The post NVIDIA NVQLink Revolutionizes Quantum-Classical Integration in Supercomputing appeared on BitcoinEthereumNews.com. Jessie A Ellis Nov 18, 2025 03:33 NVIDIA’s NVQLink technology is being adopted by global supercomputing centers to bridge quantum processors with accelerated computing, advancing quantum-classical integration. NVIDIA has unveiled that its NVQLink technology is being embraced by leading scientific supercomputing centers worldwide, marking a significant advancement in the integration of quantum and classical computing systems. As reported by the NVIDIA Newsroom, this pioneering universal interconnect facilitates the seamless linkage of quantum processors with NVIDIA’s accelerated computing platforms. Global Adoption of NVQLink The adoption of NVQLink spans across more than a dozen supercomputing centers, including facilities in the United States, Asia, and Europe. This adoption is expected to catalyze significant advancements in quantum computing research and development. Among the notable institutions integrating NVQLink are Japan’s RIKEN Center for Computational Science, Korea Institute of Science and Technology Information (KISTI), and the UK’s National Quantum Computing Centre (NQCC). Technological Advancements NVQLink’s architecture is designed to overcome challenges associated with control and error-correction in quantum computing. By uniting quantum processors with NVIDIA’s accelerated systems, it enables the development of hybrid quantum-classical applications, delivering 40 petaflops of AI performance at FP4 precision with a throughput of 400 Gb/s and latency under four microseconds. Jensen Huang, NVIDIA’s CEO, emphasized the transformative potential of NVQLink, stating, “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.” Real-World Applications and Future Prospects NVQLink has already demonstrated real-world applications, notably through its integration in Quantinuum’s Helios quantum processor. This integration has facilitated the first scalable real-time decoding for quantum error correction, showcasing NVQLink’s capability to protect quantum information from noise and disturbances. Additionally, the technology’s use of Ethernet allows for scalable classical… The post NVIDIA NVQLink Revolutionizes Quantum-Classical Integration in Supercomputing appeared on BitcoinEthereumNews.com. Jessie A Ellis Nov 18, 2025 03:33 NVIDIA’s NVQLink technology is being adopted by global supercomputing centers to bridge quantum processors with accelerated computing, advancing quantum-classical integration. NVIDIA has unveiled that its NVQLink technology is being embraced by leading scientific supercomputing centers worldwide, marking a significant advancement in the integration of quantum and classical computing systems. As reported by the NVIDIA Newsroom, this pioneering universal interconnect facilitates the seamless linkage of quantum processors with NVIDIA’s accelerated computing platforms. Global Adoption of NVQLink The adoption of NVQLink spans across more than a dozen supercomputing centers, including facilities in the United States, Asia, and Europe. This adoption is expected to catalyze significant advancements in quantum computing research and development. Among the notable institutions integrating NVQLink are Japan’s RIKEN Center for Computational Science, Korea Institute of Science and Technology Information (KISTI), and the UK’s National Quantum Computing Centre (NQCC). Technological Advancements NVQLink’s architecture is designed to overcome challenges associated with control and error-correction in quantum computing. By uniting quantum processors with NVIDIA’s accelerated systems, it enables the development of hybrid quantum-classical applications, delivering 40 petaflops of AI performance at FP4 precision with a throughput of 400 Gb/s and latency under four microseconds. Jensen Huang, NVIDIA’s CEO, emphasized the transformative potential of NVQLink, stating, “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.” Real-World Applications and Future Prospects NVQLink has already demonstrated real-world applications, notably through its integration in Quantinuum’s Helios quantum processor. This integration has facilitated the first scalable real-time decoding for quantum error correction, showcasing NVQLink’s capability to protect quantum information from noise and disturbances. Additionally, the technology’s use of Ethernet allows for scalable classical…