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Quantum-Inspired Classical Algorithms for Singular Value Transformation

Dhawal Jethwani, F. Gall, S. Singh·October 13, 2019·DOI: 10.4230/LIPIcs.MFCS.2020.53
Computer ScienceMathematicsPhysics

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Abstract

A recent breakthrough by Tang (STOC 2019) showed how to "dequantize" the quantum algorithm for recommendation systems by Kerenidis and Prakash (ITCS 2017). The resulting algorithm, classical but "quantum-inspired", efficiently computes a low-rank approximation of the users' preference matrix. Subsequent works have shown how to construct efficient quantum-inspired algorithms for approximating the pseudo-inverse of a low-rank matrix as well, which can be used to (approximately) solve low-rank linear systems of equations. In the present paper, we pursue this line of research and develop quantum-inspired algorithms for a large class of matrix transformations that are defined via the singular value decomposition of the matrix. In particular, we obtain classical algorithms with complexity polynomially related (in most parameters) to the complexity of the best quantum algorithms for singular value transformation recently developed by Chakraborty, Gilyen and Jeffery (ICALP 2019) and Gilyen, Su, Low and Wiebe (STOC19).

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