vasp.6.2.1 16May21 (build Apr 11 2022 11:03:26) complex                        
  
 MD_VERSION_INFO: Compiled 2022-04-11T18:25:55-UTC in devlin.sd.materialsdesign.
 com:/home/medea2/data/build/vasp6.2.1/16685/x86_64/src/src/build/gpu from svn 1
 6685
 
 This VASP executable licensed from Materials Design, Inc.
 
 executed on                        Lin64 date 2023.05.13  23:01:11
 running on    6 total cores
 distrk:  each k-point on    6 cores,    1 groups
 distr:  one band on NCORE=   1 cores,    6 groups


--------------------------------------------------------------------------------------------------------


 INCAR:
   SYSTEM = No title
   PREC = Normal
   ENCUT = 400.000
   IBRION = -1
   NSW = 0
   ISIF = 2
   NELMIN = 2
   EDIFF = 1.0e-05
   EDIFFG = -0.02
   VOSKOWN = 1
   NBLOCK = 1
   NWRITE = 1
   NELM = 240
   ALGO = Normal (blocked Davidson)
   ISPIN = 1
   INIWAV = 1
   ISTART = 0
   ICHARG = 2
   LWAVE = .FALSE.
   LCHARG = .FALSE.
   ADDGRID = .FALSE.
   ISMEAR = 1
   SIGMA = 0.2
   LREAL = Auto
   LSCALAPACK = .FALSE.
   RWIGS = 1.41 0.73 0.32
   NPAR = 6

 POTCAR:    PAW_PBE Sn_d 06Sep2000                
 POTCAR:    PAW_PBE O 08Apr2002                   
 POTCAR:    PAW_PBE H 15Jun2001                   
 -----------------------------------------------------------------------------
|                                                                             |
|           W    W    AA    RRRRR   N    N  II  N    N   GGGG   !!!           |
|           W    W   A  A   R    R  NN   N  II  NN   N  G    G  !!!           |
|           W    W  A    A  R    R  N N  N  II  N N  N  G       !!!           |
|           W WW W  AAAAAA  RRRRR   N  N N  II  N  N N  G  GGG   !            |
|           WW  WW  A    A  R   R   N   NN  II  N   NN  G    G                |
|           W    W  A    A  R    R  N    N  II  N    N   GGGG   !!!           |
|                                                                             |
|     For optimal performance we recommend to set                             |
|       NCORE = 2 up to number-of-cores-per-socket                            |
|     NCORE specifies how many cores store one orbital (NPAR=cpu/NCORE).      |
|     This setting can greatly improve the performance of VASP for DFT.       |
|     The default, NCORE=1 might be grossly inefficient on modern             |
|     multi-core architectures or massively parallel machines. Do your        |
|     own testing! More info at https://www.vasp.at/wiki/index.php/NCORE      |
|     Unfortunately you need to use the default for GW and RPA                |
|     calculations (for HF NCORE is supported but not extensively tested      |
|     yet).                                                                   |
|                                                                             |
 -----------------------------------------------------------------------------

 POTCAR:    PAW_PBE Sn_d 06Sep2000                
  local pseudopotential read in
  partial core-charges read in
  partial kinetic energy density read in
  atomic valenz-charges read in
  non local Contribution for L=           2  read in
    real space projection operators read in
  non local Contribution for L=           2  read in
    real space projection operators read in
  non local Contribution for L=           0  read in
    real space projection operators read in
  non local Contribution for L=           0  read in
    real space projection operators read in
  non local Contribution for L=           1  read in
    real space projection operators read in
  non local Contribution for L=           1  read in
    real space projection operators read in
    PAW grid and wavefunctions read in
 
   number of l-projection  operators is LMAX  =           6
   number of lm-projection operators is LMMAX =          18
 
 POTCAR:    PAW_PBE O 08Apr2002                   
  local pseudopotential read in
  partial core-charges read in
  partial kinetic energy density read in
  kinetic energy density of atom read in
  atomic valenz-charges read in
  non local Contribution for L=           0  read in
    real space projection operators read in
  non local Contribution for L=           0  read in
    real space projection operators read in
  non local Contribution for L=           1  read in
    real space projection operators read in
  non local Contribution for L=           1  read in
    real space projection operators read in
    PAW grid and wavefunctions read in
 
   number of l-projection  operators is LMAX  =           4
   number of lm-projection operators is LMMAX =           8
 
 POTCAR:    PAW_PBE H 15Jun2001                   
  local pseudopotential read in
  atomic valenz-charges read in
  non local Contribution for L=           0  read in
    real space projection operators read in
  non local Contribution for L=           0  read in
    real space projection operators read in
  non local Contribution for L=           1  read in
    real space projection operators read in
    PAW grid and wavefunctions read in
 
   number of l-projection  operators is LMAX  =           3
   number of lm-projection operators is LMMAX =           5
 
 Optimization of the real space projectors (new method)

 maximal supplied QI-value         = 15.12
 optimisation between [QCUT,QGAM] = [ 10.13, 20.41] = [ 28.73,116.64] Ry 
 Optimized for a Real-space Cutoff    1.38 Angstroem

   l    n(q)    QCUT    max X(q) W(low)/X(q) W(high)/X(q)  e(spline) 
   2      7    10.129     5.880    0.15E-03    0.14E-04    0.57E-07
   2      7    10.129     7.804    0.33E-03    0.17E-03    0.10E-06
   0      8    10.129    20.557    0.11E-03    0.15E-03    0.82E-07
   0      8    10.129     9.400    0.14E-03    0.19E-03    0.10E-06
   1      8    10.129    94.178    0.28E-03    0.18E-03    0.13E-06
   1      8    10.129    56.401    0.27E-03    0.17E-03    0.13E-06
 Optimization of the real space projectors (new method)

