Detecting Qubit-coupling Faults in Ion-trap Quantum Computers

Detecting Qubit-coupling Faults in Ion-trap Quantum Computers

HPCA 2022 Ion-trap quantum computers offer a large number of possible qubit couplings, each of which requires individual calibration and can be misconfigured. To enhance the duty cycle of an ion trap, we develop a strategy that diagnoses individual miscalibrated couplings using only log-many tests....

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Hauptverfasser: Maksymov, Andrii O, Nguyen, Jason, Chaplin, Vandiver, Nam, Yunseong, Markov, Igor L
Format: Artikel
Sprache:eng
Schlagworte:
Computer Science - Emerging Technologies
Physics - Quantum Physics
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Zusammenfassung:HPCA 2022 Ion-trap quantum computers offer a large number of possible qubit couplings, each of which requires individual calibration and can be misconfigured. To enhance the duty cycle of an ion trap, we develop a strategy that diagnoses individual miscalibrated couplings using only log-many tests. This strategy is validated on a commercial ion-trap quantum computer, where we illustrate the process of debugging faulty quantum gates. Our methodology provides a scalable pathway towards fault detections on a larger scale ion-trap quantum computers, confirmed by simulations up to 32 qubits.
DOI:10.48550/arxiv.2108.03708