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Quasi-exact quantum computation

Dong-Sheng Wang, Guanyu Zhu, Cihan Okay, Raymond Laflamme

2020Physical Review Research17 citationsDOIOpen Access PDF

Abstract

We study quasi-exact quantum error-correcting codes and quantum computation with them. A quasi-exact code is an approximate code such that it contains a finite number of scaling parameters, the tuning of which can flow it to corresponding exact codes, serving as its fixed points. The computation with a quasi-exact code cannot realize any logical gate to arbitrary accuracy. To overcome this, the notion of quasi-exact universality is proposed, which makes quasi-exact quantum computation a feasible model especially for executing moderatesize algorithms. We find that the incompatibility between universality and transversality of the set of logical gates does not persist in the quasi-exact scenario. A class of covariant quasi-exact codes is defined which proves to support a transversal and quasi-exact universal set of logical gates for SU(d ). This work opens the possibility of quantum computation with quasi-exact universality, transversality, and fault tolerance.

Topics & Concepts

Universal setQuantum computerMathematicsQuantum algorithmComputationTheoretical computer scienceUniversality (dynamical systems)QuantumQuantum gateComputer scienceQuantum operationDiscrete mathematicsQuantum circuitCovariant transformationQuantum error correctionAlgorithmTransversalityQuantum networkTopology (electrical circuits)Toffoli gateQuantum informationQuantum Turing machineQuantum logicQuantum capacityTruth tableQuantum Computing Algorithms and ArchitectureQuantum Information and CryptographyComplexity and Algorithms in Graphs