Enabling fine-grained centralized monitoring and management for optimal performance with HPE Performance Cluster Manager, a system management software solution.HPE Slingshot will also be featured in Argonne’s Aurora exascale system. Addressing demands for higher speed and congestion control for larger data-intensive and AI workloads with HPE Slingshot, the world’s only high performance Ethernet fabric designed for HPC and AI solutions.Supercharged AI capabilities to support data and image-intensive workloads while optimizing future exascale-level GPU-enabled deployments using 2240 NVIDIA ® A100 Tensor Core GPUs, making it ALCF’s largest GPU-based system to date.Powerful compute to improve modeling, simulation and data-intensive workflows using 560 2 nd and 3 rd Gen AMD EPYC™ processors.It will be built using 280 HPE Apollo Gen10 Plus systems, which are HPC and AI architectures built for the exascale era and customized to include the following end-to-end solutions: Polaris will deliver approximately 44 petaflops of peak double precision performance and nearly 1.4 exaflops of theoretical AI performance, which is based on mixed-precision compute capabilities. Polaris will also provide a broader opportunity to help prototype and test the integration of HPC with real-time experiments and sensor networks.” Polaris: Argonne’s North Star propels new era of exascale “Beyond getting us ready for Aurora, Polaris will further provide a platform to experiment with the integration of supercomputers and large-scale experiment facilities, like the Advanced Photon Source, making HPC available to more scientific communities. “Polaris is well equipped to help move the ALCF into the exascale era of computational science by accelerating the application of AI capabilities to the growing data and simulation demands of our users,” said Michael E. In addition, Polaris will help researchers integrate HPC and AI with other experimental facilities, including Argonne’s Advanced Photon Source and the Center for Nanoscale Materials, both DOE Office of Science User Facilities. It will also augment Argonne’s ongoing efforts and achievements in areas such as clean energy, climate resilience and manufacturing. Polaris is designed with industry-leading high performance computing ( HPC) and AI solutions to advance investigations into society’s most complex and pressing issues, from understanding the biology of viruses to revealing the secrets of the universe. “Polaris is well equipped to help move the ALCF into the exascale era of computational science by accelerating the application of AI capabilities to the growing data and simulation demands of our users.” - Michael E. It will enable scientists and developers to test and optimize software codes and applications to tackle a range of artificial intelligence ( AI), engineering and scientific projects planned for the forthcoming exascale supercomputer, Aurora, a joint collaboration between Argonne, Intel and HPE. The new system, which Argonne has named Polaris, will be built by HPE, and hosted and managed by the Argonne Leadership Computing Facility ( ALCF), a U.S. Department of Energy’s Argonne National Laboratory and Hewlett Packard Enterprise ( NYSE: HPE ) today unveiled a new testbed supercomputer to prepare critical workloads for future exascale systems that will deliver up to four times faster performance than Argonne’s current supercomputers.
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |