Arbitrary Waveform Generators

Real-time feedback control can often speed up quantum experiments, increase fidelity, or enable new methods. One example is adaptive sensing and characterization, which uses feedback to minimize the number of measurements needed to estimate a given quantity. Our customers in the group of Prof. Cristian Bonato at Heriot-Watt University (Edinburgh, Scotland) have recently demonstrated this method on an NV-center based spin qubit and achieved an increase in speed by up to an order of magnitude compared to non-adaptive approaches in the estimation of qubit decoherence timescales.

An arbitrary waveform generator (AWG) can generate pulses with a timing resolution much finer than its sampling period. Users are often unaware of this capability, yet it enables highly precise timing control in application use cases such as NV center dynamical decoupling, flux pulse width control, AWG channel deskew, and IQ mixer calibration...

Were you ever curious about how the double-superheterodyne frequency conversion compares with IQ mixing when tested on real qubits? This blog post introduces such a comparison published in a recent preprint paper by the ETH QuDev lab. One of its main results hints at double-superheterodyne enabling a higher gate fidelity and lower state leakage rate than a standard IQ mixing approach!

Does your application require multiple AWG channels with precise and stable timing synchronization? In this blog post, we will show how to achieve this with the HDAWG Arbitrary Waveform Generator for setup sizes ranging from few channels up to 144. We demonstrate 3 methods suitable for different use cases.

When operating qubits, speed and high system utilization are key to achieving rapid progress. In this blog post, you’ll find a collection of five important tips to optimize the throughput of your Zurich Instruments Quantum Computing Control System (QCCS) and perform measurements faster than ever!

It all starts with a few qubits: a masterfully engineered few-qubit system forms the groundwork for advances in large-scale quantum computers. This blog post gives you our 5 top reasons why you should base your few-qubit setup on the Zurich Instruments SHFQC Qubit Controller.