Unitary Channel Testing Under a Depolarizing Noise Assumption

Abstract

We present fast algorithms x2013 under the depolarizing noise assumption, often made in fault-tolerant quantum computations x2013 to test its strength. Our optimal algorithms answer the following question: is the quantum channel implemented by a given black box identical to a target unitary or -far from it in the diamond distance, assuming that the deviation is a depolarizing channel with unknown parameter? Our algorithm has a query complexity of Θ(1/). The query complexity of the relaxed problem of testing whether the black-box channel is 1-close to a target unitary or 2-far in the diamond distance is Θ(2/(2 - 1)2). In both cases, we provide matching lower bounds that hold even for adaptive, ancilla-assisted protocols with multi-outcome incoherent measurements.