Efficient option pricing with a unary-based photonic computing chip and generative adversarial learning 被引量：3

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摘要 In the modern financial industry system,the structure of products has become more and more complex,and the bottleneck constraint of classical computing power has already restricted the development of the financial industry.Here,we present a photonic chip that implements the unary approach to European option pricing,in combination with the quantum amplitude estimation algorithm,to achieve quadratic speedup compared to classical Monte Carlo methods.The circuit consists of three modules:one loading the distribution of asset prices,one computing the expected payoff,and a third performing the quantum amplitude estimation algorithm to introduce speedups.In the distribution module,a generative adversarial network is embedded for efficient learning and loading of asset distributions,which precisely captures market trends.This work is a step forward in the development of specialized photonic processors for applications in finance,with the potential to improve the efficiency and quality of financial services.

作者 HUI ZHANG LINGXIAO WAN SERGI RAMOS-CALDERER YUANCHENG ZHAN WAI-KEONG MOK HONG CAI FENG GAO XIANSHU LUO GUO-QIANG LO LEONG CHUAN KWEK JOSÉIGNACIO LATORRE AI QUN LIU

机构地区 Institute of Quantum Technologies(IQT) Quantum Science and Engineering Centre(QSec) Departament de Fisica Quantica i Astrofisica and Institut de Ciencies del Cosmos(ICCUB) Quantum Research Centre Centre for Quantum Technologies Institute of Microelectronics Advanced Micro Foundry National Institute of Education

出处《Photonics Research》 SCIE EI CAS CSCD 2023年第10期1703-1712,共10页 光子学研究（英文版）

基金 Hong Kong Polytechnic University(P0046236) National Research Foundation Singapore(NRF2022-QEP2-02-P16) Ministry of Education-Singapore(MOE2017-T3-1-001)。

关键词 COMPUTING LOADING ESTIMATION

分类号 TN40 [电子电信—微电子学与固体电子学] TP18 [自动化与计算机技术—控制理论与控制工程]

作者简介 Corresponding author:AI QUN LIU,aiqun.liu@polyu.edu.hk。

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1Shaofu Xu,Jing Wang,Haowen Shu,Zhike Zhang,Sicheng Yi,Bowen Bai,Xingjun Wang,Jianguo Liu,Weiwen Zou.Optical coherent dot-product chip for sophisticated deep learning regression[J].Light(Science & Applications),2021,10(12):2330-2341. 被引量：20
2Kun Liao,Ye Chen,Zhongcheng Yu,Xiaoyong Hu,Xingyuan Wang,Cuicui Lu,Hongtao Lin,Qingyang Du,Juejun Hu,Qihuang Gong.All-optical computing based on convolutional neural networks[J].Opto-Electronic Advances,2021,4(11):46-54. 被引量：10
3Hailong Zhou,Jianji Dong,Junwei Cheng,Wenchan Dong,Chaoran Huang,Yichen Shen,Qiming Zhang,Min Gu,Chao Qian,Hongsheng Chen,Zhichao Ruan,Xinliang Zhang.Photonic matrix multiplication lights up photonicaccelerator and beyond[J].Light(Science & Applications),2022,11(2):158-178. 被引量：42
4Qiming Zhang,Haoyi Yu,Martina Barbiero,Baokai Wang,Min Gu.Artificial neural networks enabled by nanophotonics[J].Light(Science & Applications),2019,8(1):797-810. 被引量：37
5Siqi yan,Jianji Dong.Metasurface for highly-efficient on-chip classical and quantum all-optical modulation[J].Light(Science & Applications),2022,11(9):1952-1953. 被引量：1