 maximal supplied QI-value         = 24.76
 optimisation between [QCUT,QGAM] = [ 10.15, 20.30] = [ 28.85,115.39] Ry 
 Optimized for a Real-space Cutoff    1.38 Angstroem

   l    n(q)    QCUT    max X(q) W(low)/X(q) W(high)/X(q)  e(spline) 
   0      8    10.150    20.381    0.22E-03    0.32E-03    0.29E-06
   0      8    10.150    15.268    0.23E-03    0.35E-03    0.30E-06
   1      8    10.150     5.964    0.46E-03    0.53E-03    0.21E-06
   1      8    10.150     5.382    0.38E-03    0.45E-03    0.19E-06
 Optimization of the real space projectors (new method)

 maximal supplied QI-value         = 34.20
 optimisation between [QCUT,QGAM] = [  9.92, 20.18] = [ 27.55,114.04] Ry 
 Optimized for a Real-space Cutoff    1.26 Angstroem

   l    n(q)    QCUT    max X(q) W(low)/X(q) W(high)/X(q)  e(spline) 
   0      8     9.919    19.460    0.50E-03    0.23E-03    0.29E-06
   0      8     9.919    12.209    0.48E-03    0.23E-03    0.28E-06
   1      7     9.919     4.655    0.17E-03    0.75E-03    0.30E-06
  PAW_PBE Sn_d 06Sep2000                :
 energy of atom  1       EATOM=-1893.1092
 kinetic energy error for atom=    0.0047 (will be added to EATOM!!)
  PAW_PBE O 08Apr2002                   :
 energy of atom  2       EATOM= -432.3788
 kinetic energy error for atom=    0.1156 (will be added to EATOM!!)
  PAW_PBE H 15Jun2001                   :
 energy of atom  3       EATOM=  -12.4884
 kinetic energy error for atom=    0.0098 (will be added to EATOM!!)
 
 
 POSCAR: No title
  positions in direct lattice
  No initial velocities read in
 exchange correlation table for  LEXCH =        8
   RHO(1)=    0.500       N(1)  =     2000
   RHO(2)=  100.500       N(2)  =     4000
 


--------------------------------------------------------------------------------------------------------


 ion  position               nearest neighbor table
   1  0.603  0.478  0.209-   3 3.29
   2  0.880  0.871  0.463-  10 2.45   3 3.06
   3  0.166  0.831  0.314-  17 2.11   2 3.06   1 3.29
   4  0.474  0.323  0.599-  21 0.97  16 2.09  14 2.51
   5  0.022  0.332  0.918-  13 1.29   9 1.37  20 2.21  12 2.28   6 2.46  11 2.54   6 3.02
   6  0.308  0.901  0.907-  12 1.73   8 1.97  13 2.19  11 2.31   5 2.46   5 3.02
   7  0.320  0.563  0.075-
   8  0.720  0.850  0.914-   6 1.97
   9  0.814  0.441  0.874-   5 1.37
  10  0.640  0.424  0.439-   2 2.45
  11  0.163  0.634  0.809-  15 1.15  12 1.27  19 1.45   6 2.31   5 2.54
  12  0.352  0.594  0.857-  11 1.27   6 1.73   5 2.28
  13  0.176  0.500  0.956-   5 1.29   6 2.19
  14  0.769  0.750  0.627-   4 2.51
  15  0.144  0.553  0.750-  11 1.15  19 1.63
  16  0.175  0.620  0.633-   4 2.09
  17  0.562  0.963  0.274-   3 2.11
  18  0.823  0.107  0.121-
  19  0.085  0.884  0.769-  11 1.45  15 1.63
  20  0.636  0.470  0.975-   5 2.21
  21  0.655  0.233  0.591-   4 0.97
  22  0.438  0.301  0.834-
 
 -----------------------------------------------------------------------------
|                                                                             |
|           W    W    AA    RRRRR   N    N  II  N    N   GGGG   !!!           |
|           W    W   A  A   R    R  NN   N  II  NN   N  G    G  !!!           |
|           W    W  A    A  R    R  N N  N  II  N N  N  G       !!!           |
|           W WW W  AAAAAA  RRRRR   N  N N  II  N  N N  G  GGG   !            |
|           WW  WW  A    A  R   R   N   NN  II  N   NN  G    G                |
|           W    W  A    A  R    R  N    N  II  N    N   GGGG   !!!           |
|                                                                             |
|     The distance between some ions is very small. Please check the          |
|     nearest-neighbor list in the OUTCAR file.                               |
|     I HOPE YOU KNOW WHAT YOU ARE DOING!                                     |
|                                                                             |
 -----------------------------------------------------------------------------

  LATTYP: Found a simple tetragonal cell.
 ALAT       =     4.7372700000
 C/A-ratio  =     3.8783434341
  
  Lattice vectors:
  
 A1 = (   4.7372700000,   0.0000000000,   0.0000000000)
 A2 = (   0.0000000000,   4.7372700000,   0.0000000000)
 A3 = (   0.0000000000,   0.0000000000,  18.3727600000)


Analysis of symmetry for initial positions (statically):
=====================================================================
 Subroutine PRICEL returns:
 Original cell was already a primitive cell.
 

 Routine SETGRP: Setting up the symmetry group for a 
 simple tetragonal supercell.


 Subroutine GETGRP returns: Found  1 space group operations
 (whereof  1 operations were pure point group operations)
 out of a pool of 16 trial point group operations.


The static configuration has the point symmetry C_1 .


Analysis of symmetry for dynamics (positions and initial velocities):
=====================================================================
 Subroutine PRICEL returns:
 Original cell was already a primitive cell.
 

 Routine SETGRP: Setting up the symmetry group for a 
 simple tetragonal supercell.


 Subroutine GETGRP returns: Found  1 space group operations
 (whereof  1 operations were pure point group operations)
 out of a pool of 16 trial point group operations.


