We are dedicated to the development of scalable control electronics, essential for the effective implementation and advancement of quantum computing capabilities.
An easily scalable,
fully customizable
and fully modular system.
The quantum computer's nervous system resides in the Qblox control stack, the Cluster. The Cluster manipulates quantum bits (qubits) via electronic signals, and communicates algorithms, instructions and experiments. High-performance centers around the world feature a Qblox Cluster supporting quantum research with integrated control architecture for NISQ applications and anticipate a future of fault-tolerant quantum computing.
We are dedicated to the development of scalable control electronics, essential for the effective implementation and advancement of quantum computing capabilities.
Qubit agnostic control electronics for world-leading quantum research and development.
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.
Scalable quantum control that’s designed to support increased input and output, fast feedback, stability and speed.
Build your ideal qubit set up with streamlined quantum control architecture from ultra-stable baseband (0-400 MHz) to 2 - 18.5 GHz.
Fully integrated instrumentation and software to control and readout qubits designed to speed up experiments by orders of magnitude and facilitates NISQ applications.
Scalable quantum control that’s designed to support increased input and output, fast feedback, stability and speed.
Build your ideal qubit set up with streamlined quantum control architecture from ultra-stable baseband (0-400 MHz) to 2 - 18.5 GHz.
Fully integrated instrumentation and software to control and readout qubits designed to speed up experiments by orders of magnitude and facilitates NISQ applications.
The SPI rack is a stable, scalable system for S4g DC and D5a DC voltage source modules. Minimise ground loops and interference with galvanically isolated control interface and isolated power supply.
Control experiments on Qblox hardware with Quantify, a completely open-source software stack.
The Qblox control stack combines key technologies for qubit control and readout with a modular solution ready to support customers using different applications.
Qblox offers quantum control stacks for superconducting qubits with up to 18.5 GHz capability, enabling modular configuration and offering scalability.
Qblox integrates instrumentation for Si, Ge, and GaAs spin qubits, facilitating versatile and simplified measurements, and adaptable hardware configurations. With real-time FPGA programming, Qblox reduces software loop overheads
Qblox integrates electronics and software for optical NV centers and trapped ion control. The Cluster offers scalability and advanced features for streamlining your quantum experiments.
Your custom set-up.
Since 2021, Qblox has been a vital partner in our mission to build a 100-qubit quantum computer for Swedish industry. Their robust, scalable control system delivers outstanding analog performance allowing us to push quantum boundaries without hardware limitations. Qblox excels in how quickly we achieve results. With unparalleled channel synchronization and fast real-time feedback, we can fully tune up our 20-qubit systems in under 30 minutes using our automated parallel qubit tune-up software, built on their Quantify framework. Their exceptional support and deep technical engagement help us maximize their hardware’s potential. This level of performance and partnership is exactly what we need to stay at the forefront.
Switching to Qblox for our quantum memory control hardware has significantly improved our workflow. Its clear Python integration and fast compilation allow us to modify experimental parameters in real time. This has enabled us to replace manual optimization with a machine learning algorithm, saving time and making it easier to explore new ideas.
Qblox offers an intuitive platform for running our experiments. Its speed for conditional operation, and code simplicity makes it ideal for complex experiments involving many coordinated components.
We use the Qblox control stack in our lab to improve and simplify our quantum networking setups, to enable my students to get to results faster. By integrating RF and MW signal generation, coincidence detection, and timetagging, the Qblox Cluster allows me to replace 4 pieces of equipment with a single blue box. Within the Quantum Internet Alliance, my team and the Qblox team worked together on developing and testing the Qubit Timetag Module, an essential piece of equipment for the readout of color centers. The Qblox team offers excellent support with very fast response times. This enables us to use the equipment in the best way for our experiments. I am excited to continue working together and push my state-of-the-art research with Qblox's integrated and easy-to-use solution.
Automated Rigetti Novera QPU chip bring-in by Qblox Cluster, operated by QuantrolOx with Quantum EDGE.
TreQ launches Compass SG25B, an open quantum system empowering researchers with tech from Qblox, Rigetti, QuantrolOx, and Bluefors
Qblox is a member of project ARCTIC, along with 36 European partners from industry, academia and leading RTOs.
Qblox has successfully closed its Series A funding round, securing a substantial $26 million.
Riverlane gets £2.1m Horizon Europe grant to develop real-time quantum error correction decoder, collaborating with Qblox.
Qblox won it won the Scaleup of the Year award at YES!Delft in 2023 - learn more about our journey and plans for the future.