“HPC is transforming our everyday lives, as well as our not-so-ordinary ones. From nanomaterials to jet aircrafts, from medical treatments to disaster preparedness, and even the way we wash our clothes; the HPC community has transformed the world in multifaceted ways. For its 27th anniversary, the annual SC Conference will return to Austin, TX, a city that continues to develop new ways of engaging our senses and incubating technology of all types, including supercomputing.”
At Supercomputing 2014 in New Orleans, Altair announced key features for PBS Professional 13.0, scheduled to launch in Q1 2015. The new version will take scalability to the next level, with massive jumps in supported system size, job dispatch speed and throughput; users will also benefit from key resilience, flexibility and scheduling improvements.
High performance computing in the cloud just got a lot easier. Omnibond, the South Carolina-based company that provides development and support services for OrangeFS, has released CloudyCluster just in time for SC14. The new solution works in conjunction with OrangeFS to ease the burden of creating and maintaining a cloud-based HPC or Big Data infrastructure.
In this video, the Radio Free HPC team meets at SC14 in New Orleans to discuss the recent news that Nvidia & IBM will build two Coral 150+ Petaflop Supercomputers in 2017 for Lawrence Livermore and Oak Ridge National Laboratories. The two machines will feature IBM POWER9 processors coupled with Nvidia’s future Volta GPU technology. NVLink will be a critical piece of the architecture as well, along with a system interconnect powered by Mellanox.
The doors will soon open, the curtains will rise – and what really #HPCMatters will shine in the floodlights of New Orleans. It will be the applications of HPC that define this SC conference – where the life/business/world-impacting results are found. Applications are the sharp end of the mission. But who or what lies behind application successes?
As the countdown to Exascale continues, Exascale-like storage problems are already showing up in today’s massively parallel, heterogeneous HPC systems. Historically, storage and I/O have kept pace with growing system demands, but, because of the limitations of spinning media and the cost of solid state storage technologies, storage performance improvements have come at a disproportionately higher cost and lower efficiency than their compute counterparts.