VASP: Difference between revisions
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VASP Page - The playgroud of those who know the INCAR+KPOINTS+POSCAR+POTCAR game |
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In VASP, central quantities, like the one-electron orbitals, the electronic charge density, and the local potential are expressed in plane wave basis sets. The interactions between the electrons and ions are described using norm-conserving or ultrasoft pseudopotentials, or the projector-augmented-wave method. | In VASP, central quantities, like the one-electron orbitals, the electronic charge density, and the local potential are expressed in plane wave basis sets. The interactions between the electrons and ions are described using norm-conserving or ultrasoft pseudopotentials, or the projector-augmented-wave method. | ||
To determine the electronic groundstate, VASP makes use of efficient iterative matrix diagonalisation techniques, like the residual minimisation method with direct inversion of the iterative subspace (RMM-DIIS) or blocked Davidson algorithms. These are coupled to highly efficient Broyden and Pulay density mixing schemes to speed up the self-consistency cycle. | To determine the electronic groundstate, VASP makes use of efficient iterative matrix diagonalisation techniques, like the residual minimisation method with direct inversion of the iterative subspace (RMM-DIIS) or blocked Davidson algorithms. These are coupled to highly efficient Broyden and Pulay density mixing schemes to speed up the self-consistency cycle.</p> | ||
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2. Other contributors / developers | 2. Other contributors / developers | ||
: [http://theory.cm.utexas.edu/vtsttools/ Transition State Tools for VASP (VTST) Packages by Univ.Texas | : [http://theory.cm.utexas.edu/vtsttools/ Transition State Tools for VASP (VTST)] Packages by Univ.Texas | ||
: [[IDM Improved Dimer Method by Dr.T.Bučko / Univ.Vienna | : [[IDM]] Improved Dimer Method by Dr.T.Bučko / Univ.Vienna | ||
3. Forums / FAQs | 3. Forums / FAQs | ||
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:: [http://www.xcrysden.org XCrysDen] (TclTK&MESA-based) | :: [http://www.xcrysden.org XCrysDen] (TclTK&MESA-based) | ||
:: [ | :: [http://www.cmbi.ru.nl/molden/ Molden] | ||
:: XMakeMol | :: [http://www.nongnu.org/xmakemol/ XMakeMol] | ||
:: VMD | :: [http://www.ks.uiuc.edu/Research/vmd/ VMD] "Visual Molecular Dynamics" | ||
:: Raster3D | :: [http://skuld.bmsc.washington.edu/raster3d/ Raster3D] (photorealistic molecular graphics) | ||
5. Tips & Tricks | 5. Tips & Tricks | ||
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: [http://www.materialsdesign.com/medea/ MedeA] | : [http://www.materialsdesign.com/medea/ MedeA] | ||
== SCRIPTS | == SCRIPTS == | ||
: [[Scripts for VASP]] - Useful scripts for VASP | : [[Scripts for VASP]] - Useful scripts for VASP (by ICIQ heroes) | ||
: [http://theory.cm.utexas.edu/vtsttools/scripts/ Scripts for the VTST package (NEB, DOS, CHG, ...) | : [http://theory.cm.utexas.edu/vtsttools/scripts/ Scripts for the VTST package] (NEB, DOS, CHG, conversion,... by Univ.Texas) | ||
== COMMON ERRORS == | == COMMON ERRORS == | ||
''The only error made by computer is the human error!'' | ''The only error made by computer is the human error!'' | ||
< | |||
''' OBSOLETE VASP PAGE CONTENT: ''' | |||
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VASP [http://cms.mpi.univie.ac.at/vasp/vasp/vasp.html] [http://10.0.7.240/wiki/images/files/vasp/vasp.pdf] | VASP [http://cms.mpi.univie.ac.at/vasp/vasp/vasp.html] [http://10.0.7.240/wiki/images/files/vasp/vasp.pdf] | ||
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Useful scripts for VASP: [[Scripts for VASP]] | Useful scripts for VASP: [[Scripts for VASP]] | ||
:''EXTRADOCUMENTATION'' | |||
-) How to perform a molecular dynamics: ==> [[Image:MD-HOWTO.pdf]] <== | -) How to perform a molecular dynamics: ==> [[Image:MD-HOWTO.pdf]] <== | ||
Revision as of 12:30, 20 September 2010
go back to Main Page, Computational Resources, Chemistry & More, Computational Codes
VASP = Vienna Ab-Initio Simulation Package
DESCRIPTION
The Vienna Ab initio Simulation Package (VASP) is a computer program for atomic scale materials modelling, e.g. electronic structure calculations and quantum-mechanical molecular dynamics, from first principles.
