![]() ![]() Why It Matters: From tackling climate change to finding cures for deadly diseases, researchers face monumental challenges that demand advanced computing technologies at scale. 1 The Intel Xeon Max Series CPU drives a 40% performance advantage over the competition in many real-world HPC workloads, such as earth systems modeling, energy and manufacturing. Designed to meet the demands of dynamic and emerging HPC and AI workloads, early results with the Max Series GPUs demonstrate leading performance on real-world science and engineering workloads, showcasing up to 2 times the performance of AMD MI250X GPUs on OpenMC, and near linear scaling up to hundreds of nodes. ![]() Later this year, Aurora is expected to be the world’s first supercomputer to achieve a theoretical peak performance of more than 2 exaflops (an exaflop is 10 18 or a billion billion operations per second) when it enters the TOP500 list.Īurora will harness the full power of the Intel Max Series GPU and CPU product family. The system incorporates more than 1,024 storage nodes (using DAOS, Intel’s distributed asynchronous object storage), providing 220 petabytes (PB) of capacity at 31 terabytes per second of total bandwidth, and leverages the HPE Slingshot high-performance fabric. What Aurora Is: A collaboration of Intel, Hewlett Packard Enterprise (HPE) and the Department of Energy (DOE), the Aurora supercomputer is designed to unlock the potential of the three pillars of high performance computing (HPC): simulations, data analytics and artificial intelligence (AI) on an extremely large scale. ![]()
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