Variational denoising for variational quantum eigensolver

被引：0

作者：

Tran, Quoc Hoan ^{[1
]}

Kikuchi, Shinji ^{[1
]}

Oshima, Hirotaka ^{[1
]}

机构：

[1] Fujitsu Ltd, Quantum Lab, Fujitsu Res, Kawasaki, Kanagawa 2118588, Japan

来源：

PHYSICAL REVIEW RESEARCH | 2024年 / 6卷 / 02期

关键词：

SUPREMACY;

D O I：

10.1103/PhysRevResearch.6.023181

中图分类号：

O4 [物理学];

学科分类号：

0702 ;

摘要：

The variational quantum eigensolver (VQE) is a hybrid algorithm that has the potential to provide a quantum advantage in practical chemistry problems that are currently intractable on classical computers. VQE trains parameterized quantum circuits using a classical optimizer to approximate the eigenvalues and eigenstates of a given Hamiltonian. However, VQE faces challenges in task-specific design and machine-specific architecture, particularly when running on noisy quantum devices. This can have a negative impact on its trainability, accuracy, and efficiency, resulting in noisy quantum data. We propose variational denoising, an unsupervised learning method that employs a parameterized quantum neural network to improve the solution of VQE by learning from noisy VQE outputs. Our approach can significantly decrease energy estimation errors and increase fidelities with ground states compared to noisy input data for the H2, LiH, and BeH2 molecular Hamiltonians and the transverse field Ising model. Surprisingly, it only requires noisy data for training. Variational denoising can be integrated into quantum hardware, increasing its versatility as an end-to-end quantum processing for quantum data.

引用

页数：16

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