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http://dx.doi.org/10.5369/JSST.2019.29.1.68

Low Power Neuromorphic Hardware Design and Implementation Based on Asynchronous Design Methodology  

Lee, Jin Kyung (Department of Electronic Engineering, Daegu University)
Kim, Kyung Ki (Department of Electronic Engineering, Daegu University)
Publication Information
Journal of Sensor Science and Technology / v.29, no.1, 2020 , pp. 68-73 More about this Journal
Abstract
This paper proposes an asynchronous circuit design methodology using a new Single Gate Sleep Convention Logic (SG-SCL) with advantages such as low area overhead, low power consumption compared with the conventional null convention logic (NCL) methodologies. The delay-insensitive NCL asynchronous circuits consist of dual-rail structures using {DATA0, DATA1, NULL} encoding which carry a significant area overhead by comparison with single-rail structures. The area overhead can lead to high power consumption. In this paper, the proposed single gate SCL deploys a power gating structure for a new {DATA, SLEEP} encoding to achieve low area overhead and low power consumption maintaining high performance during DATA cycle. In this paper, the proposed methodology has been evaluated by a liquid state machine (LSM) for pattern and digit recognition using FPGA and a 0.18 ㎛ CMOS technology with a supply voltage of 1.8 V. the LSM is a neural network (NN) algorithm similar to a spiking neural network (SNN). The experimental results show that the proposed SG-SCL LSM reduced power consumption by 10% compared to the conventional LSM.
Keywords
Liquid State Machine(LSM); Single-Gate Sleep Convention Logic; Asynchronous Circuit; Neuromorphic Computing;
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