Gibbs Sampling of Continuous Potentials on a Quantum Computer

October 14, 2022 Β· Declared Dead Β· πŸ› International Conference on Machine Learning

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Authors Arsalan Motamedi, Pooya Ronagh arXiv ID 2210.08104 Category quant-ph: Quantum Computing Cross-listed cs.DS, math.OC Citations 1 Venue International Conference on Machine Learning Last Checked 4 months ago
Abstract
Gibbs sampling from continuous real-valued functions is a challenging problem of interest in machine learning. Here we leverage quantum Fourier transforms to build a quantum algorithm for this task when the function is periodic. We use the quantum algorithms for solving linear ordinary differential equations to solve the Fokker--Planck equation and prepare a quantum state encoding the Gibbs distribution. We show that the efficiency of interpolation and differentiation of these functions on a quantum computer depends on the rate of decay of the Fourier coefficients of the Fourier transform of the function. We view this property as a concentration of measure in the Fourier domain, and also provide functional analytic conditions for it. Our algorithm makes zeroeth order queries to a quantum oracle of the function. Despite suffering from an exponentially long mixing time, this algorithm allows for exponentially improved precision in sampling, and polynomial quantum speedups in mean estimation in the general case, and particularly under geometric conditions we identify for the critical points of the energy function.
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