Gate-efficient discrete simulations of continuous-time quantum query algorithms
Quantum Physics
2014-01-29 v2
Abstract
We show how to efficiently simulate continuous-time quantum query algorithms that run in time T in a manner that preserves the query complexity (within a polylogarithmic factor) while also incurring a small overhead cost in the total number of gates between queries. By small overhead, we mean T within a factor that is polylogarithmic in terms of T and a cost measure that reflects the cost of computing the driving Hamiltonian. This permits any continuous-time quantum algorithm based on an efficiently computable driving Hamiltonian to be converted into a gate-efficient algorithm with similar running time.
Keywords
Cite
@article{arxiv.1211.4637,
title = {Gate-efficient discrete simulations of continuous-time quantum query algorithms},
author = {Dominic W. Berry and Richard Cleve and Sevag Gharibian},
journal= {arXiv preprint arXiv:1211.4637},
year = {2014}
}
Comments
28 pages, 2 figures