Asymmetric cross-coupled differential pair configuration to realize neuron activation function and its derivative

Author

Gupta, Amit K. ; Bhat, Navakanta

Author_Institution

Freescale Semicond., Bangalore, India

Volume

52

Issue

1

fYear

2005

Firstpage

10

Lastpage

13

Abstract

In this brief, we present a new circuit technique to generate the sigmoid neuron activation function (NAF) and its derivative (DNAF). The circuit makes use of transistor asymmetry in cross-coupled differential pair to obtain the derivative. The asymmetry is introduced through external control signal, as and when required. This results in the efficient utilization of the hardware by realizing NAF and DNAF using the same building blocks. The operation of the circuit is presented in the subthreshold region for ultra low-power applications. The proposed circuit has been experimentally prototyped and characterized as a proof of concept on the 1.5-μm AMI technology.

Keywords

low-power electronics; neural nets; 1.5 micron; AMI technology; asymmetric cross-coupled differential pair configuration; external control signal; input referred offset voltage; sigmoid neuron activation function; subthreshold operation; transistor asymmetry; ultra low-power applications; Ambient intelligence; Circuits; DNA computing; Feedforward neural networks; Hardware; Helium; Neural networks; Neurons; Prototypes; Voltage; Asymmetry; cross-coupled differential pairs; input referred offset voltage; neuron activation function and its derivative; subthreshold operation;

fLanguage

English

Journal_Title

Circuits and Systems II: Express Briefs, IEEE Transactions on

Publisher

ieee

ISSN

1549-7747

Type

jour

DOI

10.1109/TCSII.2004.839536

Filename

1375051