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      +#++: +#++:++#++: +#+  +:+  +#+ +#++:++#+  +#+    +:+     
       +#+  +#+     +#+ +#+       +#+ +#+    +#+ +#+    +#+     
       #+#  #+#     #+# #+#       #+# #+#    #+# #+#    #+#     
       ###  ###     ### ###       ### #########   ########      
                                                                
                                                                
    GPL Version 4.4.0 Revision 148. (Based on r.16920 h.961a8d9a
                     MPI+SLK+OpenMP Build                       
                   http://www.yambo-code.org                    
 
 11/04/2019 at 16:35 YAMBO @ dufour

 [01] CPU structure, Files & I/O Directories
 ===========================================

 * CPU             : 1
 * THREADS    (max): 1
 * THREADS TOT(max): 1
 * I/O NODES       : 1
 * Fragmented WFs  :yes

 CORE databases in   .
 Additional I/O in   .
 Communications in   References
 Input file     is   References/02_QP_PPA_02_QP_PPA.in
 Report file    is   References/r-02_QP_PPA_em1d_ppa_HF_and_locXC_gw0
 Precision      is   SINGLE

 Job string(s)-dir(s) (main): 02_QP_PPA
  
 [RD./SAVE//ns.db1]------------------------------------------
  Bands                           :  50
  K-points                        : 10
  G-vectors             [RL space]: 11017
  Components       [wavefunctions]: 1392
  Symmetries             [spatial]:  48
  Spinor components               : 1
  Spin polarizations              : 1
  Temperature                 [ev]: 0.000000
  Electrons                       : 8.000000
  WF G-vectors                    : 1855
  Max atoms/species               : 1
  No. of atom species             : 2
  Exact exchange fraction in XC   : 0.000000
  Exact exchange screening in XC  : 0.000000
  Magnetic symmetries             : no
 - S/N 002231 -------------------------- v.04.04.00 r.00148 -

 [02] CORE Variables Setup
 =========================


  [02.01] Unit cells
  ==================

  Unit cell is FCC

  ... containing 1Li1F atoms

  ... with scaling factors [a.u.]: 3.851738  3.851738  3.851738

  Direct Lattice(DL) unit cell [iru  /  cc(a.u.)]
  A1 =-1.000000  0.000000  1.000000     -3.851738  0.000000  3.851738
  A2 = 0.000000  1.000000  1.000000      0.000000  3.851738  3.851738
  A3 =-1.000000  1.000000  0.000000     -3.851738  3.851738  0.000000

  DL volume [au]: 114.2879

  Reciprocal Lattice(RL) unit cell [iku  /  cc]
  B1 =-0.500000 -0.500000  0.500000     -0.815630 -0.815630  0.815630
  B2 = 0.500000  0.500000  0.500000      0.815630  0.815630  0.815630
  B3 =-0.500000  0.500000 -0.500000     -0.815630  0.815630 -0.815630


