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Spin Wave Normalization Toward All Magnonic Circuits.

Authors :
Mahmoud, Abdulqader Nael
Vanderveken, Frederic
Adelmann, Christoph
Ciubotaru, Florin
Cotofana, Sorin
Hamdioui, Said
Source :
IEEE Transactions on Circuits & Systems. Part I: Regular Papers. Jan2021, Vol. 68 Issue 1, p536-549. 14p.
Publication Year :
2021

Abstract

The key enabling factor for Spin Wave (SW) technology utilization for building ultra low power circuits is the ability to energy efficiently cascade SW basic computation blocks. SW Majority gates, which constitute a universal gate set for this paradigm, operating on phase encoded data are not input output coherent in terms of SW amplitude. Thus, their cascading requires information representation conversion from SW to voltage and back, which is by no means energy effective. In this paper, a novel conversion free SW gate cascading scheme is proposed that achieves SW amplitude normalization by means of a directional coupler. After introducing the normalization concept, we utilize it in the implementation of three simple circuits and, to demonstrate its bigger scale potential, of a 2-bit inputs SW multiplier. The proposed structures are validated by means of the Object Oriented Micromagnetic Framework (OOMMF) and GPU-accelerated Micromagnetics (MuMax3). Furthermore, we assess the normalization induced energy overhead and demonstrate that the proposed approach consumes $1.25 \times $ to $1.5 \times $ less energy when compared with the transducers based conventional counterpart. Finally, we introduce a normalization based SW 2-bit inputs multiplier design and compare it with functionally equivalent SW transducer based and 16nm CMOS designs. Our evaluation indicates that the proposed approach provided $1.34 \times $ and $6.25 \times $ energy reductions when compared with the conventional approach and 16nm CMOS counterpart, respectively, which demonstrates that our proposal is energy effective and opens the road towards the full utilization of the SW paradigm potential and the development of SW only circuits. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
15498328
Volume :
68
Issue :
1
Database :
Academic Search Index
Journal :
IEEE Transactions on Circuits & Systems. Part I: Regular Papers
Publication Type :
Periodical
Accession number :
148108005
Full Text :
https://doi.org/10.1109/TCSI.2020.3028050