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A fault-tolerant non-Clifford gate for the surface code in two dimensions

Benjamin J. Brown

2020Science Advances73 citationsDOIOpen Access PDF

Abstract

Fault-tolerant logic gates will consume a large proportion of the resources of a two-dimensional quantum computing architecture. Here we show how to perform a fault-tolerant non-Clifford gate with the surface code; a quantum error-correcting code now under intensive development. This alleviates the need for distillation or higher-dimensional components to complete a universal gate set. The operation uses both local transversal gates and code deformations over a time that scales with the size of the qubit array. An important component of the gate is a just-in-time decoder. These decoding algorithms allow us to draw upon the advantages of three-dimensional models using only a two-dimensional array of live qubits. Our gate is completed using parity checks of weight no greater than four. We therefore expect it to be amenable with near-future technology. As the gate circumvents the need for magic-state distillation, it may reduce the resource overhead of surface-code quantum computation considerably.

Topics & Concepts

Universal setQuantum computerComputer scienceMAGIC (telescope)QubitOverhead (engineering)Code (set theory)Decoding methodsComputationFault toleranceGate arrayParallel computingComputer engineeringAlgorithmTheoretical computer scienceSet (abstract data type)Topology (electrical circuits)QuantumDistributed computingEmbedded systemPhysicsQuantum mechanicsElectrical engineeringEngineeringProgramming languageField-programmable gate arrayOperating systemQuantum Computing Algorithms and ArchitectureQuantum-Dot Cellular AutomataQuantum Information and Cryptography
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