Using the SHFQC with LabOne Q Applications Library’s tuneup workflow, we were able to get started quickly on characterizing qubits — we measured T1 and T2 times on a new chip within hours.
Dr. Hyeok Hwang
Korea Advanced Institute of Science & Technology (KAIST)
I have worked with several companies, but I can say that the company’s customer support is some of the best I have seen. They go through the experimental details and difficulties of your experiment while going further and even proposing new solutions. We appreciate that.
Dr. Marios Maroudas
Institut Für Experimentalphysik - Universtität Hamburg
LabOne Q has a high degree of freedom in writing complex pulse sequences, and the ability to easily visualize those pulse sequences using the Plot Simulator feature, which is a huge merit.
Dr. Seung-Young Seo
Pohang University of Science and Technology (POSTECH)
It goes without saying that quantum systems are complicated, so working with a supplier...who understands the underlying issues and builds products designed for quantum systems saved us time and money.
Kevin Morse
Photonic Inc.
We like the high channel density, the very small footprint and the fact that synchronization not only works between channels of the same instrument but also across several instruments.
Prof. Andreas Wallraff
ETH Zurich
For fast and efficient tune-up of superconducting qubits, the double-super heterodyne conversion schematic of the Zurich Instruments SHFQC helps save a lot of time in the lab by eliminating the need to calibrate mixers.
Dr. Hyeok Hwang
Dr. Hyeok Hwang
Generating the particular pulses...for semiconductor spin qubits can be quite complicated, and finding ways to efficiently create and upload them is a daily challenge...That's one of the things we're excited about with the HDAWG.
Prof. John Nichol
University of Rochester
We want to thank the technical support team for their fast and informative response on our past inquiries to explore the functions of HDAWG.
Zhong Lab
University of Chicago
We use Zurich Instruments' equipment for low-noise and high-resolution control signal generation as well as for readout with FPGA-based fast signal processing. If we had to build control electronics on a large scale with similar characteristics in terms of noise level, synchronization and phase stability, that would distract us from our core research activities.
Nathan Lacroix and Dr. Sebastian Krinner
ETH Zurich
The Zurich Instruments Quantum Computing Control System (QCCS) made it possible to set up and start the measurement of qubits very quickly. The QCCS solution also made it more efficient and easier to configure complex measurement settings as the number of qubits increased.
Prof. Yonuk Chong
Sungkyunkwan University (SKKU)
I would add that the most valuable aspect lies in having people on both sides who speak the same language...building larger quantum computers through larger devices, advanced control capabilities, or better instrument performance.
Prof. Stefan Filipp
Technical University of Munich and Walther-Meißner-Institute
