Quantum Computing: Implementing Hitting Time for Coined Quantum Walks on Regular Graphs
Abstract
In recent years, quantum walks have been widely researched and have shown exciting properties. One such is a quadratic speed-up in hitting time compared to its classical counterpart. In this paper, we design a quantum circuit for the MNRS algorithm, which finds a marked node in a graph with a quantum walk, and use it to find a hitting time for the marked nodes in the walk. We do this by implementing the circuit on IBM quantum simulators and show that the execution on a noise-free simulator results in hitting times that agree with the theoretical expectations. We also run the algorithm on a mock backend that simulates the noise of the IBM Melbourne computer. As expected, the noise has an extensive impact on the output, resulting in outcomes far from the noise-free simulation.
Cite
@article{arxiv.2108.02723,
title = {Quantum Computing: Implementing Hitting Time for Coined Quantum Walks on Regular Graphs},
author = {Ellinor Wanzambi and Stina Andersson},
journal= {arXiv preprint arXiv:2108.02723},
year = {2021}
}
Comments
Master's thesis