Jean-Luc Fattebert Research Scientist Contact 865.241.1115 | FATTEBERTJ@ORNL.GOV All Publications A fast, dense Chebyshev solver for electronic structure on GPUs Thermo4PFM: Facilitating Phase-field simulations of alloys with thermodynamic driving forces Atomistic modeling of LiF microstructure ionic conductivity and its influence on nucleation and plating A robust solver for wavefunction-based density functional theory calculations*... Toward multiscale simulations of tailored microstructure formation in metal additive manufacturing... Insight into SEI Growth in Li-Ion Batteries using Molecular Dynamics and Accelerated Chemical Reactions Improving Additive Manufactured Component Performance through Multi-Scale Microstructure Simulation and Process Optimization Communication—First-Principles Simulations of LiPF6 Decomposition in Ethylene Carbonate-Based Electrolytes Uncovering grain and subgrain microstructure at the scale of additive manufacturing melt tracks with a scalable cellular auto... Co-design for Particle Applications at Exascale Hybrid programming-model strategies for GPU offloading of electronic structure calculation kernels Accelerating Battery Simulations by Using High Performance Computing and Opportunities with Machine Learning An OpenMP GPU-offload implementation of a non-equilibrium solidification cellular automata model for additive manufacturing ExaAM: Metal additive manufacturing simulation at the fidelity of the microstructure... Enabling particle applications for exascale computing platforms A mesoscopic digital twin that bridges length and time scales for control of additively manufactured metal microstructures A Parallel Strategy for Density Functional Theory Computations on Accelerated Nodes... The basic matrix library (BML) for quantum chemistry Rapid Solidification in Bulk Ti-Nb Alloys by Single-Track Laser Melting Efficient Computational Modeling of Human Ventricular Activation and Its Electrocardiographic Representation: A Sensitivity Study Matching time and spatial scales of rapid solidification: dynamic TEM experiments coupled to CALPHAD-informed phase-field simulations Key Links Organizations Computing and Computational Sciences Directorate Computational Sciences and Engineering Division Computational Engineering and Energy Science Group Advanced Computing Methods for Physical Sciences Section Multiscale Materials Group
