A Quantum Time-Space Tradeoff for Directed $st$-Connectivity
Quantum Physics
2025-10-10 v1
Abstract
Directed -connectivity (DSTCON) is the problem of deciding if there exists a directed path between a pair of distinguished vertices and in an input directed graph. This problem appears in many algorithmic applications, and is also a fundamental problem in complexity theory, due to its -completeness. We show that for any , there is a quantum algorithm for DSTCON using space and time , which is an (up to quadratic) improvement over the best classical algorithm for any . Of the total space used by our algorithm, only is quantum space - the rest is classical. This effectively means that we can trade off classical space for quantum time.
Cite
@article{arxiv.2510.08403,
title = {A Quantum Time-Space Tradeoff for Directed $st$-Connectivity},
author = {Stacey Jeffery and Galina Pass},
journal= {arXiv preprint arXiv:2510.08403},
year = {2025}
}