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Adaptive Interpolating Quantum Transform: A Quantum-Native Framework for Efficient Transform Learning

Quantum Physics 2025-12-24 v1
Authors: Gekko Budiutama , Shunsuke Daimon , Hirofumi Nishi , Ryui Kaneko , Tomi Ohtsuki , Yu-ichiro Matsushita
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Abstract

Machine learning on quantum computers has attracted attention for its potential to deliver computational speedups in different tasks. However, deep variational quantum circuits require a large number of trainable parameters that grows with both qubit count and circuit depth, often rendering training infeasible. In this study, we introduce the Adaptive Interpolating Quantum Transform (AIQT), a quantum-native framework for flexible and efficient learning. AIQT defines a trainable unitary that interpolates between quantum transforms, such as the Hadamard and quantum Fourier transforms. This approach enables expressive quantum state manipulation while controlling parameter overhead. It also allows AIQT to inherit any quantum advantages present in its constituent transforms. Our results show that AIQT achieves high performance with minimal parameter count, offering a scalable and interpretable alternative to deep variational circuits.

Keywords

quantum machine learning quantum neural networks quantum computing

Cite

@article{arxiv.2508.14418,
  title  = {Adaptive Interpolating Quantum Transform: A Quantum-Native Framework for Efficient Transform Learning},
  author = {Gekko Budiutama and Shunsuke Daimon and Hirofumi Nishi and Ryui Kaneko and Tomi Ohtsuki and Yu-ichiro Matsushita},
  journal= {arXiv preprint arXiv:2508.14418},
  year   = {2025}
}

Comments

7 pages, 4 figures

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