The dynamic configuration has the point symmetry C_1 .


 Subroutine INISYM returns: Found  1 space group operations
 (whereof  1 operations are pure point group operations),
 and found     1 'primitive' translations


----------------------------------------------------------------------------------------

                                     Primitive cell                                     

  volume of cell :     412.3165

  direct lattice vectors                    reciprocal lattice vectors
     4.737270000  0.000000000  0.000000000     0.211092042  0.000000000  0.000000000
     0.000000000  4.737270000  0.000000000     0.000000000  0.211092042  0.000000000
     0.000000000  0.000000000 18.372760000     0.000000000  0.000000000  0.054428404

  length of vectors
     4.737270000  4.737270000 18.372760000     0.211092042  0.211092042  0.054428404

  position of ions in fractional coordinates (direct lattice)
     0.603106450  0.477523910  0.209198830
     0.880059440  0.871068350  0.463249510
     0.166205060  0.830888820  0.314194140
     0.473539440  0.323223320  0.599231810
     0.022435060  0.332487270  0.917604300
     0.308401600  0.901362180  0.907258610
     0.319849860  0.563440470  0.075459150
     0.719969240  0.850021800  0.913589970
     0.814496830  0.441430420  0.874197330
     0.640231990  0.423694920  0.438578470
     0.162853170  0.633588120  0.809330350
     0.351830720  0.593998250  0.857220280
     0.175654430  0.500455640  0.956135900
     0.769300120  0.749995310  0.626668930
     0.143776670  0.553069460  0.750266190
     0.174982950  0.619783470  0.632848910
     0.562150070  0.962507270  0.273668720
     0.823387070  0.107218210  0.121061990
     0.084833360  0.884424530  0.769280180
     0.635890750  0.469662860  0.975395690
     0.655133070  0.233446270  0.590775000
     0.437681170  0.301134780  0.834155700

  ion indices of the primitive-cell ions
   primitive index   ion index
                 1           1
                 2           2
                 3           3
                 4           4
                 5           5
                 6           6
                 7           7
                 8           8
                 9           9
                10          10
                11          11
                12          12
                13          13
                14          14
                15          15
                16          16
                17          17
                18          18
                19          19
                20          20
                21          21
                22          22

----------------------------------------------------------------------------------------

 
 
 KPOINTS: Automatic mesh                          

Automatic generation of k-mesh.
 Grid dimensions read from file:
 generate k-points for:    3    3    1

 Generating k-lattice:

  Cartesian coordinates                     Fractional coordinates (reciprocal lattice)
     0.070364014  0.000000000  0.000000000     0.333333333  0.000000000  0.000000000
     0.000000000  0.070364014  0.000000000     0.000000000  0.333333333  0.000000000
     0.000000000  0.000000000  0.054428404     0.000000000  0.000000000  1.000000000

  Length of vectors
     0.070364014  0.070364014  0.054428404

  Shift w.r.t. Gamma in fractional coordinates (k-lattice)
     0.000000000  0.000000000  0.000000000

 
 Subroutine IBZKPT returns following result:
 ===========================================
 
 Found      5 irreducible k-points:
 
 Following reciprocal coordinates:
            Coordinates               Weight
  0.000000  0.000000  0.000000      1.000000
  0.333333  0.000000  0.000000      2.000000
  0.000000  0.333333  0.000000      2.000000
  0.333333  0.333333  0.000000      2.000000
 -0.333333  0.333333  0.000000      2.000000
 
 Following cartesian coordinates:
            Coordinates               Weight
  0.000000  0.000000  0.000000      1.000000
  0.070364  0.000000  0.000000      2.000000
  0.000000  0.070364  0.000000      2.000000
  0.070364  0.070364  0.000000      2.000000
 -0.070364  0.070364  0.000000      2.000000
 


--------------------------------------------------------------------------------------------------------




 Dimension of arrays:
   k-points           NKPTS =      5   k-points in BZ     NKDIM =      5   number of bands    NBANDS=    102
   number of dos      NEDOS =    301   number of ions     NIONS =     22
   non local maximal  LDIM  =      6   non local SUM 2l+1 LMDIM =     18
   total plane-waves  NPLWV =  51840
   max r-space proj   IRMAX =   1435   max aug-charges    IRDMAX=   5814
   dimension x,y,z NGX =    24 NGY =   24 NGZ =   90
   dimension x,y,z NGXF=    48 NGYF=   48 NGZF=  180
   support grid    NGXF=    48 NGYF=   48 NGZF=  180
   ions per type =               6  14   2
   NGX,Y,Z   is equivalent  to a cutoff of   8.42,  8.42,  8.14 a.u.
   NGXF,Y,Z  is equivalent  to a cutoff of  16.84, 16.84, 16.29 a.u.

