The VASP Manual: Difference between revisions

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|style="background-color:var(--vcyan-bg);"|[https://www.vasp.at/learn/ Learn], [[:Category:Examples|examples]], [[:Category:Tutorials|Wiki tutorials]]  ||style="background-color:var(--vcyan-bg);"| {{py4vasp}} ||style="background-color:var(--vcyan-bg);"| [https://www.vasp.at/sign_in/portal Portal]
|style="background-color:var(--vcyan-bg);"|[https://www.vasp.at/learn/ Learn], [[:Category:Examples|examples]], [[:Category:Tutorials|Wiki tutorials]]  ||style="background-color:var(--vcyan-bg);"| {{py4vasp}} ||style="background-color:var(--vcyan-bg);"| [https://www.vasp.at/sign_in/portal Portal]
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|style="background-color:#BBCCF5;"| [[Known issues]] ||style="background-color:#BBCCF5;"| [https://www.vasp.at/tutorials/latest/ Tutorials]||style="background-color:#BBCCF5;"| [https://www.youtube.com/channel/UCBATkNZ7pkAXU9tx7GVhlaw Lectures]
|style="background-color:var(--vblue-bg);"| [[Known issues]] ||style="background-color:var(--vblue-bg);"| [https://www.vasp.at/tutorials/latest/ Tutorials]||style="background-color:var(--vblue-bg);"| [https://www.youtube.com/channel/UCBATkNZ7pkAXU9tx7GVhlaw Lectures]
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|class="vasp-dark-link-panel" style="background-color:var(--vcyan-bg); padding:5px; border-style: solid; border-width: 15px; border-color: white"| [[:Category:Machine-learned force fields| Machine-learned force fields]]||style="background: white; padding:5px; border-style: solid; border-width: 15px; border-color: white"| Training and application of force fields.
|class="vasp-dark-link-panel" style="background-color:var(--vcyan-bg); padding:5px; border-style: solid; border-width: 15px; border-color: white"| [[:Category:Machine-learned force fields| Machine-learned force fields]]||style="background: white; padding:5px; border-style: solid; border-width: 15px; border-color: white"| Training and application of force fields.
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|class="vasp-dark-link-panel" style="background-color:#BBCCF5; padding:5px; border-style: solid; border-width: 15px; border-color: white"| [[:Category:Phonons| Phonons]]||style="background: white; padding:5px; border-style: solid; border-width: 15px; border-color: white"| Lattice vibrations, [[Phonons_from_finite_differences | finite differences]], [[Computing_the_phonon_dispersion_and_DOS | phonon dispersion relation]].
|class="vasp-dark-link-panel" style="background-color:var(--vblue-bg); padding:5px; border-style: solid; border-width: 15px; border-color: white"| [[:Category:Phonons| Phonons]]||style="background: white; padding:5px; border-style: solid; border-width: 15px; border-color: white"| Lattice vibrations, [[Phonons_from_finite_differences | finite differences]], [[Computing_the_phonon_dispersion_and_DOS | phonon dispersion relation]].
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|class="vasp-dark-link-panel" style="background-color:#BBCCF5; padding:5px; border-style: solid; border-width: 15px; border-color: white"| [[:Category:Electron-phonon_interactions | Electron-phonon interactions]]||style="background: white; padding:5px; border-style: solid; border-width: 15px; border-color: white"| [[Bandgap_renormalization_due_to_electron-phonon_coupling | Band-structure renormalization]], [[Transport_coefficients_including_electron-phonon_scattering | transport]], [[Electron-phonon_interactions_from_Monte-Carlo_sampling |stochastic sampling]].
|class="vasp-dark-link-panel" style="background-color:var(--vblue-bg); padding:5px; border-style: solid; border-width: 15px; border-color: white"| [[:Category:Electron-phonon_interactions | Electron-phonon interactions]]||style="background: white; padding:5px; border-style: solid; border-width: 15px; border-color: white"| [[Bandgap_renormalization_due_to_electron-phonon_coupling | Band-structure renormalization]], [[Transport_coefficients_including_electron-phonon_scattering | transport]], [[Electron-phonon_interactions_from_Monte-Carlo_sampling |stochastic sampling]].
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|class="vasp-dark-link-panel" style="background-color:#BBCCF5; padding:5px; border-style: solid; border-width: 15px; border-color: white"|  [[:Category:Linear response| Response theory]]||style="background: white; padding:5px; border-style: solid; border-width: 15px; border-color: white"| Static and frequency-dependent [[:Category:Dielectric properties|dielectric properties]], Berry phases, spectroscopy (UV, VIS, [[:Category:XAS|X-ray]], [[:Category:NMR|NMR]]), [[:Category:Phonons|phonons]], etc.
|class="vasp-dark-link-panel" style="background-color:var(--vblue-bg); padding:5px; border-style: solid; border-width: 15px; border-color: white"|  [[:Category:Linear response| Response theory]]||style="background: white; padding:5px; border-style: solid; border-width: 15px; border-color: white"| Static and frequency-dependent [[:Category:Dielectric properties|dielectric properties]], Berry phases, spectroscopy (UV, VIS, [[:Category:XAS|X-ray]], [[:Category:NMR|NMR]]), [[:Category:Phonons|phonons]], etc.
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|class="vasp-dark-link-panel" style="background-color:#BBCCF5; padding:5px; border-style: solid; border-width: 15px; border-color: white"|  [[:Category:Many-body perturbation theory| Many-body perturbation theory]]||style="background: white; padding:5px; border-style: solid; border-width: 15px; border-color: white"| ACFDT, BSE, GW, MP2, cRPA.
|class="vasp-dark-link-panel" style="background-color:var(--vblue-bg); padding:5px; border-style: solid; border-width: 15px; border-color: white"|  [[:Category:Many-body perturbation theory| Many-body perturbation theory]]||style="background: white; padding:5px; border-style: solid; border-width: 15px; border-color: white"| ACFDT, BSE, GW, MP2, cRPA.
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<!--| [[:Category:Defects| Defects and doping]]||class="vasp-dark-link-panel" style="background: white; padding:5px; border-style: solid; border-width: 15px; border-color: white"| Dipole corrections for defects in solids, VCA, etc.
<!--| [[:Category:Defects| Defects and doping]]||class="vasp-dark-link-panel" style="background: white; padding:5px; border-style: solid; border-width: 15px; border-color: white"| Dipole corrections for defects in solids, VCA, etc.

