lammps/doc/Section_commands.txt

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:link(lws,http://lammps.sandia.gov)
:link(ld,Manual.html)
:link(lc,Section_commands.html#comm)

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3. Commands :h3

This section describes how a LAMMPS input script is formatted and the
input script commands used to define a LAMMPS simulation.

3.1 "LAMMPS input script"_#cmd_1
3.2 "Parsing rules"_#cmd_2
3.3 "Input script structure"_#cmd_3
3.4 "Commands listed by category"_#cmd_4
3.5 "Commands listed alphabetically"_#cmd_5 :all(b)

:line
:line

3.1 LAMMPS input script :link(cmd_1),h4

LAMMPS executes by reading commands from a input script (text file),
one line at a time.  When the input script ends, LAMMPS exits.  Each
command causes LAMMPS to take some action.  It may set an internal
variable, read in a file, or run a simulation.  Most commands have
default settings, which means you only need to use the command if you
wish to change the default.

In many cases, the ordering of commands in an input script is not
important.  However the following rules apply:

(1) LAMMPS does not read your entire input script and then perform a
simulation with all the settings.  Rather, the input script is read
one line at a time and each command takes effect when it is read.
Thus this sequence of commands:

timestep 0.5 
run      100 
run      100 :pre

does something different than this sequence:

run      100 
timestep 0.5 
run      100 :pre

In the first case, the specified timestep (0.5 fmsec) is used for two
simulations of 100 timesteps each.  In the 2nd case, the default
timestep (1.0 fmsec) is used for the 1st 100 step simulation and a 0.5
fmsec timestep is used for the 2nd one.

(2) Some commands are only valid when they follow other commands.  For
example you cannot set the temperature of a group of atoms until atoms
have been defined and a group command is used to define which atoms
belong to the group.

(3) Sometimes command B will use values that can be set by command A.
This means command A must precede command B in the input script if it
is to have the desired effect.  For example, the
"read_data"_read_data.html command initializes the system by setting
up the simulation box and assigning atoms to processors.  If default
values are not desired, the "processors"_processors.html and
"boundary"_boundary.html commands need to be used before read_data to
tell LAMMPS how to map processors to the simulation box.

Many input script errors are detected by LAMMPS and an ERROR or
WARNING message is printed.  "This section"_Section_errors.html gives
more information on what errors mean.  The documentation for each
command lists restrictions on how the command can be used.

:line

3.2 Parsing rules :link(cmd_2),h4

Each non-blank line in the input script is treated as a command.
LAMMPS commands are case sensitive.  Command names are lower-case, as
are specified command arguments.  Upper case letters may be used in
file names or user-chosen ID strings.

Here is how each line in the input script is parsed by LAMMPS:

(1) If the last printable character on the line is a "&" character,
the command is assumed to continue on the next line.  The next line is
concatenated to the previous line by removing the "&" character and
line break.  This allows long commands to be continued across two or
more lines.  See the discussion of triple quotes in (6) for how to
continue a command across multiple line without using "&" characters.

(2) All characters from the first "#" character onward are treated as
comment and discarded.  See an exception in (6).  Note that a
comment after a trailing "&" character will prevent the command from
continuing on the next line.  Also note that for multi-line commands a
single leading "#" will comment out the entire command.

(3) The line is searched repeatedly for $ characters, which indicate
variables that are replaced with a text string.  See an exception in
(6).  

If the $ is followed by curly brackets, then the variable name is the
text inside the curly brackets.  If no curly brackets follow the $,
then the variable name is the single character immediately following
the $.  Thus $\{myTemp\} and $x refer to variable names "myTemp" and
"x".

How the variable is converted to a text string depends on what style
of variable it is; see the "variable"_variable doc page for details.
It can be a variable that stores multiple text strings, and return one
of them.  The returned text string can be multiple "words" (space
separated) which will then be interpreted as multiple arguments in the
input command.  The variable can also store a numeric formula which
will be evaluated and its numeric result returned as a string.

As a special case, if the $ is followed by parenthesis, then the text
inside the parenthesis is treated as an "immediate" variable and
evaluated as an "equal-style variable"_variable.html.  This is a way
to use numeric formulas in an input script without having to assign
them to variable names.  For example, these 3 input script lines:

variable X equal (xlo+xhi)/2+sqrt(v_area)
region 1 block $X 2 INF INF EDGE EDGE
variable X delete :pre

can be replaced by 

region 1 block $((xlo+xhi)/2+sqrt(v_area)) 2 INF INF EDGE EDGE :pre

so that you do not have to define (or discard) a temporary variable X.

Note that neither the curly-bracket or immediate form of variables can
contain nested $ characters for other variables to substitute for.
Thus you cannot do this:

variable        a equal 2
variable        b2 equal 4
print           "B2 = $\{b$a\}" :pre

Nor can you specify this $($x-1.0) for an immediate variable, but
you could use $(v_x-1.0), since the latter is valid syntax for an
"equal-style variable"_variable.html.

See the "variable"_variable.html command for more details of how
strings are assigned to variables and evaluated, and how they can be
used in input script commands.

(4) The line is broken into "words" separated by whitespace (tabs,
spaces).  Note that words can thus contain letters, digits,
underscores, or punctuation characters.

(5) The first word is the command name.  All successive words in the
line are arguments.

(6) If you want text with spaces to be treated as a single argument,
it can be enclosed in either single or double or triple quotes.  A
long single argument enclosed in single or double quotes can span
multiple lines if the "&" character is used, as described above.  When
the lines are concatenated together (and the "&" characters and line
breaks removed), the text will become a single line.  If you want
multiple lines of an argument to retain their line breaks, the text
can be enclosed in triple quotes, in which case "&" characters are not
needed.  For example:

print "Volume = $v"
print 'Volume = $v'
if "$\{steps\} > 1000" then quit
variable a string "red green blue &
                   purple orange cyan"
print """
System volume = $v
System temperature = $t
""" :pre

In each case, the single, double, or triple quotes are removed when
the single argument they enclose is stored internally.

