AI Article Synopsis
- - Diffractive optical neural networks (DONNs) are gaining attention for their advantages such as ultra-fast computing and low energy use but are limited by fixed functions post-manufacturing.
- - The proposed reconfigurable DONN framework uses a phase change material (GSST), allowing the functions of the network to be changed flexibly by utilizing phase modulation units.
- - A binary training algorithm simplifies DOON design, reduces implementation errors, and demonstrates the reconfigurable DONN's effectiveness through applications in classifying handwritten digits and fashion products.
Article Abstract
Diffractive optical neural networks (DONNs) possess unique advantages such as light-speed computing, low energy consumption, and parallel processing, which have obtained increasing attention in recent years. However, once conventional DONNs are fabricated, their function remains fixed, which greatly limits the applications of DONNs. Thus, we propose a reconfigurable DONN framework based on a repeatable and non-volatile phase change material GeSbSeTe(GSST). By utilizing phase modulation units made of GSST to form the network's neurons, we can flexibly switch the functions of the DONN. Meanwhile, we apply a binary training algorithm to train the DONN weights to binary values of 0 and π, which is beneficial for simplifying the design and fabrication of DONN while reducing errors during physical implementation. Furthermore, the reconfigurable binary DONN has been trained as a handwritten digit classifier and a fashion product classifier to validate the feasibility of the framework. This work provides an efficient and flexible control mechanism for reconfigurable DONNs, with potential applications in various complex tasks.
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| http://dx.doi.org/10.1364/OE.539235 | DOI Listing |
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View Article and Find Full Text PDFArticle Synopsis
- - Diffractive optical neural networks (DONNs) are gaining attention for their advantages such as ultra-fast computing and low energy use but are limited by fixed functions post-manufacturing.
- - The proposed reconfigurable DONN framework uses a phase change material (GSST), allowing the functions of the network to be changed flexibly by utilizing phase modulation units.
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