Efficient Topological Compilation for Weakly-Integral Anyon Model
Quantum Physics
2016-06-13 v3
Abstract
A class of anyonic models for universal quantum computation based on weakly-integral anyons has been recently proposed. While universal set of gates cannot be obtained in this context by anyon braiding alone, designing a certain type of sector charge measurement provides universality. In this paper we develop a compilation algorithm to approximate arbitrary -qutrit unitaries with asymptotically efficient circuits over the metaplectic anyon model. One flavor of our algorithm produces efficient circuits with upper complexity bound asymptotically in and entanglement cost that is exponential in . Another flavor of the algorithm produces efficient circuits with upper complexity bound in and no additional entanglement cost.
Cite
@article{arxiv.1504.03383,
title = {Efficient Topological Compilation for Weakly-Integral Anyon Model},
author = {Alex Bocharov and Shawn X. Cui and Vadym Kliuchnikov and Zhenghan Wang},
journal= {arXiv preprint arXiv:1504.03383},
year = {2016}
}
Comments
15 pages, 5 figures