Using oxides to compute with heat

Guillaume F. Nataf (1); Sebastian Volz (2); Jose Ordonez-Miranda (2),; Jorge \'I\~niguez-Gonz\'alez (3); Riccardo Rurali (4); Brahim Dkhil (5) ((1); GREMAN UMR 7347; CNRS; University of Tours; INSA Centre Val de Loire; Tours,; France; (2) LIMMS; CNRS-IIS IRL 2820; The University of Tokyo; Tokyo; Japan,; (3) Materials Research; Technology Department; LIST; Esch-sur-Alzette,; Luxembourg; (4) Institut de Ci\`encia de Materials de Barcelona; ICMAB-CSIC,; Campus UAB; Bellaterra; Spain; (5) Universit\'e Paris-Saclay,; CentraleSup\'elec; CNRS-UMR8580; Laboratoire SPMS; Gif-sur-Yvette; France)

arXiv:2405.10782·physics.app-ph·May 20, 2024

Using oxides to compute with heat

Guillaume F. Nataf (1), Sebastian Volz (2), Jose Ordonez-Miranda (2),, Jorge \'I\~niguez-Gonz\'alez (3), Riccardo Rurali (4), Brahim Dkhil (5) ((1), GREMAN UMR 7347, CNRS, University of Tours, INSA Centre Val de Loire, Tours,, France, (2) LIMMS, CNRS-IIS IRL 2820

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TL;DR

This paper explores the innovative use of heat currents in oxides for computation, leveraging phase-change materials like ferroelectrics and ferromagnets to potentially replace traditional electronic components.

Contribution

It introduces the concept of using heat as a computational resource in oxides, proposing phase-change oxides as a basis for logic and memory devices.

Findings

01

Heat currents can be harnessed for computation in oxides.

02

Phase-change oxides can replicate sources, logic units, and memories.

03

Potential for heat-based computing schemes.

Abstract

One of the most innovative possibilities offered by oxides is the use of heat currents for computational purposes. Towards this goal, phase-change oxides, including ferroelectrics, ferromagnets and related materials, could reproduce sources, logic units and memories used in current and future computing schemes.

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