See the "dump modify format"_dump_modify.html, "print"_print.html,
"if"_if.html, and "python"_python.html commands for examples.

A "#" or "$" character that is between quotes will not be treated as a
comment indicator in (2) or substituted for as a variable in (3).

IMPORTANT NOTE: If the argument is itself a command that requires a
quoted argument (e.g. using a "print"_print.html command as part of an
"if"_if.html or "run every"_run.html command), then single, double, or
triple quotes can be nested in the usual manner.  See the doc pages
for those commands for examples.  Only one of level of nesting is
allowed, but that should be sufficient for most use cases.

:line

3.3 Input script structure :h4,link(cmd_3)

This section describes the structure of a typical LAMMPS input script.
The "examples" directory in the LAMMPS distribution contains many
sample input scripts; the corresponding problems are discussed in
"Section_example"_Section_example.html, and animated on the "LAMMPS
WWW Site"_lws.

A LAMMPS input script typically has 4 parts:

Initialization
Atom definition
Settings
Run a simulation :ol

The last 2 parts can be repeated as many times as desired.  I.e. run a
simulation, change some settings, run some more, etc.  Each of the 4
parts is now described in more detail.  Remember that almost all the
commands need only be used if a non-default value is desired.

(1) Initialization

Set parameters that need to be defined before atoms are created or
read-in from a file.

The relevant commands are "units"_units.html,
"dimension"_dimension.html, "newton"_newton.html,
"processors"_processors.html, "boundary"_boundary.html,
"atom_style"_atom_style.html, "atom_modify"_atom_modify.html.

If force-field parameters appear in the files that will be read, these
commands tell LAMMPS what kinds of force fields are being used:
"pair_style"_pair_style.html, "bond_style"_bond_style.html,
"angle_style"_angle_style.html, "dihedral_style"_dihedral_style.html,
"improper_style"_improper_style.html.

(2) Atom definition

There are 3 ways to define atoms in LAMMPS.  Read them in from a data
or restart file via the "read_data"_read_data.html or
"read_restart"_read_restart.html commands.  These files can contain
molecular topology information.  Or create atoms on a lattice (with no
molecular topology), using these commands: "lattice"_lattice.html,
"region"_region.html, "create_box"_create_box.html,
"create_atoms"_create_atoms.html.  The entire set of atoms can be
duplicated to make a larger simulation using the
"replicate"_replicate.html command.

(3) Settings

Once atoms and molecular topology are defined, a variety of settings
can be specified: force field coefficients, simulation parameters,
output options, etc.

Force field coefficients are set by these commands (they can also be
set in the read-in files): "pair_coeff"_pair_coeff.html,
"bond_coeff"_bond_coeff.html, "angle_coeff"_angle_coeff.html,
"dihedral_coeff"_dihedral_coeff.html,
"improper_coeff"_improper_coeff.html,
"kspace_style"_kspace_style.html, "dielectric"_dielectric.html,
"special_bonds"_special_bonds.html.

Various simulation parameters are set by these commands:
"neighbor"_neighbor.html, "neigh_modify"_neigh_modify.html,
"group"_group.html, "timestep"_timestep.html,
"reset_timestep"_reset_timestep.html, "run_style"_run_style.html,
"min_style"_min_style.html, "min_modify"_min_modify.html.

Fixes impose a variety of boundary conditions, time integration, and
diagnostic options.  The "fix"_fix.html command comes in many flavors.

Various computations can be specified for execution during a
simulation using the "compute"_compute.html,
"compute_modify"_compute_modify.html, and "variable"_variable.html
commands.

Output options are set by the "thermo"_thermo.html, "dump"_dump.html,
and "restart"_restart.html commands.

(4) Run a simulation

A molecular dynamics simulation is run using the "run"_run.html
command.  Energy minimization (molecular statics) is performed using
the "minimize"_minimize.html command.  A parallel tempering
(replica-exchange) simulation can be run using the
"temper"_temper.html command.

:line

3.4 Commands listed by category :link(cmd_4),h4

This section lists all LAMMPS commands, grouped by category.  The
"next section"_#cmd_5 lists the same commands alphabetically.  Note
that some style options for some commands are part of specific LAMMPS
packages, which means they cannot be used unless the package was
included when LAMMPS was built.  Not all packages are included in a
default LAMMPS build.  These dependencies are listed as Restrictions
in the command's documentation.

Initialization:

"atom_modify"_atom_modify.html, "atom_style"_atom_style.html,
"boundary"_boundary.html, "dimension"_dimension.html,
"newton"_newton.html, "processors"_processors.html, "units"_units.html

Atom definition:

"create_atoms"_create_atoms.html, "create_box"_create_box.html,
"lattice"_lattice.html, "read_data"_read_data.html,
"read_dump"_read_dump.html, "read_restart"_read_restart.html,
"region"_region.html, "replicate"_replicate.html

Force fields:

"angle_coeff"_angle_coeff.html, "angle_style"_angle_style.html,
"bond_coeff"_bond_coeff.html, "bond_style"_bond_style.html,
"dielectric"_dielectric.html, "dihedral_coeff"_dihedral_coeff.html,
"dihedral_style"_dihedral_style.html,
"improper_coeff"_improper_coeff.html,
"improper_style"_improper_style.html,
"kspace_modify"_kspace_modify.html, "kspace_style"_kspace_style.html,
"pair_coeff"_pair_coeff.html, "pair_modify"_pair_modify.html,
"pair_style"_pair_style.html, "pair_write"_pair_write.html,
"special_bonds"_special_bonds.html

Settings:

"comm_style"_comm_style.html, "group"_group.html, "mass"_mass.html,
"min_modify"_min_modify.html, "min_style"_min_style.html,
"neigh_modify"_neigh_modify.html, "neighbor"_neighbor.html,
"reset_timestep"_reset_timestep.html, "run_style"_run_style.html,
"set"_set.html, "timestep"_timestep.html, "velocity"_velocity.html

