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Quantum Machine Learning

An Exponential Sample-Complexity Advantage for Coherent Quantum Inference

arXiv

Authors: Zhaoyi Li, Elias Theil, Aram W. Harrow, Isaac Chuang

Year

2026

Paper ID

63566

Status

Preprint

Abstract Read

~2 min

Abstract Words

109

Citations

Abstract

Standard quantum inference converts quantum data into classical outputs. We study an alternative inference setting in which the desired output is quantum, preserving coherence. Such settings include quantum purity amplification (QPA), mixed-state approximate purification or cloning, and density matrix exponentiation. We show that such protocols can achieve exponentially lower sample complexity than incoherent, measurement-mediated protocols. For QPA with principal eigenstate targets and d-dimensional inputs, coherent processing achieves error varepsilon using O\(1/varepsilon\) copies, versus the Ω\(d/varepsilon\) copies required by any incoherent protocol. Together, these sharp coherent-incoherent separations seed a theory of coherent quantum inference, with an entanglement-breaking limit identifying the optimal incoherent counterpart of each coherent protocol.

Why This Paper Matters

This paper contributes to the Quantum Machine Learning research area in the Quantum Articles archive.
It adds a 2026 reference point for readers tracking recent quantum research.
Standard quantum inference converts quantum data into classical outputs.

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References & Citation Signals

[1] DOI https://doi.org/arXiv:2605.21457 [2] arXiv https://arxiv.org/abs/2605.21457 [3] Publisher https://arxiv.org/abs/2605.21457

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External citation index: OpenAlex citation signal • updated 2026-06-13 18:30:55

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