--------------------------------------------------------------------------
WARNING: Linux kernel CMA support was requested via the
btl_vader_single_copy_mechanism MCA variable, but CMA support is
not available due to restrictive ptrace settings.

The vader shared memory BTL will fall back on another single-copy
mechanism if one is available. This may result in lower performance.

  Local host: DESKTOP-EMLNJAS
--------------------------------------------------------------------------
 running on    4 total cores
 distrk:  each k-point on    4 cores,    1 groups
 distr:  one band on    4 cores,    1 groups
 using from now: INCAR     
 vasp.5.4.4.18Apr17-6-g9f103f2a35 (build Apr  9 2020 10:35:27) complex           
 POSCAR found type information on POSCAR  Si
 POSCAR found :  1 types and       2 ions
 scaLAPACK will be used

 ----------------------------------------------------------------------------- 
|                                                                             |
|  ADVICE TO THIS USER RUNNING 'VASP/VAMP'   (HEAR YOUR MASTER'S VOICE ...):  |
|                                                                             |
|      You have a (more or less) 'small supercell' and for smaller cells      |
|      it is recommended  to use the reciprocal-space projection scheme!      |
|      The real space optimization is not  efficient for small cells and it   |
|      is also less accurate ...                                              |
|      Therefore set LREAL=.FALSE. in the  INCAR file                         |
|                                                                             |
 ----------------------------------------------------------------------------- 

