Lawrence Zenga
March 19, 2025 02:38
NVIDIA started the Accelerated Quantum Research Center and developed quantum computing to integrate AI and quantum technology for groundbreaking research.
NVIDIA, the leader of AI and graphics processing, presented the establishment of the NVIDIA Accelerated Quantum Research Center (NVAQC) aimed at developing the field of quantum computing. This announcement emphasized the company’s promise to integrate AI SuperComputers and quantum processing device (QPU) in the NVIDIA GTC Global AI Conference.
Improve quantum computing using AI
NVAQC, headquartered in Boston, has become a hub for quantum computing innovation with a supercomputer with a 576 NVIDIA Blackwell GPUS and a supercomputer with a NVIDIA Quantum-2 Infiniband networking platform. This facility will focus on developing large -scale simulations of quantum algorithms and hardware and training and distribution of AI models for quantum applications.
Tim Costa, chief director of NVIDIA’s computer auxiliary engineering, emphasized the importance of the center in expanding quantum computing to the next generation device. The center aims to facilitate the integration of quantum processors and promote development in quantum error correction and device control.
Cooperation efforts with industry leaders
NVIDIA’s initiatives have worked with major companies in quantum computing, including Quantinuum, Quantum Machines. Academic partners such as Harvard Quantum Initiative and MIT Quantum Engineering Center also explore how AI SuperComputing can accelerate the progress of AI SuperComputing.
William Oliver, a director of the Solent Engineering Center, emphasized the role of NVIDIA as an important partner to realize practical quantum computing. The center is ready to solve important tasks in the field, including the integration of quantum error correction and the integration of quantum and classic hardware.
Quantum error correction power generation
Protecting cue bits from noise is the fundamental task of quantum computing. NVAQC will focus on developing AI-reinforced decoders to accelerate the quantum error correction process. NVIDIA aims to improve the accuracy of quantum calculations by utilizing AI SUPERCOMPUTING and develop low delay and development of parallel decoders.
Cooperation with Quera will further improve the effort to discover and test the new quantum error crystals by utilizing the demanding simulation of complex quantum circuits.
The future of quantum moisture integration
The integration of quantum and classic computing resources is essential for developing effective quantum algorithms. NVAQC will provide the infrastructure for hybrid algorithm studies that combine classic and quantum calculations.
Efforts to develop a new AI -based compilation technology will be explored to accelerate the runtime of quantum algorithms. Quantinuum plans to expand the possibility of hybrid quantum classical computing by providing hardware and emulators through the NVIDIA-Q platform in collaboration with NVIDIA.
Quantum Machines will work with NVIDIA to develop advanced controller technology to improve the interface between quantum processors and NVIDIA’s GB200 super chips. This partnership overcomes the task of integrating Quantum hardware with AI SuperComputing to open a way for practical quantum computing applications.
For more information about NVIDIA’s quantum computing initiatives, visit the official NVIDIA blog.
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