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NVIDIA Graceā¢: Empowering the Future of Data Centers
Unveiling the Cutting-Edge NVIDIA Grace CPU
NVIDIA, a pioneer in the graphics processing unit (GPU) industry, has unveiled its groundbreaking NVIDIA Grace CPU, the first data center CPU developed by the company.
Exceptional Performance and Efficiency
The NVIDIA Grace CPU is meticulously crafted to deliver uncompromising performance and exceptional efficiency. Its architecture leverages Arm processors and on-chip fabrics, seamlessly blending NVIDIA's expertise with the latest Arm advancements.
With its impressive 144 cores and 1 terabyte per second (TB/s) of memory bandwidth, this remarkable CPU, when combined with the NVIDIA NVLink-C2C technology, offers unparalleled data transfer speeds.
NVIDIA Grace: A Transformative Solution for Data Centers
NVIDIA Grace is not merely a processor; it is a comprehensive suite of products that caters to the diverse needs of data centers. Each Grace product is built upon a powerful system-on-chip (SoC) foundation featuring 72 high-performance Arm v9 cores.
Unveiling Grace Hopper and Grace Superchip
Grace Hopper, the latest addition to the Grace family, is a single-socket server CPU targeted at hyperscale data centers and cloud service providers. With its exceptional performance, Grace Hopper caters to the most demanding workloads.
Grace Superchip, a multi-chip module, combines two Grace Hopper CPUs, delivering unparalleled processing power for the most compute-intensive applications, such as artificial intelligence (AI) and high-performance computing (HPC).
NVIDIA Grace is not merely a CPU; it is a new paradigm for data center computing, offering a transformative solution that will shape the future of the digital world.
Conclusion
NVIDIA Grace, a breakthrough innovation in data center performance and efficiency, is poised to revolutionize the industry. Its unparalleled performance, combined with the latest Arm architecture and NVIDIA's expertise, will empower data centers to tackle the most complex challenges and drive innovation across diverse sectors.