Fixes:

"fix"_fix.html, "fix_modify"_fix_modify.html, "unfix"_unfix.html

Computes:

"compute"_compute.html, "compute_modify"_compute_modify.html,
"uncompute"_uncompute.html

Output:

"dump"_dump.html, "dump image"_dump_image.html,
"dump_modify"_dump_modify.html, "dump movie"_dump_image.html,
"restart"_restart.html, "thermo"_thermo.html,
"thermo_modify"_thermo_modify.html, "thermo_style"_thermo_style.html,
"undump"_undump.html, "write_data"_write_data.html,
"write_dump"_write_dump.html, "write_restart"_write_restart.html

Actions:

"delete_atoms"_delete_atoms.html, "delete_bonds"_delete_bonds.html,
"displace_atoms"_displace_atoms.html, "change_box"_change_box.html,
"minimize"_minimize.html, "neb"_neb.html "prd"_prd.html,
"rerun"_rerun.html, "run"_run.html, "temper"_temper.html

Miscellaneous:

"clear"_clear.html, "echo"_echo.html, "if"_if.html,
"include"_include.html, "jump"_jump.html, "label"_label.html,
"log"_log.html, "next"_next.html, "print"_print.html,
"shell"_shell.html, "variable"_variable.html

:line

3.5 Individual commands :h4,link(cmd_5),link(comm)

This section lists all LAMMPS commands alphabetically, with a separate
listing below of styles within certain commands.  The "previous
section"_#cmd_4 lists the same commands, grouped by category.  Note
that some style options for some commands are part of specific LAMMPS
packages, which means they cannot be used unless the package was
included when LAMMPS was built.  Not all packages are included in a
default LAMMPS build.  These dependencies are listed as Restrictions
in the command's documentation.

"angle_coeff"_angle_coeff.html,
"angle_style"_angle_style.html,
"atom_modify"_atom_modify.html,
"atom_style"_atom_style.html,
"balance"_balance.html,
"bond_coeff"_bond_coeff.html,
"bond_style"_bond_style.html,
"boundary"_boundary.html,
"box"_box.html,
"change_box"_change_box.html,
"clear"_clear.html,
"comm_modify"_comm_modify.html,
"comm_style"_comm_style.html,
"compute"_compute.html,
"compute_modify"_compute_modify.html,
"create_atoms"_create_atoms.html,
"create_bonds"_create_bonds.html,
"create_box"_create_box.html,
"delete_atoms"_delete_atoms.html,
"delete_bonds"_delete_bonds.html,
"dielectric"_dielectric.html,
"dihedral_coeff"_dihedral_coeff.html,
"dihedral_style"_dihedral_style.html,
"dimension"_dimension.html,
"displace_atoms"_displace_atoms.html,
"dump"_dump.html,
"dump image"_dump_image.html,
"dump_modify"_dump_modify.html,
"dump movie"_dump_image.html,
"echo"_echo.html,
"fix"_fix.html,
"fix_modify"_fix_modify.html,
"group"_group.html,
"if"_if.html,
"info"_info.html,
"improper_coeff"_improper_coeff.html,
"improper_style"_improper_style.html,
"include"_include.html,
"jump"_jump.html,
"kspace_modify"_kspace_modify.html,
"kspace_style"_kspace_style.html,
"label"_label.html,
"lattice"_lattice.html,
"log"_log.html,
"mass"_mass.html,
"minimize"_minimize.html,
"min_modify"_min_modify.html,
"min_style"_min_style.html,
"molecule"_molecule.html,
"neb"_neb.html,
"neigh_modify"_neigh_modify.html,
"neighbor"_neighbor.html,
"newton"_newton.html,
"next"_next.html,
"package"_package.html,
"pair_coeff"_pair_coeff.html,
"pair_modify"_pair_modify.html,
"pair_style"_pair_style.html,
"pair_write"_pair_write.html,
"partition"_partition.html,
"prd"_prd.html,
"print"_print.html,
"processors"_processors.html,
"python"_python.html,
"quit"_quit.html,
"read_data"_read_data.html,
"read_dump"_read_dump.html,
"read_restart"_read_restart.html,
"region"_region.html,
"replicate"_replicate.html,
"rerun"_rerun.html,
"reset_timestep"_reset_timestep.html,
"restart"_restart.html,
"run"_run.html,
"run_style"_run_style.html,
"set"_set.html,
"shell"_shell.html,
"special_bonds"_special_bonds.html,
"suffix"_suffix.html,
"tad"_tad.html,
"temper"_temper.html,
"thermo"_thermo.html,
"thermo_modify"_thermo_modify.html,
"thermo_style"_thermo_style.html,
"timer"_timer.html,
"timestep"_timestep.html,
"uncompute"_uncompute.html,
"undump"_undump.html,
"unfix"_unfix.html,
"units"_units.html,
"variable"_variable.html,
"velocity"_velocity.html,
"write_data"_write_data.html,
"write_dump"_write_dump.html,
"write_restart"_write_restart.html :tb(c=6,ea=c)

These are additional commands in USER packages, which can be used if
"LAMMPS is built with the appropriate
package"_Section_start.html#start_3.

"group2ndx"_group2ndx.html :tb(c=1,ea=c)

:line

Fix styles :h4

See the "fix"_fix.html command for one-line descriptions of each style
or click on the style itself for a full description.  Some of the
styles have accelerated versions, which can be used if LAMMPS is built
with the "appropriate accelerated package"_Section_accelerate.html.
This is indicated by additional letters in parenthesis: c = USER-CUDA,
g = GPU, i = USER-INTEL, k = KOKKOS, o = USER-OMP, t = OPT.

