IQM Collaborates On Scalable, Fault-Tolerant Quantum Computing with NVIDIA and Zurich Instruments

IQM Quantum Computers and Zurich Instruments, collaborating with NVIDIA, are developing a real-time quantum error correction demonstrator intended for deployment in enterprise datacenters; this project represents a critical step toward practical, scalable quantum computing. The initiative integrates IQM’s 20-qubit superconducting quantum computer with Zurich Instruments’ new Quantum Control System and NVIDIA’s NVQLink platform, aiming to deliver the low-latency decoding and feedback necessary for operating stable logical qubits. This full-system integration addresses a growing need as organizations shift from quantum exploration to long-term deployment, focusing on reliable operation and scalability. “Quantum computing will only matter at scale when it is widely distributed and routinely used,” said Jan Goetz, CEO of IQM Quantum Computers. “IQM is building the infrastructure model for that world.” IQM, Zurich Instruments & NVIDIA Develop Real-Time QEC Demonstrator The focus has shifted from simply accessing quantum hardware to consistently operating these systems and integrating them into existing computational infrastructure. The demonstrator’s architecture supports closed-loop, low-latency decoding and feedback, essential for operating logical qubits at scale and ultimately achieving fault tolerance. By aligning quantum hardware, control electronics, and classical acceleration, the collaboration defines a clear path for future NVQLink-based products and scalable quantum computers. Andrea Orzati, CEO of Zurich Instruments, explained, “We designed the ZQCS precisely for this moment: to run quantum systems reliably, integrated in the supercomputing infrastructure. By working with IQM and NVIDIA NVQLink, we’re demonstrating the operation of logical qubits with real-time interfacing to classical computing – merging individual building blocks into an operational platform for QEC.” Tim Costa, Vice President and General Manager for Quantum at NVIDIA, added, “Quantum processors and supercomputing are converging and together are expanding the scope of problems we can approach with computing.” This demonstrator represents a substantial step toward realizing practical, fault-tolerant quantum systems accessible to a wider range of organizations.

Qubit Superconducting Processor Integrated with NVQLink & ZQCS The pursuit of practical quantum computing has moved beyond building increasingly powerful processors; the current emphasis lies in creating fully integrated systems capable of sustained, reliable operation. The integration aims to overcome a critical hurdle in quantum computing: achieving scalable and fault-tolerant error correction. This project isn’t merely about connecting components, but about establishing a cohesive architecture where quantum hardware, control electronics, and classical computational acceleration function seamlessly. IQM Quantum Computers is spearheading an effort to translate theoretical advances in quantum error correction into a functioning, scalable system, collaborating with Zurich Instruments and NVIDIA to achieve datacenter deployment by 2030. By working with IQM and NVIDIA NVQLink, we’re demonstrating the operation of logical qubits with real-time interfacing to classical computing – merging individual building blocks into an operational platform for QEC. Andrea Orzati, CEO of Zurich Instruments Source: Direct text input Tags: Quantum News There is so much happening right now in the field of technology, whether AI or the march of robots. Adrian is an expert on how technology can be transformative, especially frontier technologies. But Quantum occupies a special space. Quite literally a special space. A Hilbert space infact, haha! Here I try to provide some of the news that is considered breaking news in the Quantum Computing and Quantum tech space. Latest Posts by Quantum News: Infleqtion Enables Researchers to Work with Large-Scale Quantum Systems March 16, 2026 Classiq Integrates with NVIDIA CUDA-Q to Shorten Iteration Cycles for Quantum Teams March 16, 2026 Quantum Delta NL Positions Netherlands in Three European Quantum Pilot Lines March 16, 2026