Fully interconnected, two-dimensional neural arrays using wavelength-multiplexed volume holograms

Robert T. Weverka; Kelvin Wagner; Mark Saffman

doi:10.1364/OL.16.000826

Optics Letters
Vol. 16,
Issue 11,
pp. 826-828
(1991)
•https://doi.org/10.1364/OL.16.000826

Fully interconnected, two-dimensional neural arrays using wavelength-multiplexed volume holograms

Robert T. Weverka, Kelvin Wagner, and Mark Saffman

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Robert T. Weverka, Kelvin Wagner, and Mark Saffman, "Fully interconnected, two-dimensional neural arrays using wavelength-multiplexed volume holograms," Opt. Lett. 16, 826-828 (1991)

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Abstract

We present a compact method to provide independent weighted interconnections between every pixel in a two-dimensional input array and every pixel in a two-dimensional output array. The two input dimensions and two output dimensions are connected by a four-dimensional weight matrix consisting of wavelength-multiplexed volume holograms that use cryogenic spectral hole burning in a single holographic element.

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Optics Letters