“The SUSE and Intel collaboration on Intel HPC Orchestrator and OpenHPC puts this power within reach of a whole new range of industries and enterprises that need data-driven insights to compete and advance. This is an industry-changing approach that will rapidly accelerate HPC innovation and advance the state of the art in a way that creates real-world benefits for our customers and partners.”
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.”
“Our latest product enhancements will solidify our customers’ investment in the next generation Intel Xeon Phi processor,” said Mark O’Connor, VP Product Management at Allinea. “Knights Landing’ has the potential to unleash new capabilities for HPC code users and our new release brings a powerful debugger, profiler and performance reports for tackling the essential preparatory work needed to optimize legacy code and realize the processor’s true potential for reducing software run times.”
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.”
“Tasks keep the CPUs busy. When a core is working, rather than waiting for work to be sent to it, the application progresses towards it conclusion. A caveat to all of this is to remember that tasking and threading models remain on the system it was created on. Tasks that use a shared memory space only work within the shared memory segment that the processing cores can get to. Shared memory on the CPU side of the system is separate from the shared memory on the coprocessor. The threads created will remain on the part of the system where it started.”
In this video from ISC 2016, Barry Davis from Intel describes the company’s brand new Intel Xeon Phi Processor and how it fits into the Intel Scalable System Framework. “Eliminate node bottlenecks, simplify your code modernization and build on a power-efficient architecture with the Intel Xeon Phi™ processor, a foundational element of Intel Scalable System Framework. The bootable host processor offers an integrated architecture for powerful, highly parallel performance that will pave your path to deeper insight, innovation and impact for today’s most-demanding High Performance Computing applications, including Machine Learning. Supported by a comprehensive technology roadmap and robust ecosystem, the Intel Xeon Phi processor is a future-ready solution that maximizes your return on investment by using open standards code that are flexible, portable and reusable.”
The SGI Management Suite’s system health monitoring and management capability collects health status information on fundamental system’s functions such as memory, CPU and power. It identifies changes that require action, automatically alerts the system administrator, and provides proactive solutions to correct the problem.
In this video from ISC 2016, Figen Ulgen from Intel describes the new Intel HPC Orchestrator. “Intel HPC Orchestrator simplifies the installation, management and ongoing maintenance of a high-performance computing system by reducing the amount of integration and validation effort required for the HPC system software stack. Intel HPC Orchestrator can help accelerate your time to results and value in your HPC initiatives. With Intel HPC Orchestrator, based on the OpenHPC system software stack, you can take advantage of the innovation driven by the open source community – while also getting peace of mind from Intel support across the stack.”
Today Allinea Software announced that the Joint Center for Advanced High Performance Computing (JCAHPC) in Japan will use the Allinea DDT debugger for its new supercomputer. Coming online in December 2016, the new supercomputer, known as Oakforest-PACS, will be the fastest supercomputer system in Japan with 25 PFLOPS on Intel’s Xeon Phi (Knights Landing) manycore processors and the Omni-Path architecture.
Today at ISC 2016, ASRock Rack has rolled out a new 2U server based on the brand new Intel Xeon Phi processor. “The 2U4N-F/X200 from ASrock Rack has four computing nodes in 2U form factor. Using 14nm technology, its Intel Xeon Phi X200 processor has 72 cores. With the ability integrate with fabrics based on Omni-path architecture, the server delivers high bandwidth for maximal scalability.”