International research into controlled nuclear fusion (ITER project), gets more compute resources with expansion of the Helios supercomputer
Designed and operated by Bull, the Helios supercomputer installed in Rokkasho, Japan, is boosted by an additional 360 Intel® Xeon PhiTM coprocessors to increase its power to almost 2 Petaflops1.
Intel® Xeon PhiTM coprocessors - which foreshadow technologies that will ultimately lead to Exa-scale computing - will advance research into nuclear fusion aimed at developing a sustainable source of energy with a low-carbon footprint.
12, 2014 -
The French Alternative Energies and Atomic Energy Commission (the CEA) - working on behalf of F4E2 to implement and run the Data Center for nuclear fusion at Rokkasho in Japan - is expanding the power of the Helios supercomputer by equipping it with additional bullxTM nodes featuring Intel® Xeon PhiTM coprocessors.
Helios, which is designed and operated by Bull, supports research work aimed at controlling nuclear fusion, so as to refine a sustainable energy source that produces no carbon dioxide emissions or other greenhouse gasses. The system provides modeling and simulation capacity which is open to all European and Japanese researchers under the 'Broader Approach', a research program that complements the international cooperative ITER program.
The new Intel® Xeon PHITM coprocessors that will be incorporated into Helios will enable researchers to take advantage of exceptional computing performance. Their massively parallel architecture delivering leading performance per watt, foreshadows technologies that will ultimately lead to Exa-scale computing3.
"We are delighted to be helping the CEA and the community working on Nuclear Fusion to develop the knowhow and computing resources that will allow them to significantly expand the potential for research associated with the ITER program," said Pascal Barbolosi, Vice-President, Extreme Computing at Bull.
"Computer simulation plays an essential role in the development of research into Nuclear Fusion - both in terms of understanding the extremely complex physical phenomena involved and in scoping future tokamaks. The Nuclear Fusion community already has very advanced parallel simulation software. Adapting these for processors with an extremely high levels of parallelization is essential to guarantee their ability to fully utilize future generations of supercomputers, and the integration of Intel® Xeon Phi coprocessors into Helios is an important move in this direction," explained Gabriele Fioni, Director of Materials Sciences at the CEA.
The architecture of the Helios supercomputer initially featured 4,410 bullx B510 compute nodes, with 8,820 Intel® Xeon® E5 processors producing a power of 1.5 Petaflops. The 180 new bullx B515 compute nodes will each include two Intel® Xeon PhiTM coprocessors delivering an additional 400 Teraflops, taking the total power of the Helios system to almost 2 Petaflops.
"Intel is convinced that Exascale computing will represent a major technological advance for the scientific community working on Nuclear Fusion projects. The Intel Xeon Phi range of coprocessors has been designed with this in mind, and we are very pleased that the Helios supercomputer will be benefiting from this," explained Stéphane Negre, CEO of Intel France and Regional Manager of Intel Western Europe.
The Center of Expertise for Parallel Programming - created by Bull in close cooperation with Intel and based at Bull's offices in Grenoble, France - is closely involved in this project, providing training, porting and optimization of computing codes dedicated to this vital area of energy research.
1 2 million billion operations a second. If everyone in the world completed one operation a second, it would take them a day and a half to achieve what Helios can do in a single second.
2 F4E, Fusion For Energy, is the 'domestic' agency coordinating Europe's contribution to the construction of ITER and the Broader Approach. http://www.fusionforenergy.europa.eu
3 1 billion billion operations a second, or 500 times the power of Helios. The first Exa-scale supercomputers are set to appear from around 2020.
About the CEA
The French Alternative Energies and Atomic Energy Commission (CEA) is a public technological research organization working in four main areas: low-carbon energies, information technologies and health technologies, very large-scale research facilities (TGIRs), and global defense and security.
Building on excellence in fundamental research and on recognized expertise, the CEA takes part in organizing cooperation projects with a wide range of academic and industrial partners. With its 16,000 researchers and employees, it is a major player in European research and is also expanding its international presence.
For more information, visit www.cea.fr
Press contact: François Legrand email@example.com Tel: +33 (0)1 64 50 27 53
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