 LDA part: xc-table for Pade appr. of Perdew
 POSCAR, INCAR and KPOINTS ok, starting setup
 FFT: planning ...
 WAVECAR not read
 entering main loop
       N       E                     dE             d eps       ncg     rms          rms(c)
DAV:   1     0.642208910419E+01    0.64221E+01   -0.25532E+03  2056   0.521E+02
DAV:   2    -0.698357209006E+01   -0.13406E+02   -0.13168E+02  3168   0.712E+01
DAV:   3    -0.717065149292E+01   -0.18708E+00   -0.18656E+00  2632   0.105E+01
DAV:   4    -0.717138555140E+01   -0.73406E-03   -0.73400E-03  3440   0.715E-01
DAV:   5    -0.717138599263E+01   -0.44122E-06   -0.44091E-06  2736   0.145E-02    0.643E+00
RMM:   6    -0.660929524809E+01    0.56209E+00   -0.52623E-01  2048   0.379E+00    0.371E+00
RMM:   7    -0.650685786761E+01    0.10244E+00   -0.30372E-01  2048   0.306E+00    0.117E+00
RMM:   8    -0.650202885867E+01    0.48290E-02   -0.14512E-02  2058   0.916E-01    0.130E-01
RMM:   9    -0.650213328123E+01   -0.10442E-03   -0.70430E-04  2063   0.192E-01    0.708E-02
RMM:  10    -0.650214249749E+01   -0.92163E-05   -0.11291E-04  2048   0.764E-02    0.294E-02
RMM:  11    -0.650214728370E+01   -0.47862E-05   -0.12446E-05  2049   0.272E-02    0.646E-03
RMM:  12    -0.650214658356E+01    0.70014E-06   -0.13346E-06  1484   0.755E-03
   1 F= -.65021466E+01 E0= -.65016163E+01  d E =-.650215E+01
 BRION: g(F)=  0.207E+02 g(S)=  0.000E+00
 bond charge predicted
       N       E                     dE             d eps       ncg     rms          rms(c)
DAV:   1    -0.297652275857E+01    0.35256E+01   -0.30836E+02  2216   0.104E+02    0.886E+00
RMM:   2    -0.279697305348E+01    0.17955E+00   -0.84362E+00  2048   0.230E+01    0.336E+00
RMM:   3    -0.253756677271E+01    0.25941E+00   -0.54617E-01  2048   0.485E+00    0.141E+00
RMM:   4    -0.253781885859E+01   -0.25209E-03   -0.34870E-02  2052   0.132E+00    0.734E-01
RMM:   5    -0.254114498770E+01   -0.33261E-02   -0.84958E-03  2048   0.722E-01    0.124E-01
RMM:   6    -0.254120441302E+01   -0.59425E-04   -0.15397E-03  2048   0.223E-01    0.772E-02
RMM:   7    -0.254107602766E+01    0.12839E-03   -0.15364E-04  2048   0.819E-02    0.233E-02
RMM:   8    -0.254106997670E+01    0.60510E-05   -0.46517E-05  2048   0.358E-02    0.891E-03
RMM:   9    -0.254106961409E+01    0.36261E-06   -0.16200E-06  1467   0.109E-02
   2 F= -.25410696E+01 E0= -.25404464E+01  d E =0.396108E+01
 BRION: g(F)=  0.685E+02 g(S)=  0.000E+00 retain N=  1 mean eig= 0.27
 eig:   0.268
 bond charge predicted
       N       E                     dE             d eps       ncg     rms          rms(c)
DAV:   1    -0.548605032697E+01   -0.29450E+01   -0.16815E+02  2264   0.727E+01    0.874E+00
RMM:   2    -0.424120160729E+01    0.12448E+01   -0.47460E+00  2048   0.191E+01    0.276E+00
RMM:   3    -0.397669076306E+01    0.26451E+00   -0.65994E-01  2048   0.433E+00    0.106E+00
RMM:   4    -0.397496119183E+01    0.17296E-02   -0.27847E-02  2053   0.112E+00    0.649E-01
RMM:   5    -0.397490208284E+01    0.59109E-04   -0.36397E-03  2048   0.416E-01    0.147E-01
RMM:   6    -0.397485395855E+01    0.48124E-04   -0.10925E-03  2048   0.177E-01    0.616E-02
RMM:   7    -0.397479118664E+01    0.62772E-04   -0.18201E-04  2048   0.816E-02    0.180E-02
RMM:   8    -0.397478518932E+01    0.59973E-05   -0.33590E-06  1781   0.149E-02    0.125E-02
RMM:   9    -0.397478326724E+01    0.19221E-05   -0.38818E-06  1886   0.102E-02    0.187E-03
RMM:  10    -0.397478321492E+01    0.52314E-07   -0.26818E-07  1310   0.352E-03
   3 F= -.39747832E+01 E0= -.39739048E+01  d E =-.143371E+01
 BRION: g(F)=  0.466E+02 g(S)=  0.000E+00 retain N=  2 mean eig= 1.24
 eig:   0.028  2.449
 bond charge predicted
       N       E                     dE             d eps       ncg     rms          rms(c)
DAV:   1    -0.882439247836E+01   -0.48496E+01   -0.65287E+01  2056   0.482E+01    0.414E+00
RMM:   2    -0.858904615825E+01    0.23535E+00   -0.18037E+00  2048   0.115E+01    0.161E+00
RMM:   3    -0.848370116255E+01    0.10534E+00   -0.22088E-01  2048   0.277E+00    0.386E-01
RMM:   4    -0.848370056301E+01    0.59953E-06   -0.68936E-03  2072   0.585E-01    0.229E-01
RMM:   5    -0.848353034570E+01    0.17022E-03   -0.74870E-04  2048   0.216E-01    0.447E-02
RMM:   6    -0.848350331074E+01    0.27035E-04   -0.35905E-04  2048   0.976E-02    0.380E-02
RMM:   7    -0.848347373080E+01    0.29580E-04   -0.24565E-05  2047   0.325E-02    0.129E-02
RMM:   8    -0.848347225834E+01    0.14725E-05   -0.67177E-06  1971   0.138E-02    0.224E-03
RMM:   9    -0.848347235120E+01   -0.92862E-07   -0.13215E-07  1306   0.359E-03
   4 F= -.84834724E+01 E0= -.84828390E+01  d E =-.450869E+01
 BRION: g(F)=  0.302E+01 g(S)=  0.000E+00 retain N=  1 mean eig= 0.17
 eig:   0.168
 bond charge predicted
       N       E                     dE             d eps       ncg     rms          rms(c)
DAV:   1    -0.104877190581E+02   -0.20042E+01   -0.32517E+01  2288   0.351E+01    0.186E+00
RMM:   2    -0.105471019916E+02   -0.59383E-01   -0.80702E-01  2048   0.748E+00    0.976E-01
RMM:   3    -0.105373005849E+02    0.98014E-02   -0.35462E-02  2059   0.156E+00    0.339E-01
RMM:   4    -0.105373124572E+02   -0.11872E-04   -0.22598E-03  2063   0.349E-01    0.121E-01
RMM:   5    -0.105373112207E+02    0.12365E-05   -0.25585E-04  2051   0.128E-01    0.130E-02
RMM:   6    -0.105373167308E+02   -0.55101E-05   -0.16581E-05  2067   0.322E-02    0.687E-03
RMM:   7    -0.105373184211E+02   -0.16903E-05   -0.31342E-06  1804   0.141E-02    0.115E-03
RMM:   8    -0.105373183972E+02    0.23919E-07   -0.24008E-07  1384   0.399E-03
   5 F= -.10537318E+02 E0= -.10537020E+02  d E =-.205385E+01
 BRION: g(F)=  0.538E+00 g(S)=  0.000E+00 retain N=  2 mean eig= 0.52
 eig:   0.522  0.522
