forked from lijiext/lammps
180 lines
7.8 KiB
Plaintext
180 lines
7.8 KiB
Plaintext
"LAMMPS WWW Site"_lws - "LAMMPS Documentation"_ld - "LAMMPS Commands"_lc :c
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:link(lws,http://lammps.sandia.gov)
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:link(ld,Manual.html)
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:link(lc,Section_commands.html#comm)
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:line
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compute temp/profile command :h3
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[Syntax:]
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compute ID group-ID temp/profile xflag yflag zflag binstyle args :pre
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ID, group-ID are documented in "compute"_compute.html command :ulb,l
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temp/profile = style name of this compute command :l
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xflag,yflag,zflag = 0/1 for whether to exclude/include this dimension :l
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binstyle = {x} or {y} or {z} or {xy} or {yz} or {xz} or {xyz} :l
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{x} arg = Nx
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{y} arg = Ny
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{z} arg = Nz
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{xy} args = Nx Ny
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{yz} args = Ny Nz
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{xz} args = Nx Nz
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{xyz} args = Nx Ny Nz
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Nx,Ny,Nz = number of velocity bins in x,y,z dimensions :pre
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zero or more keyword/value pairs may be appended :l
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keyword = {out} :l
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{out} value = {tensor} or {bin} :pre
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:ule
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[Examples:]
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compute myTemp flow temp/profile 1 1 1 x 10
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compute myTemp flow temp/profile 1 1 1 x 10 out bin
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compute myTemp flow temp/profile 0 1 1 xyz 20 20 20 :pre
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[Description:]
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Define a computation that calculates the temperature of a group of
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atoms, after subtracting out a spatially-averaged center-of-mass
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velocity field, before computing the kinetic energy. This can be
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useful for thermostatting a collection of atoms undergoing a complex
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flow, e.g. via a profile-unbiased thermostat (PUT) as described in
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"(Evans)"_#Evans. A compute of this style can be used by any command
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that computes a temperature, e.g. "thermo_modify"_thermo_modify.html,
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"fix temp/rescale"_fix_temp_rescale.html, "fix npt"_fix_nh.html, etc.
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The {xflag}, {yflag}, {zflag} settings determine which components of
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average velocity are subtracted out.
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The {binstyle} setting and its {Nx}, {Ny}, {Nz} arguments determine
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how bins are setup to perform spatial averaging. "Bins" can be 1d
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slabs, 2d pencils, or 3d bricks depending on which {binstyle} is used.
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The simulation box is partitioned conceptually into {Nx} by {Ny} by
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{Nz} bins. Depending on the {binstyle}, you may only specify one or
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two of these values; the others are effectively set to 1 (no binning
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in that dimension). For non-orthogonal (triclinic) simulation boxes,
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the bins are "tilted" slabs or pencils or bricks that are parallel to
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the tilted faces of the box. See the "region prism"_region.html
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command for a discussion of the geometry of tilted boxes in LAMMPS.
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When a temperature is computed, the center-of-mass velocity for the
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set of atoms that are both in the compute group and in the same
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spatial bin is calculated. This bias velocity is then subtracted from
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the velocities of individual atoms in the bin to yield a thermal
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velocity for each atom. Note that if there is only one atom in the
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bin, its thermal velocity will thus be 0.0.
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After the spatially-averaged velocity field has been subtracted from
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each atom, the temperature is calculated by the formula KE = dim/2 N k
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T, where KE = total kinetic energy of the group of atoms (sum of 1/2 m
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v^2), dim = 2 or 3 = dimensionality of the simulation, N = number of
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atoms in the group, k = Boltzmann constant, and T = temperature.
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If the {out} keyword is used with a {tensor} value, which is the
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default, a kinetic energy tensor, stored as a 6-element vector, is
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also calculated by this compute for use in the computation of a
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pressure tensor. The formula for the components of the tensor is the
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same as the above formula, except that v^2 is replaced by vx*vy for
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the xy component, etc. The 6 components of the vector are ordered xx,
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yy, zz, xy, xz, yz.
