University of Kwazulu-Natal

World S Leading Scientific Supercomputing Centers Adopt Nvidia Nvqlink

Bonisiwe Shabane
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world s leading scientific supercomputing centers adopt nvidia nvqlink

NVIDIA's NVQLink facilitates integration of quantum processors with supercomputers, enhancing quantum-classical workflows for research centers globally. NVIDIA has announced that its NVQLink technology will be widely adopted by over a dozen supercomputing centers globally, allowing for the integration of quantum processors with accelerated computing systems. This innovative interconnect architecture facilitates advanced quantum-classical workflows through the NVIDIA CUDA-Q platform, addressing critical challenges in control and error correction for these hybrid applications. Remarkably, the Helios quantum processor from Quantinuum, which utilizes NVQLink, achieved a significant milestone by demonstrating real-time scalable quantum error correction, surpassing performance expectations. The NVQLink technology is set to enhance research capabilities in quantum computing across numerous national laboratories and research institutions in the U.S., Asia, and Europe, paving the way for the future of integrated quantum-GPU... NVQLink is a universal interconnect architecture that links quantum processors with NVIDIA accelerated computing, crucial for hybrid quantum-classical workflows.

More than a dozen supercomputing centers and national research institutions across Asia, Europe, and the U.S. are adopting NVQLink technology. NVQLink enables large-scale integration of quantum processors and GPUs, improving performance, overcoming error correction challenges, and facilitating advanced research. ST. LOUIS, Nov. 17, 2025 (GLOBE NEWSWIRE) -- SC25 -- NVIDIA today announced that the world’s leading scientific computing centers are adopting NVIDIA® NVQLink™, a first-of-its-kind, universal interconnect for linking quantum processors with state-of-the-art accelerated computing.

Tapping the low-latency, high-throughput interconnect, more than a dozen supercomputing centers and national research institutions across Asia and Europe are joining U.S. facilities in advancing their ability to research, develop and harness the integration 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,” said Jensen Huang, founder and... “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 architecture overcomes control and error-correction challenges and enables the development of hybrid quantum-classical applications. It delivers 40 petaflops of AI performance at FP4 precision with a GPU-QPU throughput of 400 Gb/s and a latency of less than four microseconds.

NVQLink allows the coupling of quantum processors and GPUs via tight integration with quantum control systems and GPU supercomputing within the NVIDIA CUDA-Q™ software platform. NVQLink was designed in collaboration with quantum processor and controller builders, as well as supercomputing centers across the world, including in Asia, such as: Get Cash Back and $0 Commissions+ The Power of TradeStation ST. LOUIS, Nov. 17, 2025 (GLOBE NEWSWIRE) -- SC25 -- NVIDIA today announced that the world's leading scientific computing centers are adopting NVIDIA® NVQLink™, a first-of-its-kind, universal interconnect for linking quantum processors with state-of-the-art accelerated computing.

Tapping the low-latency, high-throughput interconnect, more than a dozen supercomputing centers and national research institutions across Asia and Europe are joining U.S. facilities in advancing their ability to research, develop and harness the integration 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," said Jensen Huang, founder and... "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 architecture overcomes control and error-correction challenges and enables the development of hybrid quantum-classical applications. It delivers 40 petaflops of AI performance at FP4 precision with a GPU-QPU throughput of 400 Gb/s and a latency of less than four microseconds.

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LOUIS, Nov. 17, 2025 (GLOBE NEWSWIRE) -- SC25 -- NVIDIA today announced that the world’s leading scientific computing centers are adopting NVIDIA® NVQLink™, a first-of-its-kind, universal interconnect for linking quantum processors with state-of-the-art accelerated computing. Tapping the low-latency, high-throughput interconnect, more than a dozen supercomputing centers and national research institutions across Asia and Europe are joining U.S. facilities in advancing their ability to research, develop and harness the integration 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,” said Jensen Huang, founder and... “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 architecture overcomes control and error-correction challenges and enables the development of hybrid quantum-classical applications. It delivers 40 petaflops of AI performance at FP4 precision with a GPU-QPU throughput of 400 Gb/s and a latency of less than four microseconds. NVQLink allows the coupling of quantum processors and GPUs via tight integration with quantum control systems and GPU supercomputing within the NVIDIA CUDA-Q™ software platform. NVQLink was designed in collaboration with quantum processor and controller builders, as well as supercomputing centers across the world, including in Asia, such as: ST. LOUIS, Nov.

17, 2025 (GLOBE NEWSWIRE) -- SC25 -- NVIDIA today announced that the world’s leading scientific computing centers are adopting NVIDIA® NVQLink™, a first-of-its-kind, universal interconnect for linking quantum processors with state-of-the-art accelerated computing. Tapping the low-latency, high-throughput interconnect, more than a dozen supercomputing centers and national research institutions across Asia and Europe are joining U.S. facilities in advancing their ability to research, develop and harness the integration 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,” said Jensen Huang, founder and... “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 architecture overcomes control and error-correction challenges and enables the development of hybrid quantum-classical applications.

It delivers 40 petaflops of AI performance at FP4 precision with a GPU-QPU throughput of 400 Gb/s and a latency of less than four microseconds. NVQLink allows the coupling of quantum processors and GPUs via tight integration with quantum control systems and GPU supercomputing within the NVIDIA CUDA-Q™ software platform. NVQLink was designed in collaboration with quantum processor and controller builders, as well as supercomputing centers across the world, including in Asia, such as:

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