The NSF has awarded $300K to NCSA to examine effective practices in industrial HPC. Led by Principal Investigator Merle Giles, the project will identify, document, and analyze effective practices in establishing public-private partnerships between High Performance Computing (HPC) centers and industry. With the market analysis firm IDC, the project will conduct a worldwide in-depth survey of 70-80 example partnerships of HPC centers of various sizes, in the US and elsewhere, that have been involved in partnerships with the private-sector.
Application deadlines are fast approaching for the Blue Waters Graduate Program and the International Summer School on HPC Challenges in Computational Sciences.
National Center for Supercomputing Applications (NCSA) has a private sector program (PSP) which works with the smaller companies to help them adopt HPC technologies based on the expertise acquired over the past quarter century. By working with these organizations, NCSA can help them to determine the Return on Investment (ROI) of using more computing power to solve real world problems than is possible on smaller, less capable systems.
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.”
NCSA is now accepting applications for the Blue Waters Graduate Program. This unique program lets graduate students from across the country immerse themselves in a year of focused high-performance computing and data-intensive research using the Blue Waters supercomputer to accelerate their research.
Does your research generate, analyze, and/or visualize data using advanced digital resources? In its recent Call for Participation, the CADENS project is looking for scientific data to visualize or existing data visualizations to weave into larger documentary narratives in a series of fulldome digital films and TV programs aimed at broad public audiences. Visualizations of your work could reach millions of people, amplifying its greater societal impacts!
Video: NCSA’s Ed Seidel Testifies on the Networking and Information Technology Research and Development Program
In the video, Ed Seidel from NSCA testifies at a House hearing on the Networking and Information Technology Research and Development (NITRD) Program. NITRD provides a framework in which many Federal agencies come together to coordinate their networking and information technology (IT) research and development (R&D) efforts.
In this video (with transcript) from the 2015 HPC User Forum in Broomfield, Bob Sorenson from IDC moderates a User Agency panel discussion on the NSCI initiative. “You all have seen that usable statement inside the NSCI, and we are all about trying to figure out how to make usable machines. That is a key critical component as far, as we’re concerned. But the thing that I think we’re really seeing, we talked about the fact that a single thread performance is not increasing, and so what we’re doing is we’re simply increasing the parallelism and then the physics limitations, if you will, of how you cool and distribute power among the parts that are there. That really is leading to a paradigm shift from something that’s based on how fast you can crunch the numbers to how fast you can feed the chips with data. It’s really that paradigm shift, I think, more than anything else that’s really going to change the way that we have to do our computing.”
Today Cray announced a world record by scaling ANSYS Fluent to 129,000 compute cores. “Less than a year ago, ANSYS announced Fluent had scaled to 36,000 cores with the help of NCSA. While the nearly 4x increase over the previous record is significant, it tells only part of the story. ANSYS has broadened the scope of simulations allowing for applicability to a much broader set of real-world problems and products than any other company offers.”
In this video from the AIAA Aviation Conference 2015, panelists discuss Supercomputing: Roadmap and its Future Role in Aerospace Engineering. “Supercomputing has made significant contributions in aerospace engineering in recent decades, including advances in computational fluid dynamics that has fundamentally altered the way aircraft are designed. And the relentless growth in high-performance computing power holds promise of huge leaps in engine performance and other aerospace technology.”