In February, NASA announced it would move forward with its Wide Field Infrared Survey Telescope (WFIRST) mission, which will study a broad set of scientific investigations. For the past five years, researchers from Ohio State, whose own research has been buoyed by the Ohio Supercomputer Center, have been on NASA’s Science Definition Team for the preliminary study of WFIRST, set to launch in the mid-2020s. Find out how OSC is supporting this historic research and what it could mean for the future of space exploration.
The Ohio Supercomputer Center has been selected as an Intel® Parallel Computing Center. As part of the the Intel® PCC program, the OSC research team will work toward modernizing a computer software package that leverages large-scale, 3-D modeling to research fatigue and fracture analyses, primarily in metals.
Leaders from the Ohio Supercomputer Center (OSC) met with five senior members of the Beijing Computing Center (BCC) and Comet Solutions, Inc. at the Ohio Technology Consortium facility Wednesday afternoon to discuss challenges, share history and look to the future of app development at a high-performance computing organization.
Researchers who normally use high-resolution satellite imagery to study glaciers are using their technology this week to help with disaster relief and longer-term stabilization planning efforts related to the recent earthquake in Nepal.
Research projects featuring a wide range of scientific interests, such as ultra-intense lasers, pesticides and polymers, were featured at the first-ever poster session and flash talk competition at the Ohio Supercomputer Center (OSC) Dec. 4.
A forest in South Carolina, a supercomputer in Ohio and some glow-in-the-dark yarn have helped a team of field ecologists conclude that woodland corridors connecting patches of endangered plants not only increase dispersal of seeds from one patch to another, but also create wind conditions that can spread the seeds for much longer distances.
Researchers have found that the melanopsin pigment in the eye is potentially more sensitive to light than its more famous counterpart, rhodopsin, the pigment that allows for night vision.
From 2000 to 2010, about 1,900 cyclones churned across the top of the world each year, leaving warm water and air in their wakes – and melting sea ice in the Arctic Ocean.
That’s about 40 percent more of these Arctic storms than previously thought, according to a new study of vast troves of weather data that previously were synthesized at the Ohio Supercomputer Center (OSC).
A researcher at the University of Cincinnati is leveraging the compute and storage resources of the Ohio Supercomputer Center (OSC) to simulate the behavior of elusive cosmic particles in an experiment that may provide answers to the most fundamental questions in our understanding of the evolution of the universe.