Introducing the Modular Cryogenic Platform
We are excited to introduce the Modular Cryogenic Platform, a major leap in quantum computing infrastructure designed to support the rapid scaling of next‑generation quantum systems. Built for organizations moving toward fault‑tolerant quantum computing and large‑scale deployments, the platform brings a fundamentally new approach to cryogenic system architecture—one that is modular, expandable, and ready for the future.
A New Approach to Quantum Infrastructure
Quantum computing is advancing quickly, with rising qubit counts and increasingly complex system requirements. The Modular Cryogenic Platform is designed to support this by introducing a scalable, modular foundation that grows with the needs of quantum developers, HPC data centers, and technology providers.
“Our 18-year journey accelerating quantum computing has now taken its next big leap with the launch of our Modular Cryogenic Platform,” said Kim Povlsen, CEO of Bluefors. “As quantum computing gets closer to solving the world’s biggest challenges, the industry needs reliable and resilient infrastructure that keeps up with its pace.”
At its core, the platform functions as a self‑supported, expandable vacuum chamber. Individual modules can be connected to form a large, unified payload space. This gives organizations the flexibility to expand cooling capacity, increase qubit density, and adapt system configurations without redesigning and repurchasing their entire infrastructure. The modular system will support hundreds of thousands of physical qubits as quantum hardware continues to mature.
Designed for Modular Scalability
The Modular Cryogenic Platform’s modules are available in two sizes and can be configured with a number of cooling inserts and wiring inserts depending on the application. The design allows teams to start with a single unit and expand over time, making it easy to scale up by simply adding more modules.
Because the platform’s architecture completely separates wiring inserts from cooling units, measurement infrastructure can be easily reconfigured or upgraded. And if cooling needs change over time, it’s just as easy to upgrade the cooling insert while the surrounding system architecture and wiring remains in place. Quantum computing developers gain the freedom to adapt their systems as technologies, workloads, and architectures evolve. The result is a future‑proof platform that supports growth across every stage of development.
The interior design enables full access from every side, and when multiple modules are connected, they create a vast and continuous payload volume. Each module supports payloads up to 800 kg, enabling large and complex setups with up to 36 side-loading wiring ports.
Optimized for High‑Performance Computing Environments
As quantum computing moves into data centers, infrastructure must integrate smoothly into HPC environments. The Modular Cryogenic Platform was designed with exactly this in mind. Its low-height form factor, compact footprint, and customizable external appearance allow seamless installation alongside traditional computing systems.
“HPC Datacenter operators are moving beyond experimenting with quantum computing to launching, hosting, and scaling at speed, so they need modular infrastructure solutions to be ready,” said Tero Tolonen, Bluefors’ Chief Product Officer. “At Bluefors, we enable that growth from an infrastructure point of view, so companies can turn their efforts to rapidly solving the challenges in material development, finance, health, and all the other places where quantum’s immense potential can be realized. Wherever you are in your quantum journey, we have the solutions to accelerate and scale development.”
Accelerating the Next Phase in Quantum Computing
Bluefors has spent nearly two decades building the world’s most trusted quantum infrastructure solutions. The Modular Cryogenic Platform represents the next major step in that journey, supporting the industry’s shift from research‑scale systems to large‑scale, fault‑tolerant quantum computing.
By offering a modular and expandable architecture, the platform gives quantum organizations a clear path to scale their operations and unlock the computing power required for future applications in materials research, chemistry, optimization, and beyond.
The first multi-module platform is slated for delivery late 2026, and the new platform will be presented at the APS Global Physics Summit in Denver, Colorado from March 15–20, 2026.
Contact our Sales team to learn how the Modular Cryogenic Platform supports your quantum computing roadmap.