Driving quantum scalability through cryogenic innovation
Quantum computing is projected to exceed €100B by 2040, yet scaling stalls at the I/O layer. Our high-density, low-noise, and low-cost cryogenic interconnects, integrated with filters and attenuators, paves the way for the development of large-scale sytems that is capable of delivering real-world benefits.
Disruptive Technology
Quantum computing will disrupt ICT with hundreds of billions of market size. They hold a great promise for solving certain class of problems that are currently intractable for classical computers.
Scaling challenges
Scaling today's quantum computers to thousands or even millions of qubits isn't feasible with current technology. Existing state-of-the-art wiring solutions, which rely on modular microwave components, face several critical challenges:
They inject noise into the quantum processing units (QPUs) that host qubits, compromising their operational fidelity.
They contribute to passive thermal load in cryogenic environments.
They suffer from high power dissipation due to microwave drive requirements.
Our mission
Our mission is to revolutionize quantum computing scalability and performance by developing cutting-edge, noise-protected signaling technologies. Leveraging advanced thermalization techniques and innovative microwave solutions, we aim to enable high-fidelity, large-scale quantum processors, empowering global quantum advancements and establishing Finland as a leader in quantum technology.
Our technology
We are developing advanced noise-protected signaling solutions for quantum processors, significantly enhancing qubit fidelity and scalability. By integrating innovative filters, attenuators, and flexible transmission lines, we are enabling high-performance quantum computing for diverse applications.