COLUMBUS, Ohio — The Ohio Supercomputer Center played a critical role in helping researchers reach a milestone mapping the growth of the universe from its infancy to present day.
The new results released Aug. 3 confirm the surprisingly simple but puzzling theory that the present universe is composed of only 4 percent ordinary matter, 26 percent mysterious dark matter, and the remaining 70 percent in the form of mysterious dark energy, which causes the accelerating expansion of the universe.
In 2017, 44.2 million Americans held student loan debt, totaling more than $1.4 trillion, according to the U.S. Federal Reserve.
Fifteen Ohio middle school girls were chosen to spend a week of their summer break investigating complex science problems while discovering career opportunities in the science, technology, engineering and mathematics (STEM) fields.
The Ohio Supercomputer Center recently displayed the power of its new Owens Cluster by running the single-largest scale calculation in the Center’s history.
Scientel IT Corp used 16,800 cores of the Owens Cluster on May 24 to test database software optimized to run on supercomputer systems. The seamless run created 1.25 Terabytes of synthetic data.
Twenty Ohio high school students were selected to attend the Ohio Supercomputer Center’s 28th annual Summer Institute, June 4-16 at The Ohio State University. These academically gifted students will investigate complex science and engineering problems while discovering the many career opportunities in science, technology, engineering and mathematics (STEM) fields.
Research using Ohio Supercomputer Center resources continues to break new ground, and OSC clients continue to gain more high performance computer power and a better experience.
Nearly 100 attendees gathered at the Ohio Technology Consortium building for the conference, which featured a keynote address from NVIDIA’s Jonathan Bentz, breakout sessions on a variety of topics and the ever-popular poster and flash talk competitions. Participants presented 24 posters and 10 flash talks with winners receiving 5,000 resource units of time on OSC systems while runners-up gained 2,500 resource units.
J.C. “Jesse” Owens possessed both elite speed and raw power, which he honed and blended on his way to winning four Olympic gold medals in 1936.
Those impressive traits—elite speed and raw power—now are shared by the newest and most powerful supercomputer in the history of the Ohio Supercomputer Center, a system which, appropriately, is named for the late Ohio-raised sprinter.
As part of the AweSim program, TotalSim USA has developed a computational fluid dynamics (CFD) app that allows college students on Formula SAE (Society of Automotive Engineers) teams to perform aerodynamics simulations on the Ohio Supercomputer Center and get wind tunnel-like data for development of their race cars. The app itself meshes geometry, configures solver settings, generates output visualizations and organizes results so students from such teams at The Ohio State University, the Univesity of Akron and Indiana University-Purdue University Indianapolis can focus on designing and improving their Formula SAE cars without being forced to become CFD experts.
COLUMBUS, Ohio (Oct. 15, 2016) – Emily A. Carter, Ph.D., will deliver the 2016 Russ Pitzer Symposium Lecture, speaking on “Sustainable Energy Phenomena from First Principles: From Fuel Cells to Fusion.”
More than ever, academic and manufacturing researchers from across Ohio are turning to the high performance computing power offered by the Ohio Supercomputer Center (OSC). On Thursday, an abundance of that research was on display at OSC’s semi-annual Statewide Users Group (SUG) meeting.
Attendees shared and gained insight into topics ranging from auto safety and dark matter to gene flow and a myriad of chemistry-related topics. They also heard two keynote addresses, and the competition portion of the meeting featured 27 posters and 12 flash talks.
