“As displayed at ISC’14, DEEP combines a standard InfiniBand cluster of Intel Xeon nodes, with a new, highly scalable ‘booster’ consisting of Phi co-processors and a high-performance 3D torus network from Extoll, the German interconnect company spun out of the University of Heidelberg.”
In a quest to design synthetic microorganisms for alternate fuel sources, Howard Salis from Penn State leveraged AWS to bring supercomputing resources to scientists. “The DNA Compiler has fundamentally changed the way that genetic engineering takes place by providing a way to quantitatively control and optimize the expression of many proteins working together, instead of performing trial-and-error DNA mutagenesis.”
In this Sponsored Post from CoolIT we explore the many benefits liquid cooling offers to HPC and data center operators. For starters liquid cooling is about 3,500 times better at storing and transferring heat than air. Direct contact liquid cooling (DCLC) uses the exceptional thermal conductivity of liquid to provide dense, concentrated cooling to targeted areas. The many benefits of liquid cooling may surprise you.
Make sure you use Cloud services that are designed for HPC applications including high-bandwidth, low-latency networking, exclusive node use, and high performance compute/storage capabilities for your application set. Develop a very flexible and quick Cloud provisioning scheme that mirrors your local systems as much as possible, and is integrated with the existing workload manager. An ideal solution is where your existing cluster can be seamlessly extended into the Cloud and managed/monitored in the same way as local clusters. Read more from the insideHPC Guide to Managing HPC Clusters.
“We all have our objectives for scalability. It may mean hundreds, thousands, or millions of cores to you. But spare a thought for the software teams. We need developers and application analysts in order to scale on that new machine. Do we expect only optimization? In reality, there is a necessary step before this: debugging. What should every application developer know about debugging at scale?”
In this video from the OpenFabrics International Developer Workshop 2014, SETI@home co-founder Dan Werthimer presents: Petaflop Radio Astronomy Signal Processing and the CASPER Collaboration. As a bellwether for exascale, radio astronomy projects like CASPER and the SKA telescope are pushing the limits of high performance computing.
External aerodynamics analysis plays a key role in modern automotive design. But while performance can be tested in physical wind tunnels, doing so is extremely costly — and often numerous test runs are required to determine the changes needed to improve results. Virtual wind tunnel simulations provide an alternative by allowing design engineers to study aerodynamic loads – reducing the need for physical wind tunnel testing.