Qblox, demonstrating fully-integrated and modular quantum control from the bottom up

The increasing complexity of present-day experiments in the field of quantum information processing creates a significant challenge for the control electronics. Data transfer from the measurement equipment to the user PC becomes infeasible when the number of channels increases. Solving these issues requires linking computational power to the quantum device for synchronized generation of pulses and real-time processing of measurements.

In this workshop, we demonstrate how Qblox hardware removes the bottlenecks of the conventional approaches. The modular architecture puts you in control to design your ideal quantum control stack from DC to 18.5 GHz while providing best-in-class analog signal quality. At the heart of the pulse sequencer is our Turing-complete Q1 processor, allowing real-time and in-concert operation of all channels. This processor is controlled by our dedicated assembly language allowing low-level control when needed and high-level control when possible. During the workshop, you will learn how to generate digital and analog signals in real time, perform multiplexed readout and distribute and synchronize your experiments over the different modules.

This modular and scalable approach of Qblox allows you to design your quantum future.