  [02.02] Symmetries
  ==================

  DL (S)ymmetries [cc]
  [S1] 1.000000  0.000000  0.000000  0.000000  1.000000  0.000000  0.000000  0.000000  1.000000
  [S2]-1.000000  0.000000  0.000000  0.000000 -1.000000  0.000000  0.000000  0.000000  1.000000
  [S3]-1.000000  0.000000  0.000000  0.000000  1.000000  0.000000  0.000000  0.000000 -1.000000
  [S4] 1.000000  0.000000  0.000000  0.000000 -1.000000  0.000000  0.000000  0.000000 -1.000000
  [S5] 0.000000  1.000000  0.000000  1.000000  0.000000  0.000000  0.000000  0.000000 -1.000000
  [S6] 0.000000 -1.000000  0.000000 -1.000000  0.000000  0.000000  0.000000  0.000000 -1.000000
  [S7] 0.000000 -1.000000  0.000000  1.000000  0.000000  0.000000  0.000000  0.000000  1.000000
  [S8] 0.000000  1.000000  0.000000 -1.000000  0.000000  0.000000  0.000000  0.000000  1.000000
  [S9] 0.000000  0.000000  1.000000  0.000000 -1.000000  0.000000  1.000000  0.000000  0.000000
  [S10] 0.000000  0.000000 -1.000000  0.000000 -1.000000  0.000000 -1.000000  0.000000  0.000000
  [S11] 0.000000  0.000000 -1.000000  0.000000  1.000000  0.000000  1.000000  0.000000  0.000000
  [S12] 0.000000  0.000000  1.000000  0.000000  1.000000  0.000000 -1.000000  0.000000  0.000000
  [S13]-1.000000  0.000000  0.000000  0.000000  0.000000  1.000000  0.000000  1.000000  0.000000
  [S14]-1.000000  0.000000  0.000000  0.000000  0.000000 -1.000000  0.000000 -1.000000  0.000000
  [S15] 1.000000  0.000000  0.000000  0.000000  0.000000 -1.000000  0.000000  1.000000  0.000000
  [S16] 1.000000  0.000000  0.000000  0.000000  0.000000  1.000000  0.000000 -1.000000  0.000000
  [S17] 0.000000  0.000000  1.000000  1.000000  0.000000  0.000000  0.000000  1.000000  0.000000
  [S18] 0.000000  0.000000 -1.000000 -1.000000  0.000000  0.000000  0.000000  1.000000  0.000000
  [S19] 0.000000  0.000000 -1.000000  1.000000  0.000000  0.000000  0.000000 -1.000000  0.000000
  [S20] 0.000000  0.000000  1.000000 -1.000000  0.000000  0.000000  0.000000 -1.000000  0.000000
  [S21] 0.000000  1.000000  0.000000  0.000000  0.000000  1.000000  1.000000  0.000000  0.000000
  [S22] 0.000000 -1.000000  0.000000  0.000000  0.000000 -1.000000  1.000000  0.000000  0.000000
  [S23] 0.000000 -1.000000  0.000000  0.000000  0.000000  1.000000 -1.000000  0.000000  0.000000
  [S24] 0.000000  1.000000  0.000000  0.000000  0.000000 -1.000000 -1.000000  0.000000  0.000000
  [S25]-1.000000  0.000000  0.000000  0.000000 -1.000000  0.000000  0.000000  0.000000 -1.000000
  [S26] 1.000000  0.000000  0.000000  0.000000  1.000000  0.000000  0.000000  0.000000 -1.000000
  [S27] 1.000000  0.000000  0.000000  0.000000 -1.000000  0.000000  0.000000  0.000000  1.000000
  [S28]-1.000000  0.000000  0.000000  0.000000  1.000000  0.000000  0.000000  0.000000  1.000000
  [S29] 0.000000 -1.000000  0.000000 -1.000000  0.000000  0.000000  0.000000  0.000000  1.000000
  [S30] 0.000000  1.000000  0.000000  1.000000  0.000000  0.000000  0.000000  0.000000  1.000000
  [S31] 0.000000  1.000000  0.000000 -1.000000  0.000000  0.000000  0.000000  0.000000 -1.000000
  [S32] 0.000000 -1.000000  0.000000  1.000000  0.000000  0.000000  0.000000  0.000000 -1.000000
  [S33] 0.000000  0.000000 -1.000000  0.000000  1.000000  0.000000 -1.000000  0.000000  0.000000
  [S34] 0.000000  0.000000  1.000000  0.000000  1.000000  0.000000  1.000000  0.000000  0.000000
  [S35] 0.000000  0.000000  1.000000  0.000000 -1.000000  0.000000 -1.000000  0.000000  0.000000
  [S36] 0.000000  0.000000 -1.000000  0.000000 -1.000000  0.000000  1.000000  0.000000  0.000000
  [S37] 1.000000  0.000000  0.000000  0.000000  0.000000 -1.000000  0.000000 -1.000000  0.000000
  [S38] 1.000000  0.000000  0.000000  0.000000  0.000000  1.000000  0.000000  1.000000  0.000000
  [S39]-1.000000  0.000000  0.000000  0.000000  0.000000  1.000000  0.000000 -1.000000  0.000000
  [S40]-1.000000  0.000000  0.000000  0.000000  0.000000 -1.000000  0.000000  1.000000  0.000000
  [S41] 0.000000  0.000000 -1.000000 -1.000000  0.000000  0.000000  0.000000 -1.000000  0.000000
  [S42] 0.000000  0.000000  1.000000  1.000000  0.000000  0.000000  0.000000 -1.000000  0.000000
  [S43] 0.000000  0.000000  1.000000 -1.000000  0.000000  0.000000  0.000000  1.000000  0.000000
  [S44] 0.000000  0.000000 -1.000000  1.000000  0.000000  0.000000  0.000000  1.000000  0.000000
  [S45] 0.000000 -1.000000  0.000000  0.000000  0.000000 -1.000000 -1.000000  0.000000  0.000000
  [S46] 0.000000  1.000000  0.000000  0.000000  0.000000  1.000000 -1.000000  0.000000  0.000000
  [S47] 0.000000  1.000000  0.000000  0.000000  0.000000 -1.000000  1.000000  0.000000  0.000000
  [S48] 0.000000 -1.000000  0.000000  0.000000  0.000000  1.000000  1.000000  0.000000  0.000000

  [SYMs] K-space Time-reversal not included
  [SYMs] Spatial inversion 25 is a symmetry
  [SYMs] Group table built correctly

  [02.03] RL shells
  =================

  Shells, format: [S#] G_RL(mHa)

   [S37]:1139(0.3459E+5) [S36]:1067(0.3326E+5) [S35]:1037(0.3293E+5) [S34]:965(0.3193E+5)
   [S33]:941(0.3027E+5) [S32]:893(0.2927E+5) [S31]:869(0.2794E+5) [S30]:821(0.2761E+5)
   [S29]:749(0.2661E+5) [S28]:725(0.2528E+5) [S27]:701(0.2495E+5) [S26]:645(0.2395E+5)
   [S25]:609(0.2262E+5) [S24]:561(0.2229E+5) [S23]:537(0.2129E+5) [S22]:531(0.1962E+5)
   [S21]:459(0.1863E+5) [S20]:411(0.1730E+5) [S19]:387(0.1696E+5) [S18]:339(0.1597E+5)
   [S17]:331(0.1464E+5) [S16]:307(0.1430E+5) [S15]:283(0.1331E+5) [S14]:259(0.1197E+5)
   [S13]:229(0.1164E+5) [S12]:181(0.1064E+5) [S11]:169( 8981.) [S10]:137( 7983.)
   ...
   [S12]:181(0.1064E+5) [S11]:169( 8981.) [S10]:137( 7983.) [S9]:113( 6653.)
   [S8]:89( 6320.) [S7]:65( 5322.) [S6]:59( 3992.) [S5]:51( 3659.)
   [S4]:27( 2661.) [S3]:15( 1331.) [S2]:9( 997.8782) [S1]:1( 0.000000)

  [02.04] K-grid lattice
  ======================

  Compatible Grid is 3D
  B1 [rlu]=-0.125000  0.000000 -0.125000
  B2      =-.1250    -.7451E-8 0.1250   
  B3      = 0.000000 -0.125000 -0.125000
  Grid dimensions               :  8   8   8
  K lattice UC volume       [au]:   0.0085

