Grover和Shor算法在量子机器学习中的实现

2023 International Conference on Intelligent and Innovative Technologies in Computing, Electrical and Electronics (IITCEE) Pub Date : 2023-01-27 DOI:10.1109/IITCEE57236.2023.10091029

D. K. Kumar, Elaprolu Hari Venkata Krishna, Rangu Ushasri, Vasiraju Jahnavi, K. Prakash, Sagar Imambi

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引用次数: 0

摘要

量子机器学习算法负责识别基本信息并预测原始数据样本的结果。与其他依赖预定模型进行预测的数学方法不同，这些算法利用现有数据不断提高预测结果的能力。量子计算算法有能力通过利用并行计算的能力来解决复杂的问题，这使得它们可以同时执行许多计算。量子计算算法在机器学习中的有效性使量子技术达到了一个先进的改进水平。本研究考察了基于应用的算法，即Grover算法和Shor算法，这是量子机器学习中最重要和最广泛使用的算法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Implementation Of Grover's and Shor's Algorithms In Quantum Machine Learning

Algorithms for quantum machine learning are responsible for identifying essential information and predicting outcomes of the raw data samples. Unlike other mathematical methods that rely on a predetermined model to make predictions, these algorithms use existing data to continuously improve their ability to predict outcomes. Quantum computing algorithms have the capability to solve complex problems by leveraging the power of parallel computing, which allows them to perform many calculations simultaneously. The effectiveness of quantum computing algorithms in machine learning allows quantum technology to reach an advanced level of improvement. This study examines application-based algorithms, namely Grover's algorithm and Shor's algorithm, which are essential and most widely used quantum machine learning algorithms.

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2023 International Conference on Intelligent and Innovative Technologies in Computing, Electrical and Electronics (IITCEE)

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