Constructing Compact ADAPT Unitary Coupled-Cluster Ansatz with Parameter-Based Criterion
Abstract
The adaptive derivative-assembled pseudo-trotter variational quantum eigensolver (ADAPT-VQE) is a promising hybrid quantum-classical algorithm for molecular ground state energy calculation, yet its practical scalability is hampered by redundant excitation operators and excessive measurement costs. To address these challenges, we propose Param-ADAPT-VQE, a novel improved algorithm that selects excitation operators based on a parameter-based criterion instead of the traditional gradient-based metric. This strategy effectively eludes redundant operators. We further develop a sub-Hamiltonian technique and integrate a hot-start VQE optimization strategy, achieving a significant reduction in measurement costs. Numerical experiments on typical molecular systems demonstrate that Param-ADAPT-VQE outperforms the original ADAPT-VQE in computational accuracy, ansatz size, and measurement costs. Furthermore, our scheme retains the fundamental framework of ADAPT-VQE and is thus fully compatible with its various modified versions, enabling further performance improvements in specific aspects. This work presents an efficient and scalable enhancement to ADAPT-VQE, mitigating the core obstacles that impede its practical implementation in the field of molecular quantum chemistry.
Cite
@article{arxiv.2602.04253,
title = {Constructing Compact ADAPT Unitary Coupled-Cluster Ansatz with Parameter-Based Criterion},
author = {Runhong He and Xin Hong and Qiaozhen Chai and Ji Guan and Junyuan Zhou and Arapat Ablimit and Guolong Cui and Shenggang Ying},
journal= {arXiv preprint arXiv:2602.04253},
year = {2026}
}
Comments
12 pages, 8 figures