译：用于不对称乙状神经激活函数的可编程模拟VLSI实现及其派生

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A new CMOS VLSI implementation of an asymmetric programmable sigmoid neural activation function, as well as of its derivative, is presented. It consists of two coupled PMOS and NMOS differential pairs with different programmable bias currents that set the upper and lower limits of the sigmoid. The circuit works in the weak inversion region, for low power consumption and exponential envelope, or in strong inversion to achieve higher speeds. The results obtained from the theoretical transfer function, and from the simulations of the circuit implemented in AMI's 0.35 /spl mu/m technology, show a very good match.

机译：提出了一种新的不对称可编程乙状结肠神经激活函数及其衍生物的CMOS VLSI实现。它由两个耦合的PMOS和NMOS差分对组成，它们具有不同的可编程偏置电流，这些电流可设置S型曲线的上限和下限。该电路在弱反转区域工作，以实现低功耗和指数包络，或者在强反转工作以实现更高的速度。从理论传递函数以及以AMI的0.35 / spl mu / m技术实现的电路仿真中获得的结果显示出很好的匹配。

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来源
《Electronics Letters》 |2005年第15期|p.863-864|共2页
作者
Tabarce S.; Tavares V.G.; de Oliveira P.G.;
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作者单位

Fac. of Eng., Univ. of Porto & INESC Porto, Portugal;

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原文格式 PDF
正文语种 eng
中图分类无线电电子学、电信技术;
关键词
CMOS analogue integrated circuits; VLSI; integrated circuit design; low-power electronics; neural chips; programmable circuits; transfer functions; 0.35 micron; CMOS VLSI; NMOS; PMOS; asymmetric programmable sigmoid neural activation function; low power consumption;

机译：CMOS模拟集成电路;VLSI;集成电路设计;低功耗电子产品;神经芯片;可编程电路;传递函数;0.35微米;CMOS VLSI;NMOS;PMOS;非对称可编程S形神经激活功能;低功耗;

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1. Implementation issues of sigmoid function and its derivative for VLSI digital neural networks [J] . Murtagh P., Tsoi A.C. IEE Proceedings. Part E . 1992,第3期

机译：VLSI数字神经网络的S形函数及其导数的实现问题
2. Programmable current-mode neural network for implementation in analogue MOS VLSI [J] . Borgstrom T.H., Ismail M. IEE Proceedings. Part G, Circuits, Devices and Systems . 1990,第2期

机译：用于模拟MOS VLSI的可编程电流模式神经网络
3. Hardware implementation of evolvable block-based neural networks utilizing a cost efficient sigmoid-like activation function [J] . Nambiar Vishnu P., Khalil-Hani Mohamed, Sahnoun Riadh, Neurocomputing . 2014,第sepa22期

机译：可扩展的基于块的神经网络的硬件实现，其使用了具有成本效益的类Sigmoid激活函数
4. High Speed, Programmable Implementation of a Tanh-like Activation Function and Its Derivative for Digital Neural Networks [C] . Marra, S., Iachino, Neural Networks, The 2007 IEEE International Joint Conference on . 2007

机译：Tanh样激活函数及其数字神经网络衍生物的高速可编程实现
5. Implementation of a New Sigmoid Function in Backpropagation Neural Networks. [D] . Bonnell, Jeff. 2011

机译：反向传播神经网络中新的Sigmoid函数的实现。
6. Erratum to: Implantable neurotechnologies: bidirectional neuralinterfaces—applications and VLSI circuit implementations [O] . Elliot Greenwald, Matthew R. Masters, Nitish V. Thakor -1

机译：勘误至：植入式神经技术：双向神经接口—应用程序和VLSI电路实现
7. Efficient FPGA Implementation of Sigmoid and Bipolar Sigmoid Activation Functions for Multilayer Perceptrons [O] . Manish Panicker 2012

机译：高效FPGA实现Multilayer Perceptrons的Sigmoid和Bipolar Sigmoid激活功能

Programmable analogue VLSI implementation for asymmetric sigmoid neural activation function and its derivative

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