 SYSTEM =  No title                                
 POSCAR =  No title                                

 Startparameter for this run:
   NWRITE =      1    write-flag & timer
   PREC   = normal    normal or accurate (medium, high low for compatibility)
   ISTART =      0    job   : 0-new  1-cont  2-samecut
   ICHARG =      2    charge: 1-file 2-atom 10-const
   ISPIN  =      1    spin polarized calculation?
   LNONCOLLINEAR =      F non collinear calculations
   LSORBIT =      F    spin-orbit coupling
   INIWAV =      1    electr: 0-lowe 1-rand  2-diag
   LASPH  =      F    aspherical Exc in radial PAW
 Electronic Relaxation 1
   ENCUT  =  400.0 eV  29.40 Ry    5.42 a.u.   7.73  7.73 29.96*2*pi/ulx,y,z
   ENINI  =  400.0     initial cutoff
   ENAUG  =  605.4 eV  augmentation charge cutoff
   NELM   =    240;   NELMIN=  2; NELMDL= -5     # of ELM steps 
   EDIFF  = 0.1E-04   stopping-criterion for ELM
   LREAL  =      T    real-space projection
   NLSPLINE    = F    spline interpolate recip. space projectors
   LCOMPAT=      F    compatible to vasp.4.4
   GGA_COMPAT  = T    GGA compatible to vasp.4.4-vasp.4.6
   LMAXPAW     = -100 max onsite density
   LMAXMIX     =    2 max onsite mixed and CHGCAR
   VOSKOWN=      1    Vosko Wilk Nusair interpolation
   ROPT   =   -0.00050  -0.00050  -0.00050
 Ionic relaxation
   EDIFFG = -.2E-01   stopping-criterion for IOM
   NSW    =      0    number of steps for IOM
   NBLOCK =      1;   KBLOCK =      1    inner block; outer block 
   IBRION =     -1    ionic relax: 0-MD 1-quasi-New 2-CG
   NFREE  =      0    steps in history (QN), initial steepest desc. (CG)
   ISIF   =      2    stress and relaxation
   IWAVPR =     10    prediction:  0-non 1-charg 2-wave 3-comb
   ISYM   =      2    0-nonsym 1-usesym 2-fastsym
   LCORR  =      T    Harris-Foulkes like correction to forces

   POTIM  = 0.5000    time-step for ionic-motion
   TEIN   =    0.0    initial temperature
   TEBEG  =    0.0;   TEEND  =   0.0 temperature during run
   SMASS  =  -3.00    Nose mass-parameter (am)
   estimated Nose-frequenzy (Omega)   =  0.10E-29 period in steps = 0.13E+47 mass=  -0.513E-27a.u.
   SCALEE = 1.0000    scale energy and forces
   NPACO  =    256;   APACO  = 16.0  distance and # of slots for P.C.
   PSTRESS=    0.0 pullay stress

  Mass of Ions in am
   POMASS = 118.71 16.00  1.00
  Ionic Valenz
   ZVAL   =  14.00  6.00  1.00
  Atomic Wigner-Seitz radii
   RWIGS  =   1.41  0.73  0.32
  virtual crystal weights 
   VCA    =   1.00  1.00  1.00
   NELECT =     170.0000    total number of electrons
   NUPDOWN=      -1.0000    fix difference up-down

 DOS related values:
   EMIN   =  10.00;   EMAX   =-10.00  energy-range for DOS
   EFERMI =   0.00
   ISMEAR =     1;   SIGMA  =   0.20  broadening in eV -4-tet -1-fermi 0-gaus

 Electronic relaxation 2 (details)
   IALGO  =     38    algorithm
   LDIAG  =      T    sub-space diagonalisation (order eigenvalues)
   LSUBROT=      F    optimize rotation matrix (better conditioning)
   TURBO    =      0    0=normal 1=particle mesh
   IRESTART =      0    0=no restart 2=restart with 2 vectors
   NREBOOT  =      0    no. of reboots
   NMIN     =      0    reboot dimension
   EREF     =   0.00    reference energy to select bands
   IMIX   =      4    mixing-type and parameters
     AMIX     =   0.40;   BMIX     =  1.00
     AMIX_MAG =   1.60;   BMIX_MAG =  1.00
     AMIN     =   0.10
     WC   =   100.;   INIMIX=   1;  MIXPRE=   1;  MAXMIX= -45

 Intra band minimization:
   WEIMIN = 0.0000     energy-eigenvalue tresh-hold
   EBREAK =  0.25E-07  absolut break condition
   DEPER  =   0.30     relativ break condition  

   TIME   =   0.40     timestep for ELM

  volume/ion in A,a.u.               =      18.74       126.47
  Fermi-wavevector in a.u.,A,eV,Ry     =   1.218468  2.302571 20.200095  1.484665
  Thomas-Fermi vector in A             =   2.353754
 
 Write flags
   LWAVE        =      F    write WAVECAR
   LDOWNSAMPLE  =      F    k-point downsampling of WAVECAR
   LCHARG       =      F    write CHGCAR
   LVTOT        =      F    write LOCPOT, total local potential
   LVHAR        =      F    write LOCPOT, Hartree potential only
   LELF         =      F    write electronic localiz. function (ELF)
   LORBIT       =      0    0 simple, 1 ext, 2 COOP (PROOUT), +10 PAW based schemes


 Dipole corrections
   LMONO  =      F    monopole corrections only (constant potential shift)
   LDIPOL =      F    correct potential (dipole corrections)
   IDIPOL =      0    1-x, 2-y, 3-z, 4-all directions 
   EPSILON=  1.0000000 bulk dielectric constant

 Exchange correlation treatment:
   GGA     =    --    GGA type
   LEXCH   =     8    internal setting for exchange type
   VOSKOWN=      1    Vosko Wilk Nusair interpolation
   LHFCALC =     F    Hartree Fock is set to
   LHFONE  =     F    Hartree Fock one center treatment
   AEXX    =    0.0000 exact exchange contribution

 Linear response parameters
   LEPSILON=     F    determine dielectric tensor
   LRPA    =     F    only Hartree local field effects (RPA)
   LNABLA  =     F    use nabla operator in PAW spheres
   LVEL    =     F    velocity operator in full k-point grid
   LINTERFAST=   F  fast interpolation
   KINTER  =     0    interpolate to denser k-point grid
   CSHIFT  =0.1000    complex shift for real part using Kramers Kronig
   OMEGAMAX=  -1.0    maximum frequency
   DEG_THRESHOLD= 0.2000000E-02 threshold for treating states as degnerate
   RTIME   =   -0.100 relaxation time in fs
  (WPLASMAI=    0.000 imaginary part of plasma frequency in eV, 0.658/RTIME)
   DFIELD  = 0.0000000 0.0000000 0.0000000 field for delta impulse in time
 
