English

Efficient evaluation of quantum observables using entangled measurements

Quantum Physics 2020-07-02 v2

Abstract

The advent of cloud quantum computing has led to the rapid development of quantum algorithms. In particular, it is necessary to study variational quantum-classical hybrid algorithms, which are executable on noisy intermediate-scale quantum (NISQ) computers. Evaluations of observables appear frequently in the variational quantum-classical hybrid algorithms for NISQ computers. By speeding up the evaluation of observables, it is possible to realize a faster algorithm and save resources of quantum computers. Grouping of observables with separable measurements has been conventionally used, and the grouping with entangled measurements has also been proposed recently by several teams. In this paper, we show that entangled measurements enhance the efficiency of evaluation of observables, both theoretically and experimentally by taking into account the covariance effect, which may affect the quality of evaluation of observables. We also propose using a part of entangled measurements for grouping to keep the depth of extra gates constant. Our proposed method is expected to be used in conjunction with other related studies. We hope that entangled measurements would become crucial resources, not only for joint measurements but also for quantum information processing.

Keywords

Cite

@article{arxiv.1909.09119,
  title  = {Efficient evaluation of quantum observables using entangled measurements},
  author = {Ikko Hamamura and Takashi Imamichi},
  journal= {arXiv preprint arXiv:1909.09119},
  year   = {2020}
}
R2 v1 2026-06-23T11:20:31.170Z