Revision as of 13:54, 13 April 2026

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Featured topics

Category subtopics (amongst others)
Theoretical background We collect theory pages from all the different areas VASP offers functionalities. These can also be found in the corresponding category of the topic. For instance, the article on the Blocked-Davidson algorithm is also linked from the electronic minimization page.
Calculation setup The computational setup considers the installation, the input and output files, performance, etc. To learn how to set up your calculation, it is probably best to look for a how-to page, e.g., setting up an electronic minimization, band-structure calculation using DFT, constructing Wannier orbitals, structure optimization, etc.
Electronic minimization Electronic minimization is the central task in many calculations. Here, you find pages describing the self-consistency cycle, different algorithms, e.g., blocked-Davidson algorithm, RMM-DIIS, direct optimization of the orbitals, and related topics like preconditioning, density mixing, etc.
Electronic ground-state properties Band structure, density of states, partial DOS and on-site charge and magnetization (LORBIT), electrostatics, charge density, potential, etc.
Spin degree of freedom Spin-orbit coupling, noncollinear magnetism, spin spirals, constrained magnetism, etc.
Exchange-correlation functionals LDA, GGA, meta-GGA, DFT+U, hybrid functionals, van der Waals functionals.
Symmetry and structure Crystal symmetry, reciprocal space, surfaces, pair-correlation function for liquids, etc.
Ionic minimization Structure optimization, ionic-minimization methods, forces, transition states, etc.
Molecular dynamics Barostats, thermostats, ensembles, etc.
Ensemble properties Monitoring geometric parameters, pair-correlation function, thermal conductivity, diffusion, etc.
Advanced molecular-dynamics sampling Interface pinning, constrained molecular dynamics, metadynamics, thermodynamic integration, etc.
Machine-learned force fields Training and application of force fields.
Phonons Lattice vibrations, finite differences, phonon dispersion relation.
Electron-phonon interactions Band-structure renormalization, transport, stochastic sampling.
Response theory Static and frequency-dependent dielectric properties, Berry phases, spectroscopy (UV, VIS, X-ray, NMR), phonons, etc.
Many-body perturbation theory ACFDT, BSE, GW, MP2, cRPA.
Localized basis and projection Obtaining Wannier functions, SCDM, partial DOS and on-site charge and magnetization (LORBIT), Constrained-random-phase approximation
Performance Parallelization, memory management, profiling, etc.

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