 Orbital magnetization related:
   ORBITALMAG=     F  switch on orbital magnetization
   LCHIMAG   =     F  perturbation theory with respect to B field
   DQ        =  0.001000  dq finite difference perturbation B field
   LLRAUG    =     F  two centre corrections for induced B field



--------------------------------------------------------------------------------------------------------


 Static calculation
 charge density and potential will be updated during run
 non-spin polarized calculation
 Variant of blocked Davidson
 Davidson routine will perform the subspace rotation
 perform sub-space diagonalisation
    after iterative eigenvector-optimisation
 modified Broyden-mixing scheme, WC =      100.0
 initial mixing is a Kerker type mixing with AMIX =  0.4000 and BMIX =      1.0000
 Hartree-type preconditioning will be used
 using additional bands           17
 real space projection scheme for non local part
 use partial core corrections
 calculate Harris-corrections to forces 
   (improved forces if not selfconsistent)
 use gradient corrections 
 use of overlap-Matrix (Vanderbilt PP)
 Methfessel and Paxton  Order N= 1 SIGMA  =   0.20


--------------------------------------------------------------------------------------------------------


  energy-cutoff  :      400.00
  volume of cell :      412.32
      direct lattice vectors                 reciprocal lattice vectors
     4.737270000  0.000000000  0.000000000     0.211092042  0.000000000  0.000000000
     0.000000000  4.737270000  0.000000000     0.000000000  0.211092042  0.000000000
     0.000000000  0.000000000 18.372760000     0.000000000  0.000000000  0.054428404

  length of vectors
     4.737270000  4.737270000 18.372760000     0.211092042  0.211092042  0.054428404


 
 k-points in units of 2pi/SCALE and weight: Automatic mesh                          
   0.00000000  0.00000000  0.00000000       0.111
   0.07036401  0.00000000  0.00000000       0.222
   0.00000000  0.07036401  0.00000000       0.222
   0.07036401  0.07036401  0.00000000       0.222
  -0.07036401  0.07036401  0.00000000       0.222
 
 k-points in reciprocal lattice and weights: Automatic mesh                          
   0.00000000  0.00000000  0.00000000       0.111
   0.33333333  0.00000000  0.00000000       0.222
   0.00000000  0.33333333  0.00000000       0.222
   0.33333333  0.33333333  0.00000000       0.222
  -0.33333333  0.33333333  0.00000000       0.222
 
 position of ions in fractional coordinates (direct lattice) 
   0.60310645  0.47752391  0.20919883
   0.88005944  0.87106835  0.46324951
   0.16620506  0.83088882  0.31419414
   0.47353944  0.32322332  0.59923181
   0.02243506  0.33248727  0.91760430
   0.30840160  0.90136218  0.90725861
   0.31984986  0.56344047  0.07545915
   0.71996924  0.85002180  0.91358997
   0.81449683  0.44143042  0.87419733
   0.64023199  0.42369492  0.43857847
   0.16285317  0.63358812  0.80933035
   0.35183072  0.59399825  0.85722028
   0.17565443  0.50045564  0.95613590
   0.76930012  0.74999531  0.62666893
   0.14377667  0.55306946  0.75026619
   0.17498295  0.61978347  0.63284891
   0.56215007  0.96250727  0.27366872
   0.82338707  0.10721821  0.12106199
   0.08483336  0.88442453  0.76928018
   0.63589075  0.46966286  0.97539569
   0.65513307  0.23344627  0.59077500
   0.43768117  0.30113478  0.83415570
 
 position of ions in cartesian coordinates  (Angst):
   2.85707809  2.26215969  3.84355990
   4.16907918  4.12648596  8.51117207
   0.78735824  3.93614468  5.77261353
   2.24328418  1.53119614 11.00954223
   0.10628094  1.57508197 16.85892358
   1.46098165  4.26999601 16.66884470
   1.51521515  2.66916964  1.38639285
   3.41068868  4.02678277 16.78516926
   3.85849140  2.09117509 16.06141774
   3.03295180  2.00715723  8.05789697
   0.77147944  3.00147799 14.86963228
   1.66671711  2.81393009 15.74950247
   0.83212246  2.37079349 17.56685542
   3.64438238  3.55293028 11.51363785
   0.68110891  2.62003936 13.78446064
   0.82894148  2.93608164 11.62718114
   2.66305666  4.55965681  5.02804971
   3.90060687  0.50792161  2.22424289
   0.40187853  4.18975779 14.13380012
   3.01238617  2.22491978 17.92071092
   3.10354224  1.10589801 10.85416729
   2.07341388  1.42655676 15.32574248
 


--------------------------------------------------------------------------------------------------------


 k-point  1 :   0.0000 0.0000 0.0000  plane waves:    7491
 k-point  2 :   0.3333 0.0000 0.0000  plane waves:    7480
 k-point  3 :   0.0000 0.3333 0.0000  plane waves:    7480
 k-point  4 :   0.3333 0.3333 0.0000  plane waves:    7485
 k-point  5 :  -0.3333 0.3333 0.0000  plane waves:    7485

 maximum and minimum number of plane-waves per node :      7491     7480

 maximum number of plane-waves:      7491
 maximum index in each direction: 
   IXMAX=    8   IYMAX=    7   IZMAX=   29
   IXMIN=   -8   IYMIN=   -8   IZMIN=  -29

 The following grids will avoid any aliasing or wrap around errors in the Hartre
 e energy
  - symmetry arguments have not been applied
  - exchange correlation energies might require even more grid points
  - we recommend to set PREC=Normal or Accurate and rely on VASP defaults
 WARNING: aliasing errors must be expected set NGX to    36 to avoid them
 WARNING: aliasing errors must be expected set NGY to    32 to avoid them
 WARNING: aliasing errors must be expected set NGZ to   120 to avoid them

 serial   3D FFT for wavefunctions
 parallel 3D FFT for charge:
    minimum data exchange during FFTs selected (reduces bandwidth)


 total amount of memory used by VASP MPI-rank0    53160. kBytes
=======================================================================

   base      :      30000. kBytes
   nonlr-proj:       3216. kBytes
   fftplans  :       2549. kBytes
   grid      :       6543. kBytes
   one-center:        342. kBytes
   wavefun   :      10510. kBytes
 
