Award-winning international collaboration showcases breakthrough in hybrid quantumāclassical systems for next-generation quantum AI
LONDON & AUSTIN, Texas–(BUSINESS WIRE)–#AI—ORCA Computing, a leading quantum computing company, today announced a blueprint for integrating photonic quantum AI into real-world data centers. By integrating ORCAās photonic quantum processors with NVIDIA accelerated computing and the NVIDIA CUDA-Q software platform, the collaboration shows how data centers can immediately begin deploying scalable hybrid quantumāclassical systems for next-generation AI and machine learning workloads, underscoring how GPUāquantum integration is moving rapidly from concept to reality.
The demonstration was delivered in collaboration with Imperial College London and the PoznaÅ Supercomputing and Networking Center (PCSS), bringing together leading academic and research expertise to validate the approach in an operational data center environment. This effort builds on ORCAās broader hybrid quantum initiatives, including the UKās National Quantum Computing Centre (NQCC) system, which integrates NVIDIA GPUs directly inside a quantum computer.
āWorking together with Imperial and PCSS, we’ve delivered a working demonstration of a distributed photonic quantum neural network inside a real data center,ā said Richard Murray PhD, Co-founder and CEO of ORCA Computing. āThis approach offers a deployment-ready, upgradeable path for organizations to adopt quantum-accelerated architectures without large infrastructure overhauls.ā
At the heart of this effort are two ORCA PT photonic quantum processors deployed within the PCSS data center alongside NVIDIA Hopper GPUs. Housed in standard 19-inch rack cabinets and operating at room temperature integrated seamlessly through the NVIDIA CUDA-Q platform and the Slurm workload manager, the system enables researchers to program classical and quantum resources within a single environment. This marks the first time photonic quantum processors have been integrated through CUDA-Q, creating a scalable path for hybrid machine learning and HPC applications.
āOur collaboration with ORCA and Imperial College has allowed us to create a unique quantum classical hybrid system at PCSS,ā stated Krzysztof Kurowski, Deputy Director & CTO of PCSS. āThe open, easy integration of multiple QPUs and NVIDIA GPUs demonstrates that quantum accelerated supercomputing is not just tomorrow’s promise but today’s reality.ā
This milestone builds on award-winning research from Imperial College, whose underlying paper was honored as Best Paper in the photonics track at a premier quantum conference held during IEEE Quantum Week. By running a distributed system within an operational data center, the collaboration delivers both proof of viability and a clear, replicable framework for other facilities seeking to integrate quantum enhancements into existing HPC environments.
āThe integration of quantum into the fabric of HPC is a critical step towards developing the future of quantum accelerated supercomputing, combining multiple quantum accelerators with many classical acceleratorsā, said Sam Stanwyck, Group Product Manager for Quantum at NVIDIA. āThis work shows how the CUDA-Q platform can accelerate progress towards this future with open, performant, and purpose-built softwareā.
This achievement shows how quantum computing can move from theoretical proposals into practical, operational HPC environments. The team will continue to expand algorithmic capabilities, reduce latency, and scale to next-generation quantum systems, accelerating progress toward useful, large-scale quantum computing. For additional technical details, see our blog post – ORCA Computing, PCSS and Imperial College collaborate with NVIDIA to demonstrate a distributed quantum neural network in a hybrid HPC environment.
This latest advancement builds on ORCAās pioneering launch of a hybrid quantum-classical platform for AI at PSNC with NVIDIA CUDA-Q, highlighting the strategic collaboration at the intersection of photonic quantum systems and GPU accelerated AI. It also follows Montana State Universityās deployment of two PT Series photonic computing systems to accelerate distributed quantum computing and deliver practical impact. These efforts add to ORCAās global momentum, with PT Series systems now powering initiatives across Europe, North America, and Asia, including the UKās National Quantum Computing Centre, the UK Ministry of Defence and other leading enterprise and government institutions.
About ORCA Computing
ORCA Computing, headquartered in London, UK, with offices in the United States, is a leading developer and provider of full-stack photonic quantum computing systems. The company delivers an innovative approach to quantum computing, providing robust, high-performance, and data center-standard systems for machine learning, generative AI and optimization workloads. ORCA Computing has successfully delivered ten on-premises quantum computers to leading global customers, including the UK National Quantum Computing Centre, Montana State University, and the Poznan Supercomputing and Networking Center.
For more information, please visit https://orcacomputing.com
Contacts
ORCA Computing Media Contact:
Juliet McGinnis
[email protected]
