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In addition to the broad technical skills of our staff, CSM has many physical resources to apply to challenging problems. Autonomous collaborative robots, driving simulators, high-end computing and communication systems, and immersive visualization environments are just a few of the resources available in the division and through our centers.

Automotive Crashworthiness

When first established by CSM, the automotive crashworthiness project had assets including several vehicles (Audi A8s, Ford Explorer) and portions of vehicles, used to construct digital models for computational simulations. Current resources include a portfolio of digital models and associated materials datasets used for computational simulations.

Center for Computational Sciences

The Center for Computational Sciences (CCS) provides state-of-the-art supercomputing resources with integrated access to immersive visualization and collaborative tools. Center resources include high-performance supercomputing systems and terabytes of archival storage. CCS was one of the first two high-performance computing research centers established by the DOE Office of Science.

Climate and Carbon Research

Research at the CCS Climate and Carbon Research Center (CCR) focuses on the computational aspects of how the global climate and carbon systems interact with natural and anthropogenic processes. The goals of the CCS CCR are to serve as a world-class climate and carbon research center and to be a focal point for the computational climate and carbon simulation community.

Center for Engineering Science Advanced Research

The Center for Engineering Science Advanced Research (CESAR), established as a national resource in 1984 by the DOE Office of Basic Energy Sciences, is a collaborative research facility providing guests from universities, federal laboratories, and industry with access to state-of-the-art (and often unique) technology and equipment in a stimulating research environment. CESAR resources include

Division Computing Resources

The CSM computing environment includes a network of Unix workstations; Unix, Linux, and NT servers; experimental and production clusters; PCs and Macs; notebook computers; and a variety of network communications equipment, including wireless LANs.

Probe Storage Testbed --archival page

DOE's Probe testbed allows storage activities related to the High-Performance Storage System (HPSS) to be investigated. to be investigated. The National Energy Research Supercomputer Center (NERSC) is also a participant in PROBE and is constructing a similar facility.

Tennessee Oak Ridge Cluster

The Tennessee Oak Ridge Cluster (TORC) Project is a collaborative effort between the University of Tennessee's Innovative Computer Laboratory and the CSM. Uses of this testbed include development of user interfaces to assist in the system management of PC clusters.


The CSM Visualization Laboratory (VizLab) uses fast parallel processors to drive immersive viewing platforms coupled with long-range trackers and haptic (tactile feedback) devices, providing a robust toolset for data exploration and remote collaborations.

   CSM Projects   
   Advanced Simulation Capability for Environmental Management (ASCEM)   
   The Center for Simulation of RF Wave Interactions with Magnetohydrodynamics (SWIM)   
   Coordinated Infrastructure for Fault Tolerant Systems (CIFTS)   
   Hybrid Multi-Core Consortium   
   Integral Equation Technology   
   MADNESS (Multiresolution Adaptive Numerical Environment for Scientific Simulation)   
   NEAMS Integrated Computational Environment (NiCE)   
   Nuclear Energy Advanced Modeling and Simulation (NEAMS)   
   Reliability, Availability, and Serviceability (RAS) for Petascale High-End Computing and Beyond   
  INCITE Allocated Projects  
   Advanced Simulations of Plasma Microturbulence at the Petascale and Beyond   
   Cellulosic Ethanol: Simulation of Multicomponent Biomass System   
   Climate-Science Computational Development Team: The Climate End Station II   
   High-Fidelity Simulations for Advanced Engine Combustion Research   
   High Fidelity Tokamak Edge Simulation for Efficient Confinement of Fusion Plasma   
   Investigation of Multi-Scale Transport Physics of Fusion Experiments Using Global Gyrokinetic Turbulence Simulations   
   Magnetic Structure and Thermodynamics of Low Dimensional Magnetic Structures   
   Nuclear Structure and Nuclear Reactions   
   Performance Evaluation and Analysis Consortium End Station   
   Petascale Modeling of Chemical Catalysts and Interfaces   
   Three Dimensional Simulations for Core Collapse Supernovae   
   Ultrascale Simulation of Basin-Scale CO2 Sequestration in Deep Geologic Formations and Radionuclide Migration using PFLOTRAN   
   Uncertainty Quantification for Three-Dimensional Reactor Assembly Simulations   
   Understanding the Ultimate Battery Chemistry: Rechargeable Lithium/Air