Intel Corp. has selected CoolIT Systems, to liquid cool a high performance compute cluster that showcased Intel’s latest technology at SuperCompute 13 trade-show. The impressive cluster features 9936 x86 cores reaching 131.2 Teraflops.
Intel’s demonstration cluster proves that readily available hardware can compete in a space that was once reserved for only the most specialized supercomputer hardware manufacturers. The impressive cluster features 9,936 cores reaching 131.2TFLOPS ranking this system 400th on the Top500 list of Supercomputers in the world as announced today. The system only consumed a total of 74.25kW of power. Each SuperMicro FatTwin node features dual Intel Xeon processors and three Intel Xeon Phi coprocessors resulting in over a kilowatt of heat per node for CoolIT to manage.
"Integrating CoolIT’s Rack DCLC technology into our demonstration cluster allows us to showcase the capabilities of an Intel Xeon Processor and Intel Xeon Phi coprocessor based supercomputer live on a trade show floor. Working with CoolIT Systems to integrate their innovative liquid cooling solution was critical to deploying the cluster, even in an environment that doesn’t have the cooling capabilities of a data center," said Joe Curley, director of marketing for Intel’s technical computing group.
CoolIT’s Rack DCLC AHx solution is a rack-based liquid cooling solution that enables high-performance and high-density clusters anywhere, without the requirement for facility liquid to be plumbed to the rack. The AHx configuration consists of a cooling liquid network that is mounted directly onto the processors of the super-computer. This system allows the processor heat to be directly absorbed into circulating liquid, which then efficiently transports the heat to a liquid-to-air heat exchanger mounted on the top of the rack. This stand-alone rack solution is modular and is compatible with any rack-computing set-up, enabling ultra-high density clusters to be deployed quickly and easily without the complexity of integrating with facility liquid or chiller systems. The system is configured with all metal, Stäubli dry-break quick release couplings allowing for reliable and convenient servicing of the individual node modules without the need for a service technician. Once deployed, the cooling system can be directly monitored with the touch screen interface, or remotely through standard networking interfaces.
“Intel continues to impress with every new development in processor technology. This demonstration system really showcases an economical supercomputer that achieves world-class performance at truly impressive power efficiency. It is one thing to build a 131 Teraflop Top-500 heterogeneous cluster, it’s another thing to have it running in two stand-alone racks on a trade show floor, peaking at under 75kW of power. The advantages of liquid cooling are now becoming a practical and economical option for today’s datacenter,” said Geoff Lyon, chief executive officer and CTO of CoolIT Systems.