Fujitsu announced on 15 June that it has received an order from the Research Institute for Information Technology at Kyushu University for a new supercomputer system, which will ramp up operations starting in October 2017.
This system will consist of over 2,000 servers, including the Fujitsu Server PRIMERGY CX400, the next-generation model of Fujitsu's x86 server. It is expected to provide a theoretical peak performance of about 10 petaflops. This will be Japan's first supercomputer system featuring a large-scale private cloud environment constructed on a front-end sub system, linked with a computational server of a back-end sub system through a high-speed file system.
The Research Institute for Information Technology will use this system as a computational resource for Joint Usage/Research Center for Interdisciplinary Large-scale Information Infrastructures (JHPCN) and High performance computing infrastructure (HPCI), as well as a variety of user programs.
JHPCN is a network of joint use and research locations made up of supercomputer facilities at Hokkaido University, Tohoku University, the University of Tokyo, Tokyo Institute of Technology, Nagoya University, Kyoto University, Osaka University, and Kyushu University, with the Information Technology Center at the University of Tokyo serving as the core location. HPCI is a computing environment that connects the K computer and major supercomputers located in universities and laboratories across Japan in a network to meet the diverse needs of users.
By making this system available to users both inside and outside of the university, it will enhance the platform for academic research in Japan and contribute to the development of new academic research including AI.
Background of the new system implementation
As a center for education and research, Kyushu University is the largest public university in the Kyushu region, and the Research Institute for Information Technology is a nationwide joint-use facility visited by professors, graduate students, and researchers across Japan for academic research.
Currently, the Research Institute for Information Technology operates three systems: a supercomputer system (consisting of the Fujitsu Supercomputer PRIMEHPC FX10 system), a high-performance computational server system (made up of Fujitsu PRIMERGY CX400 x86 servers), and a high-performance applications server system. These three systems will be integrated as part of the new supercomputer system, creating an environment that can meet an even wider variety of needs, extending beyond the current large-scale computation and scientific simulations, to include usage and research that require extremely large-scale computation, such as AI, big data, and data science.
Features of the new system
The server system of the new supercomputer system will consist primarily of a back-end subsystem, a front-end subsystem, and a storage subsystem.
The computational nodes will be made up of 2,128 PRIMERGY CX400 systems, the next-generation model of Fujitsu's x86 server, equipped with Intel Xeon processor Scalable family (codename: Skylake). 128 of these servers will be equipped with four NVIDIA Tesla P100 GPU computing cards each (a total of 512 cards/ NVIDIA NVLink (4) used to connect GPUs).
This system will consist of 160 basic front-end nodes featuring Intel Xeon processor Scalable family (codename: Skylake) and NVIDIA Quadro P4000 graphics cards, as well as four high-capacity front-end nodes featuring 12 terabytes of memory each, and other servers.
Fujitsu will deploy a disk array system with an effective capacity of over 24 petabytes.
Using the latest high-speed interconnect EDR InfiniBand to connect between the servers, this system offers high parallel computation performance and availability.
This supercomputer system will be built using a high performance distributed file system that can be shared on the scale of a hundred thousand of nodes called FEFS — Fujitsu's high capacity, high performance, high reliability distributed file system with a proven track record both inside and outside Japan.
Power Saving Feature
This will incorporate a system to monitor electricity usage. Using the Fujitsu Software Technical Computing Suite, the HPC middleware, this system will flexibly control electricity usage through such functions to limit the maximum electricity consumption for each system user.
|Photo Source: Argonne National Laboratory / Flickr|