[1] Shor P W. Polynomial-time algorithms for prime factorization and discrete logarithms on a quantum computer [J]. SIAM Journal on Computing, 1997, 2(5): 1484-1509.

[2] Grover L K. A fast quantum mechanical algorithm for database search [C]. Proceedings of the Twenty-Eighth Annual ACM Symposium on Theory of Computing, 1996: 212-219.

[3] Harrow A W, Hassidim A, Lloyd S. Quantum algorithm for linear systems of equations [J]. Physical Review Letters, 2009, 103(15): 150502.

[4] Wossnig L, Zhao Z K, Prakash A. Quantum linear system algorithm for dense matrices [J]. Physical Review Letters, 2018, 120(5): 050502.

[5] Clader B D, Jacobs B C, Sprouse C R. Preconditioned quantum linear system algorithm [J]. Physical Review Letters, 2013, 110(25): 250504.

[6] Rebentrost P, Mohseni M, Lloyd S. Quantum support vector machine for big data classification [J]. Physical Review Letters, 2014, 113(13): 130503.

[7] Liang J M, Shen S Q, Li M, et al. Variational quantum algorithms for dimensionality reduction and classification [J]. Physical Review A, 2020, 101(3): 032323.

[8] Wang G M. Quantum algorithm for linear regression [J]. Physical Review A, 2017, 9(1): 012335.

[9] Wang Y Z, Guan Z J, Guan H Y. Linear nearest neighbor synthesis algorithm of quantum circuits based on pre-evaluation [J]. Chinese Journal of Quantum Electronics, 2021, 38(1): 75-85.

[10] Huang Y M, Lei H, Li X Y. A survey on quantum machine learning [J]. Chinese Journal of Computers, 2018, 41(1): 145-163.

[11] Hotelling H. Relations between two sets of variates [J]. Biometrika, 1936, 28(3/4): 321-377.

[12] Hardoon D R, Szedmak S, Shawe-Taylor J. Canonical correlation analysis: An overview with application to learning methods [J]. Neural Computation, 2004, 1(12): 2639-2664.

[13] Sun Q S, Zeng S G, Wang P A, et al. The theory of canonical correlation analysis and its application to feature fusion [J]. Chinese Journal of Computers, 2005, 28(9): 1524-1533.

[14] Tenenhaus A, Philippe C, Frouin V. Kernel generalized canonical correlation analysis [J]. Computational Statistics & Data Analysis, 2015, 90(4): 114-131.

[15] Wang F S, Zhang D Q. A new locality-preserving canonical correlation analysis algorithm for multi-view dimensionality reduction [J]. Neural Processing Letters, 2013, 37(2): 135-146.

[16] Wang S, Lu J F, Gu X J, et al. Unsupervised discriminant canonical correlation analysis based on spectral clustering [J]. Neurocomputing, 2016, 171: 425-433.

[17] Hu W X, Lin D D, Cao S L, et al. Adaptive sparse multiple canonical correlation analysis with application to imaging (epi) genomics study of schizophrenia [J]. IEEE Transactions on Biomedical Engineering, 2018, 65(2): 390-399.

[18] Zhuang X W, Yang Z S, Cordes D. A technical review of canonical correlation analysis for neuroscience applications [J]. Human Brain Mapping, 2020, 41(13): 3807-3833.

[19] Cong I, Duan L M. Quantum discriminant analysis for dimensionality reduction and classification [J]. New Journal of Physics, 2016, 18(7): 073011.

[20] Lloyd S, Mohseni M, Rebentrost P. Quantum principal component analysis [J]. Nature Physics, 2014, 10(9): 631-633.