Comparing randomized benchmarking figure with average infidelity of quantum gate-set

Abstract

Randomized benchmarking (RB) is a popular procedure used to gauge the performance of a set of gates useful for quantum information processing (QIP). Recently, Proctor et al. [Phys. Rev. Lett. 119, 130502 (2017)] demonstrated a practically relevant example where the RB measurements give a number r very different from the actual average gate-set infidelity ε, despite past theoretical assurances that the two should be equal. Here, we derive formulas for ε, and for r from the RB protocol, in a manner permitting easy comparison of the two. We show in general that, indeed, r≠ ε, i.e., RB does not measure average infidelity, and, in fact, neither one bounds the other. We give several examples, all plausible in real experiments, to illustrate the differences in ε and r. Many recent papers on experimental implementations of QIP have claimed the ability to perform high-fidelity gates because they demonstrated small r values using RB. Our analysis shows that such a statement from RB alone has to be interpreted with caution.