Universal fault-tolerant quantum computation with Bacon-Shor codes
Abstract
We present a fault-tolerant universal gate set consisting of Hadamard and controlled-controlled-Z (CCZ) on Bacon-Shor subsystem codes. Transversal non-Clifford gates on these codes are intriguing in that higher levels of the Clifford hierarchy become accessible as the code becomes more asymmetric. For instance, in an appropriate gauge, Bacon-Shor codes on an lattice have transversal -qubit-controlled . Through a variety of tricks, including intermediate error-correction and non-Pauli recovery, we reduce the overhead required for fault-tolerant CCZ. We calculate pseudothresholds for our universal gate set on the smallest Bacon-Shor code and also compare our gates with magic-states within the framework of a proposed ion trap architecture.
Cite
@article{arxiv.1705.01686,
title = {Universal fault-tolerant quantum computation with Bacon-Shor codes},
author = {Theodore J. Yoder},
journal= {arXiv preprint arXiv:1705.01686},
year = {2017}
}
Comments
5 pages + 10 page appendix