 Broyden mixing: mesh for mixing (old mesh)
   NGX = 15   NGY = 15   NGZ = 59
  (NGX  = 48   NGY  = 48   NGZ  =180)
  gives a total of  13275 points

 initial charge density was supplied:
 charge density of overlapping atoms calculated
 number of electron     170.0000000 magnetization 
 keeping initial charge density in first step


--------------------------------------------------------------------------------------------------------


 Maximum index for non-local projection operator         1357
 Maximum index for augmentation-charges          931 (set IRDMAX)


--------------------------------------------------------------------------------------------------------


 First call to EWALD:  gamma=   0.238
 Maximum number of real-space cells 4x 4x 1
 Maximum number of reciprocal cells 2x 2x 6



----------------------------------------- Iteration    1(   1)  ---------------------------------------



 eigenvalue-minimisations  :  1116
 total energy-change (2. order) : 0.2319407E+04  (-0.6793579E+04)
 number of electron     170.0000000 magnetization 
 augmentation part      170.0000000 magnetization 

 Free energy of the ion-electron system (eV)
  ---------------------------------------------------
  alpha Z        PSCENC =       333.57168661
  Ewald energy   TEWEN  =     -5754.88765994
  -Hartree energ DENC   =    -10549.38472140
  -exchange      EXHF   =         0.00000000
  -V(xc)+E(xc)   XCENC  =       733.79984859
  PAW double counting   =     14269.25296877   -14517.83836857
  entropy T*S    EENTRO =        -0.01788541
  eigenvalues    EBANDS =       369.64201918
  atomic energy  EATOM  =     17435.26881048
  Solvation  Ediel_sol  =         0.00000000
  ---------------------------------------------------
  free energy    TOTEN  =      2319.40669830 eV

  energy without entropy =     2319.42458371  energy(sigma->0) =     2319.41266011


--------------------------------------------------------------------------------------------------------




----------------------------------------- Iteration    1(   2)  ---------------------------------------



 eigenvalue-minimisations  :  1152
 total energy-change (2. order) :-0.1925330E+04  (-0.1855290E+04)
 number of electron     170.0000000 magnetization 
 augmentation part      170.0000000 magnetization 

 Free energy of the ion-electron system (eV)
  ---------------------------------------------------
  alpha Z        PSCENC =       333.57168661
  Ewald energy   TEWEN  =     -5754.88765994
  -Hartree energ DENC   =    -10549.38472140
  -exchange      EXHF   =         0.00000000
  -V(xc)+E(xc)   XCENC  =       733.79984859
  PAW double counting   =     14269.25296877   -14517.83836857
  entropy T*S    EENTRO =         0.00691226
  eigenvalues    EBANDS =     -1555.71232182
  atomic energy  EATOM  =     17435.26881048
  Solvation  Ediel_sol  =         0.00000000
  ---------------------------------------------------
  free energy    TOTEN  =       394.07715498 eV

  energy without entropy =      394.07024271  energy(sigma->0) =      394.07485089


--------------------------------------------------------------------------------------------------------




----------------------------------------- Iteration    1(   3)  ---------------------------------------



 eigenvalue-minimisations  :  1158
 total energy-change (2. order) :-0.4273791E+03  (-0.4040828E+03)
 number of electron     170.0000000 magnetization 
 augmentation part      170.0000000 magnetization 

 Free energy of the ion-electron system (eV)
  ---------------------------------------------------
  alpha Z        PSCENC =       333.57168661
  Ewald energy   TEWEN  =     -5754.88765994
  -Hartree energ DENC   =    -10549.38472140
  -exchange      EXHF   =         0.00000000
  -V(xc)+E(xc)   XCENC  =       733.79984859
  PAW double counting   =     14269.25296877   -14517.83836857
  entropy T*S    EENTRO =         0.00955607
  eigenvalues    EBANDS =     -1983.09405906
  atomic energy  EATOM  =     17435.26881048
  Solvation  Ediel_sol  =         0.00000000
  ---------------------------------------------------
  free energy    TOTEN  =       -33.30193846 eV

  energy without entropy =      -33.31149453  energy(sigma->0) =      -33.30512381


--------------------------------------------------------------------------------------------------------




----------------------------------------- Iteration    1(   4)  ---------------------------------------



 eigenvalue-minimisations  :  1188
 total energy-change (2. order) :-0.3985441E+02  (-0.3815216E+02)
 number of electron     170.0000000 magnetization 
 augmentation part      170.0000000 magnetization 

 Free energy of the ion-electron system (eV)
  ---------------------------------------------------
  alpha Z        PSCENC =       333.57168661
  Ewald energy   TEWEN  =     -5754.88765994
  -Hartree energ DENC   =    -10549.38472140
  -exchange      EXHF   =         0.00000000
  -V(xc)+E(xc)   XCENC  =       733.79984859
  PAW double counting   =     14269.25296877   -14517.83836857
  entropy T*S    EENTRO =         0.03939536
  eigenvalues    EBANDS =     -2022.97830828
  atomic energy  EATOM  =     17435.26881048
  Solvation  Ediel_sol  =         0.00000000
  ---------------------------------------------------
  free energy    TOTEN  =       -73.15634838 eV

  energy without entropy =      -73.19574374  energy(sigma->0) =      -73.16948017


--------------------------------------------------------------------------------------------------------




----------------------------------------- Iteration    1(   5)  ---------------------------------------



 eigenvalue-minimisations  :  1404
 total energy-change (2. order) :-0.1858061E+01  (-0.1840239E+01)
 number of electron     170.0000042 magnetization 
 augmentation part       54.7272932 magnetization 

