Quantum implementation of Powell’s conjugate direction method

Kehan Chen; Fei Yan; Kaoru Hirota; Jianping Zhao

doi:10.20965/jaciii.2019.p0726

Quantum implementation of Powell’s conjugate direction method

Kehan Chen, Fei Yan, Kaoru Hirota, Jianping Zhao

自动化学院

Changchun University of Science and Technology

科研成果: 期刊稿件 › 文章 › 同行评审

4 引用（Scopus）

摘要

A quantum circuit implementation of Powell’s conjugate direction method (“Powell’s method”) is proposed based on quantum basic transformations in this study. Powell’s method intends to find the minimum of a function, including a sequence of parameters, by changing one parameter at a time. The quantum circuits that implement Powell’s method are logically built by combining quantum computing units and basic quantum gates. The main contributions of this study are the quantum realization of a quadratic equation, the proposal of a quantum one-dimensional search algorithm, the quantum implementation of updating the searching direction array (SDA), and the quantum judgment of stopping the Powell’s iteration. A simulation demonstrates the execution of Powell’s method, and future applications, such as data fitting and image registration, are discussed.

源语言	英语
页（从-至）	726-734
页数	9
期刊	Journal of Advanced Computational Intelligence and Intelligent Informatics
卷	23
期	4
DOI	https://doi.org/10.20965/jaciii.2019.p0726
出版状态	已出版 - 2019

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10.20965/jaciii.2019.p0726

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引用此

Chen, K., Yan, F., Hirota, K., & Zhao, J. (2019). Quantum implementation of Powell’s conjugate direction method. Journal of Advanced Computational Intelligence and Intelligent Informatics, 23(4), 726-734. https://doi.org/10.20965/jaciii.2019.p0726

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title = "Quantum implementation of Powell{\textquoteright}s conjugate direction method",

abstract = "A quantum circuit implementation of Powell{\textquoteright}s conjugate direction method (“Powell{\textquoteright}s method”) is proposed based on quantum basic transformations in this study. Powell{\textquoteright}s method intends to find the minimum of a function, including a sequence of parameters, by changing one parameter at a time. The quantum circuits that implement Powell{\textquoteright}s method are logically built by combining quantum computing units and basic quantum gates. The main contributions of this study are the quantum realization of a quadratic equation, the proposal of a quantum one-dimensional search algorithm, the quantum implementation of updating the searching direction array (SDA), and the quantum judgment of stopping the Powell{\textquoteright}s iteration. A simulation demonstrates the execution of Powell{\textquoteright}s method, and future applications, such as data fitting and image registration, are discussed.",

keywords = "Powell{\textquoteright}s method, Quantum circuit, Quantum information, Quantum module",

author = "Kehan Chen and Fei Yan and Kaoru Hirota and Jianping Zhao",

year = "2019",

doi = "10.20965/jaciii.2019.p0726",

language = "English",

volume = "23",

pages = "726--734",

journal = "Journal of Advanced Computational Intelligence and Intelligent Informatics",

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AU - Hirota, Kaoru

AU - Zhao, Jianping

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N2 - A quantum circuit implementation of Powell’s conjugate direction method (“Powell’s method”) is proposed based on quantum basic transformations in this study. Powell’s method intends to find the minimum of a function, including a sequence of parameters, by changing one parameter at a time. The quantum circuits that implement Powell’s method are logically built by combining quantum computing units and basic quantum gates. The main contributions of this study are the quantum realization of a quadratic equation, the proposal of a quantum one-dimensional search algorithm, the quantum implementation of updating the searching direction array (SDA), and the quantum judgment of stopping the Powell’s iteration. A simulation demonstrates the execution of Powell’s method, and future applications, such as data fitting and image registration, are discussed.

AB - A quantum circuit implementation of Powell’s conjugate direction method (“Powell’s method”) is proposed based on quantum basic transformations in this study. Powell’s method intends to find the minimum of a function, including a sequence of parameters, by changing one parameter at a time. The quantum circuits that implement Powell’s method are logically built by combining quantum computing units and basic quantum gates. The main contributions of this study are the quantum realization of a quadratic equation, the proposal of a quantum one-dimensional search algorithm, the quantum implementation of updating the searching direction array (SDA), and the quantum judgment of stopping the Powell’s iteration. A simulation demonstrates the execution of Powell’s method, and future applications, such as data fitting and image registration, are discussed.

KW - Powell’s method

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Quantum implementation of Powell’s conjugate direction method

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