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The Australian National Informatics Infrastructure (NCI) has received a new supercomputer that will deliver performance 10 times faster than the model replaced by the new system.
Gadi, which means "search" in the Ngunnawal language, the traditional owners of the Canberra region, will be hosted at the Australian National University (ANU).
The new supercomputer, provided by Fujitsu, is expected to be operational in November.
Fujitsu said the new system had been specifically designed for the NCI from a technology sourced from Fujitsu and other vendors.
With more than 35,000 registered researchers, the NCI is officially collaborating with ANU, the Commonwealth Scientific and Industrial Research Organization (CSIRO), the Australian Bureau of Meteorology (BOM) and Geoscience Australia, as well as by through partnerships with many research-intensive universities supported by the Australian Research Council.
See also: In Pictures: The 25 fastest supercomputers in the world (TechRepublic)
Gadi will replace Raijin, which was also provided by Fujitsu in 2012.
The upgrade follows $ 70 million Australian Government funding as part of the National Collaborative Research Infrastructure (NCRIS) Strategy announced in December 2017.
Raijin, whose NCI has already boasted about being the most powerful supercomputer in the southern hemisphere valued at 1.67 petaflops, has been upgraded with four IBM Power System servers purchased in December. 2016. It will now be decommissioned.
Gadi has 3,200 nodes, Fujitsu Primergy CX2570 M5 servers and will include Intel Xeon Platinum second generation processors, Intel Optane DC persistent memory and Nvidia V100 GPUs to accelerate deep learning and inference.
Fujitsu said the new supercomputer will use Fujitsu and Lenovo Neptune liquid direct cooling technologies with hot water, allowing high-density computing.
The underlying storage subsystems will be provided by high-performance NetApp storage arrays, bundled into a parallel Laminate DDN file system. The interconnect network is architected using Mellanox HDR InfiniBand technology in a Dragonfly + topology, which, according to Fujitsu, is capable of transferring data at 200 GB per second.
"The NCI plays a central role in the national research landscape and the supercomputer is the centerpiece of this important work.Investing in Australian research is an investment in our future.The modernization of this critical infrastructure will allow the company to invest in the future. Australia to continue to play a leading role in addressing some of our biggest global challenges, "said Professor Brian Schmidt, Vice Chancellor of UNA.
"This new machine will keep Australian research and the 5,000 researchers who use it at the forefront, it will help us be smarter with our mbadive data, which will add even more power to the considerable brains that are already exploiting the NCI. . "
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