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In Search Of: A Quantum Leap in Processors

The fastest supercomputers are built with the fastest microprocessor chips, which in turn are built upon the fastest switching technology. But, even the best semiconductors are reaching their limits as more is demanded of them. In the closing months of this year, came news of several developments that could break through silicon’s performance barrier and herald an age of smaller, faster, lower-power chips. It is possible that they could be commercially viable in the next few years.

China Develops Darwin Neuromorphic Chip

Researchers from Zhejiang University and Hangzhou Dianzi University in China have developed the Darwin Neural Processing Unit (NPU), a neuromorphic hardware co-processor based on Spiking Neural Networks, fabricated by standard CMOS technology. “Its potential applications include intelligent hardware systems, robotics, brain-computer interfaces, and others. Since it uses spikes for information processing and transmission, similar to biological neural networks, it may be suitable for analysis and processing of biological spiking neural signals, and building brain-computer interface systems by interfacing with animal or human brains.”

Video: IBM Panel Discussion on Machine Learning

In this video, Dr. Michael Karasick from IBM moderates a panel discussion on Machine Learning. “The success of cognitive computing will not be measured by Turing tests or a computer’s ability to mimic humans. It will be measured in more practical ways, like return on investment, new market opportunities, diseases cured and lives saved.”

Call for Papers: EMiT 2016 Emerging Technologies Conference

The EMiT 2016 Emerging Technologies Conference has issued its Call for Papers. Hosted by the Mont-Blanc project and the Barcelona Supercomputing Centre, the event takes place June 2-3, 2016 in Barcelona.

Is HPC Heading Towards Openness, Chaos, or a Split?

“To be successful in high-performance computing (HPC) today, it is no longer enough to sell good hardware: vendors need to develop an ‘ecosystem’ in which other hardware companies use their products and components; in which system administrators are familiar with their processors and architectures; and in which developers are trained and eager to write code both for the efficient use of the system and for end-user applications. No one company, not even Intel or IBM, can achieve all of this by itself anymore.”

Video: Dell Panel Discussion on the NSCI initiative from SC15

In this video from SC15, Rich Brueckner from insideHPC moderates a panel discussion on the NSCI initiative. “As a coordinated research, development, and deployment strategy, NSCI will draw on the strengths of departments and agencies to move the Federal government into a position that sharpens, develops, and streamlines a wide range of new 21st century applications. It is designed to advance core technologies to solve difficult computational problems and foster increased use of the new capabilities in the public and private sectors.”

Los Alamos Orders D-Wave 2X Quantum Computer

Today D-Wave Systems announced that Los Alamos National Laboratory will acquire and install the latest D-Wave quantum computer, the 1000+ qubit D-Wave 2X system. Los Alamos, a multidisciplinary research institution engaged in strategic science on behalf of national security, will lead a collaboration within the Department of Energy and with select university partners to explore the capabilities and applications of quantum annealing technology, consistent with the goals of the government-wide National Strategic Computing Initiative.

With APEX, National Labs Collaborate to Develop Next-Gen Supercomputers

Today Los Alamos, Lawrence Berkeley, and Sandia national laboratories announced the Alliance for Application Performance at Extreme Scale (APEX). The new collaboration will focus on the design, acquisition and deployment of future advanced technology high performance computing systems.

DEEP Project Unveils 500 Teraflop Prototype

The EU-funded DEEP Project has unveiled their innovative HPC platform: a 500 TFlop/s prototype system that implements a Cluster-Booster concept that has a lot in common with a turbocharged engine. The prototype operates with a full system software stack and programming environment engineered for performance and ease of use.

Paving the Road to Exascale with Co-Design Architecture

In this special guest feature from the Print’n Fly Guide to SC15 in Austin, Scot Schultz from Mellanox writes that a new era of Co-Design will pave the way to Exascale. “Exascale computing will undoubtedly include three primary concepts: heterogeneous systems, direct communication through a more sophisticated intelligent network, and backward/forward compatibility. Co-Design includes these concepts in order to create an evolutionary architectural approach that will enable Exascale-class systems.”