  [02.05] Energies [ev] & Occupations
  ===================================

  [X]Fermi Level        [ev]: -0.337168
  [X]VBM / CBm          [ev]:  0.000000  8.918741
  [X]Electronic Temp. [ev K]:  0.00      0.00    
  [X]Bosonic    Temp. [ev K]:  0.00      0.00    
  [X]Finite Temperature mode: no
  [X]El. density      [cm-3]: 0.472E+24
  [X]States summary         : Full        Metallic    Empty
                                 0001-0004               0005-0050
  [X]Indirect Gaps      [ev]: 8.918741  9.753878
  [X]Direct Gaps        [ev]:  8.91874  14.55271
  X BZ K-points : 256

  Energy unit is electronVolt [eV]

  *X* K [1] :-0.101954  0.101954  0.101954 ( cc) * Comp.s 1387 * weight   0.03125
              0.125000  0.125000  0.125000 (rlu)
  E -19.42151  -0.40078   0.00000   0.00000   8.91874  19.85657  21.52467  21.52467
  E  24.71131  24.90822  24.90822  30.22428  31.89076  31.89076  39.90961  43.38593
  E  44.12740  44.12740  58.64138  58.64138  60.77421  62.38117  65.67120  65.67120
  E  68.14119  68.17863  68.17863  70.40260  75.07706  75.07706  81.87511  81.87511
  E  84.05283  85.62609  85.62609  86.33516  87.97247  88.45544  88.45544  88.54581
   
  *X* K [2] :-0.305861  0.305861 -0.101954 ( cc) * Comp.s 1376 * weight   0.09375
              0.125000  0.125000  0.375000 (rlu)
  E -19.13629  -1.62597  -0.54124  -0.05844  10.38648  16.30229  19.02213  19.26052
  E  26.45174  26.54835  29.12847  35.08747  35.35301  36.46568  40.03972  43.06846
  E  45.06990  47.80478  49.36565  52.87003  56.99385  60.20614  60.91579  64.82806
  E  65.64436  70.14223  70.47805  71.47624  74.04397  74.15519  75.35820  77.56017
  E  78.25106  79.84869  82.90208  83.41772  86.03629  86.30293  86.62097  88.11382
   
  *X* K [3] : 0.305861 -0.305861  0.509769 ( cc) * Comp.s 1389 * weight   0.09375
              0.125000  0.125000 -0.375000 (rlu)
  E -18.95611  -2.36513  -0.54479  -0.30254  10.84687  15.61731  18.20420  18.38450
  E  26.78341  29.77220  30.72870  34.51894  36.10888  36.49540  43.49471  43.54385
  E  47.40850  49.25363  51.18324  51.68827  54.36533  58.28048  59.48403  60.66845
  E  63.79463  65.11462  65.85026  68.11150  70.97304  72.63253  73.14675  77.26110
  E  79.14046  79.37479  82.36256  83.13329  83.67618  85.32367  90.58323  91.37516
   
  *X* K [4] : 0.101954 -0.101954  0.305861 ( cc) * Comp.s 1380 * weight   0.09375
              0.125000  0.125000 -0.125000 (rlu)
  E -19.25531  -1.09676  -0.24912  -0.20257   9.94018  17.81825  19.75244  19.99081
  E  22.47161  28.51224  28.78011  33.18328  33.97881  35.04993  38.84145  43.19024
  E  43.37343  46.43203  52.94085  54.79689  59.28908  59.80481  61.70476  64.84721
  E  67.82189  69.26949  71.77821  74.04268  74.57114  76.57320  79.39416  80.02613
  E  80.62689  80.95340  82.09125  83.88895  84.62360  86.75214  88.22348  88.71765
   
  *X* K [5] :-0.101954  0.509769  0.101954 ( cc) * Comp.s 1385 * weight   0.09375
              0.125000  0.375000  0.375000 (rlu)
  E -18.99027  -1.98599  -0.71329  -0.59504  11.77596  16.32704  18.08766  19.35964
  E  21.07920  32.73895  32.78685  34.32249  36.58356  37.87923  41.19713  41.74085
  E  43.33978  48.88984  50.80122  52.48598  54.68872  55.02798  60.23691  63.55180
  E  64.62691  66.62304  69.39194  70.47132  72.46174  73.14099  75.60150  78.17138
  E  80.62261  82.57638  83.07994  83.94738  84.39636  86.21341  88.40208  91.18652
   
  *X* K [6] : 0.509769 -0.101954  0.713676 ( cc) * Comp.s 1386 * weight  0.187500
              0.125000  0.375000 -0.375000 (rlu)
  E -18.79074  -2.28138  -1.55638  -0.67802  13.48741  14.67513  17.37858  18.47049
  E  24.04837  29.50435  33.59712  36.14773  37.80230  39.22639  43.51373  44.89088
  E  48.15296  49.00877  51.00305  51.49839  54.23485  55.76372  57.69348  58.77401
  E  60.20877  63.40137  63.95059  65.57268  68.70695  70.36136  73.78494  75.32526
  E  75.74583  82.15004  84.62366  84.95333  88.33043  90.80468  92.56631  94.53016
   
  *X* K [7] : 0.305861  0.101954  0.509769 ( cc) * Comp.s 1380 * weight  0.187500
              0.125000  0.375000 -0.125000 (rlu)
  E -18.94473  -2.06087  -1.05313  -0.36676  11.67682  15.31667  18.26493  18.65723
  E  24.87168  29.24572  32.00876  35.29743  36.11188  37.80135  41.52459  45.92440
  E  46.20626  47.93894  50.56387  52.34573  54.99039  56.31377  59.70709  60.59328
  E  62.95206  65.51972  66.81895  69.23346  71.52781  72.39645  73.91570  76.18460
  E  76.42983  81.85091  82.59939  84.88102  85.57886  89.01141  91.46201  91.76482
   