二级参考文献16

1Yuhe ZHAO,Xu WANG,Dingshan GAO,Jianji DONG,Xinliang ZHANG.On-chip programmable pulse processor employing cascaded MZI-MRR structure[J].Frontiers of Optoelectronics,2019,12(2):148-156. 被引量：14
2Jingxi Li,Deniz Mengu,Yi Luo,Yair Rivenson,Aydogan Ozcan.Class-specific differential detection in diffractive optical neural networks improves inference accuracy[J].Advanced Photonics,2019,1(4):2-14. 被引量：29
3Shuiying Xiang,Yanan Han,Ziwei Song,Xingxing Guo,Yahui Zhang,Zhenxing Ren,Suhong Wang,Yuanting Ma,Weiwen Zou,Bowen Ma,Shaofu Xu,Jianji Dong,Hailong Zhou,Quansheng Ren,Tao Deng,Yan Liu,Genquan Han,Yue Hao.A review:Photonics devices,architectures,and algorithms for optical neural computing[J].Journal of Semiconductors,2021,42(2):64-79. 被引量：13
4Onur Kulce,Deniz Mengu,Yair Rivenson,Aydogan Ozcan.All-optical information-processing capacity of diffractive surfaces[J].Light(Science & Applications),2021,10(2):217-233. 被引量：19
5Elena Goi,Xi Chen,Qiming Zhang,Benjamin P.Cumming,Steffen schoenhardt,Haitao Luan,Min Gu.Nanoprinted high-neuron-density optical linear perceptrons performing near-infrared inference on a CMOS chip[J].Light(Science & Applications),2021,10(3):409-419. 被引量：26
6HE WEN,YUANHANG ZHANG,RACHEL SAMPSON,NICOLAS K.FONTAINE,NING WANG,SHENGLI FAN,GUIFANG LI.Scalable non-mode selective Hermite–Gaussian mode multiplexer based on multi-plane light conversion[J].Photonics Research,2021,9(2):88-97. 被引量：5
7YAHUI ZHANG,JOSHUA ROBERTSON,SHUIYING XIANG,MATĚJ HEJDA,JULIÁN BUENO,ANTONIO HURTADO.All-optical neuromorphic binary convolution with a spiking VCSEL neuron for image gradient magnitudes[J].Photonics Research,2021,9(5). 被引量：13
8ZHENG ZHEN,CHAO QIAN,YUETIAN JIA,ZHIXIANG FAN,RAN HAO,TONG CAI,BIN ZHENG,HONGSHENG CHEN,ERPING LI.Realizing transmitted metasurface cloak by a tandem neural network[J].Photonics Research,2021,9(5). 被引量：6
9David A.B.Miller.Self-configuring universal linear optical component[Invited][J].Photonics Research,2013,1(1):1-15. 被引量：28
10Andrea Annoni,Emanuele Guglielmi,Marco Carminati,Giorgio Ferrari,Marco Sampietro,David AB Miller,Andrea Melloni,Francesco Morichetti.Unscrambling light-automatically undoing strong mixing between modes[J].Light(Science & Applications),2017,6(1):342-351. 被引量：14

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1Lei Xu,Mohsen Rahmani,Yixuan Ma,Daria ASmirnova,Khosro Zangeneh Kamali,Fu Deng,Yan Kei Chiang,Lujun Huang,Haoyang Zhang,Stephen Gould,Dragomir N.Neshev,Andrey E.Miroshnichenko.Enhanced light-matter interactions in dielectric nanostructures via machine-learning approach[J].Advanced Photonics,2020,2(2):57-67. 被引量：15
2Elena Goi,Xi Chen,Qiming Zhang,Benjamin P.Cumming,Steffen schoenhardt,Haitao Luan,Min Gu.Nanoprinted high-neuron-density optical linear perceptrons performing near-infrared inference on a CMOS chip[J].Light(Science & Applications),2021,10(3):409-419. 被引量：26
3Feng Qiu,Yu Han.Electro-optic polymer ring resonator modulators [Invited][J].Chinese Optics Letters,2021,19(4):32-38. 被引量：2
4栾海涛,陈希,张启明,蔚浩义,顾敏.人工智能纳米光子学:光学神经网络与纳米光子学[J].光学学报,2021,41(8):61-78. 被引量：8
5陈沁,文龙,杨先光,李宝军.面向高像素密度图像传感器的结构色技术[J].光学学报,2021,41(8):134-150. 被引量：9
6Yihao Xu,Xianzhe Zhang,Yun Fu,Yongmin Liu.Interfacing photonics with artificial intelligence:an innovative design strategy for photonic structures and devices based on artificial neural networks[J].Photonics Research,2021,9(4). 被引量：5
7PENG DAI,YASI WANG,YUEQIANG HU,C.H.DE GROOT,OTTO MUSKENS,HUIGAO DUAN,RUOMENG HUANG.Accurate inverse design of Fabry–Perot-cavity-based color filters far beyond sRGB via a bidirectional artificial neural network[J].Photonics Research,2021,9(5). 被引量：5
8Bo Zhang,Dezhi Tan,Zhuo Wang,Xiaofeng Liu,Beibei Xu,Min Gu,Limin Tong,Jianrong Qiu.Self-organized phase-transition lithography for all-inorganic photonic textures[J].Light(Science & Applications),2021,10(6):1020-1028. 被引量：9
9Zhengfen Wan,Xi Chen,Min Gu.Laser scribed graphene for supercapacitors[J].Opto-Electronic Advances,2021,4(7):1-21. 被引量：13
10Haoyi Yu,Haibo Ding,Qiming Zhang,Zhongze Gu,Min Gu.Three-Dimensional Direct Laser Writing of PEGda Hydrogel Microstructures with Low Threshold Power using a Green Laser Beam[J].Light(Advanced Manufacturing),2021,2(1):23-30. 被引量：8