"adapt"_fix_adapt.html,
"addforce (c)"_fix_addforce.html,
"append/atoms"_fix_append_atoms.html,
"atom/swap"_fix_atom_swap.html,
"aveforce (c)"_fix_aveforce.html,
"ave/atom"_fix_ave_atom.html,
"ave/chunk"_fix_ave_chunk.html,
"ave/correlate"_fix_ave_correlate.html,
"ave/histo"_fix_ave_histo.html,
"ave/histo/weight"_fix_ave_histo.html,
"ave/spatial"_fix_ave_spatial.html,
"ave/time"_fix_ave_time.html,
"balance"_fix_balance.html,
"bond/break"_fix_bond_break.html,
"bond/create"_fix_bond_create.html,
"bond/swap"_fix_bond_swap.html,
"box/relax"_fix_box_relax.html,
"deform (k)"_fix_deform.html,
"deposit"_fix_deposit.html,
"drag"_fix_drag.html,
"dt/reset"_fix_dt_reset.html,
"efield"_fix_efield.html,
"enforce2d (c)"_fix_enforce2d.html,
"evaporate"_fix_evaporate.html,
"external"_fix_external.html,
"freeze (c)"_fix_freeze.html,
"gcmc"_fix_gcmc.html,
"gld"_fix_gld.html,
"gravity (co)"_fix_gravity.html,
"heat"_fix_heat.html,
"indent"_fix_indent.html,
"langevin (k)"_fix_langevin.html,
"lineforce"_fix_lineforce.html,
"momentum"_fix_momentum.html,
"move"_fix_move.html,
"msst"_fix_msst.html,
"neb"_fix_neb.html,
"nph (ko)"_fix_nh.html,
"nphug (o)"_fix_nphug.html,
"nph/asphere (o)"_fix_nph_asphere.html,
"nph/sphere (o)"_fix_nph_sphere.html,
"npt (cko)"_fix_nh.html,
"npt/asphere (o)"_fix_npt_asphere.html,
"npt/sphere (o)"_fix_npt_sphere.html,
"nve (cko)"_fix_nve.html,
"nve/asphere"_fix_nve_asphere.html,
"nve/asphere/noforce"_fix_nve_asphere_noforce.html,
"nve/body"_fix_nve_body.html,
"nve/limit"_fix_nve_limit.html,
"nve/line"_fix_nve_line.html,
"nve/noforce"_fix_nve_noforce.html,
"nve/sphere (o)"_fix_nve_sphere.html,
"nve/tri"_fix_nve_tri.html,
"nvt (cko)"_fix_nh.html,
"nvt/asphere (o)"_fix_nvt_asphere.html,
"nvt/sllod (o)"_fix_nvt_sllod.html,
"nvt/sphere (o)"_fix_nvt_sphere.html,
"oneway"_fix_oneway.html,
"orient/fcc"_fix_orient_fcc.html,
"planeforce"_fix_planeforce.html,
"poems"_fix_poems.html,
"pour"_fix_pour.html,
"press/berendsen"_fix_press_berendsen.html,
"print"_fix_print.html,
"property/atom"_fix_property_atom.html,
"qeq/comb (o)"_fix_qeq_comb.html,
"qeq/dynamic"_fix_qeq.html,
"qeq/point"_fix_qeq.html,
"qeq/shielded"_fix_qeq.html,
"qeq/slater"_fix_qeq.html,
"reax/bonds"_fix_reax_bonds.html,
"recenter"_fix_recenter.html,
"restrain"_fix_restrain.html,
"rigid (o)"_fix_rigid.html,
"rigid/nph (o)"_fix_rigid.html,
"rigid/npt (o)"_fix_rigid.html,
"rigid/nve (o)"_fix_rigid.html,
"rigid/nvt (o)"_fix_rigid.html,
"rigid/small (o)"_fix_rigid.html,
"rigid/small/nph"_fix_rigid.html,
"rigid/small/npt"_fix_rigid.html,
"rigid/small/nve"_fix_rigid.html,
"rigid/small/nvt"_fix_rigid.html,
"setforce (c)"_fix_setforce.html,
"shake (c)"_fix_shake.html,
"spring"_fix_spring.html,
"spring/rg"_fix_spring_rg.html,
"spring/self"_fix_spring_self.html,
"srd"_fix_srd.html,
"store/force"_fix_store_force.html,
"store/state"_fix_store_state.html,
"temp/berendsen (c)"_fix_temp_berendsen.html,
"temp/csld"_fix_temp_csvr.html,
"temp/csvr"_fix_temp_csvr.html,
"temp/rescale (c)"_fix_temp_rescale.html,
"tfmc"_fix_tfmc.html,
"thermal/conductivity"_fix_thermal_conductivity.html,
"tmd"_fix_tmd.html,
"ttm"_fix_ttm.html,
"tune/kspace"_fix_tune_kspace.html,
"vector"_fix_vector.html,
"viscosity"_fix_viscosity.html,
"viscous (c)"_fix_viscous.html,
"wall/colloid"_fix_wall.html,
"wall/gran"_fix_wall_gran.html,
"wall/harmonic"_fix_wall.html,
"wall/lj1043"_fix_wall.html,
"wall/lj126"_fix_wall.html,
"wall/lj93"_fix_wall.html,
"wall/piston"_fix_wall_piston.html,
"wall/reflect (k)"_fix_wall_reflect.html,
"wall/region"_fix_wall_region.html,
"wall/srd"_fix_wall_srd.html :tb(c=8,ea=c)

These are additional fix styles in USER packages, which can be used if
"LAMMPS is built with the appropriate
package"_Section_start.html#start_3.

