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On the Complexity of Decoded Quantum Interferometry

Published 17 Sep 2025 in quant-ph and cs.CC | (2509.14443v1)

Abstract: We study the complexity of Decoded Quantum Interferometry (DQI), a recently proposed quantum algorithm for approximate optimization. We argue that DQI is hard to classically simulate, and that the hardness comes from locating an exponentially large hidden subset. This type of hardness is shared by Shor's algorithm, but the hidden subset here has no apparent group structure. We first prove that DQI can be simulated in a low level of the polynomial hierarchy, ruling out hardness arguments related to quantum supremacy. Instead, we show that DQI implements an existential coding theory bound based on the MacWilliams identity, and that it prepares a state within an obfuscated quantum harmonic oscillator. Both viewpoints require a coherent application of a discrete Hermite transform, which has no natural classical analog.

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