New Technologies to Scale Superconducting Quantum Computing

Scaling superconducting quantum computing demands advances on a broad range of technologies including device design and calibration at its core. In this webinar, Dr. Max Werninghaus presents recent research results from the Walther-Meißner-Institute alongside the strategy of building robust quantum architectures to enable scalable, high-performance quantum processors. --- You will learn about: • The P-mon qubit, a recent development with improved coherence due to robustness against common sources of noise. • Automated calibration techniques – efficient, parallelized methods that accelerate the tune-up of multi-qubit processors, demonstrated on a 17-qubit system. • High-fidelity two-qubit gates – the use of optimized, high-complexity pulses to achieve performance beyond 99.9%. Key Sections: 00:00 Webinar introduction and session overview 08:10 Speaker introduction: Dr. Max Werninghaus • P-mon qubits, automated calibration, and two-qubit gate fidelities above 99.9% • P-mon qubit design and robustness against noise • Parallelized, automated tune-up on a 17-qubit system • Optimized pulses enabling two-qubit gate fidelities beyond 99.9% 47:23 Live Q&A --- If you have any questions, write us in the comments below! _________________ Follow the latest from Zurich Instruments: Website: https://www.zhinst.com/ LinkedIn: https://www.linkedin.com/company/zurich-instruments-ag/