English

Advantage for Discrete Variational Quantum Algorithms in Circuit Recompilation

Quantum Physics 2025-10-02 v1 Neural and Evolutionary Computing

Abstract

The relative power of quantum algorithms, using an adaptive access to quantum devices, versus classical post-processing methods that rely only on an initial quantum data set, remains the subject of active debate. Here, we present evidence for an exponential separation between adaptive and non-adaptive strategies in a quantum circuit recompilation task. Our construction features compilation problems with loss landscapes for discrete optimization that are unimodal yet non-separable, a structure known in classical optimization to confer exponential advantages to adaptive search. Numerical experiments show that optimization can efficiently uncover hidden circuit structure operating in the regime of volume-law entanglement and high-magic, while non-adaptive approaches are seemingly limited to exhaustive search requiring exponential resources. These results indicate that adaptive access to quantum hardware provides a fundamental advantage.

Keywords

Cite

@article{arxiv.2510.01154,
  title  = {Advantage for Discrete Variational Quantum Algorithms in Circuit Recompilation},
  author = {Oleksandr Kyriienko and Chukwudubem Umeano and Zoë Holmes},
  journal= {arXiv preprint arXiv:2510.01154},
  year   = {2025}
}

Comments

9+5 pages, 11 figures

R2 v1 2026-07-01T06:11:14.777Z