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ADAPT: Mitigating Idling Errors in Qubits via Adaptive Dynamical Decoupling

Poulami Das, Swamit Tannu, Siddharth Dangwal, Moinuddin Qureshi

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Abstract

The fidelity of applications on near-term quantum computers is limited by hardware errors. In addition to errors that occur during gate and measurement operations, a qubit is susceptible to idling errors, which occur when the qubit is idle and not actively undergoing any operations. To mitigate idling errors, prior works in the quantum devices community have proposed Dynamical Decoupling (DD), that reduces stray noise on idle qubits by continuously executing a specific sequence of single-qubit operations that effectively behave as an identity gate. Unfortunately, existing DD protocols have been primarily studied for individual qubits and their efficacy at the application-level is not yet fully understood.

Topics & Concepts

QubitDynamical decouplingIdleDecoupling (probability)FidelityQuantum computerNoise (video)Computer scienceHigh fidelityQuantumPhysicsControl theory (sociology)Scheme (mathematics)Quantum gateEngineeringPhase qubitTopology (electrical circuits)Sequence (biology)Electronic engineeringQuantum error correctionQuantum Computing Algorithms and ArchitectureQuantum Information and CryptographyAdvancements in Semiconductor Devices and Circuit Design
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