Back to Search Results

Fsheetx Msg Acapsum

POC: David M. Hetrick (865)576-7556/ Scientific Computing Within the ORNL Modeling and Simulation Group The ORNL Modeling and Simulation Group (MSG) develops sophisticated numerical solutions for a wide range of scientific, engineering, and operational applications. MSG specializes in applied scientific computing and our core competency is computational physics and engineering. Within our analysis focus areas, our unique combination of scientific staff, modeling and simulation (M&S) expertise, and state-of-the-art computing resources permit us to address essentially any application, to any level of numerical sophistication, at any point in the R&D-Design-Operations spectrum. These world class M&S capabilities include the following.

Physics-based modeling including computational fluid dynamics (CFD), numerical heat conduction, computational fracture mechanics, computational physics, physiological and psychological biomedical simulation, as well as environmental and meteorological modeling.

Engineering systems analysis for energy-research and -manufacturing systems, industrial process, and facilities vulnerability assessments.

Analysis of complex systems such as human neurological and physiological processes, human cognition, highly coupled system-of-systems, and autonomous process-control systems.

Development of parallel discrete-event-simulation (DES) algorithms and numerical engines for analysis of communications-based networks.

A diverse set of applications including research reactors, global carbon sequestration, fusion energy, nuclear weapons manufacturing, advanced military weapons systems, pollutant fate and transport, medical- and industrial-event forewarning, autonomous measurement and control systems, energy infrastructures, the interdiction of smuggled nuclear materials, and remote sensor networks.

These applied scientific computing capabilities represent an extremely versatile M&S resource for a broad range of R&D, industrial, homeland defense, and military applications. We welcome the opportunity to discuss your potential applications and ways MSG can contribute to a solution.

CFD modeling to quantify fluid flow & heat transfer across a very large fluid/length- scale/flow-regime problem space.

Parallel-DES numerical algorithms for analysis of communications-based networks Gaussian plume modeling to predict atmospheric dispersal of chemical, biological, & radiological agents Physics-based physiological modeling of organ systems, cell function, & molecular structures DES-based analysis to define integrated operation of highly- coupled system-of-systems Operations Simulator Notional Framework for Sensor Network Testbed QuickTime and a decompressor Line Devices Weather Simulator are needed to see this picture.

Network Simulator Plume Simulator

Phone: (865)576-7556
Search Home Help About InSpire