 Broyden mixing:
  rms(total) = 0.39398E+01    rms(broyden)= 0.39343E+01
  rms(prec ) = 0.47385E+01
  weight for this iteration     100.00

 Free energy of the ion-electron system (eV)
  ---------------------------------------------------
  alpha Z        PSCENC =       333.57168661
  Ewald energy   TEWEN  =     -5754.88765994
  -Hartree energ DENC   =    -10549.38472140
  -exchange      EXHF   =         0.00000000
  -V(xc)+E(xc)   XCENC  =       733.79984859
  PAW double counting   =     14269.25296877   -14517.83836857
  entropy T*S    EENTRO =         0.04235377
  eigenvalues    EBANDS =     -2024.83932771
  atomic energy  EATOM  =     17435.26881048
  Solvation  Ediel_sol  =         0.00000000
  ---------------------------------------------------
  free energy    TOTEN  =       -75.01440940 eV

  energy without entropy =      -75.05676317  energy(sigma->0) =      -75.02852733


--------------------------------------------------------------------------------------------------------




----------------------------------------- Iteration    1(   6)  ---------------------------------------



 eigenvalue-minimisations  :  1824
 total energy-change (2. order) :-0.5443513E+02  (-0.3157773E+02)
 number of electron     170.0000046 magnetization 
 augmentation part       50.1430897 magnetization 

 Broyden mixing:
  rms(total) = 0.59558E+01    rms(broyden)= 0.59479E+01
  rms(prec ) = 0.93903E+01
  weight for this iteration     100.00

 eigenvalues of (default mixing * dielectric matrix)
  average eigenvalue GAMMA=   0.3665
  0.3665

 Free energy of the ion-electron system (eV)
  ---------------------------------------------------
  alpha Z        PSCENC =       333.57168661
  Ewald energy   TEWEN  =     -5754.88765994
  -Hartree energ DENC   =    -10732.42835714
  -exchange      EXHF   =         0.00000000
  -V(xc)+E(xc)   XCENC  =       747.00113387
  PAW double counting   =     16925.12839143   -17178.92176041
  entropy T*S    EENTRO =         0.01180142
  eigenvalues    EBANDS =     -1904.19358693
  atomic energy  EATOM  =     17435.26881048
  Solvation  Ediel_sol  =         0.00000000
  ---------------------------------------------------
  free energy    TOTEN  =      -129.44954060 eV

  energy without entropy =     -129.46134202  energy(sigma->0) =     -129.45347441


--------------------------------------------------------------------------------------------------------




----------------------------------------- Iteration    1(   7)  ---------------------------------------



 eigenvalue-minimisations  :  1614
 total energy-change (2. order) : 0.6668842E+02  (-0.2088881E+02)
 number of electron     169.9999878 magnetization 
 augmentation part       51.6718412 magnetization 

 Broyden mixing:
  rms(total) = 0.43045E+01    rms(broyden)= 0.42994E+01
  rms(prec ) = 0.62237E+01
  weight for this iteration     100.00

 eigenvalues of (default mixing * dielectric matrix)
  average eigenvalue GAMMA=   0.3138
  0.4312  0.1965

 Free energy of the ion-electron system (eV)
  ---------------------------------------------------
  alpha Z        PSCENC =       333.57168661
  Ewald energy   TEWEN  =     -5754.88765994
  -Hartree energ DENC   =    -10679.67806687
  -exchange      EXHF   =         0.00000000
  -V(xc)+E(xc)   XCENC  =       744.18858995
  PAW double counting   =     17531.76477696   -17793.81830900
  entropy T*S    EENTRO =        -0.00189855
  eigenvalues    EBANDS =     -1879.16905023
  atomic energy  EATOM  =     17435.26881048
  Solvation  Ediel_sol  =         0.00000000
  ---------------------------------------------------
  free energy    TOTEN  =       -62.76112059 eV

  energy without entropy =      -62.75922204  energy(sigma->0) =      -62.76048774


--------------------------------------------------------------------------------------------------------




----------------------------------------- Iteration    1(   8)  ---------------------------------------



 eigenvalue-minimisations  :  1338
 total energy-change (2. order) : 0.1365431E+02  (-0.1096196E+02)
 number of electron     170.0000082 magnetization 
 augmentation part       51.5203240 magnetization 

 Broyden mixing:
  rms(total) = 0.25307E+01    rms(broyden)= 0.25193E+01
  rms(prec ) = 0.34222E+01
  weight for this iteration     100.00

 eigenvalues of (default mixing * dielectric matrix)
  average eigenvalue GAMMA=   0.3534
  0.5530  0.3275  0.1796

 Free energy of the ion-electron system (eV)
  ---------------------------------------------------
  alpha Z        PSCENC =       333.57168661
  Ewald energy   TEWEN  =     -5754.88765994
  -Hartree energ DENC   =    -10706.43106614
  -exchange      EXHF   =         0.00000000
  -V(xc)+E(xc)   XCENC  =       743.07638616
  PAW double counting   =     18120.29215430   -18387.21121855
  entropy T*S    EENTRO =         0.00811270
  eigenvalues    EBANDS =     -1832.79401742
  atomic energy  EATOM  =     17435.26881048
  Solvation  Ediel_sol  =         0.00000000
  ---------------------------------------------------
  free energy    TOTEN  =       -49.10681179 eV

  energy without entropy =      -49.11492449  energy(sigma->0) =      -49.10951602


--------------------------------------------------------------------------------------------------------




----------------------------------------- Iteration    1(   9)  ---------------------------------------



 eigenvalue-minimisations  :  1476
 total energy-change (2. order) : 0.3919649E+01  (-0.3155418E+01)
 number of electron     170.0000034 magnetization 
 augmentation part       52.1053058 magnetization 

