lammps/tools/moltemplate/examples/all_atom_examples/force_field_AMBER/waterTIP3P+isobutaned510bb54ef32lammm-master
lammps/tools/moltemplate/examples/all_atom_examples/force_field_AMBER/waterTIP3P+isobutane
d510bb54ef32lammm-master
waterTIP3P+isobutane
waterTIP3P+isobutane
README.TXT
README.TXT
This is an example of how to use "canned" force-fields in like GAFF in LAMMPS.
In this example, we specify only the atom names, bond connectivity,
(and coordinates and charge), and use moltemplate to
load the GAFF parameters from an external file (gaff.lt)
(...instead of specifying them explicitly in the molecule definition).
The simulation consists of a mixture of isobutane and water.
Over time (less than 1 ns), the two molecules phase-separate.
The GAFF parameters are applied only to the isobutane molecule.
(The water molecule paramters are defined explicitly in common/tip3p_2004.lt)
For this to work, make sure you have defined the MOLTEMPLATE_PATH
environment variable and set it to "common". See manual for more details.)
WARNING: THIS IS A PRELIMINARY EXAMPLE WHICH USES AMBER'S GAFF FORCE FIELD.
AS OF 2014-4-19, these features have not been tested.
THE ABILITY TO DETECT AND ASSIGN GAFF FORCE FIELD PARAMETERS
MOLECULES ACCORDING TO ATOM TYPE IS AN EXPERIMENTAL FEATURE
AND CURRENTLY PROBABLY HAS BUGS (IN THE DIHEDRALS AND IMPROPERS).
PLEASE REPORT BUGS AND/OR SEND CORRECTIONS. -A 2014-4-19
----------------- CHARGE ----------------------
NOTE: The GAFF force-field DOES NOT ASSIGN ATOM CHARGE.
In this example, atom charges were taken from the OPLSAA force field file:
http://dasher.wustl.edu/tinker/distribution/params/oplsaa.prm
This is not the charge in AMBER simunlations is typically assigned.
(As of 2014, it is assigned using the "HF/6-31G* RESP2" or "AM1-BCC3"
methods using AmberTools (which are not available in moltemplate).
http://ambermd.org/doc6/html/AMBER-sh-19.4.html
http://ambermd.org/tutorials/basic/tutorial4b/)
-------- REQUIREMENTS: ---------
1) This example requires building LAMMPS with the "USER-MISC" package.
(because it makes use of "gaff.lt" which uses dihedral_style fourier)
To do this, type "make yes-user-misc" before compiling LAMMPS.
http://lammps.sandia.gov/doc/Section_start.html#start_3
2) You must define your MOLTEMPLATE_PATH environment variable
and set it to the "common" subdirectory of your moltemplate distribution.
(See the "Installation" section in the moltemplate manual.)
More detailed instructions on how to build LAMMPS input files and
run a short simulation are provided in other README files.
step 1)
README_setup.sh
step 2)
README_run.sh
In this example, we specify only the atom names, bond connectivity,
(and coordinates and charge), and use moltemplate to
load the GAFF parameters from an external file (gaff.lt)
(...instead of specifying them explicitly in the molecule definition).
The simulation consists of a mixture of isobutane and water.
Over time (less than 1 ns), the two molecules phase-separate.
The GAFF parameters are applied only to the isobutane molecule.
(The water molecule paramters are defined explicitly in common/tip3p_2004.lt)
For this to work, make sure you have defined the MOLTEMPLATE_PATH
environment variable and set it to "common". See manual for more details.)
WARNING: THIS IS A PRELIMINARY EXAMPLE WHICH USES AMBER'S GAFF FORCE FIELD.
AS OF 2014-4-19, these features have not been tested.
THE ABILITY TO DETECT AND ASSIGN GAFF FORCE FIELD PARAMETERS
MOLECULES ACCORDING TO ATOM TYPE IS AN EXPERIMENTAL FEATURE
AND CURRENTLY PROBABLY HAS BUGS (IN THE DIHEDRALS AND IMPROPERS).
PLEASE REPORT BUGS AND/OR SEND CORRECTIONS. -A 2014-4-19
----------------- CHARGE ----------------------
NOTE: The GAFF force-field DOES NOT ASSIGN ATOM CHARGE.
In this example, atom charges were taken from the OPLSAA force field file:
http://dasher.wustl.edu/tinker/distribution/params/oplsaa.prm
This is not the charge in AMBER simunlations is typically assigned.
(As of 2014, it is assigned using the "HF/6-31G* RESP2" or "AM1-BCC3"
methods using AmberTools (which are not available in moltemplate).
http://ambermd.org/doc6/html/AMBER-sh-19.4.html
http://ambermd.org/tutorials/basic/tutorial4b/)
-------- REQUIREMENTS: ---------
1) This example requires building LAMMPS with the "USER-MISC" package.
(because it makes use of "gaff.lt" which uses dihedral_style fourier)
To do this, type "make yes-user-misc" before compiling LAMMPS.
http://lammps.sandia.gov/doc/Section_start.html#start_3
2) You must define your MOLTEMPLATE_PATH environment variable
and set it to the "common" subdirectory of your moltemplate distribution.
(See the "Installation" section in the moltemplate manual.)
More detailed instructions on how to build LAMMPS input files and
run a short simulation are provided in other README files.
step 1)
README_setup.sh
step 2)
README_run.sh
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