"adapt/fep"_fix_adapt_fep.html,
"addtorque"_fix_addtorque.html,
"atc"_fix_atc.html,
"ave/spatial/sphere"_fix_ave_spatial_sphere.html,
"drude"_fix_drude.html,
"drude/transform/direct"_fix_drude_transform.html,
"drude/transform/reverse"_fix_drude_transform.html,
"colvars"_fix_colvars.html,
"gle"_fix_gle.html,
"imd"_fix_imd.html,
"ipi"_fix_ipi.html,
"langevin/drude"_fix_langevin_drude.html,
"langevin/eff"_fix_langevin_eff.html,
"lb/fluid"_fix_lb_fluid.html,
"lb/momentum"_fix_lb_momentum.html,
"lb/pc"_fix_lb_pc.html,
"lb/rigid/pc/sphere"_fix_lb_rigid_pc_sphere.html,
"lb/viscous"_fix_lb_viscous.html,
"meso"_fix_meso.html,
"meso/stationary"_fix_meso_stationary.html,
"nph/eff"_fix_nh_eff.html,
"npt/eff"_fix_nh_eff.html,
"nve/eff"_fix_nve_eff.html,
"nvt/eff"_fix_nh_eff.html,
"nvt/sllod/eff"_fix_nvt_sllod_eff.html,
"phonon"_fix_phonon.html,
"pimd"_fix_pimd.html,
"qbmsst"_fix_qbmsst.html,
"qeq/reax"_fix_qeq_reax.html,
"qmmm"_fix_qmmm.html,
"qtb"_fix_qtb.html,
"reax/c/bonds"_fix_reax_bonds.html,
"reax/c/species"_fix_reaxc_species.html,
"saed/vtk"_fix_saed_vtk.html,
"smd"_fix_smd.html,
"smd/adjust/dt"_fix_smd_adjust_dt.html,
"smd/integrate/tlsph"_fix_smd_integrate_tlsph.html,
"smd/integrate/ulsph"_fix_smd_integrate_ulsph.html,
"smd/move/triangulated/surface"_fix_smd_move_triangulated_surface.html,
"smd/setvel"_fix_smd_setvel.html,
"smd/tlsph/reference/configuration"_fix_smd_tlsph_reference_configuration.html,
"smd/wall/surface"_fix_smd_wall_surface.html,
"temp/rescale/eff"_fix_temp_rescale_eff.html,
"ti/rs"_fix_ti_rs.html,
"ti/spring"_fix_ti_spring.html,
"ttm/mod"_fix_ttm.html :tb(c=6,ea=c)

:line

Compute styles :h4

See the "compute"_compute.html command for one-line descriptions of
each style or click on the style itself for a full description.  Some
of the styles have accelerated versions, which can be used if LAMMPS
is built with the "appropriate accelerated
package"_Section_accelerate.html.  This is indicated by additional
letters in parenthesis: c = USER-CUDA, g = GPU, i = USER-INTEL, k =
KOKKOS, o = USER-OMP, t = OPT.

"angle/local"_compute_angle_local.html,
"angmom/chunk"_compute_angmom_chunk.html,
"body/local"_compute_body_local.html,
"bond/local"_compute_bond_local.html,
"centro/atom"_compute_centro_atom.html,
"chunk/atom"_compute_chunk_atom.html,
"cluster/atom"_compute_cluster_atom.html,
"cna/atom"_compute_cna_atom.html,
"com"_compute_com.html,
"com/chunk"_compute_com_chunk.html,
"contact/atom"_compute_contact_atom.html,
"coord/atom"_compute_coord_atom.html,
"damage/atom"_compute_damage_atom.html,
"dihedral/local"_compute_dihedral_local.html,
"dilatation/atom"_compute_dilatation_atom.html,
"displace/atom"_compute_displace_atom.html,
"erotate/asphere"_compute_erotate_asphere.html,
"erotate/rigid"_compute_erotate_rigid.html,
"erotate/sphere"_compute_erotate_sphere.html,
"erotate/sphere/atom"_compute_erotate_sphere_atom.html,
"event/displace"_compute_event_displace.html,
"group/group"_compute_group_group.html,
"gyration"_compute_gyration.html,
"gyration/chunk"_compute_gyration_chunk.html,
"heat/flux"_compute_heat_flux.html,
"improper/local"_compute_improper_local.html,
"inertia/chunk"_compute_inertia_chunk.html,
"ke"_compute_ke.html,
"ke/atom"_compute_ke_atom.html,
"ke/rigid"_compute_ke_rigid.html,
"msd"_compute_msd.html,
"msd/chunk"_compute_msd_chunk.html,
"msd/nongauss"_compute_msd_nongauss.html,
"omega/chunk"_compute_omega_chunk.html,
"pair"_compute_pair.html,
"pair/local"_compute_pair_local.html,
"pe (c)"_compute_pe.html,
"pe/atom"_compute_pe_atom.html,
"plasticity/atom"_compute_plasticity_atom.html,
"pressure (c)"_compute_pressure.html,
"property/atom"_compute_property_atom.html,
"property/local"_compute_property_local.html,
"property/chunk"_compute_property_chunk.html,
"rdf"_compute_rdf.html,
"reduce"_compute_reduce.html,
"reduce/region"_compute_reduce.html,
"slice"_compute_slice.html,
"sna/atom"_compute_sna_atom.html,
"snad/atom"_compute_sna_atom.html,
"snav/atom"_compute_sna_atom.html,
"stress/atom"_compute_stress_atom.html,
"temp (ck)"_compute_temp.html,
"temp/asphere"_compute_temp_asphere.html,
"temp/com"_compute_temp_com.html,
"temp/chunk"_compute_temp_chunk.html,
"temp/deform"_compute_temp_deform.html,
"temp/partial (c)"_compute_temp_partial.html,
"temp/profile"_compute_temp_profile.html,
"temp/ramp"_compute_temp_ramp.html,
"temp/region"_compute_temp_region.html,
"temp/sphere"_compute_temp_sphere.html,
"ti"_compute_ti.html,
"torque/chunk"_compute_torque_chunk.html,
"vacf"_compute_vacf.html,
"vcm/chunk"_compute_vcm_chunk.html,
"voronoi/atom"_compute_voronoi_atom.html :tb(c=6,ea=c)

These are additional compute styles in USER packages, which can be
used if "LAMMPS is built with the appropriate
package"_Section_start.html#start_3.