VASP computes an approximate solution to the many-body Schrödinger equation, either within density functional theory (DFT), solving the Kohn-Sham equations, or within the Hartree-Fock (HF) approximation, solving the Roothaan equations. Hybrid functionals that mix the Hartree-Fock approach with density functional theory are implemented as well. Furthermore, Green's functions methods (GW quasiparticles, and ACFDT-RPA) and many-body perturbation theory (2nd-order Møller-Plesset) are available in VASP.
In VASP, central quantities, like the one-electron orbitals, the electronic charge density, and the local potential are expressed in plane wave basis sets. The interactions between the electrons and ions are described using norm-conserving or ultrasoft pseudopotentials, or the projector-augmented-wave method.
To determine the electronic groundstate, VASP makes use of efficient iterative matrix diagonalisation techniques, like the residual minimisation method with direct inversion of the iterative subspace (RMM-DIIS) or blocked Davidson algorithms. These are coupled to highly efficient Broyden and Pulay density mixing schemes to speed up the self-consistency cycle.
- Obsolete description: VASP is a complex package for performing ab-initio quantum-mechanical molecular dynamics (MD) simulations using pseudopotentials or the projector-augmented wave method and a plane wave basis set. The approach implemented in VASP is based on the (finite-temperature) local-density approximation with the free energy as variational quantity and an exact evaluation of the instantaneous electronic ground state at each MD time step. VASP uses efficient matrix diagonalisation schemes and an efficient Pulay/Broyden charge density mixing. These techniques avoid all problems possibly occurring in the original Car-Parrinello method, which is based on the simultaneous integration of electronic and ionic equations of motion. The interaction between ions and electrons is described by ultra-soft Vanderbilt pseudopotentials (US-PP) or by the projector-augmented wave (PAW) method. US-PP (and the PAW method) allow for a considerable reduction of the number of plane-waves per atom for transition metals and first row elements. Forces and the full stress tensor can be calculated with VASP and used to relax atoms into their instantaneous ground-state.
VERSIONS
In general, 2 major versions of VASP are currently available: VASP 4.6 and a completely re-written and better equipped VASP 5.2.
Beware, for some INCAR-file tags, different default values may be used. Together with he fact, that Fourier-transform (FFT) routines scale in a tricky way with the number of nodes, etc. etc., it is very likely that the total energies of the same system calculated by different VASP versions are not equal.
On tekla cluster, only VASP 4.6 is installed.
On tekla2 cluster, both VASP 4.6 and VASP 5.2 are available. Futhermore, versions with extra routines (modules suffixed by _VTST and _IDM) are present here.
LINKS & RESOURCES
1. Main developers' pages
2. Other contributors / developers
- Transition State Tools for VASP (VTST) Packages by Univ.Texas
- IDM Improved Dimer Method by Dr.T.Bučko / Univ.Vienna
3. Forums / FAQs
4. Visualizers
- Direct visualization (and editing) of VASP input/output:
- Visualization after file-conversion (using Scripts for VASP or UPU)
5. Tips & Tricks
6. 3rd-Party Commercial Software based on VASP
SCRIPTS
- Scripts for VASP - Useful scripts for VASP (by ICIQ heroes)
- Scripts for the VTST package (NEB, DOS, CHG, conversion,... by Univ.Texas)
COMMON ERRORS
The only error made by computer is the human error!
OBSOLETE VASP PAGE CONTENT:
link to the on-line manual: [[3]]
link to the notes: [[4]]
link to the VTST packages: [[5]]
link to the tools: [[6]]
link to tips on VASP: [[7]]
Current versions: Current versions
Useful scripts for VASP: Scripts for VASP
- EXTRADOCUMENTATION
-) How to perform a molecular dynamics: ==> File:MD-HOWTO.pdf <==