  *X* K [8] :-0.101954 -0.713676  0.101954 ( cc) * Comp.s 1370 * weight   0.09375
              0.125000 -0.375000 -0.375000 (rlu)
  E -18.77788  -2.67912  -1.06808  -0.83514  13.71758  15.41472  17.01195  19.25308
  E  20.51761  32.19567  35.77391  36.28041  38.50626  40.70838  42.35117  43.14936
  E  46.47460  47.56764  49.95605  50.19399  51.08315  55.14238  57.87741  58.79950
  E  59.15384  66.01857  68.99892  70.38321  70.94565  73.47215  73.87047  77.31388
  E  79.07574  79.31774  80.56243  82.93246  83.80218  86.06058  88.30914  92.16873
   
  *X* K [9] :-0.305861  0.305861  0.305861 ( cc) * Comp.s 1392 * weight   0.03125
              0.375000  0.375000  0.375000 (rlu)
  E -19.06918  -2.14493  -0.15409  -0.15409  10.16885  16.12967  18.60348  18.60348
  E  27.49505  28.85863  28.85863  34.03447  35.89007  35.89007  44.01577  44.79750
  E  44.79750  45.27789  50.84438  50.84438  54.11712  62.49649  62.49649  63.16311
  E  67.02916  68.62859  68.62859  71.33791  71.33791  71.47787  72.90132  76.25722
  E  76.25722  78.44018  79.36070  85.65278  85.65278  90.05261  90.05261  90.25607
   
  *X* K [10] : 0.305861 -0.305861  0.917584 ( cc) * Comp.s 1377 * weight   0.09375
               0.375000  0.375000 -0.375000 (rlu)
  E -18.86238  -2.13936  -1.43458  -0.41528  12.23307  14.77448  18.11778  18.56497
  E  25.52293  30.22483  30.73136  35.15642  36.40730  38.66775  42.34241  47.48640
  E  48.12170  49.88364  51.48333  51.67144  54.80055  56.29702  56.90127  58.62525
  E  60.05611  63.58145  64.11192  67.59920  70.12889  72.87206  73.86358  75.08086
  E  77.79948  79.94164  81.79621  84.36671  86.08932  90.95664  91.97655  93.78325

 [03] Transferred momenta grid
 =============================

 [RD./SAVE//ndb.kindx]---------------------------------------
  Fragmentation                    :no
  Polarization last K   : 10
  QP states             :  1  10
  X grid is uniform     :yes
  BS scattering         :no
  COLL scattering       :no
 - S/N 002231 -------------------------- v.04.04.00 r.00148 -

 IBZ Q-points : 19
 BZ  Q-points : 256

 Q [00001] : 0.00      0.00      0.00     (iku) * weight    0.0039
 Q [00002] : 0.125000 -0.125000  0.000000 (iku) * weight   0.04688
 Q [00003] : 0.125000 -0.125000 -0.125000 (iku) * weight   0.03125
 Q [00004] : 0.000000  0.000000 -0.125000 (iku) * weight   0.02344
 Q [00005] : 0.250000 -0.250000 -0.125000 (iku) * weight   0.09375
 Q [00006] :0.2500    0.1250    0.9135E-8 (iku) * weight   0.09375
 Q [00007] :0.2500    -.2500    0.1827E-7 (iku) * weight   0.04688
 Q [00008] : 0.250000  0.125000 -0.125000 (iku) * weight   0.09375
 Q [00009] : 0.250000 -0.250000  0.250000 (iku) * weight   0.01562
 Q [00010] :-0.125000 -0.250000 -0.375000 (iku) * weight   0.09375
 Q [00011] :-0.125000  0.125000 -0.375000 (iku) * weight   0.09375
 Q [00012] : 0.000000  0.000000 -0.250000 (iku) * weight   0.02344
 Q [00013] : 0.125000 -0.375000  0.000000 (iku) * weight   0.09375
 Q [00014] : 0.375000  0.000000  0.000000 (iku) * weight   0.02344
 Q [00015] :-.2500    -.2740E-7 0.3750    (iku) * weight   0.09375
 Q [00016] :-.1250    0.5000    0.7308E-7 (iku) * weight   0.04688
 Q [00017] : 0.000000  0.250000 -0.500000 (iku) * weight   0.02344
 Q [00018] : 0.000000 -0.375000  0.375000 (iku) * weight   0.04688
 Q [00019] : 0.000000 -0.500000  0.000000 (iku) * weight   0.01172
  
 Q [00001] : 0.00      0.00      0.00     (cc ) * weight    0.0039
 Q [00002] : 0.203907 -0.203907  0.000000 (cc ) * weight   0.04688
 Q [00003] : 0.203907 -0.203907 -0.203907 (cc ) * weight   0.03125
 Q [00004] : 0.000000  0.000000 -0.203907 (cc ) * weight   0.02344
 Q [00005] : 0.407815 -0.407815 -0.203907 (cc ) * weight   0.09375
 Q [00006] :0.4078    0.2039    0.1490E-7 (cc ) * weight   0.09375
 Q [00007] :0.4078    -.4078    0.2980E-7 (cc ) * weight   0.04688
 Q [00008] : 0.407815  0.203907 -0.203907 (cc ) * weight   0.09375
 Q [00009] : 0.407815 -0.407815  0.407815 (cc ) * weight   0.01562
 Q [00010] :-0.203908 -0.407815 -0.611722 (cc ) * weight   0.09375
 Q [00011] :-0.203907  0.203907 -0.611722 (cc ) * weight   0.09375
 Q [00012] : 0.000000  0.000000 -0.407815 (cc ) * weight   0.02344
 Q [00013] : 0.203907 -0.611722  0.000000 (cc ) * weight   0.09375
 Q [00014] : 0.611722  0.000000  0.000000 (cc ) * weight   0.02344
 Q [00015] :-.4078    -.4470E-7 0.6117    (cc ) * weight   0.09375
 Q [00016] :-.2039    0.8156    0.1192E-6 (cc ) * weight   0.04688
 Q [00017] : 0.000000  0.407815 -0.815630 (cc ) * weight   0.02344
 Q [00018] : 0.000000 -0.611722  0.611722 (cc ) * weight   0.04688
 Q [00019] : 0.000000 -0.815630  0.000000 (cc ) * weight   0.01172