"ackland/atom"_compute_ackland_atom.html,
"basal/atom"_compute_basal_atom.html,
"fep"_compute_fep.html,
"force/tally"_compute_tally.html,
"heat/flux/tally"_compute_tally.html,
"ke/eff"_compute_ke_eff.html,
"ke/atom/eff"_compute_ke_atom_eff.html,
"meso_e/atom"_compute_meso_e_atom.html,
"meso_rho/atom"_compute_meso_rho_atom.html,
"meso_t/atom"_compute_meso_t_atom.html,
"pe/tally"_compute_tally.html,
"saed"_compute_saed.html,
"smd/contact/radius"_compute_smd_contact_radius.html,
"smd/damage"_compute_smd_damage.html,
"smd/hourglass/error"_compute_smd_hourglass_error.html,
"smd/internal/energy"_compute_smd_internal_energy.html,
"smd/plastic/strain"_compute_smd_plastic_strain.html,
"smd/plastic/strain/rate"_compute_smd_plastic_strain_rate.html,
"smd/rho"_compute_smd_rho.html,
"smd/tlsph/defgrad"_compute_smd_tlsph_defgrad.html,
"smd/tlsph/dt"_compute_smd_tlsph_dt.html,
"smd/tlsph/num/neighs"_compute_smd_tlsph_num_neighs.html,
"smd/tlsph/shape"_compute_smd_tlsph_shape.html,
"smd/tlsph/strain"_compute_smd_tlsph_strain.html,
"smd/tlsph/strain/rate"_compute_smd_tlsph_strain_rate.html,
"smd/tlsph/stress"_compute_smd_tlsph_stress.html,
"smd/triangle/mesh/vertices"_compute_smd_triangle_mesh_vertices.html,
"smd/ulsph/num/neighs"_compute_smd_ulsph_num_neighs.html,
"smd/ulsph/strain"_compute_smd_ulsph_strain.html,
"smd/ulsph/strain/rate"_compute_smd_ulsph_strain_rate.html,
"smd/ulsph/stress"_compute_smd_ulsph_stress.html,
"smd/vol"_compute_smd_vol.html,
"stress/tally"_compute_tally.html,
"temp/drude"_compute_temp_drude.html,
"temp/eff"_compute_temp_eff.html,
"temp/deform/eff"_compute_temp_deform_eff.html,
"temp/region/eff"_compute_temp_region_eff.html,
"temp/rotate"_compute_temp_rotate.html,
"xrd"_compute_xrd.html :tb(c=6,ea=c)

:line

Pair_style potentials :h4

See the "pair_style"_pair_style.html command for an overview of pair
potentials.  Click on the style itself for a full description.  Many
of the styles have accelerated versions, which can be used if LAMMPS
is built with the "appropriate accelerated
package"_Section_accelerate.html.  This is indicated by additional
letters in parenthesis: c = USER-CUDA, g = GPU, i = USER-INTEL, k =
KOKKOS, o = USER-OMP, t = OPT.

