Digital Event Horizon
NVIDIA accelerates a majority of the world’s supercomputers to drive advancements in science and technology by leveraging its cutting-edge AI, CUDA, and Hopper Architecture technologies. With 384 systems powered by NVIDIA technologies on the recent TOP500 list, researchers are able to make breakthroughs in climate forecasting, drug discovery, and quantum simulation with unprecedented speed and efficiency.
NVIDIA has solidified its position as a leader in AI and accelerated computing by accelerating most supercomputers globally. The company's widespread adoption of AI and mixed-precision floating-point operations across systems demonstrates a global shift in computing priorities. The NVIDIA Hopper Architecture is a key driver of breakthroughs, providing unparalleled speed, efficiency, and adaptability for researchers. NVIDIA's accelerated computing platform enables significant progress in areas such as genomics and protein design through AI acceleration. cuPyNumeric allows over 5 million developers to seamlessly scale to powerful computing clusters without modifying their Python code. NVIDIA's accelerated computing platform is a sustainable engine of scientific computing, with systems ranking among the top on the Green500 list.
NVIDIA Corporation has once again solidified its position as a leader in the field of artificial intelligence (AI) and accelerated computing by accelerating a majority of the world's supercomputers. According to the recent TOP500 list, 384 systems on the list are powered by NVIDIA technologies, marking a significant milestone for the company.
This achievement is a testament to NVIDIA's relentless pursuit of innovation and its commitment to helping scientists and researchers make groundbreaking discoveries in various fields such as climate forecasting, drug discovery, and quantum simulation. The widespread adoption of AI and mixed-precision floating-point operations across these systems demonstrates a global shift in computing priorities, with over 249 exaflops of AI performance available to TOP500 systems.
The NVIDIA Hopper Architecture, which is the foundation of NVIDIA's latest high-performance computing solutions, has played a pivotal role in enabling these breakthroughs. With its advanced architecture and cutting-edge AI capabilities, the Hopper GPU provides unparalleled speed, efficiency, and adaptability for researchers working on complex problems that require significant computational resources.
One notable example of the impact of NVIDIA's accelerated computing platform is the work being done by researchers at King Abdullah University of Science and Technology (KAUST) and Argonne National Laboratory. Using 0.8 exaflops and 3 exaflops of mixed precision, respectively, these teams have made significant strides in genomics and protein design, leveraging AI to accelerate their research.
Another notable development is the announcement of cuPyNumeric, an NVIDIA CUDA-X library that enables over 5 million developers to seamlessly scale to powerful computing clusters without modifying their Python code. This move marks a significant step forward for open-source software development, allowing researchers to focus on their work without being hindered by limitations in software infrastructure.
In addition to its technical advancements, NVIDIA has also been making strides in sustainability. With over 190 exaflops of AI performance and 17 exaflops of single-precision (FP32) performance, the company's accelerated computing platform is now the new engine of scientific computing. Furthermore, systems with NVIDIA-accelerated computing rank among eight of the top 10 on the Green500 list, a benchmark for energy efficiency in supercomputers.
The JEDI system at EuroHPC/FZJ is particularly noteworthy, achieving a staggering 72.7 gigaflops per watt and setting a new benchmark for what's possible when performance and sustainability align. This achievement underscores NVIDIA's commitment to delivering high-performance computing solutions that are not only powerful but also environmentally friendly.
In conclusion, the recent achievements of NVIDIA in accelerating a majority of the world's supercomputers demonstrate the company's unwavering dedication to advancing scientific knowledge and driving innovation. With its cutting-edge AI, CUDA, and Hopper Architecture technologies, NVIDIA is poised to continue pushing the boundaries of what is possible in the field of accelerated computing.
Related Information:
https://blogs.nvidia.com/blog/top500-supercomputers-sc24/
https://blogs.nvidia.com/blog/supercomputing-24/
Published: Wed Nov 20 09:53:14 2024 by llama3.2 3B Q4_K_M
