The VASP Manual: Difference between revisions

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| [[:Category:Electronic Minimization| Electronic Minimization]]|| Davidson, RMM-DIIS, Conjugate-gradient, preconditioning, mixing.
| [[:Category:Electronic Minimization| Electronic Minimization]]|| Davidson, RMM-DIIS, Conjugate-gradient, preconditioning, mixing.
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|-
| [[:Category:XC Functionals| XC Functionals]]|| LDA, GGA, metaGGA, hybrids, vdW functionals
| [[:Category:XC Functionals| XC Functionals]]|| LDA, GGA, metaGGA, HF/DFT hybrid functionals, vdW functionals
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| [[:Category:Structural Optimization| Structural Optimization]]|| Ionic mimimization methods.
| [[:Category:Structural Optimization| Structural Optimization]]|| Ionic mimimization methods.

Revision as of 10:58, 16 April 2019

Getting started

How to Install VASP First install VASP.
Workshops The collection of workshops is a good place for the introduction to the basics of VASP.
Lectures The collection of lectures is a good place to start as well.
Tutorials and Examples The collection of tutorials and examples is a good place to learn the usage of VASP.

Input and Output

INCAR tags All INCAR tags at a glance.
Input Files
Output Files

Featured topics

Category subtopics (amongst others)
Electronic Minimization Davidson, RMM-DIIS, Conjugate-gradient, preconditioning, mixing.
XC Functionals LDA, GGA, metaGGA, HF/DFT hybrid functionals, vdW functionals
Structural Optimization Ionic mimimization methods.
Lattice Vibrations Phonons, electron-phonon interactions.
Molecular Dynamics Barostats, thermostats, ensembles, different MD methods
Dielectric Properties Static and frequency dependent dielectric properties, Berry phases, spectroscopy (UV, VIS, X-ray).
Linear response Static dielectric properties, phonons form linear response.
NMR Chemical shifts, electric field gradients.
Many-Body Perturbation Theory ACFDT, BSE, GW, MP2, CRPA.
Magnetism Spin-orbit coupling, non-collinear magnetism.
Defects Dipole corrections for defects in solids.
Molecules Monopole, dipole, and quadrupole corrections.
Transition States Elastic band method, improved dimer method.
Wannier Functions Interfacing to Wannier90.
Performance Parallelization.
Theoretical Background DFT, PAW.
Calculational issues Most important parameters, typical sources of errors.
VASP6 Features that will only be available in VASP 6.X.


Support

If you have questions or run into trouble, please have a look and/or post a question at the VASP forum.

Requests for support from the VASP group are to be directed WITHOUT EXCEPTION to the official VASP email address: vasp.materialphysik@univie.ac.at.

Please note: we offer support on a courtesy base only, not as a contractual service.


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