 [04] Dynamic Dielectric Matrix (PPA)
 ====================================

 [RD./SAVE//ns.kb_pp_pwscf]----------------------------------
  Fragmentation                    :yes
 - S/N 002231 -------------------------- v.04.04.00 r.00148 -
 [WF-Oscillators/G space] Performing Wave-Functions I/O from ./SAVE

 [WF-Oscillators/G space loader] Normalization (few states)  min/max  :0.634E-09  1.00    

 [WR./02_QP_PPA//ndb.dip_iR_and_P]---------------------------
  Brillouin Zone Q/K grids (IBZ/BZ):  19  256   10  256
  RL vectors                   (WF): 1139
  Fragmentation                    :yes
  Electronic Temperature        [K]: 0.000000
  Bosonic    Temperature        [K]: 0.000000
  X band range           :  1  20
  X band range limits    :  4   5
  X e/h energy range [ev]:-1.000000 -1.000000
  RL vectors in the sum  : 1139
  [r,Vnl] included       :yes
  Using shifted grids    :no
  Using covariant dipoles:no
  Using G-space approach :yes
  Using R-space approach :no
  Direct v evaluation    :no
  Field momentum norm    :0.1000E-4
  Wavefunctions          :Slater exchange(X)+Perdew & Zunger(C)
 - S/N 002231 -------------------------- v.04.04.00 r.00148 -
 [WF-X] Performing Wave-Functions I/O from ./SAVE

 [FFT-X] Mesh size: 15  15  15

 [X-CG] R(p) Tot o/o(of R)  :   575  16384    100
 [WR./02_QP_PPA//ndb.pp]-------------------------------------
  Brillouin Zone Q/K grids (IBZ/BZ):  19  256   10  256
  RL vectors                   (WF): 1139
  Coulomb cutoff potential         :none
  Fragmentation                    :yes
  Electronic Temperature        [K]: 0.000000
  Bosonic    Temperature        [K]: 0.000000
  PPA    diel. fun.  energies      :Slater exchange(X)+Perdew & Zunger(C)
                     wavefunctions :Slater exchange(X)+Perdew & Zunger(C)
  Global Gauge                     :length
  X matrix size          : 15
  X band range           :  1  20
  X e/h energy range [ev]:-1.000000 -1.000000
  X Time ordering        :R
  X xc-Kernel            :none
  X Drude frequency      : 0.00      0.00    
  X poles           [o/o]: 100.0000
  RL vectors in the sum  : 1139
  [r,Vnl] included       :yes
  Field direction        :0.1000E-4  0.000     0.000   
  BZ energy Double Grid  :no
  BZ energy DbGd points  :0
  BZ Q point size factor : 1.000000
 - S/N 002231 -------------------------- v.04.04.00 r.00148 -
 [WR./02_QP_PPA//ndb.pp_fragment_1]--------------------------
  PPA Im  energy     [ev]: 27.21138
 - S/N 002231 -------------------------- v.04.04.00 r.00148 -
 [X-CG] R(p) Tot o/o(of R)  :  3444  16384    100
 [WR./02_QP_PPA//ndb.pp_fragment_2]--------------------------
  PPA Im  energy     [ev]: 27.21138
 - S/N 002231 -------------------------- v.04.04.00 r.00148 -
 [X-CG] R(p) Tot o/o(of R)  :  3262  16384    100
 [X-CG] R(p) Tot o/o(of R)  :  2206  16384    100
 [X-CG] R(p) Tot o/o(of R)  :  3930  16384    100
 [X-CG] R(p) Tot o/o(of R)  :  4262  16384    100
 [X-CG] R(p) Tot o/o(of R)  :  2444  16384    100
 [X-CG] R(p) Tot o/o(of R)  :  4719  16384    100
 [X-CG] R(p) Tot o/o(of R)  :  1519  16384    100
 [X-CG] R(p) Tot o/o(of R)  :  4480  16384    100
 [X-CG] R(p) Tot o/o(of R)  :  5075  16384    100
 [X-CG] R(p) Tot o/o(of R)  :  2012  16384    100
 [X-CG] R(p) Tot o/o(of R)  :  4469  16384    100
 [X-CG] R(p) Tot o/o(of R)  :  2206  16384    100
 [X-CG] R(p) Tot o/o(of R)  :  4268  16384    100
 [X-CG] R(p) Tot o/o(of R)  :  3007  16384    100
 [X-CG] R(p) Tot o/o(of R)  :  1828  16384    100
 [X-CG] R(p) Tot o/o(of R)  :  3439  16384    100
 [X-CG] R(p) Tot o/o(of R)  :  1199  16384    100

 Timing [Min/Max/Average]: 17s/17s/17s

 [05] Bare local and non-local Exchange-Correlation
 ==================================================

 [VXC] Plane waves : 1139
 [EXS] Plane waves : 1139
  
 QP @ K 1 - 10 : b 3 - 6
  
 [WF-HF/Rho] Performing Wave-Functions I/O from ./SAVE

 [FFT-HF/Rho] Mesh size: 20  20  20

 [xc] Functional Slater exchange(X)+Perdew & Zunger(C)
 [xc] LIBXC used to calculate xc functional

 [xc] E_xc :  -4.807730 [Ha]
      E_xc :  -9.615459 [Ry]

