Simulations

Introduction

Assorted topics relevant to programming particle-based simulation codes and to using these codes for the modeling of a wide range of systems, notably complex fluids.

Molecular dynamics simulations

By and large the CSML uses LAMMPS for MD, though depending on the application NAMD, GROMACS, or any of a host of other packages may be useful. Most issues can be resolved by consulting the LAMMPS manual, though some common problems are addressed below.

LAMMPS Special Usage Notes

By default LAMMPS normalizes the temperature by an amount ${\displaystyle n_{\text{dof}}-d}$, where ${\displaystyle n_{\text{dof}}}$ is the system's total number of degrees of freedom and ${\displaystyle d}$ is the system's dimensionality. Subtracting ${\displaystyle d}$ accounts for the center-of-mass motion of the system. This leads to an incorrect reported value if the system has a proper frame of reference, e.g., when using a Langevin thermostat in which all particles interact with a stationary background solvent. In this case it is necessary to ensure ${\displaystyle n_{\text{dof}}}$ is used instead of ${\displaystyle n_{\text{dof}}-d}$. To do this, use the command compute_modify as follows

compute myTemp all temp
compute_modify myTemp extra 0
thermo_modify temp myTemp

Monte Carlo simulations