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Quantum Random Features: A Spectral Framework for Quantum Machine Learning

Quantum Physics 2026-01-30 v1
Authors: Akitada Sakurai , Aoi Hayashi , William John Munro , Kae Nemoto
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Abstract

Quantum machine learning (QML) models often require deep, parameterized circuits to capture complex frequency components, limiting their scalability and near-term implementation. We introduce \textit{Quantum Random Features} (QRF) and \textit{Quantum Dynamical Random Features} (QDRF), lightweight quantum reservoir models inspired by classical random Fourier features (RFF) that generate high-dimensional spectral representations without variational optimization. Using ZZ-rotation encoding combined with random permutations or Hamiltonian dynamics, these models achieve NfN_f-dimensional feature maps at preprocessing cost O(log(Nf))O(\log(N_f)). Spectral analysis shows that QRF and QDRF reproduce the behavior of RFF, while simulations on Fashion-MNIST reach up to 89.3\% accuracy-matching or surpassing classical baselines with scalable qubit requirements. By linking spectral theory with experimentally feasible quantum dynamics, this work provides a compact and hardware-compatible route to scalable quantum learning.

Keywords

quantum machine learning quantum neural networks quantum algorithms

Cite

@article{arxiv.2601.21746,
  title  = {Quantum Random Features: A Spectral Framework for Quantum Machine Learning},
  author = {Akitada Sakurai and Aoi Hayashi and William John Munro and Kae Nemoto},
  journal= {arXiv preprint arXiv:2601.21746},
  year   = {2026}
}

Comments

1o pages, 4 figures

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