Litcius/Paper detail

Hidden Inverses: Coherent Error Cancellation at the Circuit Level

Bichen Zhang, Swarnadeep Majumder, Pak Hong Leung, Stephen Crain, Ye Wang, Chao Fang, Dripto M. Debroy, Jungsang Kim, Kenneth R. Brown

2022Physical Review Applied34 citationsDOIOpen Access PDF

Abstract

Coherent gate errors are a concern in many proposed quantum-computing architectures. Here, we show that certain coherent errors can be reduced by a local optimization that chooses between two forms of the same Hermitian and unitary quantum gate. We refer to this method as hidden inverses, and it relies on constructing the same gate from either one sequence of physical operations or the inverted sequence of inverted operations. We use parity-controlled $Z$ rotations as our model circuit and numerically show the utility of hidden inverses as a function of circuit width $n$. We experimentally demonstrate the effectiveness for $n=2$ and $n=4$ qubits in a trapped-ion quantum computer. We numerically compare the method to other gate-level compilations for reducing coherent errors.

Topics & Concepts

QubitUnitary stateQuantum circuitHermitian matrixSequence (biology)Quantum gateXOR gateParity (physics)Gate countQuantum error correctionQuantumQuantum computerPhysicsControlled NOT gateComputer scienceElectronic circuitAlgorithmTopology (electrical circuits)Quantum mechanicsLogic gateMathematicsCombinatoricsPolitical scienceGeneticsBiologyLawEmbedded systemQuantum Computing Algorithms and ArchitectureQuantum Information and CryptographyQuantum and electron transport phenomena