The next-generation global file storage system has already been selected by the US Department of Energy (DOE) for use at the Argonne Leadership Computing Facility, Oak Ridge National Laboratory and Lawrence Livermore National Laboratory, where the first three US exascale supercomputers will be housed - respectively Aurora, Frontier and El Capitan. With the introduction of the ClusterStor E1000 storage system, Cray has completed the re-architecture of its end-to-end infrastructure portfolio, which encompasses Cray Shasta supercomputers, Cray Slingshot interconnect, and the Cray software platform. With Cray's next-generation end-to-end supercomputing architecture, available for any data centre environment, customers around the world can unleash the full potential of their data.
"To handle the massive growth in data that corporations worldwide are dealing with in their digital transformations, a completely new approach to storage is required", stated Peter Ungaro, president and CEO of Cray, a Hewlett Packard Enterprise company. "Cray's new storage platform is a comprehensive rethinking of what high performance storage means for the Exascale Era. The intelligent software and hardware design of ClusterStor E1000 orchestrates the data flow with the workflow - that's something no other solution on the market can do."
As the external high performance storage system for the first three U.S. exascale systems, Cray ClusterStor E1000 will total over 1,3 exabytes of storage for all three systems combined. The National Energy Research Scientific Computing Center (NERSC) also selected ClusterStor E1000, which will be the industry's first all NVMe parallel file system at a scale of 30 petabytes of usable capacity.
"NERSC will deploy the new ClusterStor E1000 on Perlmutter as our fast all flash storage tier, which will be capable of over four terabytes per second write bandwidth. This architecture will support our diverse workloads and research disciplines", stated NERSC Director Sudip Dosanjh. "Because this file system will be the first all-NVMe file system deployed at a scale of 30 petabytes usable capacity, extensive quantitative analysis was undertaken by NERSC to determine the optimal architecture to support the workflows our researchers and scientists use across biology, environment, chemistry, nuclear physics, fusion energy, plasma physics and computing research."
Recognizing the data access challenges presented by the Exascale Era, Cray's ClusterStor E1000 enables organisations to achieve their research missions and business objectives faster by offering:
"Cray's Shasta architecture substantially expands the company's addressable market to include HPC simulation, AI, enterprise analytics and cloud computing. ClusterStor E1000 is an integral part of this strategy", stated Steve Conway, senior vice president of research at Hyperion Research. "This new edition of the proven ClusterStor solution is designed to enable leading enterprises to consolidate their AI, HPC and High Performance Data Analysis stacks, efficiently and easily. The fast-growing contingent of enterprises that are adopting HPC now have the cost-effective option to acquire a unified Cray Shasta-Slingshot-ClusterStor infrastructure."
Cray ClusterStor E1000 systems will be available starting in Q1 of 2020.