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.”
In this this lively panel discussion from ISC 2016, moderator Addison Snell asks visionary leaders from the supercomputing community to comment on forward-looking trends that will shape the industry this year and beyond.
“Organizations who are currently employing high performance computing to advance their competitiveness and innovation in the global marketplace can highlight their compelling/interesting/novel real-world applications at SC16’s HPC Impact Showcase. The Showcase is designed to introduce attendees to the many ways that HPC matters in our world, through testimonials from companies large and small. Rather than a technical deep dive of how they are using or managing their HPC environments, their stories are meant to tell how their companies are adopting and embracing HPC as well as how it is improving their businesses. Last year’s line-up included presentations on topics from battling ebola to designing at Rolls-Royce. It is not meant for marketing presentations. Whether you are new to HPC or a long-time professional, you are sure to learn something new and exciting in the HPC Impact Showcase.”
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, Addison Snell from Intersect360 Research shares how HPC can unlock innovations for a competitive advantage. “Dell HPC solutions are deployed across the globe as the computational foundation for industrial, academic and governmental research critical to scientific advancement and economic and global competitiveness. With the richness of the Dell enterprise portfolio, HPC customers are increasingly relying on Dell HPC experts to provide integrated, turnkey solutions and services resulting in enhanced performance, reliability and simplicity. Customers benefit by engaging with Dell as a single source for total solution design, delivery and ongoing support.”
Today Mellanox announced a joint technology collaboration with Pacific Northwest National Laboratory (PNNL) to architect, design and explore technologies for future Exascale platforms. The agreement will explore the advanced capabilities of Mellanox interconnect technology while focusing on a new generation of in-network computing architecture and the laboratory application requirements. This collaboration will also enable the DOE lab, through its Center for Advanced Technology Evaluation (CENATE), and Mellanox to effectively explore new software and hardware synergies that can drive high performance computing to the next level.
At ISC 2016 this week, SGI announced that Total’s SGI ICE X supercomputer, Pangea, was recognized as the industry’s top commercial supercomputer in the prestigious TOP500 list. “Our SGI ICE XA systems lead in delivering application performance in both homogeneous systems and hybrid systems with CPUs and accelerators,” said Gabriel Broner, vice president and general manager, high-performance computing at SGI. “Our production supercomputers continue to enable our customers to innovate and lead in their field, and occupy prominent positions in the prestigious TOP500 list.”
Penguin Computing, a provider of high performance, enterprise data center and cloud solutions, announced its transition from pre-production deployments last year of systems based on the Intel Xeon Phi processor to full production for Penguin’s Tundra product family. “We received early access to the Intel Xeon Phi processor through Penguin Computing and its OCP-based Tundra Extreme Scale (ES) Series,” said James Laros, Principal Member of Technical Staff, Sandia National Laboratories. “We are seeing very promising results to date.”