Michele Parrinello, Ph.D., of the Swiss Federal Institute of Technology Zurich, delivered the 2013 Pitzer Lecture in Theoretical Chemistry on Nov. 25, on the main campus of The Ohio State University. Parrinello’s address was titled Atomistic Computer Simulations: Past, Present, and Future.
Since 1987, OSC has been providing our clients services in four areas, or functions:
Supercomputing. OSC provides the computational power and storage that scientists need to meet their research goals. Whether researchers need to harness the incredible power of a parallel processor cluster to better understand deep space, a vector processor machine to do weather modeling, or a mid-size shared memory processor system to model the human heart, OSC has the hardware and software solutions to meet their needs.
Research. A staff of high performance computing and networking research experts maintain active research programs in HPC and Networking, Homeland Security and Defense, Environmental Sciences, Engineering and Life Sciences. Our goals are to lead science and engineering research efforts, assist researchers with custom needs and collaborate with regional, national and international researchers in groundbreaking initiatives.
Education. OSC has a national reputation for its training and education programs. Staff teach faculty and student researchers through scientific computing workshops, one-on-one classes, and web-based portal training. Ohio students gain exposure to the world of high performance computing and networking during our annual summer institutes for young women in middle school and for junior and senior high school students. And, the statewide, virtual Ralph Regula School of Computational Science coordinates computational science and engineering education activities for all levels of learning.
Cyberinfrastructure. The Ohio Supercomputer Center’s cyberinfrastructure and software development researchers provide the user community with various high performance computing software options. This variety enables researchers to select parallel computing languages they most prefer, and just as important, it creates a test bed for exploring these systems. By taking a holistic approach to generating efficient supercomputing applications for researchers, the Center’s cyberinfrastructure and software development research capitalizes on all the components within the cycle of innovation — development, experimentation, and analysis - and continuously improves the services provided.
Last week, the Ohio Supercomputer Center (OSC) introduced its new industrial engagement initiative at SC13, the premier international conference for high performance computing, networking, storage and analysis, held this year in Denver, Colo.
TotalSim’s Fan Portal accepts user input on parameters, such as fan geometry, blade number, shroud diameter, fan immersion, flow rate and speed and rotational direction and provides the customer with visual and numerical results, such as pressure, torque, power and efficiency.
A screen shot of simulation results from an app developed by TotalSim LLC as a virtual desktop-as-a-service system for advanced manufacturing processes.
Ohio Supercomputer Center engineers partnered with experts at Technology Management Inc. to model TMI’s fabrication process and component specifications of its highly efficient fuel cells.
Engineers at AltaSim Technologies leveraged Ohio Supercomputer Center resources to model thermal energy transfer from full, printed circuit boards.
Kinetic Vision engineers partnered with KLW Plastics to test integration of modeling and simulation into their product development and testing workflow.
Lung-Fei Lee at The Ohio State University is developing models of group behavior that include situations where some members have incomplete information.
A research group led by Douglass Schumacher at The Ohio State University are conducting simulations of experiments being conducted on powerful lasers, such as Ohio State’s 400 Terawatt Scarlet laser, shown here.
Dhabaleswar Panda at The Ohio State University led a group in studies of communication runtimes on systems, including the HP-Intel Xeon Oakley Cluster at the Ohio Supercomputer Center.