"none"_pair_none.html,
"hybrid"_pair_hybrid.html,
"hybrid/overlay"_pair_hybrid.html,
"adp (o)"_pair_adp.html,
"airebo (o)"_pair_airebo.html,
"beck (go)"_pair_beck.html,
"body"_pair_body.html,
"bop"_pair_bop.html,
"born (go)"_pair_born.html,
"born/coul/long (cgo)"_pair_born.html,
"born/coul/long/cs"_pair_born.html,
"born/coul/msm (o)"_pair_born.html,
"born/coul/wolf (go)"_pair_born.html,
"brownian (o)"_pair_brownian.html,
"brownian/poly (o)"_pair_brownian.html,
"buck (cgko)"_pair_buck.html,
"buck/coul/cut (cgko)"_pair_buck.html,
"buck/coul/long (cgko)"_pair_buck.html,
"buck/coul/long/cs"_pair_buck.html,
"buck/coul/msm (o)"_pair_buck.html,
"buck/long/coul/long (o)"_pair_buck_long.html,
"colloid (go)"_pair_colloid.html,
"comb (o)"_pair_comb.html,
"comb3"_pair_comb.html,
"coul/cut (gko)"_pair_coul.html,
"coul/debye (gko)"_pair_coul.html,
"coul/dsf (gko)"_pair_coul.html,
"coul/long (gko)"_pair_coul.html,
"coul/long/cs"_pair_coul.html,
"coul/msm"_pair_coul.html,
"coul/streitz"_pair_coul.html,
"coul/wolf (ko)"_pair_coul.html,
"dpd (o)"_pair_dpd.html,
"dpd/tstat (o)"_pair_dpd.html,
"dsmc"_pair_dsmc.html,
"eam (cgkot)"_pair_eam.html,
"eam/alloy (cgkot)"_pair_eam.html,
"eam/fs (cgkot)"_pair_eam.html,
"eim (o)"_pair_eim.html,
"gauss (go)"_pair_gauss.html,
"gayberne (gio)"_pair_gayberne.html,
"gran/hertz/history (o)"_pair_gran.html,
"gran/hooke (co)"_pair_gran.html,
"gran/hooke/history (o)"_pair_gran.html,
"hbond/dreiding/lj (o)"_pair_hbond_dreiding.html,
"hbond/dreiding/morse (o)"_pair_hbond_dreiding.html,
"kim"_pair_kim.html,
"lcbop"_pair_lcbop.html,
"line/lj (o)"_pair_line_lj.html,
"lj/charmm/coul/charmm (cko)"_pair_charmm.html,
"lj/charmm/coul/charmm/implicit (cko)"_pair_charmm.html,
"lj/charmm/coul/long (cgiko)"_pair_charmm.html,
"lj/charmm/coul/msm"_pair_charmm.html,
"lj/class2 (cgko)"_pair_class2.html,
"lj/class2/coul/cut (cko)"_pair_class2.html,
"lj/class2/coul/long (cgko)"_pair_class2.html,
"lj/cubic (go)"_pair_lj_cubic.html,
"lj/cut (cgikot)"_pair_lj.html,
"lj/cut/coul/cut (cgko)"_pair_lj.html,
"lj/cut/coul/debye (cgko)"_pair_lj.html,
"lj/cut/coul/dsf (gko)"_pair_lj.html,
"lj/cut/coul/long (cgikot)"_pair_lj.html,
"lj/cut/coul/long/cs"_pair_lj.html,
"lj/cut/coul/msm (go)"_pair_lj.html,
"lj/cut/dipole/cut (go)"_pair_dipole.html,
"lj/cut/dipole/long"_pair_dipole.html,
"lj/cut/tip4p/cut (o)"_pair_lj.html,
"lj/cut/tip4p/long (ot)"_pair_lj.html,
"lj/expand (cgko)"_pair_lj_expand.html,
"lj/gromacs (cgko)"_pair_gromacs.html,
"lj/gromacs/coul/gromacs (cko)"_pair_gromacs.html,
"lj/long/coul/long (o)"_pair_lj_long.html,
"lj/long/dipole/long"_pair_dipole.html,
"lj/long/tip4p/long"_pair_lj_long.html,
"lj/smooth (co)"_pair_lj_smooth.html,
"lj/smooth/linear (o)"_pair_lj_smooth_linear.html,
"lj96/cut (cgo)"_pair_lj96.html,
"lubricate (o)"_pair_lubricate.html,
"lubricate/poly (o)"_pair_lubricate.html,
"lubricateU"_pair_lubricateU.html,
"lubricateU/poly"_pair_lubricateU.html,
"meam (o)"_pair_meam.html,
"mie/cut (o)"_pair_mie.html,
"morse (cgot)"_pair_morse.html,
"nb3b/harmonic (o)"_pair_nb3b_harmonic.html,
"nm/cut (o)"_pair_nm.html,
"nm/cut/coul/cut (o)"_pair_nm.html,
"nm/cut/coul/long (o)"_pair_nm.html,
"peri/eps"_pair_peri.html,
"peri/lps (o)"_pair_peri.html,
"peri/pmb (o)"_pair_peri.html,
"peri/ves"_pair_peri.html,
"polymorphic"_pair_polymorphic.html,
"reax"_pair_reax.html,
"rebo (o)"_pair_airebo.html,
"resquared (go)"_pair_resquared.html,
"snap"_pair_snap.html,
"soft (go)"_pair_soft.html,
"sw (cgkio)"_pair_sw.html,
"table (gko)"_pair_table.html,
"tersoff (cgko)"_pair_tersoff.html,
"tersoff/mod (ko)"_pair_tersoff_mod.html,
"tersoff/zbl (ko)"_pair_tersoff_zbl.html,
"tip4p/cut (o)"_pair_coul.html,
"tip4p/long (o)"_pair_coul.html,
"tri/lj (o)"_pair_tri_lj.html,
"yukawa (go)"_pair_yukawa.html,
"yukawa/colloid (go)"_pair_yukawa_colloid.html,
"zbl (go)"_pair_zbl.html :tb(c=4,ea=c)

These are additional pair styles in USER packages, which can be used
if "LAMMPS is built with the appropriate
package"_Section_start.html#start_3.

"awpmd/cut"_pair_awpmd.html,
"coul/cut/soft (o)"_pair_lj_soft.html,
"coul/diel (o)"_pair_coul_diel.html,
"coul/long/soft (o)"_pair_lj_soft.html,
"eam/cd (o)"_pair_eam.html,
"edip (o)"_pair_edip.html,
"eff/cut"_pair_eff.html,
"gauss/cut"_pair_gauss.html,
"list"_pair_list.html,
"lj/charmm/coul/long/soft (o)"_pair_charmm.html,
"lj/cut/coul/cut/soft (o)"_pair_lj_soft.html,
"lj/cut/coul/long/soft (o)"_pair_lj_soft.html,
"lj/cut/dipole/sf (go)"_pair_dipole.html,
"lj/cut/soft (o)"_pair_lj_soft.html,
"lj/cut/tip4p/long/soft (o)"_pair_lj_soft.html,
"lj/sdk (gko)"_pair_sdk.html,
"lj/sdk/coul/long (go)"_pair_sdk.html,
"lj/sdk/coul/msm (o)"_pair_sdk.html,
"lj/sf (o)"_pair_lj_sf.html,
"meam/spline"_pair_meam_spline.html,
"meam/sw/spline"_pair_meam_sw_spline.html,
"quip"_pair_quip.html,
"reax/c"_pair_reax_c.html,
"smd/hertz"_pair_smd_hertz.html,
"smd/tlsph"_pair_smd_tlsph.html,
"smd/triangulated/surface"_pair_smd_triangulated_surface.html,
"smd/ulsph"_pair_smd_ulsph.html,
"sph/heatconduction"_pair_sph_heatconduction.html,
"sph/idealgas"_pair_sph_idealgas.html,
"sph/lj"_pair_sph_lj.html,
"sph/rhosum"_pair_sph_rhosum.html,
"sph/taitwater"_pair_sph_taitwater.html,
"sph/taitwater/morris"_pair_sph_taitwater_morris.html,
"srp"_pair_srp.html,
"tersoff/table (o)"_pair_tersoff.html,
"thole"_pair_thole.html,
"tip4p/long/soft (o)"_pair_lj_soft.html :tb(c=4,ea=c)

:line

Bond_style potentials :h4

See the "bond_style"_bond_style.html command for an overview of bond
potentials.  Click on the style itself for a full description.  Some
of the styles have accelerated versions, which can be used if LAMMPS
is built with the "appropriate accelerated
package"_Section_accelerate.html.  This is indicated by additional
letters in parenthesis: c = USER-CUDA, g = GPU, i = USER-INTEL, k =
KOKKOS, o = USER-OMP, t = OPT.