 Broyden mixing:
  rms(total) = 0.24874E+01    rms(broyden)= 0.24814E+01
  rms(prec ) = 0.32442E+01
  weight for this iteration     100.00

 eigenvalues of (default mixing * dielectric matrix)
  average eigenvalue GAMMA=   0.3859
  0.7471  0.4652  0.1657  0.1657

 Free energy of the ion-electron system (eV)
  ---------------------------------------------------
  alpha Z        PSCENC =       333.57168661
  Ewald energy   TEWEN  =     -5754.88765994
  -Hartree energ DENC   =    -10641.72500950
  -exchange      EXHF   =         0.00000000
  -V(xc)+E(xc)   XCENC  =       742.50783050
  PAW double counting   =     18633.64161711   -18903.64039937
  entropy T*S    EENTRO =         0.02302904
  eigenvalues    EBANDS =     -1889.94706779
  atomic energy  EATOM  =     17435.26881048
  Solvation  Ediel_sol  =         0.00000000
  ---------------------------------------------------
  free energy    TOTEN  =       -45.18716286 eV

  energy without entropy =      -45.21019190  energy(sigma->0) =      -45.19483921


--------------------------------------------------------------------------------------------------------




----------------------------------------- Iteration    1(  10)  ---------------------------------------



 eigenvalue-minimisations  :  1440
 total energy-change (2. order) : 0.3579220E+01  (-0.1834818E+01)
 number of electron     170.0000046 magnetization 
 augmentation part       51.9747492 magnetization 

 Broyden mixing:
  rms(total) = 0.14894E+01    rms(broyden)= 0.14799E+01
  rms(prec ) = 0.19276E+01
  weight for this iteration     100.00

 eigenvalues of (default mixing * dielectric matrix)
  average eigenvalue GAMMA=   0.4652
  1.1894  0.4132  0.4132  0.1550  0.1550

 Free energy of the ion-electron system (eV)
  ---------------------------------------------------
  alpha Z        PSCENC =       333.57168661
  Ewald energy   TEWEN  =     -5754.88765994
  -Hartree energ DENC   =    -10658.10982179
  -exchange      EXHF   =         0.00000000
  -V(xc)+E(xc)   XCENC  =       742.48748771
  PAW double counting   =     19251.87521423   -19525.28166464
  entropy T*S    EENTRO =        -0.05162720
  eigenvalues    EBANDS =     -1866.48036804
  atomic energy  EATOM  =     17435.26881048
  Solvation  Ediel_sol  =         0.00000000
  ---------------------------------------------------
  free energy    TOTEN  =       -41.60794259 eV

  energy without entropy =      -41.55631539  energy(sigma->0) =      -41.59073352


--------------------------------------------------------------------------------------------------------




----------------------------------------- Iteration    1(  11)  ---------------------------------------



 eigenvalue-minimisations  :  1590
 total energy-change (2. order) : 0.1799011E+01  (-0.5760672E+00)
 number of electron     170.0000043 magnetization 
 augmentation part       51.8487849 magnetization 

 Broyden mixing:
  rms(total) = 0.82806E+00    rms(broyden)= 0.82443E+00
  rms(prec ) = 0.97693E+00
  weight for this iteration     100.00

 eigenvalues of (default mixing * dielectric matrix)
  average eigenvalue GAMMA=   0.5173
  1.4493  0.5703  0.3881  0.3881  0.1539  0.1539

 Free energy of the ion-electron system (eV)
  ---------------------------------------------------
  alpha Z        PSCENC =       333.57168661
  Ewald energy   TEWEN  =     -5754.88765994
  -Hartree energ DENC   =    -10657.50174175
  -exchange      EXHF   =         0.00000000
  -V(xc)+E(xc)   XCENC  =       742.50876671
  PAW double counting   =     20044.04008656   -20322.50435019
  entropy T*S    EENTRO =         0.00256170
  eigenvalues    EBANDS =     -1860.30709190
  atomic energy  EATOM  =     17435.26881048
  Solvation  Ediel_sol  =         0.00000000
  ---------------------------------------------------
  free energy    TOTEN  =       -39.80893172 eV

  energy without entropy =      -39.81149341  energy(sigma->0) =      -39.80978562


--------------------------------------------------------------------------------------------------------




----------------------------------------- Iteration    1(  12)  ---------------------------------------



 eigenvalue-minimisations  :  1566
 total energy-change (2. order) : 0.5553700E-01  (-0.3307732E+00)
 number of electron     170.0000045 magnetization 
 augmentation part       51.5701855 magnetization 

 Broyden mixing:
  rms(total) = 0.14727E+01    rms(broyden)= 0.14691E+01
  rms(prec ) = 0.17826E+01
  weight for this iteration     100.00

 eigenvalues of (default mixing * dielectric matrix)
  average eigenvalue GAMMA=   0.4843
  1.4169  0.7074  0.3996  0.3996  0.1502  0.1502  0.1662

 Free energy of the ion-electron system (eV)
  ---------------------------------------------------
  alpha Z        PSCENC =       333.57168661
  Ewald energy   TEWEN  =     -5754.88765994
  -Hartree energ DENC   =    -10651.15682009
  -exchange      EXHF   =         0.00000000
  -V(xc)+E(xc)   XCENC  =       742.55286367
  PAW double counting   =     20595.06638685   -20876.67753893
  entropy T*S    EENTRO =        -0.01120109
  eigenvalues    EBANDS =     -1863.47992228
  atomic energy  EATOM  =     17435.26881048
  Solvation  Ediel_sol  =         0.00000000
  ---------------------------------------------------
  free energy    TOTEN  =       -39.75339472 eV

  energy without entropy =      -39.74219363  energy(sigma->0) =      -39.74966102


--------------------------------------------------------------------------------------------------------




----------------------------------------- Iteration    1(  13)  ---------------------------------------