In this video from ISC 2016 in Frankfurt, Gilad Shainer from the HPC Advisory Council hosts the Student Cluster Awards Ceremony. “The overall winning team this year was from CHPC in South Africa. As repeat winners, CHPC is establishing a bit of dynasty in this competition that is really fun to watch.”
This whitepaper is an excellent summary of how a next generation platform can be developed to bring a wide range of data to life, giving users the ability to take action when needed. Organizations that need to deal with massive amounts of data but are having challenges figuring out how to make sense of all of the data should read this whitepaper.
In this video from ISC 2016, Bob Wisniewski from Intel provides an update on OpenHPC community activities. “OpenHPC is a collaborative, community effort that initiated from a desire to aggregate a number of common ingredients required to deploy and manage High Performance Computing (HPC) Linux clusters including provisioning tools, resource management, I/O clients, development tools, and a variety of scientific libraries. Packages provided by OpenHPC have been pre-built with HPC integration in mind with a goal to provide re-usable building blocks for the HPC community. Over time, the community also plans to identify and develop abstraction interfaces between key components to further enhance modularity and interchangeability.”
Today DDN announced it has increased its leadership as the dominant storage provider of the world’s fastest supercomputers for the eighth consecutive year with storage solutions that power more than 70 percent of identifiable sites on the most recent TOP500 list. To learn more, we caught up with the company’s Chief Marketing Officer, Molly Rector. “We’ve led the TOP500 list for eight consecutive years and continue to increase our leadership margin – most recently boosting our presence to an unprecedented 70% of the identifiable largest supercomputing sites worldwide.”
In this special guest feature, Jane Glasser writes that Saudi Arabia has moved into the global supercomputing top ten with Shaheen II, a 200,000-core behemoth that’s taming global warming, earthquakes, and more. “With 5.536 Pflops of sustained LINPACK performance, Shaheen II is the largest and most powerful supercomputer in the Middle East and the tenth fastest supercomputer in the world, according to the June 2016 TOP500 list.”
In this video from ISC 2016, Kirti Devi from Intel describes the new Intel Developer Platform for the Intel Xeon Phi processor. “With this program, Intel and its partner Colfax are widening early levels of access, support and training for the widely anticipated next-generation Intel Xeon Phi processor release. The Developer Access Program gives developers the opportunity to begin leveraging key new capabilities in the processor before they are generally available. That means developers will have time to work to parallelize and vectorize their code and look for opportunities to exploit the massive performance capabilities that KNL offers so workloads are ready for prime time when customers deploy their next-generation systems.”
Today Mellanox announced that the company’s interconnect technology accelerates the world’s fastest supercomputer at the supercomputing center in Wuxi, China. The new number one supercomputer delivers 93 Petaflops (3 times higher compared to the previous top system), connecting nearly 41 thousand nodes and more than ten million CPU cores. The offloading architecture of the Mellanox interconnect solution is the key to providing world leading performance, scalability and efficiency, connecting the highest number of nodes and CPU cores within a single supercomputer.
In this video from ISC 2016, Olivier de Laet from Calyos describes the company’s innovative cooling technology for high performance computing. “The HPC industry is ever facing is facing the challenge of ever-increasing cooling requirements. While liquid cooling cooling looks to be the best solution, what if you could achieve the same efficiencies without out using water and pumps? Enter Calytronics, cooling technology that is as simple as a heat pipe and as performant as liquid cooling.”
Organizations that implement high-performance computing technologies have a wide range of requirements. From small manufacturing suppliers to national research institutions, using significant computing technologies is critical to creating innovative products and leading-edge research. No two HPC installations are the same. “For maximum return, budget, software requirements, performance and customization all must be considered before installing and operating a successful environment.”
In this video from ISC 2016, Barry Davis from Intel describes the company’s brand new Intel Xeon Phi Processor and how it fits into the Intel Scalable System Framework. “Eliminate node bottlenecks, simplify your code modernization and build on a power-efficient architecture with the Intel Xeon Phi™ processor, a foundational element of Intel Scalable System Framework. The bootable host processor offers an integrated architecture for powerful, highly parallel performance that will pave your path to deeper insight, innovation and impact for today’s most-demanding High Performance Computing applications, including Machine Learning. Supported by a comprehensive technology roadmap and robust ecosystem, the Intel Xeon Phi processor is a future-ready solution that maximizes your return on investment by using open standards code that are flexible, portable and reusable.”