2-output spin wave programmable logic gate

TL;DR

This paper introduces a novel 2-output spin wave programmable logic gate capable of evaluating multiple Boolean functions simultaneously, offering significant energy and area savings over traditional implementations.

Contribution

The paper presents a new spin wave logic gate design that can evaluate two Boolean functions at once, improving fanout, energy efficiency, and area compared to existing solutions.

Findings

Successfully simulated the gate with OOMMF showing multiple Boolean functions.

Achieved 33% energy and 16% area reduction compared to other spin-wave gates.

Reduced energy consumption by 42% and area by 12x compared to 15 nm CMOS.

Abstract

This paper presents a 2-output Spin-Wave Programmable Logic Gate structure able to simultaneously evaluate any pair of AND, NAND, OR, NOR, XOR, and XNOR Boolean functions. Our proposal provides the means for fanout achievement within the Spin Wave computation domain and energy and area savings as two different functions can be simultaneously evaluated on the same input data. We validate our proposal by means of Object Oriented Micromagnetic Framework (OOMMF) simulations and demonstrate that by phase and magnetization threshold output sensing AND, OR, NAND, NOR and XOR and XNOR functionalities can be achieved, respectively. To get inside into the potential practical implications of our approach we use the proposed gate to implement a 3-input Majority gate, which we evaluate and compare with state of the art equivalent implementations in terms of area, delay, and energy consumptions. Our estimations indicate that the proposed gate provides 33% and 16% energy and area reduction, respectively, when compared with spin-wave counterpart and 42% energy reduction while consuming 12x less area when compared to a 15 nm CMOS implementation.