News Summary:
- NVIDIA NVQLink to be broadly adopted by greater than a dozen supercomputing facilities throughout the globe, becoming a member of U.S. labs and quantum builders to advance quantum computing.
- NVQLink connects quantum processors with NVIDIA accelerated computing, enabling large-scale quantum-classical workflows powered by the NVIDIA CUDA-Q platform.
- A primary-of-its-kind open and common interconnect structure, NVQLink supplies the vital hyperlink the world’s supercomputing facilities want to combine a wealthy array of quantum processors.
- Quantum computing firm Quantinuum’s newest Helios quantum processor makes use of NVQLink to combine NVIDIA GPUs and show the primary scalable real-time decoding for quantum error correction.
ST. LOUIS, Nov. 17, 2025 (GLOBE NEWSWIRE) — SC25 — NVIDIA at present introduced that the world’s main scientific computing facilities are adopting NVIDIA® NVQLink™, a first-of-its-kind, common interconnect for linking quantum processors with state-of-the-art accelerated computing.
Tapping the low-latency, high-throughput interconnect, greater than a dozen supercomputing facilities and nationwide analysis establishments throughout Asia and Europe are becoming a member of U.S. services in advancing their capability to analysis, develop and harness the mixing of quantum and classical {hardware}.
“In the future, supercomputers will be quantum-GPU systems — combining the unique strengths of each: the quantum computer’s ability to simulate nature and the GPU’s programmability and massive parallelism,” mentioned Jensen Huang, founder and CEO of NVIDIA. “NVQLink with CUDA-Q is the gateway to that future — uniting quantum and GPU computing into a single, coherent system to push the frontier of what’s computable and unlocking new scientific discoveries.”
By uniting quantum processors with NVIDIA accelerated computing, NVQLink’s open system structure overcomes management and error-correction challenges and allows the event of hybrid quantum-classical functions. It delivers 40 petaflops of AI efficiency at FP4 precision with a GPU-QPU throughput of 400 Gb/s and a latency of lower than 4 microseconds.
NVQLink permits the coupling of quantum processors and GPUs through tight integration with quantum management programs and GPU supercomputing inside the NVIDIA CUDA-Q™ software program platform. NVQLink was designed in collaboration with quantum processor and controller builders, in addition to supercomputing facilities internationally, together with in Asia, resembling:
- Japan’s Global Research and Development Center for Business by Quantum-AI know-how (G-QuAT) on the National Institute of Advanced Industrial Science and Technology (AIST)
- Japan’s RIKEN Center for Computational Science
- Korea Institute of Science and Technology Information (KISTI)
- Taiwan’s National Center for High-Performance Computing (NCHC)
- Singapore’s National Quantum Computing Hub (a joint initiative of Singapore’s Centre for Quantum Technologies, A*STAR Institute of High Performance Computing and National Supercomputing Centre Singapore)
- Australia’s Pawsey Supercomputing Research Centre
Europe and the Middle East are additionally embracing quantum computing analysis with supercomputing and quantum know-how facilities supporting NVQLink, together with:
- CINECA – Italy
- DCAI, operator of Denmark’s AI Supercomputer
- France’s Grand Équipement National de Calcul Intensif (GENCI)
- The Czech Republic’s IT4Innovations National Supercomputing Center (IT4I)
- Germany’s Jülich Supercomputing Centre (JSC)
- The U.Ok.’s National Quantum Computing Centre (NQCC)
- Poland’s Poznań Supercomputing and Networking Center (PCSS)
- Technology Innovation Institute (TII), UAE
- Saudi Arabia’s King Abdullah University of Science and Technology (KAUST)
They be a part of the U.S. nationwide laboratories that not too long ago introduced integration with NVQLink know-how for cutting-edge analysis, together with:
- Brookhaven National Laboratory
- Fermi National Accelerator Laboratory
- Lawrence Berkeley National Laboratory
- Los Alamos National Laboratory
- MIT Lincoln Laboratory
- National Energy Research Scientific Computing Center
- Oak Ridge National Laboratory
- Pacific Northwest National Laboratory
- Sandia National Laboratories
Real-World Hybrid Quantum-Classical Applications
Quantinuum not too long ago introduced that its newest Helios QPU, and future generations of its quantum processors, will likely be built-in with NVIDIA GPUs by NVQLink and can draw on the facility of NVIDIA CUDA-Q to orchestrate quantum error correction.
