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Literature DB >> 33469031

An optical neural chip for implementing complex-valued neural network.

H Zhang¹, M Gu^2,3, X D Jiang⁴, J Thompson⁵, H Cai⁶, S Paesani⁷, R Santagati⁷, A Laing⁷, Y Zhang^1,8, M H Yung^9,10, Y Z Shi¹, F K Muhammad¹, G Q Lo¹¹, X S Luo¹¹, B Dong¹¹, D L Kwong⁶, L C Kwek^12,13,14, A Q Liu¹⁵.

Abstract

Complex-valued neural networks have many advantages over their real-valued counterparts. Conventional digital electronic computing platforms are incapable of executing truly complex-valued representations and operations. In contrast, optical computing platforms that encode information in both phase and magnitude can execute complex arithmetic by optical interference, offering significantly enhanced computational speed and energy efficiency. However, to date, most demonstrations of optical neural networks still only utilize conventional real-valued frameworks that are designed for digital computers, forfeiting many of the advantages of optical computing such as efficient complex-valued operations. In this article, we highlight an optical neural chip (ONC) that implements truly complex-valued neural networks. We benchmark the performance of our complex-valued ONC in four settings: simple Boolean tasks, species classification of an Iris dataset, classifying nonlinear datasets (Circle and Spiral), and handwriting recognition. Strong learning capabilities (i.e., high accuracy, fast convergence and the capability to construct nonlinear decision boundaries) are achieved by our complex-valued ONC compared to its real-valued counterpart.

Entities: Chemical Disease Species

Year: 2021 PMID： 33469031 PMCID： PMC7815828 DOI： 10.1038/s41467-020-20719-7

Source DB: PubMed Journal: Nat Commun ISSN： 2041-1723 Impact factor: 14.919

24 in total

1. Solving the XOR problem and the detection of symmetry using a single complex-valued neuron.

Authors: Tohru Nitta
Journal: Neural Netw Date: 2003-10

2. Orthogonality of decision boundaries in complex-valued neural networks.

Authors: Tohru Nitta
Journal: Neural Comput Date: 2004-01 Impact factor: 2.026

3. Photonic information processing beyond Turing: an optoelectronic implementation of reservoir computing.

Authors: L Larger; M C Soriano; D Brunner; L Appeltant; J M Gutierrez; L Pesquera; C R Mirasso; I Fischer
Journal: Opt Express Date: 2012-01-30 Impact factor: 3.894

4. A fast low-power optical memory based on coupled micro-ring lasers.

Authors: Martin T Hill; Harmen J S Dorren; Tjibbe De Vries; Xaveer J M Leijtens; Jan Hendrik Den Besten; Barry Smalbrugge; Yok-Siang Oei; Hans Binsma; Giok-Djan Khoe; Meint K Smit
Journal: Nature Date: 2004-11-11 Impact factor: 49.962

5. Design of optical neural networks with component imprecisions.

Authors: Michael Y-S Fang; Sasikanth Manipatruni; Casimir Wierzynski; Amir Khosrowshahi; Michael R DeWeese
Journal: Opt Express Date: 2019-05-13 Impact factor: 3.894

6. An all-optical neuron with sigmoid activation function.

Authors: G Mourgias-Alexandris; A Tsakyridis; N Passalis; A Tefas; K Vyrsokinos; N Pleros
Journal: Opt Express Date: 2019-04-01 Impact factor: 3.894

7. Training Passive Photonic Reservoirs With Integrated Optical Readout.

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Journal: IEEE Trans Neural Netw Learn Syst Date: 2018-10-31 Impact factor: 10.451

8. Experimental demonstration of reservoir computing on a silicon photonics chip.

Authors: Kristof Vandoorne; Pauline Mechet; Thomas Van Vaerenbergh; Martin Fiers; Geert Morthier; David Verstraeten; Benjamin Schrauwen; Joni Dambre; Peter Bienstman
Journal: Nat Commun Date: 2014-03-24 Impact factor: 14.919

9. Nanophotonic reservoir computing with photonic crystal cavities to generate periodic patterns.

Authors: Martin Andre Agnes Fiers; Thomas Van Vaerenbergh; Francis Wyffels; David Verstraeten; Benjamin Schrauwen; Joni Dambre; Peter Bienstman
Journal: IEEE Trans Neural Netw Learn Syst Date: 2014-02 Impact factor: 10.451

10. Neuromorphic photonic networks using silicon photonic weight banks.

Authors: Alexander N Tait; Thomas Ferreira de Lima; Ellen Zhou; Allie X Wu; Mitchell A Nahmias; Bhavin J Shastri; Paul R Prucnal
Journal: Sci Rep Date: 2017-08-07 Impact factor: 4.379

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3. Polarization multiplexed diffractive computing: all-optical implementation of a group of linear transformations through a polarization-encoded diffractive network.

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Journal: Light Sci Appl Date: 2022-05-26 Impact factor: 20.257

4. Silicon-Based Metastructure Optical Scattering Multiply-Accumulate Computation Chip.

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5. Touchable cell biophysics property recognition platforms enable multifunctional blood smart health care.

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