hotchipsThe Hot Chips 2016 conference has issues its Call for Proposals. The event takes place August 21-23 in Cupertino, California. “Presentations at HOT CHIPS are in the form of 30 minute talks using PowerPoint or PDF. Presentation slides will be published in the HOT CHIPS Proceedings. Participants are not required to submit written papers, but a select group will be invited to submit a paper for inclusion in a special issue of IEEE Micro.”
If the current set of Presidential candidates has you down, the Watson for President Foundation may just have an answer for you. As an independent organization not affiliated with Watson’s creator, IBM, the foundation contends that the artificial intelligence technology that won Jeopardy! would be well-suited to be the leader of the free world.
In this video from the 2015 Hot Chips Conference, Mike Hutton from Altera presents: Stratix 10 Altera’s 14nm FPGA Targeting 1GHz Performance. “Stratix 10 FPGAs and SoCs deliver breakthrough advantages in performance, power efficiency, density, and system integration: advantages that are unmatched in the industry. Featuring the revolutionary HyperFlex core fabric architecture and built on the Intel 14 nm Tri-Gate process, Stratix 10 devices deliver 2X core performance gains over previous-generation, high-performance FPGAs with up to 70% lower power.”
IDC has published the agenda for their next HPC User Forum. The event will take place April 11-13 in Tucson, AZ. “Don’t miss the chance to hear top experts on these high-innovation, high-growth areas of the HPC market. At this meeting, you’ll also hear about government initiatives to get ready for future-generation supercomputers, machine learning, and High Performance Data Analytics.”
Today Auburn University unveiled its new $1 million supercomputer that will enhance research across campus, from microscopic gene sequencing to huge engineering tasks. The university is also initiating a plan to purchase a new one every few years as research needs evolve and expand.
“Because the silverfly species are identical to look at, the best way to distinguish them is by examining their genetic difference, so we are deploying a mix of genomics, supercomputing, and evolutionary history. This knowledge will help African farmers and scientists distinguish between the harmless and the invasive ones, develop management strategies, and breed new whitefly-resistant strains of cassava. The computational challenge for our team is in processing the genomic data the sequencing machines produce.”
Today the Pittsburgh Supercomputing Center (PSC) announced a $1.8-million National Institutes of Health grant to make the next-generation Anton 2 supercomputer developed by D. E. Shaw Research (DESRES) available to the biomedical research community. A specialized system for modeling the function and dynamics of biomolecules, the Anton 2 machine at PSC will be the only one of its kind publicly available to U.S. scientists. The grant also extends the operation of the Anton 1 supercomputer currently at PSC until the new Anton 2 is deployed, expected in the Fall of 2016.
Today Atos announced that the French CEA and its industrial partners at the Centre for Computing Research and Technology, CCRT, have invested in a new 1.4 petaflop Bull supercomputer. “Three times more powerful than the current computer at CCRT, the new system will be installed in the CEA’s Very Large Computing Centre in Bruyères-le-Châtel, France, mid-2016 to cover expanding industrial needs. Named COBALT, the new Intel Xeon-based supercomputer will be powered by over 32,000 compute cores and storage capacity of 2.5 Petabytes with a throughput of 60 GB/s.”
This week, the Argonne Leadership Computing Facility (ALCF) turns one decade old. ALCF is home to Mira, the world’s fifth-fastest supercomputer, along with teams of experts that help researchers from all over the world perform complex simulations and calculations in almost every branch of science. To celebrate its 10th anniversary, Argonne is highlighting 10 accomplishments since the facility opened its doors.
In this video from the 2015 Hot Chips Conference, Charles Zhang from Phytium presents: Mars – A 64-Core ARMv8 Processor. Formed in China in 2012, Phytium is a unique technology provider of HPC servers, focusing mainly on high performance general microprocessor, accelerator chip, reference board design and various servers design from blade, cluster, standard stack to HPC Server. “Optimized for HPC, the Mars chip features eight panels, each with eight “Xiaomi” cores. The panels share an L2 cache of 32 MB, two Directory Control Units and a routing cell for the internal mesh.”