Semantic Scholar Open Access 2020 963 sitasi

Physics for neuromorphic computing

Danijela Marković A. Mizrahi D. Querlioz J. Grollier

Abstrak

Neuromorphic computing takes inspiration from the brain to create energy-efficient hardware for information processing, capable of highly sophisticated tasks. Systems built with standard electronics achieve gains in speed and energy by mimicking the distributed topology of the brain. Scaling-up such systems and improving their energy usage, speed and performance by several orders of magnitude requires a revolution in hardware. We discuss how including more physics in the algorithms and nanoscale materials used for data processing could have a major impact in the field of neuromorphic computing. We review striking results that leverage physics to enhance the computing capabilities of artificial neural networks, using resistive switching materials, photonics, spintronics and other technologies. We discuss the paths that could lead these approaches to maturity, towards low-power, miniaturized chips that could infer and learn in real time. Neuromorphic computing takes inspiration from the brain to create energy-efficient hardware for information processing, capable of highly sophisticated tasks. Including more physics in the algorithms and nanoscale materials used for computing could have a major impact in this field.

Topik & Kata Kunci

Computer Science Physics

Penulis (4)

Danijela Marković

A. Mizrahi

D. Querlioz

J. Grollier

Format Sitasi

APA MLA BibTeX

Marković, D., Mizrahi, A., Querlioz, D., Grollier, J. (2020). Physics for neuromorphic computing. https://doi.org/10.1038/s42254-020-0208-2

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Informasi Jurnal

Tahun Terbit: 2020
Bahasa: en
Total Sitasi: 963×
Sumber Database: Semantic Scholar
DOI: 10.1038/s42254-020-0208-2
Akses: Open Access ✓