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If the {out} keyword is used with a {bin} value, the count of atoms
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and computed temperature for each bin are stored for output, as an
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array of values, as described below. The temperature of each bin is
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calculated as described above, where the bias velocity is subtracted
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and only the remaining thermal velocity of atoms in the bin
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contributes to the temperature. See the note below for how the
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temperature is normalized by the degrees-of-freedom of atoms in the
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bin.
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The number of atoms contributing to the temperature is assumed to be
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constant for the duration of the run; use the {dynamic} option of the
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"compute_modify"_compute_modify.html command if this is not the case.
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The removal of the spatially-averaged velocity field by this fix is
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essentially computing the temperature after a "bias" has been removed
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from the velocity of the atoms. If this compute is used with a fix
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command that performs thermostatting then this bias will be subtracted
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from each atom, thermostatting of the remaining thermal velocity will
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be performed, and the bias will be added back in. Thermostatting
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fixes that work in this way include "fix nvt"_fix_nh.html, "fix
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temp/rescale"_fix_temp_rescale.html, "fix
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temp/berendsen"_fix_temp_berendsen.html, and "fix
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langevin"_fix_langevin.html.
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This compute subtracts out degrees-of-freedom due to fixes that
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constrain molecular motion, such as "fix shake"_fix_shake.html and
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"fix rigid"_fix_rigid.html. This means the temperature of groups of
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atoms that include these constraints will be computed correctly. If
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needed, the subtracted degrees-of-freedom can be altered using the
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{extra} option of the "compute_modify"_compute_modify.html command.
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IMPORTANT NOTE: When using the {out} keyword with a value of {bin},
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the calculated temperature for each bin does not include the
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degrees-of-freedom adjustment described in the preceeding paragraph,
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for fixes that constrain molecular motion. It does include the
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adjustment due to the {extra} option, which is applied to each bin.
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See "this howto section"_Section_howto.html#howto_16 of the manual for
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a discussion of different ways to compute temperature and perform
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thermostatting. Using this compute in conjunction with a
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thermostatting fix, as explained there, will effectively implement a
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profile-unbiased thermostat (PUT), as described in "(Evans)"_#Evans.
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[Output info:]
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This compute calculates a global scalar (the temperature). Depending
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on the setting of the {out} keyword, it also calculates a global
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vector or array. For {out} = {tensor}, it calculates a vector of
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length 6 (KE tensor), which can be accessed by indices 1-6. For {out}
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= {bin} it calculates a global array which has 2 columns and N rows,
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where N is the number of bins. The first column contains the number
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of atoms in that bin. The second contains the temperature of that
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bin, calculated as described above. The ordering of rows in the array
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is as follows. Bins in x vary fastest, then y, then z. Thus for a
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10x10x10 3d array of bins, there will be 1000 rows. The bin with
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indices ix,iy,iz = 2,3,4 would map to row M = (iz-1)*10*10 + (iy-1)*10
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+ ix = 322, where the rows are numbered from 1 to 1000 and the bin
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indices are numbered from 1 to 10 in each dimension.
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These values can be used by any command that uses global scalar or
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vector or array values from a compute as input. See "this
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section"_Section_howto.html#howto_15 for an overview of LAMMPS output
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options.
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The scalar value calculated by this compute is "intensive". The
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vector values are "extensive". The array values are "intensive".
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The scalar value will be in temperature "units"_units.html. The
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vector values will be in energy "units"_units.html. The first column
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of array values are counts; the values in the second column will be in
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temperature "units"_units.html.
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[Restrictions:]
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You should not use too large a velocity-binning grid, especially in
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3d. In the current implementation, the binned velocity averages are
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summed across all processors, so this will be inefficient if the grid
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is too large, and the operation is performed every timestep, as it
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will be for most thermostats.
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[Related commands:]
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"compute temp"_compute_temp.html, "compute
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temp/ramp"_compute_temp_ramp.html, "compute
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temp/deform"_compute_temp_deform.html, "compute
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pressure"_compute_pressure.html
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[Default:]
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The option default is out = tensor.
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:line
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:link(Evans)
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[(Evans)] Evans and Morriss, Phys Rev Lett, 56, 2172-2175 (1986).
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