Quantum Space-Time Tradeoffs for TSP via Extremal Set Systems

Abstract

Recent work of Ameli, Nederlof and Wang and of Dallant and Kozma introduced a framework for improving classical space--time tradeoffs for the Traveling Salesman Problem (TSP) and related permutation problems via extremal set systems with many maximal chains. In this note we observe that, for so called permutation problems whose outer aggregation is a minimum (such as TSP), the same framework admits a simple quantum analogue: instead of iterating over the covering family of set systems, we apply quantum minimum finding over the family. More precisely, let PS denote the optimal inverse normalized chain density among set systems of normalized size at most S. Then TSP admits a bounded-error quantum algorithm using O(Sn) QRAM space and \[ O\!((SPS)n) \] time. The same argument applies to other minimization problems over permutations with a similar structure to TSP. Combining this observation with improved extremal set-system constructions of Andoni, Dallant, Kozma and Yu gives an explicit quantum space--time tradeoff curve, which beats the known quantum tradeoff by Caroppo et al. for all 1<S ≤ 1.657.

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