Two Cascaded Spin Wave Majority Gates Operation Under Continuous and Pulse Modes

Journal article (2023)

Authors

A.N.N. Mahmoud Computer Engineering - EEMCS
F. Ciubotaru IMEC-Solliance
Frederic Vanderveken IMEC-Solliance
C. Adelmann IMEC-Solliance
S.D. Cotofana Computer Engineering - EEMCS
S. Hamdioui Computer Engineering - EEMCS
Research Group
Computer Engineering (EEMCS) (TU Delft)
Energy Scattering Reflection Logic gates Throughput Transient analysis Spin-wave Computing Spin-waves Time-frequency analysis Cascaded Majority Gates Micromagnetics Wave Pipeline
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Published Date

2023

Language

English

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Faculty

Electrical Engineering, Mathematics and Computer Science

Department

Quantum & Computer Engineering

Research Group

Computer Engineering

Abstract

Spin Waves (SWs), by their nature, are excited by means of voltage driven or current driven cells under two modes: Continuous Mode Operation (CMO), and Pulse Mode Operation (PMO). Moreover, the low throughput of the SW technology (caused by its high latency) can be enhanced by wavepipelining which is supported inherently by the SW under the two modes. Therefore, we propose wavepipelined SW based two cascaded Majority gates (SWMGs) circuit and validate it by means of micromagnetic simulations working under CMO and PMO. Our evaluation results indicate that PMO SWMGs circuit consumes 6.7x less energy than CMO SWMGs circuit. In addition, the evaluation shows that the wavepipelined PMO and CMO SWMGs circuit have the same throughput, while they are better than the non-wavepipelined circuit by 2x.