Analysis on Role of Quantum Computing in Machine Learning

2022 Fourth International Conference on Cognitive Computing and Information Processing (CCIP) Pub Date : 2022-12-23 DOI:10.1109/CCIP57447.2022.10058679

Binju Saju, Madhwaraj Kango Gopal, B. Nithya, V. Asha, Vikash Kumar

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Abstract

Quantum machine learning is a process by which quantum computers are used to learn from data. It is still in its begining stages of development, but has the potential to be much more efficient than classical machine learning algorithms. The main advantages of machine learning is that it can exploit the massive parallelism of quantum computers. This means that quantum machine learning algorithms can potentially learn from data much faster than classical algorithms. Another advantage is that quantum machine learning algorithms can deal with data that is too large or too complex for classical algorithms. For example, a quantum algorithm could be used to learn from a dataset that is too large to fit into a classical computer's memory. There are still many challenges to overcome before quantum machine learning can be used in practice, but the potential benefits are huge. If successful, Quantum machine learning could revolutionize the field of machine learning and have a profound impact on many other areas of science and technology.

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量子计算在机器学习中的作用分析

量子机器学习是使用量子计算机从数据中学习的过程。它仍处于发展的初级阶段，但有潜力比经典的机器学习算法更有效。机器学习的主要优势在于它可以利用量子计算机的大规模并行性。这意味着量子机器学习算法可以比经典算法更快地从数据中学习。另一个优势是，量子机器学习算法可以处理对于经典算法来说太大或太复杂的数据。例如，量子算法可以用来从一个数据集中学习，这个数据集太大了，传统计算机的内存无法容纳。在量子机器学习应用于实践之前，仍有许多挑战需要克服，但潜在的好处是巨大的。如果成功，量子机器学习将彻底改变机器学习领域，并对许多其他科学技术领域产生深远影响。

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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2022 Fourth International Conference on Cognitive Computing and Information Processing (CCIP)

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