Page Menu
Home
c4science
Search
Configure Global Search
Log In
Files
F69045068
data_format.html
No One
Temporary
Actions
Download File
Edit File
Delete File
View Transforms
Subscribe
Mute Notifications
Award Token
Subscribers
None
File Metadata
Details
File Info
Storage
Attached
Created
Sun, Jun 30, 01:00
Size
7 KB
Mime Type
text/x-c++
Expires
Tue, Jul 2, 01:00 (2 d)
Engine
blob
Format
Raw Data
Handle
18304741
Attached To
rLAMMPS lammps
data_format.html
View Options
<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 3.2//EN">
<HTML>
<HEAD>
<META NAME="Generator" CONTENT="Cosmo Create 1.0.3">
</HEAD>
<BODY>
<H2>
LAMMPS Data Format</H2>
<P>
<A HREF="README.html">Return</A> to top-level of LAMMPS documentation</P>
<P>
This file describes the format of the data file read into LAMMPS with
the "read data" command. The data file contains basic
information about the size of the problem to be run, the initial atomic
coordinates, molecular topology, and (optionally) force-field
coefficients. It will be easiest to understand this file if you read it
while looking at a sample data file from the examples.</P>
<P>
This page has 2 sections:</P>
<UL>
<LI>
<A HREF="#_cch3_930958962">Rules for formatting the Data File</A>
<LI>
<A HREF="#_cch3_930958969">Sample file with Annotations</A>
</UL>
<HR>
<H3>
<A NAME="_cch3_930958962">Rules for formatting the Data File: </A></H3>
<P>
Blank lines are important. After the header section, new entries are
separated by blank lines. </P>
<P>
Indentation and space between words/numbers on one line is not
important except that entry keywords (e.g. Masses, Bond Coeffs) must be
left-justified and capitalized as shown. </P>
<P>
The header section (thru box bounds) must appear first in the file, the
remaining entries (Masses, various Coeffs, Atoms, Bonds, etc) can come
in any order. </P>
<P>
These entries must be in the file: header section, Masses, Atoms. </P>
<P>
These entries must be in the file if there are a non-zero number of
them: Bonds, Angles, Dihedrals, Impropers, Bond Coeffs, Angle Coeffs,
Dihedral Coeffs, Improper Coeffs. Cross-term coefficients for a
particular kind of interaction (e.g. BondAngle Coeffs for bonds) must
appear if class II force fields have been turned on in the input
command file via a "style" command. </P>
<P>
The Nonbond Coeffs entry contains one line for each atom type. These
are the coefficients for an interaction between 2 atoms of the same
type. The cross-type coeffs are computed by the appropriate class I or
class II mixing rules, or can be specified explicitly using the
"nonbond coeff" command in the input command script. See the <A
HREF="force_fields.html">force_fields</A> page for more information. </P>
<P>
The Nonbond Coeffs and Bond Coeffs entries are optional since they can
be specified from the input command script. This is not true if bond
style is set to class II since those coeffs can only be specified in
this data file. </P>
<P>
In the Atoms entry, the atoms can be in any order so long as there are
N entries. The 1st number on the line is the atom-tag (number from 1 to
N) which is used to identify the atom throughout the simulation. The
molecule-tag is a second identifier which is attached to the atom; it
can be 0, or a counter for the molecule the atom is part of, or any
other number you wish. The q value is the charge of the atom in
electron units (e.g. +1 for a proton). The xyz values are the initial
position of the atom. For 2-d simulations specify z as 0.0.</P>
<P>
The final 3 nx,ny,nz values on a line of the Atoms entry are optional.
