Quantum Neural Architecture Search with Quantum Circuits Metric and Bayesian Optimization

Trong Duong, Sang T. Truong, Minh Pham, Bao Bach, June-Koo Rhee

ICMLW 2022

/icmlw/2022/duong2022icmlw-quantum/

Abstract

Quantum neural networks are promising for a wide range of applications in the Noisy Intermediate-Scale Quantum era. As such, there is an increasing demand for automatic quantum neural architecture search. We tackle this challenge by designing a quantum circuits metric for Bayesian optimization with Gaussian process. To this goal, we develop quantum gates distance that characterizes the gates' action over every quantum state and provide a theoretical perspective on its geometric properties. Our approach significantly outperforms the benchmark on three empirical quantum machine learning problems including training a quantum generative adversarial network, solving combinatorial optimization in the MaxCut problem, and simulating quantum Fourier transform. Our method can be extended to characterize behaviors of various quantum machine learning models.

PDF ICMLW OpenReview Semantic Scholar

Cite

Text

Duong et al. "Quantum Neural Architecture Search with Quantum Circuits Metric and Bayesian Optimization." ICML 2022 Workshops: AI4Science, 2022.

Markdown

[Duong et al. "Quantum Neural Architecture Search with Quantum Circuits Metric and Bayesian Optimization." ICML 2022 Workshops: AI4Science, 2022.](https://mlanthology.org/icmlw/2022/duong2022icmlw-quantum/)

BibTeX

@inproceedings{duong2022icmlw-quantum,
  title     = {{Quantum Neural Architecture Search with Quantum Circuits Metric and Bayesian Optimization}},
  author    = {Duong, Trong and Truong, Sang T. and Pham, Minh and Bach, Bao and Rhee, June-Koo},
  booktitle = {ICML 2022 Workshops: AI4Science},
  year      = {2022},
  url       = {https://mlanthology.org/icmlw/2022/duong2022icmlw-quantum/}
}