"none"_bond_none.html,
"hybrid"_bond_hybrid.html,
"class2 (o)"_bond_class2.html,
"fene (ko)"_bond_fene.html,
"fene/expand (o)"_bond_fene_expand.html,
"harmonic (ko)"_bond_harmonic.html,
"morse (o)"_bond_morse.html,
"nonlinear (o)"_bond_nonlinear.html,
"quartic (o)"_bond_quartic.html,
"table (o)"_bond_table.html :tb(c=4,ea=c)

These are additional bond styles in USER packages, which can be used
if "LAMMPS is built with the appropriate
package"_Section_start.html#start_3.

"harmonic/shift (o)"_bond_harmonic_shift.html,
"harmonic/shift/cut (o)"_bond_harmonic_shift_cut.html :tb(c=4,ea=c)

:line

Angle_style potentials :h4

See the "angle_style"_angle_style.html command for an overview of
angle potentials.  Click on the style itself for a full description.
Some of the styles have accelerated versions, which can be used if
LAMMPS is built with the "appropriate accelerated
package"_Section_accelerate.html.  This is indicated by additional
letters in parenthesis: c = USER-CUDA, g = GPU, i = USER-INTEL, k =
KOKKOS, o = USER-OMP, t = OPT.

"none"_angle_none.html,
"hybrid"_angle_hybrid.html,
"charmm (ko)"_angle_charmm.html,
"class2 (o)"_angle_class2.html,
"cosine (o)"_angle_cosine.html,
"cosine/delta (o)"_angle_cosine_delta.html,
"cosine/periodic (o)"_angle_cosine_periodic.html,
"cosine/squared (o)"_angle_cosine_squared.html,
"harmonic (ko)"_angle_harmonic.html,
"table (o)"_angle_table.html :tb(c=4,ea=c)

These are additional angle styles in USER packages, which can be used
if "LAMMPS is built with the appropriate
package"_Section_start.html#start_3.

"cosine/shift (o)"_angle_cosine_shift.html,
"cosine/shift/exp (o)"_angle_cosine_shift_exp.html,
"dipole (o)"_angle_dipole.html,
"fourier (o)"_angle_fourier.html,
"fourier/simple (o)"_angle_fourier_simple.html,
"quartic (o)"_angle_quartic.html,
"sdk"_angle_sdk.html :tb(c=4,ea=c)

:line

Dihedral_style potentials :h4

See the "dihedral_style"_dihedral_style.html command for an overview
of dihedral potentials.  Click on the style itself for a full
description.  Some of the styles have accelerated versions, which can
be used if LAMMPS is built with the "appropriate accelerated
package"_Section_accelerate.html.  This is indicated by additional
letters in parenthesis: c = USER-CUDA, g = GPU, i = USER-INTEL, k =
KOKKOS, o = USER-OMP, t = OPT.

"none"_dihedral_none.html,
"hybrid"_dihedral_hybrid.html,
"charmm (ko)"_dihedral_charmm.html,
"class2 (o)"_dihedral_class2.html,
"harmonic (o)"_dihedral_harmonic.html,
"helix (o)"_dihedral_helix.html,
"multi/harmonic (o)"_dihedral_multi_harmonic.html,
"opls (ko)"_dihedral_opls.html :tb(c=4,ea=c)

These are additional dihedral styles in USER packages, which can be
used if "LAMMPS is built with the appropriate
package"_Section_start.html#start_3.

"cosine/shift/exp (o)"_dihedral_cosine_shift_exp.html,
"fourier (o)"_dihedral_fourier.html,
"nharmonic (o)"_dihedral_nharmonic.html,
"quadratic (o)"_dihedral_quadratic.html,
"table (o)"_dihedral_table.html :tb(c=4,ea=c)

:line

Improper_style potentials :h4

See the "improper_style"_improper_style.html command for an overview
of improper potentials.  Click on the style itself for a full
description.  Some of the styles have accelerated versions, which can
be used if LAMMPS is built with the "appropriate accelerated
package"_Section_accelerate.html.  This is indicated by additional
letters in parenthesis: c = USER-CUDA, g = GPU, i = USER-INTEL, k =
KOKKOS, o = USER-OMP, t = OPT.

"none"_improper_none.html,
"hybrid"_improper_hybrid.html,
"class2 (o)"_improper_class2.html,
"cvff (o)"_improper_cvff.html,
"harmonic (ko)"_improper_harmonic.html,
"umbrella (o)"_improper_umbrella.html :tb(c=4,ea=c)

These are additional improper styles in USER packages, which can be
used if "LAMMPS is built with the appropriate
package"_Section_start.html#start_3.

"cossq (o)"_improper_cossq.html,
"fourier (o)"_improper_fourier.html,
"ring (o)"_improper_ring.html :tb(c=4,ea=c)

:line

Kspace solvers :h4

See the "kspace_style"_kspace_style.html command for an overview of
Kspace solvers.  Click on the style itself for a full description.
Some of the styles have accelerated versions, which can be used if
LAMMPS is built with the "appropriate accelerated
package"_Section_accelerate.html.  This is indicated by additional
letters in parenthesis: c = USER-CUDA, g = GPU, i = USER-INTEL, k =
KOKKOS, o = USER-OMP, t = OPT.

"ewald (o)"_kspace_style.html,
"ewald/disp"_kspace_style.html,
"msm (o)"_kspace_style.html,
"msm/cg (o)"_kspace_style.html,
"pppm (cgo)"_kspace_style.html,
"pppm/cg (o)"_kspace_style.html,
"pppm/disp"_kspace_style.html,
"pppm/disp/tip4p"_kspace_style.html,
"pppm/tip4p (o)"_kspace_style.html :tb(c=4,ea=c)