Practical Topological Cluster State Quantum Computing Requires Loss Below 1%
Quantum Physics
2017-02-02 v1
Abstract
The surface code cannot be used when qubits vanish during computation; instead, a variant known as the topological cluster state is necessary. It has a gate error threshold of $0.75% and only requires nearest-neighbor interactions on a 2D array of qubits. Previous work on loss tolerance using this code only considered qubits vanishing during measurement. We begin by also including qubit loss during two-qubit gates and initialization, and then additionally consider interaction errors that occur when neighbors attempt to entangle with a qubit that isn't there. In doing so, we show that even our best case scenario requires a loss rate below 1% in order to avoid considerable space-time overhead.
Cite
@article{arxiv.1409.4880,
title = {Practical Topological Cluster State Quantum Computing Requires Loss Below 1%},
author = {Adam C. Whiteside and Austin G. Fowler},
journal= {arXiv preprint arXiv:1409.4880},
year = {2017}
}
Comments
12 pages, 19 figures