Simulations: Difference between revisions
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===LAMMPS Special Usage Notes=== |
===LAMMPS Special Usage Notes=== |
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By default LAMMPS normalizes the temperature by an amount <math>n_\text{dof} - d</math>, where <math>n_\text{dof}</math> is the system's total number of degrees of freedom and <math>d</math> is the system's dimensionality. Subtracting <math>d</math> 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 [http://lammps.sandia.gov/doc/fix_langevin.html Langevin thermostat] in which all particles interact with a stationary background solvent. In this case it is necessary to ensure <math>n_\text{dof}</math> is used instead of <math>n_\text{dof} - d</math>. To do this, use the command [http://lammps.sandia.gov/doc/compute_modify.html compute_modify] as follows |
By default LAMMPS normalizes the temperature by an amount <math>n_\text{dof} - d</math>, where <math>n_\text{dof}</math> is the system's total number of degrees of freedom and <math>d</math> is the system's dimensionality. Subtracting <math>d</math> 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 [http://lammps.sandia.gov/doc/fix_langevin.html Langevin thermostat] in which all particles interact with a stationary background solvent. In this case it is necessary to ensure <math>n_\text{dof}</math> is used instead of <math>n_\text{dof} - d</math>. To do this, use the command [http://lammps.sandia.gov/doc/compute_modify.html compute_modify] as follows |
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thermo_modify temp myTemp |
thermo_modify temp myTemp |
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== Monte Carlo simulations == |
== Monte Carlo simulations == |
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Revision as of 18:09, 19 June 2014
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
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By default LAMMPS normalizes the temperature by an amount , where is the system's total number of degrees of freedom and is the system's dimensionality. Subtracting 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 is used instead of . To do this, use the command compute_modify as follows
compute myTemp all temp compute_modify myTemp extra 0 thermo_modify temp myTemp
