Spatial Search via Memoryless Walk with Selfloop
Abstract
The defining feature of memoryless quantum walks is that they operate on the vertex space of a graph, and therefore can be used to produce search algorithms with minimal memory. We present a memoryless walk that can find a unique marked vertex on a two-dimensional grid. Our walk is based on the construction proposed by Falk, which tessellates the grid with squares of size . Our walk uses minimal memory, applications of the walk operator, and outputs the marked vertex with vanishing error probability. To accomplish this, we apply a selfloop to the marked vertex - a technique we adapt from interpolated walks. We prove that with our explicit choice of selfloop weight, this forces the action of the walk asymptotically into a single rotational space. We characterize this space and as a result, show that our memoryless walk produces the marked vertex with a success probability asymptotically approaching one.
Keywords
Cite
@article{arxiv.2204.09076,
title = {Spatial Search via Memoryless Walk with Selfloop},
author = {Peter Høyer and Janet Leahy},
journal= {arXiv preprint arXiv:2204.09076},
year = {2022}
}
Comments
35 pages, 1 figure