All pages
- IVDW NL
- IWAVPR
- I CONSTRAINED M
- Impi+omp.conf
- Improved Dimer Method
- Improved dimer method
- Improving the dielectric function
- Including the Spin-Orbit Coupling
- Input
- Input and Output
- Input and Output - Tutorial
- Input and Output - a short Intro
- Input file
- Input files
- Installation
- Installing VASP.5.X.X
- Installing VASP.6.X.X
- Interface pinning
- Interface pinning calculations
- Intrinsic-reaction-coordinate calculations
- Ionic contributions to the frequency dependent dielectric function of NaCl
- Ionic minimization
- K-point integration
- KBLOCK
- KGAMMA
- KPAR
- KPOINTS
- KPOINTS ELPH
- KPOINTS OPT
- KPOINTS OPT NKBATCH
- KPOINTS WAN
- KPOINT BSE
- KPUSE
- KSPACING
- Kinetic-energy density mixing
- Known issues
- LADDER
- LAECHG
- LALL IN ONE
- LAMBDA
- LANGEVIN GAMMA
- LANGEVIN GAMMA L
- LASPH
- LASYNC
- LATTICE CONSTRAINTS
- LBERRY
- LBLUEOUT
- LBONE
- LCALCEPS
- LCALCPOL
- LCHARG
- LCHARGH5
- LCHIMAG
- LCORR
- LDAU
- LDAUJ
- LDAUL
- LDAUPRINT
- LDAUTYPE
- LDAUU
- LDIAG
- LDIPOL
- LDISENTANGLED
- LEFG
- LELF
- LEPSILON
- LEXCH
- LFINITE TEMPERATURE
- LFOCKACE
- LFOCKAEDFT
- LFXC
- LH5
- LHARTREE
- LHFCALC
- LHYPERFINE
- LIBMBD ALPHA
- LIBMBD C6AU
- LIBMBD K GRID
- LIBMBD K GRID SHIFT
- LIBMBD MBD A
- LIBMBD MBD BETA
- LIBMBD METHOD
- LIBMBD N OMEGA GRID
- LIBMBD PARALLEL MODE
- LIBMBD R0AU
- LIBMBD TS D
- LIBMBD TS SR
- LIBMBD VDW PARAMS KIND
- LIBMBD XC
- LIBXC1
- LIBXC1 Pn
- LIBXC2
- LIBXC2 Pn
- LKPOINTS OPT
- LKPOINTS WAN
- LKPROJ
- LLRAUG
- LMAXFOCK
- LMAXFOCKAE
- LMAXMIX
- LMAXPAW
- LMAXTAU
- LMIXTAU
- LMODELHF
- LMONO
- LMP2LT
- LNABLA
- LNMR SYM RED
- LNONCOLLINEAR
- LOCPOT
- LOCPROJ
- LOPTICS
- LORBIT
- LORBITALREAL
- LORBMOM
- LPARD
- LPEAD
- LPHON DISPERSION
- LPHON POLAR
- LPHON READ FORCE CONSTANTS
- LPLANE
- LREAL
- LRHFCALC
- LRPA
- LRPAFORCE
- LSCAAWARE
- LSCALAPACK
- LSCALER0
- LSCALU
- LSCDM
- LSCK
- LSCSGRAD
- LSELFENERGY
- LSEPB
- LSEPK
- LSINGLES
- LSMP2LT
- LSORBIT
- LSPECTRAL
- LSPECTRALGW
- LSPIN VDW
- LSPIRAL
- LSUBROT
- LTBOUNDLIBXC
- LTEMPER
- LTHOMAS
- LTMP2
- LTMP2 - Tutorial
- LTRIPLET
- LTSSURF
- LUSENCCL
- LUSE VDW
- LVACPOTAV
- LVDW
- LVDWEXPANSION
- LVDWSCS
- LVDW EWALD
- LVDW ONECELL
- LVGVAPPL
- LVGVCALC
- LVHAR
- LVTOT
- LWANNIER90
- LWANNIER90 RUN
- LWAVE
- LWAVEH5
- LWEIGHTED
- LWRITE MMN AMN
- LWRITE SPN
- LWRITE UNK
- LWRITE WANPROJ
- LZEROZ
- Langevin thermostat
- Lattice Dynamics
- Lattice Dynamics - Tutorial
- Lectures and presentations
- Linear response
- Linking gfortran with Intel MKL
- Linking to libraries
- Liquid Si
- Liquid Si - Freezing
- Liquid Si - MLFF
- Liquid Si - Standard MD
- List of hybrid functionals
- Low-scaling GW: The space-time formalism
- MAGMOM
- MAXMEM
- MAXMIX
- MD
