“We are pioneering the area of virtualized clusters, specifically with SR-IOV,” said Philip Papadopoulos, SDSC’s chief technical officer. “This will allow virtual sub-clusters to run applications over InfiniBand at near-native speeds – and that marks a huge step forward in HPC virtualization. In fact, a key part of this is virtualization for customized software stacks, which will lower the entry barrier for a wide range of researchers by letting them project an environment they already know onto Comet.”
The first Joint International Workshop on Parallel Data Storage and Data Intensive Scalable Computing Systems (PDSW-DISCS’16) has issued its Call for Papers. As a one day event held in conjunction with SC16, the workshop will combine two overlapping communities to to address some of the most critical challenges for scientific data storage, management, devices, and processing infrastructure. To learn more, we caught up with workshop co-chairs Dean Hildebrand (IBM) and Shane Canon (LBNL).
IDC has published the preliminary agenda for their next HPC User Forum. The event will take place Sept. 6-8 in Austin, Texas.
ARM processors will provide the computational muscle behind one of the most powerful supercomputers in the world, replacing the current K computer at the RIKEN Advanced Institute for Computational Science (AICS) in Japan. During the ISC conference, Fujitsu released details of the new system during a presentation with Fujitsu vice president Toshiyuki Shimizu. Shimizu stated that the “post K” system, which is set to go live in 2020, will have 100 times more application performance than the K supercomputer.
In this video from ISC 2016, Greg Schmidt from Hewlett Packard Enterprise describes the new Apollo 6500 server. With up to eight high performance NVIDIA GPUs designed for maximum transfer bandwidth, the HPE Apollo 6500 is purpose-built for HPC and deep learning applications. Its high ratio of GPUs to CPUs, dense 4U form factor and efficient design enable organizations to run deep learning recommendation algorithms faster and more efficiently, significantly reducing model training time and accelerating the delivery of real-time results, all while controlling costs.
Cloud computing is growing and replacing many data centers for High Performance Computing (HPC) applications. However, the movement towards using a cloud infrastructure is not without challenges. This whitepaper discusses many of the challenges in moving from an on-premise HPC solution to using an HPC Cloud Solution.
In this video, Steven Pawson discussed how NASA uses computer models to build up a complete three-dimensional picture of El Niño in the ocean and atmosphere. Pawson is an atmospheric scientist and the chief of the Global Modeling and Assimilation Office at NASA’s Goddard Space Flight Center in Greenbelt, Maryland.
The Intel HPC Developer Conference has issued its Call for Proposals. Held in conjunction with SC16, the event takes place Nov. 12-13 in Salt Lake City.
NASA Ames reports that SGI has completed an important upgrade to Pleiades supercomputer. “As of July 1, 2016, all of the remaining racks of Intel Xeon X5670 (Westmere) processors were removed from Pleiades to make room for an additional 14 Intel Xeon E5-2680v4 (Broadwell) racks, doubling the number of Broadwell nodes to 2,016 and increasing the system’s theoretical peak performance to 7.25 petaflops. Pleiades now has a total of 246,048 CPU cores across 161 racks containing four different Intel Xeon processor types, and provides users with more than 900 terabytes of memory.”
Today SGI announced Zero Watt Storage, a powerful extension to its SGI DMF data management platform designed to meet growing customer demands for managing critical data. This solution was developed by SGI to offer its DMF customers fast, disk-based access to their near line data that significantly outperforms cloud storage in terms of costs and access speed up to 5X.