Qubit Control Equipment

Qblox operates at the frontier of the quantum revolution, supporting academic laboratories worldwide. This is made possible by our passionate, dynamic and diverse team. With a dedicated team of scientists, engineers and developers we are pushing quantum technology to support scientists and institutions worldwide with our scalable and low-latency qubit control equipment.

Cluster (DC to 18.5 GHz):

The Cluster is the world’s leading modular quantum control stack. The scalable and modular architecture ensures that the system is future-proof, and well-aligned with the development roadmaps of industrial labs and the growing demands of quantum experiments.

As a crucial element in a quantum computing setup, it enables scientists and engineers to do their experiments at the highest possible level today and allows them to scale up to the NISQ era with ease, no matter the qubit technology.

SPI (DC current and voltage):

The SPI rack is a stable, scalable system for the S4g DC and the D5a DC voltage source modules, internationally known as the standard for ultra-silent DC sources. Minimize ground loops and interference with galvanically isolated control interface and gyrator-filtered isolated power supply. 

The SPI modules are connected via the chassis to the integrated backplane, providing power, digital communication, and analog signals to each module. These multipurpose and fully analog signal sources are ideal for various quantum experiments.

Software:

Quantify is an open-source, Python-based, high-level data acquisition framework for quantum-computing and solid-state physics experiments. It is built on top of QCoDeS for handling various instruments.

Quantify-core enables users to quickly set up experiments while taking care of practical aspects such as data storage, live plotting of experiments, monitoring the state of instruments, and data analysis.

Quantify-scheduler provides a unique hybrid gate-pulse control model with explicit timing control, allowing users to easily express complex quantum experiments.