Expansion Testing using Quantum Fast-Forwarding and Seed Sets
Quantum Physics
2020-09-23 v3 Data Structures and Algorithms
Abstract
Expansion testing aims to decide whether an -node graph has expansion at least , or is far from any such graph. We propose a quantum expansion tester with complexity . This accelerates the classical tester by Goldreich and Ron [Algorithmica '02], and combines the and quantum speedups by Ambainis, Childs and Liu [RANDOM '11] and Apers and Sarlette [QIC '19], respectively. The latter approach builds on a quantum fast-forwarding scheme, which we improve upon by initially growing a seed set in the graph. To grow this seed set we use a so-called evolving set process from the graph clustering literature, which allows to grow an appropriately local seed set.
Cite
@article{arxiv.1907.02369,
title = {Expansion Testing using Quantum Fast-Forwarding and Seed Sets},
author = {Simon Apers},
journal= {arXiv preprint arXiv:1907.02369},
year = {2020}
}
Comments
v3: final version to appear in Quantum