Toward Noise-Resistant Control of Superconducting Quantum Information Processors

Precise calibration and continuous stabilization are essential to harnessing the full capabilities of quantum computers, which are inherently prone to instability. Achieving scalable quantum control requires calibration protocols that are not only efficient and robust but also capable of maintaining high system performance over time. In this work, we outline our vision for developing integrated software and hardware solutions that minimize resource overhead while maximizing control fidelity and system reliability. By incorporating adaptive and autonomous calibration techniques, we enhance resilience against noise and system drift—critical steps toward realizing scalable, dependable quantum processors.