 XC HF and DFT [eV] @ K [1] (iku): -0.06250   0.06250   0.06250
 <3|HF|3> = -30.25838 -.1862E-7 <3|DFT|3> = -22.73384 -.4819E-8
 <4|HF|4> = -30.25828 -.4347E-8 <4|DFT|4> = -22.73381 -.6156E-8
 <5|HF|5> = -6.085458 -.1344E-8 <5|DFT|5> = -11.19674 -.2284E-7
 <6|HF|6> = -2.780080 -.563E-09 <6|DFT|6> = -8.918711 -.1679E-8

 XC HF and DFT [eV] @ K [2] (iku): -0.18750   0.18750  -0.06250
 <3|HF|3> = -29.39492 -.4394E-8 <3|DFT|3> = -21.82208 0.5934E-8
 <4|HF|4> = -30.25743 -.2121E-7 <4|DFT|4> = -22.71308 0.1667E-7
 <5|HF|5> = -6.089324 -.818E-09 <5|DFT|5> = -11.43772 -.594E-09
 <6|HF|6> = -4.607694 0.1507E-8 <6|DFT|6> = -10.65470 -.8479E-8

 XC HF and DFT [eV] @ K [3] (iku): 0.187500 -0.187500  0.312500
 <3|HF|3> = -29.36913 0.2948E-7 <3|DFT|3> = -21.81941 0.2628E-7
 <4|HF|4> = -29.91524 0.7630E-8 <4|DFT|4> = -22.33392 0.2996E-7
 <5|HF|5> = -4.817976 0.824E-09 <5|DFT|5> = -10.20071 -.2000E-8
 <6|HF|6> = -6.817688 0.1326E-8 <6|DFT|6> = -13.09058 0.1028E-7

 XC HF and DFT [eV] @ K [4] (iku):  0.06250  -0.06250   0.18750
 <3|HF|3> = -29.90715 0.3147E-8 <3|DFT|3> = -22.34275 0.1694E-8
 <4|HF|4> = -29.93081 0.1563E-8 <4|DFT|4> = -22.39208 0.1312E-7
 <5|HF|5> = -6.659258 -.4356E-8 <5|DFT|5> = -11.91344 -.1429E-7
 <6|HF|6> = -3.406870 0.828E-09 <6|DFT|6> = -9.446176 0.1380E-8

 XC HF and DFT [eV] @ K [5] (iku): -0.06250   0.31250   0.06250
 <3|HF|3> = -29.17909 0.3717E-7 <3|DFT|3> = -21.57489 -.1584E-7
 <4|HF|4> = -29.43372 -.1071E-7 <4|DFT|4> = -21.81734 0.5635E-7
 <5|HF|5> = -7.316447 -.398E-09 <5|DFT|5> = -12.90220 0.9315E-8
 <6|HF|6> = -3.767286 -.511E-09 <6|DFT|6> = -9.665571 -.4081E-8

 XC HF and DFT [eV] @ K [6] (iku):  0.31250  -0.06250   0.43750
 <3|HF|3> = -27.87466 -.3150E-8 <3|DFT|3> = -20.22216 -.1779E-7
 <4|HF|4> = -29.37587 -.4403E-8 <4|DFT|4> = -21.73096 -.1331E-7
 <5|HF|5> = -6.221518 -.886E-09 <5|DFT|5> = -12.03417 -.1708E-7
 <6|HF|6> = -6.211468 0.844E-09 <6|DFT|6> = -12.20452 -.5998E-8

 XC HF and DFT [eV] @ K [7] (iku):  0.18750   0.06250   0.31250
 <3|HF|3> = -28.55866 0.8027E-8 <3|DFT|3> = -20.96455 -.5535E-8
 <4|HF|4> = -29.79093 0.7586E-8 <4|DFT|4> = -22.20627 0.2801E-7
 <5|HF|5> = -6.094193 -.1801E-8 <5|DFT|5> = -11.62916 0.5390E-8
 <6|HF|6> = -5.541548 0.1155E-8 <6|DFT|6> = -11.56284 0.1506E-8

 XC HF and DFT [eV] @ K [8] (iku): -0.06250  -0.43750   0.06250
 <3|HF|3> = -28.72963 -.3532E-8 <3|DFT|3> = -21.06487 -.3922E-7
 <4|HF|4> = -29.11767 0.4123E-8 <4|DFT|4> = -21.46658 0.4180E-7
 <5|HF|5> = -7.707330 0.865E-09 <5|DFT|5> = -13.70060 0.1610E-7
 <6|HF|6> = -3.908531 -.1586E-8 <6|DFT|6> = -9.701825 0.9490E-8

 XC HF and DFT [eV] @ K [9] (iku):-0.187500  0.187500  0.187500
 <3|HF|3> = -30.13272 -.1668E-7 <3|DFT|3> = -22.57149 -.1442E-7
 <4|HF|4> = -30.13271 0.9261E-8 <4|DFT|4> = -22.57142 -.1757E-7
 <5|HF|5> = -4.806829 0.3701E-8 <5|DFT|5> = -10.13535 0.1500E-7
 <6|HF|6> = -6.389280 -.249E-09 <6|DFT|6> = -12.68322 0.2149E-7

 XC HF and DFT [eV] @ K [10] (iku): 0.187500 -0.187500  0.562500
 <3|HF|3> = -27.98843 0.8361E-8 <3|DFT|3> = -20.36761 -.3911E-7
 <4|HF|4> = -29.73656 0.781E-09 <4|DFT|4> = -22.14293 -.1211E-7
 <5|HF|5> = -5.369214 0.2602E-8 <5|DFT|5> = -10.94867 0.8437E-8
 <6|HF|6> = -6.568481 -.998E-09 <6|DFT|6> = -12.63063 -.4927E-8

