Two outreach efforts of the OLCF have been recognized for excellence and quality.
Read More
OLCF’s Tjerk Straatsma, recently announced the 13 projects selected for OLCF’s Center for Accelerated Application Readiness (CAAR) Program during the International Data Corporation’s (IDC’s) High-Performance Computing (HPC) User Forum in Norfolk, Virginia lat month.
Read More
Recently, internationally known atmospheric scientist Susan Solomon paid a visit to the Oak Ridge Leadership Computing Facility.
Read More
A new data quality assurance tool developed by the Technology Integration Group at the OLCF will help protect that data by validating the integrity of the High Performance Storage System (HPSS) archive.
Read More
James Hack, Director of ORNL’s National Center for Computational Sciences, was the first plenary speaker at at “Living in the Anthropocene: Prospects for Climate, Economics, Health and Security,” a one-day symposium sponsored by Smithsonian’s Grand Challenges Consortia.
Read More
OLCF’s Ramanan Sankaran will be working with two researchers from the KAUST Clean Combustion Research Center to study the causes of engine knock.
Read More
Balint Joo, from Jefferson Lab, is the chair of OLCF’s new user group and executive board. Mike Zingale from Stony Brook University is the vice chair.
Read More
When the Oak Ridge Leadership Computing Facility replaced its Jaguar supercomputer with Titan, not only did it expand its computing speed tenfold, it also saved on the electric bill.
Read More
The Joint Facilities User Forum on Data-Intensive Computing brought together users and HPC center staff to discuss approaches to handling data, best practices, and the future of data-driven scientific discovery.
Read More
Three industry-related visualizations, created at the Oak Ridge Leadership Computing Facility, were highlighted at the fourth annual National User Facility Organization (NUFO) science expo and reception.
Read More
Titan’s stability translates into an improved experience for Titan users. Fewer unscheduled outages and node failures reduce job interruptions, allowing jobs to run to completion with fewer restarts.
Read More