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Main Authors: Hashimoto, Himuro, Nakabayashi, Akio, Nagano, Lento, Iiyama, Yutaro, Sawada, Ryu, Tanaka, Junichi, Terashi, Koji
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2602.03291
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author Hashimoto, Himuro
Nakabayashi, Akio
Nagano, Lento
Iiyama, Yutaro
Sawada, Ryu
Tanaka, Junichi
Terashi, Koji
author_facet Hashimoto, Himuro
Nakabayashi, Akio
Nagano, Lento
Iiyama, Yutaro
Sawada, Ryu
Tanaka, Junichi
Terashi, Koji
contents The variational quantum algorithm (VQA) with a parametrized quantum circuit is widely applicable to near-term quantum computing, but its fundamental issues that limit optimization performance have been reported in the literature. For example, VQA optimization often suffers from vanishing gradients called barren plateau (BP) and the presence of local minima in the landscape of the cost function. Numerical studies have shown that the trap in local minima is significantly reduced when the circuit is overparametrized (OP), where the number of parameters exceeds a certain threshold. Theoretical understanding of the BP and OP phenomena has advanced over the past years, however, comprehensive studies of both effects in the same setting are not fully covered in the literature. In this paper, we perform a comprehensive numerical study in VQA, quantitatively evaluating the impacts of BP and OP and their interplay on the optimization of a variational quantum circuit, using concrete implementations of one-dimensional transverse and longitudinal field quantum Ising model. The numerical results are compared with the theoretical diagnostics of BP and OP phenomena. The framework presented in this paper will provide a guiding principle for designing VQA algorithms and ansatzes with theoretical support for behaviors of parameter optimization in practical settings.
format Preprint
id arxiv_https___arxiv_org_abs_2602_03291
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Comprehensive Numerical Studies of Barren Plateau and Overparametrization in Variational Quantum Algorithm
Hashimoto, Himuro
Nakabayashi, Akio
Nagano, Lento
Iiyama, Yutaro
Sawada, Ryu
Tanaka, Junichi
Terashi, Koji
Quantum Physics
Strongly Correlated Electrons
The variational quantum algorithm (VQA) with a parametrized quantum circuit is widely applicable to near-term quantum computing, but its fundamental issues that limit optimization performance have been reported in the literature. For example, VQA optimization often suffers from vanishing gradients called barren plateau (BP) and the presence of local minima in the landscape of the cost function. Numerical studies have shown that the trap in local minima is significantly reduced when the circuit is overparametrized (OP), where the number of parameters exceeds a certain threshold. Theoretical understanding of the BP and OP phenomena has advanced over the past years, however, comprehensive studies of both effects in the same setting are not fully covered in the literature. In this paper, we perform a comprehensive numerical study in VQA, quantitatively evaluating the impacts of BP and OP and their interplay on the optimization of a variational quantum circuit, using concrete implementations of one-dimensional transverse and longitudinal field quantum Ising model. The numerical results are compared with the theoretical diagnostics of BP and OP phenomena. The framework presented in this paper will provide a guiding principle for designing VQA algorithms and ansatzes with theoretical support for behaviors of parameter optimization in practical settings.
title Comprehensive Numerical Studies of Barren Plateau and Overparametrization in Variational Quantum Algorithm
topic Quantum Physics
Strongly Correlated Electrons
url https://arxiv.org/abs/2602.03291