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VASP basically needs 4 input files for standard production runs:
VASP basically needs 4 input files for standard production runs:


== {{TAG|INCAR}} ==
== {{FILE|INCAR}} ==
*The {{TAG|INCAR}} file holds the input parameters which "steer" the calculation.
The {{FILE|INCAR}} file holds the input parameters which "steer" the calculation.
 
*The default values set by VASP itself are a clever choice to do standard calculations.
*The default values set by VASP itself are a clever choice to do standard calculations.
*These standard settings can be modified to specify:
*These standard settings can be modified to specify:
**What do you want to do? (scf calculation, DOS, dielectric properties ...)
**What do you want to do? (SCF calculation, DOS, dielectric properties ...)
**You can give parameters to fulfill your requirements concerning required precision, requested convergence, calculation time ...
**You can give parameters to fulfill your requirements concerning required precision, requested convergence, calculation time ...


== {{TAG|POSCAR}} ==
 
*A simple {{TAG|POSCAR}} file may look like this:
== {{FILE|POSCAR}} ==
The {{FILE|POSCAR}} file contains the information on the structure.
*A simple {{FILE|POSCAR}} file may look like this:
  fcc:  Ni
  fcc:  Ni
  3.53
  3.53
Line 33: Line 37:
**8-x: Positions of the atoms.
**8-x: Positions of the atoms.


== {{TAG|KPOINTS}} ==
 
*A sample {{TAG|KPOINTS}} file can look like the following:
== {{FILE|KPOINTS}} ==
The {{FILE|KPOINTS}} file determines the sampling of the 1st Brillouin zone.
*A typical {{FILE|KPOINTS}} file:
  Automatic mesh
  Automatic mesh
  0
  0
Line 48: Line 55:
**5: Optional shift of the mesh.
**5: Optional shift of the mesh.


== {{TAG|POTCAR}} ==
 
*The {{TAG|POTCAR}} file contains the relevant information concerning the pseudo potentials that are necessary to run the calculation:
== {{FILE|POTCAR}} ==
**Data that was required for generating the pseudo potentials.
The {{FILE|POTCAR}} file contains the relevant information concerning the pseudopotentials that are necessary to run the calculation:
**Number of valence electrons.
 
**Atomic mass.
*Data that was required for generating the pseudopotentials.
**Energy cut-off.
*Number of valence electrons.
*If the cell contains different atoms, the atomic {{TAG|POTCAR}} files have to be concatenated, in the same order as the atoms are given in the {{TAG|POSCAR}} file.
*Atomic mass.
*Different XC-types must not be mixed.
*Energy cut-off.
 
If the cell contains different atomic species, the corresponding {{FILE|POTCAR}} files have to be concatenated, in the same order as the atomic species are given in the {{FILE|POSCAR}} file.
 
'''N.B.''': Different XC-types must not be mixed.
   
   
{{Template:Input and Output}}
{{Template:Input and Output}}


Back to the [[The_VASP_Manual|main page]].
Back to the [[The_VASP_Manual|main page]].
[[Category:Examples]][[Category:Input Files]]

Latest revision as of 09:02, 6 April 2022

VASP basically needs 4 input files for standard production runs:

INCAR

The INCAR file holds the input parameters which "steer" the calculation.

  • The default values set by VASP itself are a clever choice to do standard calculations.
  • These standard settings can be modified to specify:
    • What do you want to do? (SCF calculation, DOS, dielectric properties ...)
    • You can give parameters to fulfill your requirements concerning required precision, requested convergence, calculation time ...


POSCAR

The POSCAR file contains the information on the structure.

  • A simple POSCAR file may look like this:
fcc:  Ni
3.53
0.5 0.5 0.0
0.0 0.5 0.5
0.5 0.0 0.5
Ni
1
Selective Dyn
Cartesian
0 0 0  T T T
  • The description of each line is given as follows:
    • 1: Header (comment).
    • 2: Overall scaling constant.
    • 3-6: Bravais matrix.
    • 4: Name(s) of the atom(s).
    • 5: Number of the atoms (of each atom type).
    • 6: (optional: selective dynamics).
    • 7: Specifies which coordinate system is used ("cartesian" or "direct").
    • 8-x: Positions of the atoms.


KPOINTS

The KPOINTS file determines the sampling of the 1st Brillouin zone. 

Automatic mesh
0
G (M)
4 4 4
0.  0.  0.
  • The description of each line is given as follows:
    • 1: Header (comment).
    • 2: Specifies the k mesh generation type. : automatic generation scheme.
    • 3: -centered (Monkhorst-Pack) grid.
    • 4: Number of subdivisions in each direction.
    • 5: Optional shift of the mesh.


POTCAR

The POTCAR file contains the relevant information concerning the pseudopotentials that are necessary to run the calculation:

  • Data that was required for generating the pseudopotentials.
  • Number of valence electrons.
  • Atomic mass.
  • Energy cut-off.

If the cell contains different atomic species, the corresponding POTCAR files have to be concatenated, in the same order as the atomic species are given in the POSCAR file.

N.B.: Different XC-types must not be mixed.

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