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1J.C. Li,B.F. Wang,J.Z. Cui.MODELING AND EXPERIMENTAL RESEARCH OF FOUR-STRAND LOW-FREQUENCY ELECTROMAGNETIC CASTING ALUMINUM ALLOY[J].Acta Metallurgica Sinica(English Letters),2007,20(3):157-166. 被引量：2
2Lifeng Ma,Jing Li,Zhouhui Liu,Yuxuan Zhang,Nianen Zhang,Shuqiao Zheng,Cuicui Lu.Intelligent algorithms: new avenues for designing nanophotonic devices [Invited][J].Chinese Optics Letters,2021,19(1):31-63. 被引量：5
3Jinran Qie,Erfan Khoram,Dianjing Liu,Ming Zhou,Li Gao.Real-time deep learning design tool for far-field radiation profile[J].Photonics Research,2021,9(4). 被引量：6
4Xiao Han,Ziyang Fan,Zeyang Liu,Chao Li,L.Jay Guo.Inverse design of metasurface optical filters using deep neural network with highdegrees of freedom[J].InfoMat,2021,3(4):432-442. 被引量：7
5PETER R.WIECHA,ARNAUD ARBOUET,CHRISTIAN GIRARD,OTTO L.MUSKENS.Deep learning in nano-photonics:inverse design and beyond[J].Photonics Research,2021,9(5). 被引量：25
6Yuan Meng,Yizhen Chen,Longhui Lu,Yimin Ding,Andrea Cusano,Jonathan A.Fan,Qiaomu Hu,Kaiyuan Wang,Zhenwei Xie,Zhoutian Liu,Yuanmu Yang,Qiang Liu,Mali Gong,Qirong Xiao,Shulin Sun,Minming Zhang,Xiaocong Yuan,Xingjie Ni.Optical meta-waveguides for integrated photonics and beyond[J].Light(Science & Applications),2021,10(12):2263-2306. 被引量：20
7Lianlin Li,Hanting Zhao,Che Liu,Long Li,Tie Jun Cui.Intelligent metasurfaces:control,communication and computing[J].eLight,2022,2(1):75-98. 被引量：36
8Nicolas A.Alderete,Nibir Pathak,Horacio D.Espinosa.Machine learning assisted design of shape-programmable 3D kirigami metamaterials[J].npj Computational Materials,2022(1):1817-1828. 被引量：3
9Yang Zhu,Xiaofei Zang,Haoxiang Chi,Yiwen Zhou,Yiming Zhu,Songlin Zhuang.Metasurfaces designed by a bidirectional deep neural network and iterative algorithm for generating quantitative field distributions[J].Light(Advanced Manufacturing),2023,4(2):28-38. 被引量：14
10王涛,宋清海,徐科.基于逆向设计的集成光学超构波导研究进展(特邀)[J].光学学报,2024,44(15):323-340. 被引量：3

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