Litcius/Paper detail

Overhead for simulating a non-local channel with local channels by quasiprobability sampling

Kosuke Mitarai, Keisuke Fujii

2021Quantum51 citationsDOIOpen Access PDF

Abstract

As the hardware technology for quantum computing advances, its possible applications are actively searched and developed. However, such applications still suffer from the noise on quantum devices, in particular when using two-qubit gates whose fidelity is relatively low. One way to overcome this difficulty is to substitute such non-local operations by local ones. Such substitution can be performed by decomposing a non-local channel into a linear combination of local channels and simulating the original channel with a quasiprobability-based method. In this work, we first define a quantity that we call channel robustness of non-locality, which quantifies the cost for the decomposition. While this quantity is challenging to calculate for a general non-local channel, we give an upper bound for a general two-qubit unitary channel by providing an explicit decomposition. The decomposition is obtained by generalizing our previous work whose application has been restricted to a certain form of two-qubit unitary. This work develops a framework for a resource reduction suitable for first-generation quantum devices.

Topics & Concepts

Unitary stateQubitComputer scienceChannel (broadcasting)Robustness (evolution)LocalityQuantumQuantum channelQuantum computerOverhead (engineering)AlgorithmTopology (electrical circuits)MathematicsQuantum informationQuantum mechanicsTelecommunicationsPhysicsLinguisticsBiochemistryChemistryPolitical scienceLawGeneOperating systemPhilosophyCombinatoricsQuantum Computing Algorithms and ArchitectureLow-power high-performance VLSI designQuantum Information and Cryptography