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Exponentially Better Bounds for Quantum Optimization via Dynamical Simulation

Feb 6, 2025
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Abstract: (arXiv)
We provide several quantum algorithms for continuous optimization that do not require any gradient estimation. Instead, we encode the optimization problem into the dynamics of a physical system and coherently simulate the time evolution. This allows us, in certain cases, to obtain exponentially better query upper bounds relative to the best known upper bounds for gradient-based optimization schemes which utilize quantum computers only for the evaluation of gradients. Our first two algorithms can find local optima of a differentiable function f:RNRf: \mathbb{R}^N \rightarrow \mathbb{R} by simulating either classical or quantum dynamics with friction via a time-dependent Hamiltonian. We show that these methods require O(Nκ2/hx2ϵ)O(N\kappa^2/h_x^2\epsilon) queries to a phase oracle to find an ϵ\epsilon-approximate local optimum of a locally quadratic objective function, where κ\kappa is the condition number of the Hessian matrix and hxh_x is the discretization spacing. In contrast, we show that gradient-based methods require O(N(1/ϵ)κlog(3)/4)O(N(1/\epsilon)^{\kappa \log(3)/4}) queries. Our third algorithm can find the global optimum of ff by preparing a classical low-temperature thermal state via simulation of the classical Liouvillian operator associated with the Nosé Hamiltonian. We use results from the quantum thermodynamics literature to bound the thermalization time for the discrete system. Additionally, we analyze barren plateau effects that commonly plague quantum optimization algorithms and observe that our approach is vastly less sensitive to this problem than standard gradient-based optimization. Our results suggests that these dynamical optimization approaches may be far more scalable for future quantum machine learning, optimization and variational experiments than was widely believed.
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