 [WR./02_QP_PPA//ndb.HF_and_locXC]---------------------------
  Brillouin Zone Q/K grids (IBZ/BZ):  19  256   10  256
  RL vectors                   (WF): 1139
  Fragmentation                    :no
  Electronic Temperature        [K]: 0.000000
  Bosonic    Temperature        [K]: 0.000000
  Green`s function   wavefunctions :Slater exchange(X)+Perdew & Zunger(C)
  Total number of QP states       :  40
  Exchange RL vectors             : 1139
  Exchange summation bands        :  4
  RIM RL components               :0
  RIM random points               :0
 - S/N 002231 -------------------------- v.04.04.00 r.00148 -

  [05.01] HF occupations report
  =============================

  [HF]Fermi Level        [ev]: -0.337168
  [HF]VBM / CBm          [ev]:  -7.52447  14.03002
  [HF]Electronic Temp. [ev K]:  0.00      0.00    
  [HF]Bosonic    Temp. [ev K]:  0.00      0.00    
  [HF]Finite Temperature mode: no
  [HF]El. density      [cm-3]: 0.472E+24
  [HF]States summary         : Full        Metallic    Empty
                                   0001-0004               0005-0050
  [HF]Indirect Gaps      [ev]: 21.55449  22.51625
  [HF]Direct Gaps        [ev]: 21.55449  28.19708

 Timing [Min/Max/Average]: 05s/05s/05s

 [06] Dyson equation: Newton solver
 ==================================

 [Newton] SC iterations :0


  [06.01] G0W0 (W PPA)
  ====================

  [  GW  ] Bands range     :   1   50
  [GW/PPA] G damping   [ev]:  0.10000
   
   
  QP @ K 1 - 10 : b 3 - 6
   
  [WF-GW] Performing Wave-Functions I/O from ./SAVE

  [FFT-GW] Mesh size: 15  15  15

  [RD./02_QP_PPA//ndb.pp]-------------------------------------
   Brillouin Zone Q/K grids (IBZ/BZ):  19  256   10  256
   RL vectors                   (WF): 1139
   Coulomb cutoff potential         :none
   Fragmentation                    :yes
   Electronic Temperature        [K]: 0.000000
   Bosonic    Temperature        [K]: 0.000000
   PPA    diel. fun.  energies      :Slater exchange(X)+Perdew & Zunger(C)
                      wavefunctions :Slater exchange(X)+Perdew & Zunger(C)
   Global Gauge                     :length
   X matrix size          : 15
   X band range           :  1  20
   X e/h energy range [ev]:-1.000000 -1.000000
   X Time ordering        :R
   X xc-Kernel            :none
   X Drude frequency      : 0.00      0.00    
   X poles           [o/o]: 100.0000
   RL vectors in the sum  : 1139
   [r,Vnl] included       :yes
   Field direction        :0.1000E-4  0.000     0.000   
   BZ energy Double Grid  :no
   BZ energy DbGd points  :0
   BZ Q point size factor : 1.000000
  [RD./02_QP_PPA//ndb.pp_fragment_1]--------------------------
   PPA Im  energy     [ev]: 27.21138
  - S/N 002231 -------------------------- v.04.04.00 r.00148 -

  [06.02] QP properties and I/O
  =============================

  Legend (energies in eV):
  - B  : Band       - Eo  : bare energy
  - E  : QP energy  - Z   : Renormalization factor
  - So : Sc(Eo)     - S   : Sc(E)
  - dSp: Sc derivative precision

  - lXC: Starting Local XC (DFT)
  -nlXC: Starting non-Local XC (HF)

  QP [eV] @ K [1] (iku): -0.06250   0.06250   0.06250
   B=3 Eo=  0.00 E= -2.76 E-Eo= -2.76 Re(Z)=0.84 Im(Z)=-.9905E-3 nlXC=-30.26 lXC=-22.73 So= 4.229
   B=4 Eo=  0.00 E= -2.76 E-Eo= -2.76 Re(Z)=0.84 Im(Z)=-.9908E-3 nlXC=-30.26 lXC=-22.73 So= 4.232
   B=5 Eo=  8.92 E= 10.82 E-Eo=  1.90 Re(Z)=0.89 Im(Z)=-.6690E-3 nlXC=-6.085 lXC=-11.20 So=-2.978
   B=6 Eo= 19.86 E= 22.24 E-Eo=  2.38 Re(Z)=0.89 Im(Z)=0.2669E-2 nlXC=-2.780 lXC=-8.919 So=-3.448

  QP [eV] @ K [2] (iku): -0.18750   0.18750  -0.06250
   B=3 Eo= -0.54 E= -3.37 E-Eo= -2.83 Re(Z)=0.84 Im(Z)=-.1014E-2 nlXC=-29.39 lXC=-21.82 So= 4.189
   B=4 Eo= -0.06 E= -2.83 E-Eo= -2.77 Re(Z)=0.84 Im(Z)=-.9927E-3 nlXC=-30.26 lXC=-22.71 So= 4.233
   B=5 Eo= 10.39 E= 12.50 E-Eo=  2.11 Re(Z)=0.89 Im(Z)=-.6891E-3 nlXC=-6.089 lXC=-11.44 So=-2.970
   B=6 Eo= 16.30 E= 18.75 E-Eo=  2.45 Re(Z)=0.88 Im(Z)=-.1113E-2 nlXC=-4.608 lXC=-10.65 So=-3.255

