Adjusting quantum gate timing via scheduling suppresses idling errors and improves accuracy in simulations and hardware experiments without added gates, supported by an analytical density-matrix derivation.
Souza, Gonzalo A
3 Pith papers cite this work. Polarity classification is still indexing.
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SpinTune applies reinforcement learning to discover adaptive dynamical decoupling sequences that outperform standard methods at preserving coherence in simulated Carbon-13 spin bath environments.
A step-by-step experimental guide for characterizing transmon qubits from cryogenic setup to qubit-qubit coupling on a commercial processor.
citing papers explorer
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Idling error suppression through gate scheduling
Adjusting quantum gate timing via scheduling suppresses idling errors and improves accuracy in simulations and hardware experiments without added gates, supported by an analytical density-matrix derivation.
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SpinTune: Improving the Reliability of Quantum Sensor Networks for Practical Quantum-Classical Utility
SpinTune applies reinforcement learning to discover adaptive dynamical decoupling sequences that outperform standard methods at preserving coherence in simulated Carbon-13 spin bath environments.
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A Tutorial for Characterizing Transmon Qubits
A step-by-step experimental guide for characterizing transmon qubits from cryogenic setup to qubit-qubit coupling on a commercial processor.