In the noisy intermediate-scale quantum era, mid-circuit measurement and reset operations facilitate novel circuit optimization strategies by reducing a circuit's qubit count in a method called resizing. This paper introduces two such algorithms. The first one leverages gate-dependency rules to reduce qubit count by 61.6% or 45.3% when optimizing depth as well. Based on numerical instantiation and synthesis, the second algorithm finds resizing opportunities in previously unresizable circuits via dependency rules and other state-of-the-art tools. This resizing algorithm reduces qubit count by 20.7% on average for these previously impossible-to-resize circuits.
@article{arxiv.2311.13107,
title = {Powerful Quantum Circuit Resizing with Resource Efficient Synthesis},
author = {Siyuan Niu and Akel Hashim and Costin Iancu and Wibe Albert de Jong and Ed Younis},
journal= {arXiv preprint arXiv:2311.13107},
year = {2023}
}