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	<CENTER><A HREF = "http://lammps.sandia.gov">LAMMPS WWW Site</A> - <A HREF = "Manual.html">LAMMPS Documentation</A> - <A HREF = "Section_commands.html#comm">LAMMPS Commands</A>
	</CENTER>






	<HR>

	<H3>create_box command
	</H3>
	<P><B>Syntax:</B>
	</P>
	<PRE>create_box N region-ID keyword value ...
	</PRE>
	<UL><LI>N = # of atom types to use in this simulation

	<LI>region-ID = ID of region to use as simulation domain

	<LI>zero or more keyword/value pairs may be appended

	<LI>keyword = <I>bond/types</I> or <I>angle/types</I> or <I>dihedral/types</I> or <I>improper/types</I> or <I>extra/bond/per/atom</I> or <I>extra/angle/per/atom</I> or <I>extra/dihedral/per/atom</I> or <I>extra/improper/per/atom</I>

	<PRE> <I>bond/types</I> value = # of bond types
	<I>angle/types</I> value = # of angle types
	<I>dihedral/types</I> value = # of dihedral types
	<I>improper/types</I> value = # of improper types
	<I>extra/bond/per/atom</I> value = # of bonds per atom
	<I>extra/angle/per/atom</I> value = # of angles per atom
	<I>extra/dihedral/per/atom</I> value = # of dihedrals per atom
	<I>extra/improper/per/atom</I> value = # of impropers per atom
	<I>extra/special/per/atom</I> value = # of special neighbors per atom
	</PRE>

	</UL>
	<P><B>Examples:</B>
	</P>
	<PRE>create_box 2 mybox
	create_box 2 mybox bond/types 2 extra/bond/per/atom 1
	</PRE>
	<P><B>Description:</B>
	</P>
	<P>This command creates a simulation box based on the specified region.
	Thus a <A HREF = "region.html">region</A> command must first be used to define a
	geometric domain. It also partitions the simulation box into a
	regular 3d grid of rectangular bricks, one per processor, based on the
	number of processors being used and the settings of the
	<A HREF = "processors.html">processors</A> command. The partitioning can later be
	changed by the <A HREF = "balance.html">balance</A> or <A HREF = "fix_balance.html">fix
	balance</A> commands.
	</P>
	<P>The argument N is the number of atom types that will be used in the
	simulation.
	</P>
	<P>If the region is not of style <I>prism</I>, then LAMMPS encloses the region
	(block, sphere, etc) with an axis-aligned orthogonal bounding box
	which becomes the simulation domain.
	</P>
	<P>If the region is of style <I>prism</I>, LAMMPS creates a non-orthogonal
	simulation domain shaped as a parallelepiped with triclinic symmetry.
	As defined by the <A HREF = "region.html">region prism</A> command, the
	parallelepiped has its "origin" at (xlo,ylo,zlo) and is defined by 3
	edge vectors starting from the origin given by A = (xhi-xlo,0,0); B =
	(xy,yhi-ylo,0); C = (xz,yz,zhi-zlo). <I>Xy,xz,yz</I> can be 0.0 or
	positive or negative values and are called "tilt factors" because they
	are the amount of displacement applied to faces of an originally
	orthogonal box to transform it into the parallelipiped.
	</P>
	<P>By default, a <I>prism</I> region used with the create_box command must
	have tilt factors (xy,xz,yz) that do not skew the box more than half
	the distance of the parallel box length. For example, if xlo = 2 and
	xhi = 12, then the x box length is 10 and the xy tilt factor must be
	between -5 and 5. Similarly, both xz and yz must be between
	-(xhi-xlo)/2 and +(yhi-ylo)/2. Note that this is not a limitation,
	since if the maximum tilt factor is 5 (as in this example), then
	configurations with tilt = ..., -15, -5, 5, 15, 25, ... are all
	geometrically equivalent. If you wish to define a box with tilt
	factors that exceed these limits, you can use the <A HREF = "box.html">box tilt</A>
	command, with a setting of <I>large</I>; a setting of <I>small</I> is the
	default.
	</P>
	<P>See <A HREF = "Section_howto.html#howto_12">Section_howto 12</A> of the doc pages
	for a geometric description of triclinic boxes, as defined by LAMMPS,
	and how to transform these parameters to and from other commonly used
	triclinic representations.
	</P>
	<P>When a prism region is used, the simulation domain should normally be
	periodic in the dimension that the tilt is applied to, which is given
	by the second dimension of the tilt factor (e.g. y for xy tilt). This
	is so that pairs of atoms interacting across that boundary will have
	one of them shifted by the tilt factor. Periodicity is set by the
	<A HREF = "boundary.html">boundary</A> command. For example, if the xy tilt factor
	is non-zero, then the y dimension should be periodic. Similarly, the
	z dimension should be periodic if xz or yz is non-zero. LAMMPS does
	not require this periodicity, but you may lose atoms if this is not
	the case.
	</P>
	<P>Also note that if your simulation will tilt the box, e.g. via the <A HREF = "fix_deform.html">fix
	deform</A> command, the simulation box must be setup to
	be triclinic, even if the tilt factors are initially 0.0. You can
	also change an orthogonal box to a triclinic box or vice versa by
	using the <A HREF = "change_box.html">change box</A> command with its <I>ortho</I> and
	<I>triclinic</I> options.
	</P>
	<P>IMPORTANT NOTE: If the system is non-periodic (in a dimension), then
	you should not make the lo/hi box dimensions (as defined in your
	<A HREF = "region.html">region</A> command) radically smaller/larger than the extent
	of the atoms you eventually plan to create, e.g. via the
	<A HREF = "create_atoms.html">create_atoms</A> command. For example, if your atoms
	extend from 0 to 50, you should not specify the box bounds as -10000
	and 10000. This is because as described above, LAMMPS uses the
	specified box size to layout the 3d grid of processors. A huge
	(mostly empty) box will be sub-optimal for performance when using
	"fixed" boundary conditions (see the <A HREF = "boundary.html">boundary</A>
	command). When using "shrink-wrap" boundary conditions (see the
	<A HREF = "boundary.html">boundary</A> command), a huge (mostly empty) box may cause
	a parallel simulation to lose atoms the first time that LAMMPS
	shrink-wraps the box around the atoms.
	</P>
	<HR>