- MDALGO
- METAGGA
- MINROT
- MIXPRE
- MLFF
- ML AB
- ML ABCAR
- ML ABN
- ML ABNCAR
- ML AFILT2
- ML CDOUB
- ML CSIG
- ML CSLOPE
- ML CTIFOR
- ML CX
- ML DESC TYPE
- ML EATOM
- ML EATOM REF
- ML EPS LOW
- ML EPS REG
- ML FF
- ML FFCAR
- ML FFN
- ML FFNCAR
- ML FF AFILT2 MB
- ML FF CDOUB
- ML FF CSIG
- ML FF CSLOPE
- ML FF CTIFOR
- ML FF EATOM
- ML FF EPS LOW
- ML FF IAFILT2 MB
- ML FF ICOUPLE MB
- ML FF IREG MB
- ML FF ISCALE TOTEN MB
- ML FF ISTART
- ML FF IWEIGHT
- ML FF LAFILT2 MB
- ML FF LCOUPLE MB
- ML FF LCRITERIA
- ML FF LEATOM MB
- ML FF LHEAT MB
- ML FF LMAX2 MB
- ML FF LMLFF
- ML FF LSPARSDES MB
- ML FF MB MB
- ML FF MCONF
- ML FF MCONF NEW
- ML FF MHIS
- ML FF MRB1 MB
- ML FF MRB2 MB
- ML FF NATOM COUPLED MB
- ML FF NHYP1 MB
- ML FF NMDINT
- ML FF NRANK SPARSDES MB
- ML FF RCOUPLE MB
- ML FF RCUT1 MB
- ML FF RCUT2 MB
- ML FF RDES SPARSDES MB
- ML FF SIGV0 MB
- ML FF SIGW0 MB
- ML FF SION1 MB
- ML FF SION2 MB
- ML FF W1 MB
- ML FF WTIFOR
- ML FF WTOTEN
- ML FF WTSIF
- ML FF XMIX
- ML HEAT
- ML HIS
- ML HISCAR
- ML IAFILT2
- ML IALGO LINREG
- ML ICOUPLE
- ML ICRITERIA
- ML IERR
- ML IREG
- ML ISCALE TOTEN
- ML ISTART
- ML IWEIGHT
- ML LAFILT2
- ML LBASIS DISCARD
- ML LCOUPLE
- ML LEATOM
- ML LERR
- ML LFAST
- ML LHEAT
- ML LMAX2
- ML LMLFF
- ML LOGFILE
- ML LSPARSDES
- ML LUSE NAMES
- ML MB
- ML MB MIN
- ML MCONF
- ML MCONF NEW
- ML MHIS
- ML MODE
- ML MRB1
- ML MRB2
- ML NATOM COUPLED
- ML NHYP
- ML NMDINT
- ML NRANK SPARSDES
- ML OUTBLOCK
- ML OUTPUT MODE
- ML RCOUPLE
- ML RCUT1
- ML RCUT2
- ML RDES SPARSDES
- ML REG
- ML REGCAR
- ML SCLC CTIFOR
- ML SIGV0
- ML SIGW0
- ML SION1
- ML SION2
- ML W1
- ML WTIFOR
- ML WTOTEN
- ML WTSIF
- ML XMIX
- MP2
- MP2 calculations
- MP2 ground state calculation
- MP2 ground state calculation - Tutorial
- M CONSTR
- Machine-learned force fields
- Machine learning force field: Theory
- Machine learning force field - Tutorial
- Machine learning force field calculations
- Machine learning force field calculations: Basics
- Machine learning force field calculations: Intermediate
- Machine learning force fields: Theory
- Magnetism
- Magnetism - Tutorial
- Main Page
- Main page
- Makefile.include
- Makefile.include.aocc ompi aocl
- Makefile.include.aocc ompi aocl omp
- Makefile.include.fujitsu a64fx
- Makefile.include.fujitsu a64fx omp
- Makefile.include.gnu
- Makefile.include.gnu omp
- Makefile.include.gnu ompi aocl
- Makefile.include.gnu ompi aocl omp
- Makefile.include.gnu ompi mkl omp
- Makefile.include.intel
- Makefile.include.intel omp
- Makefile.include.intel ompi mkl omp
- Makefile.include.intel serial
- Makefile.include.linux gfortran
- Makefile.include.linux intel
- Makefile.include.linux intel cuda
- Makefile.include.nec aurora