Subject: Systems | June 3, 2013 - 09:27 PM | Tim Verry
Tagged: Xeon Phi, tianhe-2, supercomputer, Ivy Bridge, HPC, China
A powerful new supercomputer constructed by Chinese company Inspur is currently in testing at the National University of Defense Technology. Called the Tianhe-2, the new supercomputer has 16,000 compute nodes and approximately 54 Petaflops of peak theoretical compute performance.
Destined for the National Supercomputer Center in Guangzhou, China, the open HPC platform will be used for education and research projects. The Tianhe-2 is composed of 125 racks with 128 compute nodes in each rack.
The compute nodes are broken down into two types: CPM and APU modules. One of each node type makes up a single compute board. The CPM module hosts four Intel Ivy Bridge processors, 128GB system memory, and a single Intel Xeon Phi accelerator card with 8GB of its own memory. Each APU module adds five Xeon Phi cards to every compute board. The compute boards (a CPM module + a APU module) contain two NICs that connect the various compute boards with Inspur's custom THExpress2 high bandwidth interconnects. Finally, the Tianhe-2 supercomputer will have access to 12.4 Petabytes of storage that is shared across all of the compute boards.
In all, the Tianhe-2 is powered by 32,000 Intel Ivy Bridge processors, 1.024 Petabytes of system memory (not counting Phi dedicated memory--which would make the total 1.404 PB), and 48,000 Intel Xeon Phi MIC (Many Integrated Cores) cards. That is a total of 3,120,000 processor cores (though keep in mind that number is primarily made up of the relatively simple individual Phi cores as there are 57 cores to each Phi card).
Inspur claims up to 3.432 TFlops of peak compute performance per compute node (which, for simplicity they break down as one node is 2 Ivy Bridge chips, 64GB memory, and 3 Xeon Phi cards although the two compute modules that make up a node are not physically laid out that way) for a total theoretical potential compute power of 54,912 TFlops (or 54.912 Petaflops) across the entire supercomputer. In the latest Linpack benchmark run, researchers saw up to 63% efficiency in attaining peak performance -- 30.65 PFlops out of 49.19 PFlops peak/theoretical performance -- when only using 14,336 nodes with 50GB RAM each. Further testing and optimization should improve that number, and when all nodes are brought online the real world performance will naturally be higher than the current benchmarks. With that said, the Tianhe-2 is already besting Cray's TITAN, which is promising (though I hope Cray comes back next year and takes the crown again, heh).
In order to keep all of this hardware cool, Inspur is planning a custom liquid cooling system using chilled water. The Tianhe-2 will draw up to 17.6 MW of power under load. Once the liquid cooling system is implemented the supercomputer will draw 24MW while under load.
This is an impressive system, and an interesting take on a supercomputer architecture considering the rise in popularity of heterogeneous architectures that pair massive numbers of CPUs with graphics processing units (GPUs).
The Tianhe-2 supercomputer will be reconstructed at its permanent home at the National Supercomputer Center in Guangzhou, China once the testing phase is finished. It will be one of the top supercomputers in the world once it is fully online! HPC Wire has a nice article with slides an further details on the upcoming processing powerhouse that is worth a read if you are into this sort of HPC stuff.
Also read: Cray unveils the TITAN supercomputer.
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