NVQLink and CUDA-Q allowed the deployment of quantum error-correction strategies to efficiently shield the fragile quantum data inside the Helios QPU from noise, or undesirable disturbances that trigger errors in quantum programs.
This demonstration is the world’s first real-time use of a scalable decoder for a category of quantum error-correction codes generally known as qLDPC codes. The Quantinuum workforce demonstrated lively error correction and decoding with a decoder implementation that achieved a response time of 67 microseconds, exceeding Helios’ two-millisecond requirement by 32x. Key to reaching this consequence was NVQLink’s capability to present a versatile and configurable decoder able to large parallelism.
The microsecond latencies and very excessive throughput supplied by NVQLink are made accessible to builders by real-time software programming interfaces in NVIDIA CUDA-Q. This lets scientists and builders simply construct and take a look at approaches to quantum error correction and quantum-GPU functions inside a single programming setting.
In addition, NVQLink’s use of Ethernet permits researchers to simply scale the classical compute they draw on as quantum processors and functions develop.
Availability
Quantum builders and supercomputing facilities interested by NVIDIA NVQLink can join entry on this webpage.
Learn extra about how NVIDIA NVQLink connects quantum processors with GPU-powered supercomputers on the NVIDIA technical blog.
About NVIDIA
NVIDIA (NASDAQ: NVDA) is the world chief in AI and accelerated computing.
For additional data, contact:
Alex Shapiro
NVIDIA Public Relations
1-415-608-5044
[email protected]
Certain statements on this press launch together with, however not restricted to, statements as to: sooner or later, supercomputers being quantum-GPU programs — combining the distinctive strengths of every: the quantum laptop’s capability to simulate nature and the GPU’s programmability and big parallelism; the advantages, influence, efficiency, and availability of NVIDIA’s merchandise, providers, and applied sciences; expectations with respect to NVIDIA’s third get together preparations, together with with its collaborators and companions; expectations with respect to know-how developments; and different statements that aren’t historic info are forward-looking statements inside the which means of Section 27A of the Securities Act of 1933, as amended, and Section 21E of the Securities Exchange Act of 1934, as amended, that are topic to the “safe harbor” created by these sections based mostly on administration’s beliefs and assumptions and on data at present out there to administration and are topic to dangers and uncertainties that would trigger outcomes to be materially totally different than expectations. Important elements that would trigger precise outcomes to differ materially embody: international financial and political situations; NVIDIA’s reliance on third events to manufacture, assemble, bundle and take a look at NVIDIA’s merchandise; the influence of technological improvement and competitors; improvement of recent merchandise and applied sciences or enhancements to NVIDIA’s present product and applied sciences; market acceptance of NVIDIA’s merchandise or NVIDIA’s companions’ merchandise; design, manufacturing or software program defects; modifications in client preferences or calls for; modifications in business requirements and interfaces; sudden lack of efficiency of NVIDIA’s merchandise or applied sciences when built-in into programs; and modifications in relevant legal guidelines and laws, in addition to different elements detailed from time to time in the latest experiences NVIDIA recordsdata with the Securities and Exchange Commission, or SEC, together with, however not restricted to, its annual report on Form 10-Ok and quarterly experiences on Form 10-Q. Copies of experiences filed with the SEC are posted on the corporate’s web site and can be found from NVIDIA with out cost. These forward-looking statements aren’t ensures of future efficiency and converse solely as of the date hereof, and, besides as required by legislation, NVIDIA disclaims any obligation to replace these forward-looking statements to mirror future occasions or circumstances.
© 2025 NVIDIA Corporation. All rights reserved. NVIDIA, the NVIDIA brand, CUDA-Q and NVQLink are logos and/or registered logos of NVIDIA Corporation within the U.S. and different nations. Other firm and product names could also be logos of the respective firms with which they’re related. Features, pricing, availability and specs are topic to change with out discover.
A photograph accompanying this announcement is accessible at:
https://www.globenewswire.com/NewsRoom/AttachmentNg/3b4883cd-5826-445a-b891-5b42a7b4d22c
