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Integrated Tool Set for Control, Calibration, and Characterization of Quantum Devices Applied to Superconducting Qubits

Nicolas Wittler, Federico Roy, Kevin Pack, Max Werninghaus, Anurag Saha Roy, Daniel J. Egger, Stefan Filipp, Frank K. Wilhelm, Shai Machnes

2021Physical Review Applied79 citationsDOIOpen Access PDF

Abstract

Efforts to scale-up quantum computation have reached a point where the principal limiting factor is not the number of qubits, but the entangling gate infidelity. However, the highly detailed system characterization required to understand the underlying error sources is an arduous process and impractical with increasing chip size. Open-loop optimal control techniques allow for the improvement of gates but are limited by the models they are based on. To rectify the situation, we provide an integrated open-source tool set for control, calibration, and characterization (${\mathbb{C}}^{3}$), capable of open-loop pulse optimization, model-free calibration, model fitting, and refinement. We present a methodology to combine these tools to find a quantitatively accurate system model, high-fidelity gates, and an approximate error budget, all based on a high-performance, feature-rich simulator. We illustrate our methods using simulated fixed-frequency superconducting qubits for which we learn model parameters with less than $1\mathrm{%}$ error and derive a coherence-limited cross-resonance gate that achieves $99.6\mathrm{%}$ fidelity without the need for calibration.

Topics & Concepts

QubitComputer scienceSet (abstract data type)Characterization (materials science)Quantum gateProcess (computing)Quantum computerFidelityElectronic engineeringPrincipal (computer security)ComputationChipQuantumPoint (geometry)High fidelityAlgorithmQuantum error correctionPhysicsError detection and correctionUniversal setComputer engineeringLimitingQuantum circuitReduction (mathematics)Quantum algorithmPulse (music)Test setScheme (mathematics)Topology (electrical circuits)Quantum technologyLogic gateIntegrated circuitQuantum Information and CryptographyQuantum Computing Algorithms and ArchitecturePhysics of Superconductivity and Magnetism
Integrated Tool Set for Control, Calibration, and Characterization of Quantum Devices Applied to Superconducting Qubits | Litcius