LAMMPS only reads them if the "true flag" command is
specified in the input command script. Otherwise they are initialized
to 0 by LAMMPS. Their meaning, for each dimension, is that
"n" box-lengths are added to xyz to get the atom's
"true" un-remapped position. This can be useful in pre- or
post-processing to enable the unwrapping of long-chained molecules
which wrap thru the periodic box one or more times. The value of
"n" can be positive, negative, or zero. For 2-d simulations
specify nz as 0. </P>
<P>
For simulations with periodic boundary conditions, xyz are remapped
into the periodic box (from as far away as needed), so the initial
coordinates need not be inside the box. The nx,ny,nz values (as read in
or as set to zero by LAMMPS) are appropriately adjusted by this
remapping. </P>
<P>
The number of coefficients specified on each line of coefficient
entries (Nonbond Coeffs, Bond Coeffs, etc) depends on the
"style" of interaction. This is specified in the input
command script, unless the default is used. See the <A
HREF="input_commands.html">input_commands</A> page for a description
of the various style options. The <A HREF="input_commands.html">input_commands</A>
and <A HREF="force_fields.html">force_fields</A> pages explain the
meaning and valid ranges for each of the coefficients. </P>
<HR>
<H3>
<A NAME="_cch3_930958969">Sample file with Annotations</A></H3>
<P>
Here is a sample file with annotations in parenthesis and lengthy
sections replaced by dots (...). Note that the blank lines are
important in this example.</P>
<PRE>
LAMMPS Description (1st line of file)
100 atoms (this must be the 3rd line, 1st 2 lines are ignored)
95 bonds (# of bonds to be simulated)
50 angles (include these lines even if number = 0)
30 dihedrals
20 impropers
5 atom types (# of nonbond atom types)
10 bond types (# of bond types = sets of bond coefficients)
18 angle types
20 dihedral types (do not include a bond,angle,dihedral,improper type
2 improper types line if number of bonds,angles,etc is 0)
-0.5 0.5 xlo xhi (for periodic systems this is box size,
-0.5 0.5 ylo yhi for non-periodic it is min/max extent of atoms)
-0.5 0.5 zlo zhi (do not include this line for 2-d simulations)
Masses
1 mass
...
N mass (N = # of atom types)
Nonbond Coeffs
1 coeff1 coeff2 ...
...
N coeff1 coeff2 ... (N = # of atom types)
Bond Coeffs
1 coeff1 coeff2 ...
...
N coeff1 coeff2 ... (N = # of bond types)
Angle Coeffs
1 coeff1 coeff2 ...
...
N coeff1 coeff2 ... (N = # of angle types)
Dihedral Coeffs
1 coeff1 coeff2 ...
...
N coeff1 coeff2 ... (N = # of dihedral types)
Improper Coeffs
1 coeff1 coeff2 ...
...
N coeff1 coeff2 ... (N = # of improper types)
BondBond Coeffs
1 coeff1 coeff2 ...
...
N coeff1 coeff2 ... (N = # of angle types)
BondAngle Coeffs
1 coeff1 coeff2 ...
...
N coeff1 coeff2 ... (N = # of angle types)
MiddleBondTorsion Coeffs
1 coeff1 coeff2 ...
...
N coeff1 coeff2 ... (N = # of dihedral types)
EndBondTorsion Coeffs
1 coeff1 coeff2 ...
...
N coeff1 coeff2 ... (N = # of dihedral types)
AngleTorsion Coeffs
1 coeff1 coeff2 ...
...
N coeff1 coeff2 ... (N = # of dihedral types)
AngleAngleTorsion Coeffs
1 coeff1 coeff2 ...
...
N coeff1 coeff2 ... (N = # of dihedral types)
BondBond13 Coeffs
1 coeff1 coeff2 ...
...
N coeff1 coeff2 ... (N = # of dihedral types)
AngleAngle Coeffs
1 coeff1 coeff2 ...
...
N coeff1 coeff2 ... (N = # of improper types)
Atoms
1 molecule-tag atom-type q x y z nx ny nz (nx,ny,nz are optional -
... see "true flag" input command)
...
N molecule-tag atom-type q x y z nx ny nz (N = # of atoms)
Bonds
1 bond-type atom-1 atom-2
...
N bond-type atom-1 atom-2 (N = # of bonds)
Angles
1 angle-type atom-1 atom-2 atom-3 (atom-2 is the center atom in angle)
...
N angle-type atom-1 atom-2 atom-3 (N = # of angles)
Dihedrals
1 dihedral-type atom-1 atom-2 atom-3 atom-4 (atoms 2-3 form central bond)
...
N dihedral-type atom-1 atom-2 atom-3 atom-4 (N = # of dihedrals)
Impropers
1 improper-type atom-1 atom-2 atom-3 atom-4 (atom-1 is central atom)
...
N improper-type atom-1 atom-2 atom-3 atom-4 (N = # of impropers)
</PRE>
</BODY>
</HTML>
Event Timeline
Log In to Comment