Distinguished Seminar in Computational Science and Engineering
February 25, 2021, 12:00 PM EST
High-Fidelity Large-Scale Atomistic Simulations of Materials using LAMMPS, SNAP Interatomic Potentials, and Massively Parallel Computers
Aidan Thompson
Center for Computing Research
Sandia National Laboratories
Recorded Seminar YouTube Link:
https://youtu.be/tG91Lf-EUIM
Abstract:
Molecular dynamics (MD) using Sandia’s LAMMPS open source code is a powerful materials simulation approach whose accuracy is limited by the interatomic potential (IAP). SNAP is an automated methodology for generating accurate and robust application-specific IAPs. SNAP is formulated in terms of a set of general four-body descriptors that characterize the local neighborhood of each atom. This approach has been used to develop potentials for diverse materials, including metals (Ta, W), metal alloys (AlNbTi), III-V semiconductors (InP), and plasma-facing materials (W/Be/He/H/N). Each SNAP IAP is trained on quantum electronic structure calculations of energy, force, and stress for many small configurations of atoms. Cross-validation analysis and evaluation on test problems are used to further improve IAP fidelity and robustness. Varying the number of SNAP descriptors allows a continuous tradeoff between computational cost and accuracy. The resultant potentials enable high-fidelity large-scale MD simulations of these materials, yielding insight into their behavior on lengthscales and timescales unreachable by other methods. The relatively large computational cost of SNAP is offset by combining LAMMPS’ spatial parallel algorithms with Kokkos-based hierarchical multithreading, enabling the efficient use of Peta- to Exa-scale CPU and GPU platforms, allowing large-scale production simulations on the DOE Summit supercomputer at 1-10 ns/day. Finally, I will discuss opportunities to expand the flexibility of the SNAP approach by combining SNAP descriptors with neural network energy models, as well as replacing SNAP descriptors with the more general Atomic Cluster Expansion descriptors
Email kpnelson@mit.edu for Zoom details.
High-Fidelity Large-Scale Atomistic Simulations of Materials using LAMMPS, SNAP Interatomic Potentials & Massively Parallel Computers
Aidan Thompson