Presented by Dr. Ray Shan
In this free webinar, you will:
Learn how to master the MedeA-LAMMPS Flowchart interface and run fast, efficient simulations with the LAMMPS molecular dynamics engine
See what’s new in MedeA-LAMMPS in MedeA 2.22
Learn how to simulate a wide range of properties, including diffusivity, viscosity, thermal conductivity, and surface tension
LAMMPS is the leading classical molecular dynamics code in the world today. Developed at Sandia National Laboratories by Dr. Steve Plimpton, LAMMPS has the widest coverage of forcefields for soft and hard materials, has the most versatile tools for applying constraints and property evaluation, and focuses on the efficient, massively parallel execution of computational tasks.
The MedeA-LAMMPS module provides flexible calculation setup and analysis capabilities to unlock the power of LAMMPS. Combined with the Transport Bundle, transport properties including diffusivity, viscosity, and thermal conductivity are at your fingertips.
Tue, January 16th:
10 am PDT / 11 am MST / 12 pm CST /1 pm EST USA / 7 pm Europe (CET)
Wed, January 17th:
7 am Pacific / 4 pm Europe (CET)
Thu, January 18th:
8 am Europe (CET) / 12:30 pm India (IST) / 3 pm China (CST) / 4 pm Japan (JST)
Dr. Ray Shan
Support Scientist at Materials Design, Inc.
Dr. Shan held a position at Sandia National Labs in New Mexico for several years, working alongside the LAMMPS developers Steve Plimpton and Aidan Thompson in developing and maintaining the LAMMPS molecular dynamics code. Dr. Shan is an original developer of the highly regarded variable charge reactive forcefield, COMB3, and has co-authored articles on the development of REBO and ReaxFF forcefield parameters.