Rinton Press - Publisher in Science and Technology

Subscribers: to view the full text of a paper, click on the title of the paper. If you have any problem to access the full text, please check with your librarian or contact qic@rintonpress.com To subscribe to QIC, please click Here.

Quantum Information and Computation ISSN: 1533-7146 published since 2001

Vol.18 No.1&2 February 2018

Time and space efficient quantum algorithms for detecting cycles and testing bipartiteness (pp0018-0050)
Chris Cade, Ashley Montanaro, and Aleksandrs Belovs
doi: https://doi.org/10.26421/QIC18.1-2-2
Abstracts: We study space and time-efficient quantum algorithms for two graph problems – deciding whether an n-vertex graph is a forest, and whether it is bipartite. Via a reduction to the s-t connectivity problem, we describe quantum algorithms for deciding both properties in O˜(n 3/2 ) time whilst using O(log n) classical and quantum bits of storage in the adjacency matrix model. We then present quantum algorithms for deciding the two properties in the adjacency array model, which run in time O˜(n √ dm) and also require O(log n) space, where dm is the maximum degree of any vertex in the input graph.
Key words: quantum algorithms, graph, bipartite