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Paper detail

Quantum materials for energy-efficient neuromorphic computing

Neuromorphic computing approaches become increasingly important as we address future needs for efficiently processing massive amounts of data. The unique attributes of quantum materials can help address these needs by enabling new energy-efficient device concepts that implement neuromorphic ideas at the hardware level. In particular, strong correlations give rise to highly non-linear responses, such as conductive phase transitions that can be harnessed for short and long-term plasticity. Similarly, magnetization dynamics are strongly non-linear and can be utilized for data classification. This paper discusses select examples of these approaches, and provides a perspective for the current opportunities and challenges for assembling quantum-material-based devices for neuromorphic functionalities into larger emergent complex network systems.

preprint2022arXivOpen access
Axel HoffmannShriram RamanathanJulie GrollierAndrew D. KentMarcelo RozenbergIvan K. SchullerOleg ShpyrkoRobert DynesYeshaiahu FainmanAlex FranoEric E. FullertonGiulia GalliVitaliy LomakinShyue Ping OngAmanda K. Petford-LongJonathan A. SchullerMark D. StilesYayoi TakamuraYimei Zhu
physics.app-phNeural and Evolutionary Computingcond-mat.mtrl-sciEmerging Technologies
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Axel HoffmannShriram RamanathanJulie GrollierAndrew D. KentMarcelo RozenbergIvan K. SchullerOleg ShpyrkoRobert DynesYeshaiahu FainmanAlex FranoEric E. FullertonGiulia GalliVitaliy LomakinShyue Ping OngAmanda K. Petford-LongJonathan A. SchullerMark D. StilesYayoi TakamuraYimei Zhu

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