Research into the nature of materials promises to revolutionize many areas of modern life, from power generation and transmission to transportation to the production of faster, smaller, more versatile computers and storage devices. Materials science is an interdisciplinary field that incorporates chemistry, physics, and engineering both to provide a deeper understanding of existing materials and to allow for the design of new materials with predetermined properties. Computational scientists are using the supercomputers at the Oak Ridge Leadership Computing Facility to study the nature of materials at the smallest possible scale.

Current Active Materials Projects

Materials

Predictive Simulations of Phase Transitions in Dynamically-Compressed Materials

Current PI: Ivan Oleynik, University of South Florida
Allocation Source:
Allocation Hours: 0

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Materials

Supercomputing for automotive high-temperature alloy design

Current PI: Dongwon Shin, Oak Ridge National Laboratory (ORNL)
Allocation Source:
Allocation Hours: 0

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Materials

Predictive Simulations of Functional Materials

Current PI: Paul Kent, Oak Ridge National Laboratory (ORNL)
Allocation Source: INCITE
Allocation Hours: 5,000

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Materials

HPC4mfg – High Performance Computing for Phase Predictions for Multi- Component Alloy Systems

Current PI: Andreas Kulovits, Arconic, Inc.
Allocation Source: ALCC
Allocation Hours: 2,350,000

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Materials

Nanotribology: Molecular Dynamics Screening of Monolayer Chemistry

Current PI: Peter Cummings, Vanderbilt University
Allocation Source: INCITE
Allocation Hours: 5,000

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Materials

HPC4mfg – Making Semiconductor Devices Cool Through HPC ab initio Simulation

Current PI: Lin-Wang Wang, Lawrence Berkeley National Laboratory
Allocation Source: ALCC
Allocation Hours: 5,000

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Materials

Large Scale Numerical Simulations of Polymer Nanocomposites

Current PI: Gary Grest, Sandia National Laboratories
Allocation Source: ALCC
Allocation Hours: 5,000

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Materials

First principle simulations of on-die interconnects and their heat generations

Current PI: Lin-Wang Wang, Lawrence Berkeley National Laboratory
Allocation Source: INCITE
Allocation Hours: 1,500,000

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Materials

Large scale and efficient ultraviolet light emitting diode design with NEMO5

Current PI: Gerhard Klimeck,
Allocation Source: INCITE
Allocation Hours: 5,000

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Materials

Nucleation and Growth of Colloidal Crystals

Current PI: Sharon Glotzer, University of Michigan
Allocation Source: INCITE
Allocation Hours: 5,000

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Materials

First principles investigation of solid state phase transitions

Current PI: Markus Eisenbach, Oak Ridge National Laboratory (ORNL)
Allocation Source: INCITE
Allocation Hours: 1,500,000

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Materials

Petascale simulations of short pulse laser interaction with metals

Current PI: Leonid Zhigilei, University of Virginia
Allocation Source: INCITE
Allocation Hours: 24,900,000

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