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Video: Optimizing Applications for the CORI Supercomputer at NERSC

In this video from SC15, NERSC shares its experience on optimizing applications to run on the new Intel Xeon Phi processors (code name Knights Landing) that will empower the Cori supercomputer by the summer of 2016. “A key goal of the Cori Phase 1 system is to support the increasingly data-intensive computing needs of NERSC users. Toward this end, Phase 1 of Cori will feature more than 1,400 Intel Haswell compute nodes, each with 128 gigabytes of memory per node. The system will provide about the same sustained application performance as NERSC’s Hopper system, which will be retired later this year. The Cori interconnect will have a dragonfly topology based on the Aries interconnect, identical to NERSC’s Edison system.”

Creating an Exascale Ecosystem Under the NSCI Banner

“We expect NCSI to run for the next two decades. It’s a bit audacious to start a 20 year project in the last 18 months of an administration, but one of the things that gives us momentum is that we are not starting from a clean sheet of paper. There are many government agencies already involved and what we’re really doing is increasing their coordination and collaboration. Also we will be working very hard over the next 18 months to build momentum and establish new working relationships with academia and industry.”

UW Projects Awarded 42 Million Core Hours on Yellowstone Supercomputer

“A new supercomputer, dubbed Cheyenne, is expected to be operational at the beginning of 2017. The new high-performance computer will be a 5.34-petaflop system, meaning it can carry out 5.34 quadrillion calculations per second. It will be capable of more than 2.5 times the amount of scientific computing performed by Yellowstone.”

OSC to Deploy New Dell Supercomputer in Ohio

Today the Ohio Supercomputer Center (OSC) announced plans to boost scientific and industrial discovery and innovation with a powerful new supercomputer from Dell. To be deployed later this year, the new system is part of a $9.7 million investment that received approval from the State Controlling Board in January.

ExaNeSt European Consortium to Develop Exascale Architecture

In this special guest feature, Robert Roe from Scientific Computing World reports that a new Exascale computing architecture using ARM processors is being developed by a European consortium of hardware and software providers, research centers, and industry partners. Funded by the European Union’s Horizon2020 research program, a full prototype of the new system is expected to be ready by 2018.

Video: Theta & Aurora – Big Systems for Big Science

“Aurora’s revolutionary architecture features Intel’s HPC scalable system framework and 2nd generation Intel Omni-Path Fabric. The system will have a combined total of over 8 Petabytes of on package high bandwidth memory and persistent memory, connected and communicating via a high-performance system fabric to achieve landmark throughput. The nodes will be linked to a dedicated burst buffer and a high-performance parallel storage solution. A second system, named Theta, will be delivered in 2016. Theta will be based on Intel’s second-generation Xeon Phi processor and will serve as an early production system for the ALCF.”

2016 OpenPOWER Summit Announces Speaker Agenda

Today, the OpenPOWER Foundation announced the lineup of speakers for the OpenPOWER Summit 2016, taking place April 5-8 at NVIDIA’s GPU Technology Conference (GTC) at the San Jose Convention Center. The Summit will bring together dozens of technology leaders from the OpenPOWER Foundation to showcase the latest advancements in the OpenPOWER ecosystem, including collaborative hardware, software and application developments – all designed to revolutionize the data center.

Video: Supercomputing at the University of Buffalo

In this WGRZ video, researchers describe supercomputing at the Center for Computational Research at the University of Buffalo. “The Center’s extensive computing facilities, which are housed in a state-of-the-art 4000 sq ft machine room, include a generally accessible (to all UB researchers) Linux cluster with more than 8000 processor cores and QDR Infiniband, a subset (32) of which contain (64) NVidia Tesla M2050 “Fermi” graphics processing units (GPUs).”

SURFsara in the Netherlands Upgrades Bull Supercomputer to 1.8 Petaflops

Today SURFsara in the Netherlands announced it will expand the capacity of their Cartesius national supercomputer in the second half of 2016. With an upgrade to 1.8 Petaflops, the Bull sequana system will enable researchers to work on more complex models for climate research, water management, improving medical treatment, research into clean energy, noise reduction and product and process optimization.

HPE to Deliver SGI UV Technology for Mission Critical Solutions

Today, SGI and Hewlett Packard Enterprise announced an agreement in which HPE will OEM the SGI UV technology as the foundation for an 8-socket system – the HPE Integrity MC990 X Server. Extending HPE’s solution portfolio for mission critical environments, including HPE’s flagship mission critical solution Superdome X, the new system leverages the scale-up architecture of the SGI UV technology and provides HPE customers with an advanced follow on solution to the 8-socket HPE ProLiant DL980 G7 Server. Through this partnership with SGI, HPE will address time-to-market demands while meeting the performance, scalability and availability requirements of enterprise customers.