2015 ALCC Projects


Developing Hyper-catalytic Enzymes for Renewable Energy
Pratul Agarwal, Oak Ridge National Laboratory
25,000,000 hours


Simulating Multiphase Heat Transfer in a Novel Receiver for Concentrating Solar Power (CSP) Plants
Christina Hrenya, University of Colorado
5,000,000 hours

Multi-Scale Modeling of Rotating Stall & Geometric Optimization
Ravi Srinivasan, Dresser-Rand
47,000,000 hours

Climate Science

Delivering the Department of Energy’s next-generation high resolution Earth system model
Peter Thornton, Oak Ridge National Laboratory
55,000,000 hours

Computer Science

Performance Analysis, Modeling and Scaling of HPC Applications and Tools
Abhinav Bhatele, Lawrence Livermore National Laboratory
9,300,000 hours

Hobbes: Operating System and Runtime Research for Extreme Scale
Ron Brightwell, Sandia National Laboratory
30,000,000 hours

XPRESS Program Environment Testing at Scale
Ron Brightwell, Sandia National Laboratory
27,000,000 hours

Exploring Quantum Optimizers via Classical Supercomputing
Itay Hen, University of Southern California
20,000,000 hours

Enabling Next-Generation Light Source Data Analysis through Massive Parallelism
Xiaoye (Sherry) Li, Lawrence Berkeley National Laboratory
10,000,000 hours

Portable Application Development for Next Generation Supercomputer Architectures
Tjerk Straatsma, Oak Ridge National Laboratory
60,000,000 hours

Demonstration of the Scalability of Programming Environments By Simulating Multi-Scale Applications
Robert Voigt, Leidos Inc.
40,000,000 hours

Fusion Energy Science

Dynamics of Magnetic Fields in High-Energy-Density Plasma
Amitava Bhattacharjee, PPPL
45,000,000 hours

Modeling RF-induced Sheath E
Thomas Jenkins, Tech-X
48,000,000 hours

High Energy Physics

ALCC: Cosmic Frontier Computational End-Station
Salman Habib, Argonne National Laboratory
35,000,000 hours

Materials Science

Prediction of morphology and charge-transfer properties in bulk material and at donor/acceptor interfaces of thin-film organic photovoltaic cells
Kendall Houk, UCLA
40,000,000 hours

Understanding Helium-Hydrogen Plasma Mediated Tungsten Surface Response to Predict Fusion Plasma Facing Component Performance in ITER
Brian Wirth, University of Tennessee
36,000,000 hours

Nuclear Engineering

Delivering Advanced Modeling & Simulation for Nuclear Energy Applications
John Turner, Oak Ridge National Laboratory
75,000,000 hours

Nuclear Physics

Multi-Neutron Forces from QCD
William Detmold, MIT
52,000,000 hours

In Search of the Elusive Glue of Quantum Chromodynamics
Robert Edwards, Jlab
50,000,000 hours

Probing Novel Physics using Nucleon Matrix Elements
Rajan Gupta, Los Alamos National Laboratory
150,000,000 hours

Three-dimensional simulations of core-collapse supernovae from high-mass progenitor stars
Bronson Messer, Oak RidgeNational Laboratory
48,000,000 hours

Fluctuations of conserved charges in high temperature QCD
Swagato Mukherjee, Brookhaven National Laboratory
167,000,000 hours

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