Aurora Supercomputer Breaks Exascale Barrier, Tops AI Performance

The Aurora supercomputer at the Argonne National Laboratory has surpassed the exascale threshold, achieving over a quintillion calculations per second, making it one of the world's fastest supercomputers, with significant implications for advancing research in fields such as healthcare, climate change, and governance. The system, built by Intel and Hewlett Packard Enterprise, features a unique architecture with 63,744 graphics processing units and will enable breakthroughs in science and engineering, accelerating discovery and innovation. This description focuses on the primary topic (Aurora supercomputer), main entities (Argonne National Laboratory, Intel, Hewlett Packard Enterprise), context (high-performance computing), significant actions (surpassing exascale threshold), and implications (advancing research in various fields). The description also provides objective and relevant details that will help an AI generate an accurate visual representation of the article's content, such as the unique architecture and number of graphics processing units.

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Bijay Laxmi
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Aurora Supercomputer Breaks Exascale Barrier, Tops AI Performance

Aurora Supercomputer Breaks Exascale Barrier, Tops AI Performance

The Aurora supercomputer at the U.S. Department of Energy's Argonne National Laboratory has officially surpassed the exascale threshold, measuring over a quintillion calculations per second on the new Top500 list. This milestone was announced at the ISC High Performance 2024 conference in Hamburg, Germany, on May 13, 2024.

Why this matters: The development of supercomputers like Aurora has far-reaching implications for various fields, including healthcare, climate change, and governance, as they can accelerate discovery and innovation. As AI capabilities continue to advance, effective regulation and international cooperation will be crucial to ensuring safety and responsible use of these powerful technologies.

Aurora registered 1.012 exaflops using 87% of the system's 10,624 nodes. The supercomputer also achieved an impressive ai performance of 10.6 exaflops on the HPL-MxP benchmark, earning it the top spot in artificial intelligence (AI) performance.

"We're thrilled to see Aurora join the exascale club," said Michael Papka, director of the Argonne Leadership Computing Facility (ALCF). "I'm extremely proud of the Aurora team's ongoing efforts to get the system up and running for the research community."

As one of the world's fastest supercomputers, Aurora gives scientists a powerful new tool for carrying out research involving simulation, ai, and data analysis. The state-of-the-art system will enable breakthroughs in science and engineering, spur new advances in technology, and bolster the nation's innovation infrastructure.

"Aurora is fundamentally transforming how we do science for our country," said Argonne Laboratory Director Paul Kearns. "It will accelerate scientific discovery by combining high-performance computing and AI to fight climate change, develop life-saving medical treatments, create new materials, understand the universe, and so much more."

Built by Intel and Hewlett Packard Enterprise (HPE), Aurora features a first-of-its-kind architecture with new technologies being deployed at an unprecedented scale. The supercomputer has 63,744 graphics processing units (GPUs), making it the world's largest GPU-powered system yet. It also has more endpoints in its interconnect technology than any other system to date.

Teams participating in the ALCF's Aurora Early Science Program and DOE's Exascale Computing Project have been preparing to run their research projects on Aurora for the past several years. The initial Aurora projects include efforts to advance research in cosmology, fusion energy science, drug discovery, and the design of new materials for clean energy technologies.

Aurora's breakthrough performance and AI capabilities position it as a transformative tool for tackling some of the world's most complex challenges. As scientists harness its power to accelerate discovery across various domains, the supercomputer's impact will reverberate far beyond the realm of high-performance computing, ushering in a new era of scientific advancement and technological innovation.

Key Takeaways

  • Aurora supercomputer surpasses exascale threshold, performing over 1 quintillion calculations per second.
  • Aurora achieves 10.6 exaflops on HPL-MxP benchmark, earning top spot in AI performance.
  • The supercomputer features 63,744 GPUs, making it the world's largest GPU-powered system.
  • Aurora will accelerate scientific discovery in fields like healthcare, climate change, and governance.
  • The system's AI capabilities will drive breakthroughs in simulation, data analysis, and more.