See how an OSU researcher creates highly accurate, immersive computer simulations of a forest canopy to help researchers better understand the complex interactions of a real forest ecosystem.
See how research chemists are employing OSC resources and state-of-the-art computational chemistry to uncover how a set of enzyme reactions helps break down therapeutic drugs in the human body
Learn more about how researchers at OSC's Interface Lab explore the potential seamless interface of humans and computers through innovative examination of visual, aural and force-feedback approaches.
The future success of U.S. economic competitiveness is inextricably linked to the increased application of high performance computation. Read how the Ohio Supercomputer Center is helping to meet this challenge.
An innovative, statewide academic program is focusing on computer modeling and simulation. Read how the virtual Ralph Regula School is growing the number and proficiency of computational scientists in Ohio.
Learn how an OSU researcher conducts modeling and simulation on an OSC supercomputer to help other chemists complete research beyond what can be determined from laboratory experiments.
Find out how an OSU Medical Center biomedical informatics researcher uses OSC supercomputers to synthesize datasets of many genomes to help monitor the global spread of emergent infectious diseases.
Some companies can't afford the large investments needed to implement in-house high performance computing centers. Learn how OSC can meet their computational needs with Blue Collar Computing.
Discover how an OSU-led research team employed powerful OSC resources to make precise energy calculations of certain super-hot atoms found in space to help astronomers identify black holes.
OSC and OSU's ElectroScience Laboratory are collaborating to develop parallel software codes for layered sensing research into the design of future wireless radar, imaging and sensor systems. Read more.
Read how a University of Akron researcher is investigating nature's ability to form such structures as mollusk shells and human bone through computer modeling and simulations done through OSC.
Discover how researchers are working to better understand the microstructure of new alloys needed for high-speed transistors, light-emitting diodes, semiconductor lasers, solar cells and microwave devices.
The current abundance and low cost of propane have generated increased interest within the petroleum and petrochemical industries for new, environmentally friendly "green" chemistry processes. A Cincinnati researcher is studying such a process to produce several intermediate products, including acrylonitrile.