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QHub Quantum System Hub
Progress toward quantum advantage with our new solution to scale up your quantum computing control stack.
Building a Quantum Computer Together
See how IQM and Zurich Instruments advance towards real-world quantum technology applications.
Principles of PID Controllers
Interested in controlling your systems more efficiently?
Take a look at our new white paper.
New LabOne Q Tutorial Videos
See how to get started with quantum experiments and realize your research ideas.
« The Zurich Instruments QCCS made it possible to set up and start the measurement of qubits very quickly. In particular, the generation of precise high-frequency signals using double-superheterodyne frequency conversion significantly reduced the calibration burden in the qubit readout and control measurement setup. »
« We implemented a characterization method based on asynchronous optical sampling, where the UHFLI Lock-in Amplifier from Zurich Instruments plays an important role. With this technique, we can unravel the intrinsic temporal response of the developed photodetectors in the range of pico- to nanoseconds. »
« We use Zurich Instruments' equipment for low-noise and high-resolution control signal generation and for readout with FPGA-based fast signal processing. If we had to build control electronics on a large scale with similar characteristics, that would distract us from our core research activities. »