	<P>The optional keywords can be used to create a system that allows for
	bond (angle, dihedral, improper) interactions, or for molecules with
	special 1-2,1-3,1-4 neighbors to be added later. These optional
	keywords serve the same purpose as the analogous keywords that can be
	used in a data file which are recognized by the
	<A HREF = "read_data.html">read_data</A> command when it sets up a system.
	</P>
	<P>Note that if these keywords are not used, then the create_box command
	creates an atomic (non-molecular) simulation that does not allow bonds
	between pairs of atoms to be defined, or a <A HREF = "bond_style.html">bond
	potential</A> to be specified, or for molecules with
	special neighbors to be added to the system by commands such as
	<A HREF = "create_atoms.html">create_atoms mol</A>, <A HREF = "fix_deposit.html">fix deposit</A>
	or <A HREF = "fix_pour.html">fix pour</A>.
	</P>
	<P>As an example, see the examples/deposit/in.deposit.molecule script,
	which deposits molecules onto a substrate. Initially there are no
	molecules in the system, but they are added later by the <A HREF = "fix_deposit.html">fix
	deposit</A> command. The create_box command in the
	script uses the bond/types and extra/bond/per/atom keywords to allow
	this. If the added molecule contained more than 1 special bond
	(allowed by default), an extra/special/per/atom keyword would also
	need to be specified.
	</P>
	<HR>

	<P><B>Restrictions:</B>
	</P>
	<P>An <A HREF = "atom_style.html">atom_style</A> and <A HREF = "region.html">region</A> must have
	been previously defined to use this command.
	</P>
	<P><B>Related commands:</B>
	</P>
	<P><A HREF = "read_data.html">read_data</A>, <A HREF = "create_atoms.html">create_atoms</A>,
	<A HREF = "region.html">region</A>
	</P>
	<P><B>Default:</B> none
	</P>
	</HTML>

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