An Early Investigation of the HHL Quantum Linear Solver for Scientific Applications

In this paper, we explore using the Harrow–Hassidim–Lloyd (HHL) algorithm to address scientific and engineering problems through quantum computing, utilizing the NWQSim simulation package on a high-performance computing platform. Focusing on domains such as power-grid management and climate projecti...

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Published in	Algorithms Vol. 18; no. 8; p. 491
Main Authors	Zheng, Muqing, Liu, Chenxu, Stein, Samuel, Li, Xiangyu, Mülmenstädt, Johannes, Chen, Yousu, Li, Ang
Format	Journal Article
Language	English
Published	Basel MDPI AG 01.08.2025
Subjects	Accuracy Algorithms Decomposition Eigenvalues Error correction Experiments Finite difference method Fourier transforms hybrid software for QC-HPC Investigations Investment analysis Linear algebra Newton-Raphson method Numerical methods Optimization Quantum computing quantum simulation Qubits (quantum computing) New York Germany
Online Access	Get full text
ISSN	1999-4893 1999-4893
DOI	10.3390/a18080491

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Abstract	In this paper, we explore using the Harrow–Hassidim–Lloyd (HHL) algorithm to address scientific and engineering problems through quantum computing, utilizing the NWQSim simulation package on a high-performance computing platform. Focusing on domains such as power-grid management and climate projection, we demonstrate the correlations of the accuracy of quantum phase estimation, along with various properties of coefficient matrices, on the final solution and quantum resource cost in iterative and non-iterative numerical methods such as the Newton–Raphson method and finite difference method, as well as their impacts on quantum error correction costs using the Microsoft Azure Quantum resource estimator. We summarize the exponential resource cost from quantum phase estimation before and after quantum error correction and illustrate a potential way to reduce the demands on physical qubits. This work lays down a preliminary step for future investigations, urging a closer examination of quantum algorithms’ scalability and efficiency in domain applications.
AbstractList	In this paper, we explore using the Harrow–Hassidim–Lloyd (HHL) algorithm to address scientific and engineering problems through quantum computing, utilizing the NWQSim simulation package on a high-performance computing platform. Focusing on domains such as power-grid management and climate projection, we demonstrate the correlations of the accuracy of quantum phase estimation, along with various properties of coefficient matrices, on the final solution and quantum resource cost in iterative and non-iterative numerical methods such as the Newton–Raphson method and finite difference method, as well as their impacts on quantum error correction costs using the Microsoft Azure Quantum resource estimator. We summarize the exponential resource cost from quantum phase estimation before and after quantum error correction and illustrate a potential way to reduce the demands on physical qubits. This work lays down a preliminary step for future investigations, urging a closer examination of quantum algorithms’ scalability and efficiency in domain applications.
Audience	Academic
Author	Liu, Chenxu Chen, Yousu Stein, Samuel Mülmenstädt, Johannes Li, Ang Li, Xiangyu Zheng, Muqing
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SubjectTerms	Accuracy Algorithms Decomposition Eigenvalues Error correction Experiments Finite difference method Fourier transforms hybrid software for QC-HPC Investigations Investment analysis Linear algebra Newton-Raphson method Numerical methods Optimization Quantum computing quantum simulation Qubits (quantum computing)
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Title	An Early Investigation of the HHL Quantum Linear Solver for Scientific Applications
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