Physics-aware analytic-gradient training of photonic neural networks
Photonic neural networks (PNNs) have emerged as promising alternatives to traditional electronic neural networks. However, the training of PNNs, especially the chip implementation of analytic gradient descent algorithms that are recognized as highly efficient in traditional practice, remains a major...
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sg-ntu-dr.10356-1779402024-06-03T06:03:31Z Physics-aware analytic-gradient training of photonic neural networks Zhan, Yuancheng Zhang, Hui Lin, Hexiang Chin, Lip Ket Cai, Hong Karim, Muhammad Faeyz Poenar, Daniel Puiu Jiang, Xudong Mak, Man-Wai Kwek, Leong Chuan Liu, Ai Qun School of Electrical and Electronic Engineering Centre for Quantum Technologies, NUS Quantum Science and Engineering Centre Engineering Optical computing Photonic integrated chip Photonic neural networks (PNNs) have emerged as promising alternatives to traditional electronic neural networks. However, the training of PNNs, especially the chip implementation of analytic gradient descent algorithms that are recognized as highly efficient in traditional practice, remains a major challenge because physical systems are not differentiable. Although training methods such as gradient-free and numerical gradient methods are proposed, they suffer from excessive measurements and limited scalability. State-of-the-art in situ training method is also cost-challenged, requiring expensive in-line monitors and frequent optical I/O switching. Here, a physics-aware analytic-gradient training (PAGT) method is proposed that calculates the analytic gradient in a divide-and-conquer strategy, overcoming the difficulty induced by chip non-differentiability in the training of PNNs. Multiple training cases, especially a generative adversarial network, are implemented on-chip, achieving a significant reduction in time consumption (from 31 h to 62 min) and a fourfold reduction in energy consumption, compared to the in situ method. The results provide low-cost, practical, and accelerated solutions for training hybrid photonic-digital electronic neural networks. Ministry of Education (MOE) National Research Foundation (NRF) Published version This work is supported by the Singapore Ministry of Education Tier 3 grant (MOE2017-T3-1-001) and National Research Foundation grant (MOH000926). 2024-06-03T06:03:30Z 2024-06-03T06:03:30Z 2024 Journal Article Zhan, Y., Zhang, H., Lin, H., Chin, L. K., Cai, H., Karim, M. F., Poenar, D. P., Jiang, X., Mak, M., Kwek, L. C. & Liu, A. Q. (2024). Physics-aware analytic-gradient training of photonic neural networks. Laser and Photonics Reviews, 18(4), 2300445-. https://dx.doi.org/10.1002/lpor.202300445 1863-8880 https://hdl.handle.net/10356/177940 10.1002/lpor.202300445 2-s2.0-85185662693 4 18 2300445 en MOE2017-T3-1-001 MOH-000926 Laser and Photonics Reviews © 2024 The Authors. Laser & Photonics Reviews published by Wiley-VCH GmbH. This is an open access article under the terms of the Creative Commons Attribution-NonCommercial License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited and is not used for commercial purposes. application/pdf |
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Engineering Optical computing Photonic integrated chip |
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Engineering Optical computing Photonic integrated chip Zhan, Yuancheng Zhang, Hui Lin, Hexiang Chin, Lip Ket Cai, Hong Karim, Muhammad Faeyz Poenar, Daniel Puiu Jiang, Xudong Mak, Man-Wai Kwek, Leong Chuan Liu, Ai Qun Physics-aware analytic-gradient training of photonic neural networks |
| description |
Photonic neural networks (PNNs) have emerged as promising alternatives to traditional electronic neural networks. However, the training of PNNs, especially the chip implementation of analytic gradient descent algorithms that are recognized as highly efficient in traditional practice, remains a major challenge because physical systems are not differentiable. Although training methods such as gradient-free and numerical gradient methods are proposed, they suffer from excessive measurements and limited scalability. State-of-the-art in situ training method is also cost-challenged, requiring expensive in-line monitors and frequent optical I/O switching. Here, a physics-aware analytic-gradient training (PAGT) method is proposed that calculates the analytic gradient in a divide-and-conquer strategy, overcoming the difficulty induced by chip non-differentiability in the training of PNNs. Multiple training cases, especially a generative adversarial network, are implemented on-chip, achieving a significant reduction in time consumption (from 31 h to 62 min) and a fourfold reduction in energy consumption, compared to the in situ method. The results provide low-cost, practical, and accelerated solutions for training hybrid photonic-digital electronic neural networks. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Zhan, Yuancheng Zhang, Hui Lin, Hexiang Chin, Lip Ket Cai, Hong Karim, Muhammad Faeyz Poenar, Daniel Puiu Jiang, Xudong Mak, Man-Wai Kwek, Leong Chuan Liu, Ai Qun |
| format |
Article |
| author |
Zhan, Yuancheng Zhang, Hui Lin, Hexiang Chin, Lip Ket Cai, Hong Karim, Muhammad Faeyz Poenar, Daniel Puiu Jiang, Xudong Mak, Man-Wai Kwek, Leong Chuan Liu, Ai Qun |
| author_sort |
Zhan, Yuancheng |
| title |
Physics-aware analytic-gradient training of photonic neural networks |
| title_short |
Physics-aware analytic-gradient training of photonic neural networks |
| title_full |
Physics-aware analytic-gradient training of photonic neural networks |
| title_fullStr |
Physics-aware analytic-gradient training of photonic neural networks |
| title_full_unstemmed |
Physics-aware analytic-gradient training of photonic neural networks |
| title_sort |
physics-aware analytic-gradient training of photonic neural networks |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/177940 |
| _version_ |
1800916237303152640 |