Implementation of quantum random walk on a real quantum computer
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Author list: Puengtambol W., Prechaprapranwong P., Taetragool U.
Publisher: IOP Publishing Ltd
Publication year: 2021
Volume number: 1719
Issue number: 1
ISSN: 17426588
Languages: English-Great Britain (EN-GB)
Abstract
A random walk is one of the widely adopted random processes for simulation and approximation in multiple areas of science and engineering. Quantum random walk is an analog version of the classical random walk. It was first introduced in 1993 by Y. Aharonov et al. They presented that, with the nature of quantum characteristic, the average length of the walking path on a line is possible to larger than a classical random walk can produce. Therefore, the quantum random walk can be used as a tool to construct many other quantum algorithms. Moreover, it can solve graph problems that many real-world problems can be formulated. However, quantum algorithms are only useful in practice if we can implement them efficiently on a quantum computer. In this study, we are then interested in designing and implementing a quantum circuit that can be run on a real quantum computing device. We firstly focus on the most straightforward, which is a one-dimension, quantum random walk algorithm. Then, the quantum circuits are developed and implemented on a real quantum computer and a quantum computing simulator using software development kits provided by IBM. Lastly, the performance and results of the quantum circuits tested on both computing platforms are presented. © Content from this work may be used under the terms of the Creative Commons Attribution 3.0 licence.
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