  QP [eV] @ K [3] (iku): 0.187500 -0.187500  0.312500
   B=3 Eo= -0.54 E= -3.37 E-Eo= -2.83 Re(Z)=0.84 Im(Z)=-.1012E-2 nlXC=-29.37 lXC=-21.82 So= 4.173
   B=4 Eo= -0.30 E= -3.11 E-Eo= -2.81 Re(Z)=0.84 Im(Z)=-.1004E-2 nlXC=-29.92 lXC=-22.33 So= 4.225
   B=5 Eo= 10.85 E= 12.98 E-Eo=  2.14 Re(Z)=0.89 Im(Z)=-.6595E-3 nlXC=-4.818 lXC=-10.20 So=-2.988
   B=6 Eo= 15.62 E= 18.24 E-Eo=  2.62 Re(Z)=0.87 Im(Z)=-.2236E-2 nlXC=-6.818 lXC=-13.09 So=-3.256

  QP [eV] @ K [4] (iku):  0.06250  -0.06250   0.18750
   B=3 Eo= -0.25 E= -3.05 E-Eo= -2.80 Re(Z)=0.84 Im(Z)=-.1002E-2 nlXC=-29.91 lXC=-22.34 So= 4.222
   B=4 Eo= -0.20 E= -2.99 E-Eo= -2.79 Re(Z)=0.84 Im(Z)=-.9982E-3 nlXC=-29.93 lXC=-22.39 So= 4.211
   B=5 Eo=  9.94 E= 11.99 E-Eo=  2.05 Re(Z)=0.89 Im(Z)=-.6947E-3 nlXC=-6.659 lXC=-11.91 So=-2.939
   B=6 Eo= 17.82 E= 20.19 E-Eo=  2.37 Re(Z)=0.88 Im(Z)= -0.02900 nlXC= -3.40687 lXC= -9.44618 So= -3.34401

  QP [eV] @ K [5] (iku): -0.06250   0.31250   0.06250
   B=3 Eo= -0.71 E= -3.57 E-Eo= -2.86 Re(Z)=0.84 Im(Z)=-.1023E-2 nlXC=-29.18 lXC=-21.57 So= 4.188
   B=4 Eo= -0.60 E= -3.44 E-Eo= -2.85 Re(Z)=0.84 Im(Z)=-.1019E-2 nlXC=-29.43 lXC=-21.82 So= 4.210
   B=5 Eo= 11.78 E= 14.09 E-Eo=  2.31 Re(Z)=0.88 Im(Z)=-.7435E-3 nlXC=-7.316 lXC=-12.90 So=-2.962
   B=6 Eo= 16.33 E= 18.70 E-Eo=  2.37 Re(Z)=0.89 Im(Z)=  0.01115 nlXC= -3.76729 lXC= -9.66557 So= -3.22225

  QP [eV] @ K [6] (iku):  0.31250  -0.06250   0.43750
   B=3 Eo= -1.56 E= -4.51 E-Eo= -2.95 Re(Z)=0.83 Im(Z)=-.1068E-2 nlXC=-27.87 lXC=-20.22 So= 4.119
   B=4 Eo= -0.68 E= -3.55 E-Eo= -2.87 Re(Z)=0.84 Im(Z)=-.1023E-2 nlXC=-29.38 lXC=-21.73 So= 4.211
   B=5 Eo= 13.49 E= 15.93 E-Eo=  2.44 Re(Z)=0.88 Im(Z)=-.7492E-3 nlXC=-6.222 lXC=-12.03 So=-3.043
   B=6 Eo= 14.68 E= 17.22 E-Eo=  2.54 Re(Z)=0.88 Im(Z)=-.8653E-3 nlXC=-6.211 lXC=-12.20 So=-3.102

  QP [eV] @ K [7] (iku):  0.18750   0.06250   0.31250
   B=3 Eo= -1.05 E= -3.94 E-Eo= -2.89 Re(Z)=0.84 Im(Z)=-.1039E-2 nlXC=-28.56 lXC=-20.96 So= 4.141
   B=4 Eo= -0.37 E= -3.18 E-Eo= -2.82 Re(Z)=0.84 Im(Z)=-.1007E-2 nlXC=-29.79 lXC=-22.21 So= 4.217
   B=5 Eo= 11.68 E= 13.93 E-Eo=  2.26 Re(Z)=0.89 Im(Z)=-.7091E-3 nlXC=-6.094 lXC=-11.63 So=-2.987
   B=6 Eo= 15.32 E= 17.83 E-Eo=  2.51 Re(Z)=0.88 Im(Z)=0.1042E-2 nlXC=-5.542 lXC=-11.56 So=-3.167

  QP [eV] @ K [8] (iku): -0.06250  -0.43750   0.06250
   B=3 Eo= -1.07 E= -3.98 E-Eo= -2.91 Re(Z)=0.84 Im(Z)=-.1043E-2 nlXC=-28.73 lXC=-21.06 So= 4.181
   B=4 Eo= -0.84 E= -3.72 E-Eo= -2.88 Re(Z)=0.84 Im(Z)=-.1031E-2 nlXC=-29.12 lXC=-21.47 So= 4.204
   B=5 Eo= 13.72 E= 16.30 E-Eo=  2.58 Re(Z)=0.87 Im(Z)=-.8052E-3 nlXC=-7.707 lXC=-13.70 So=-3.040
   B=6 Eo= 15.41 E= 17.75 E-Eo=  2.34 Re(Z)=0.89 Im(Z)=-.7893E-3 nlXC=-3.909 lXC=-9.702 So=-3.157

  QP [eV] @ K [9] (iku):-0.187500  0.187500  0.187500
   B=3 Eo= -0.15 E= -2.94 E-Eo= -2.79 Re(Z)=0.84 Im(Z)=-.9967E-3 nlXC=-30.13 lXC=-22.57 So= 4.231
   B=4 Eo= -0.15 E= -2.94 E-Eo= -2.79 Re(Z)=0.84 Im(Z)=-.9972E-3 nlXC=-30.13 lXC=-22.57 So= 4.231
   B=5 Eo= 10.17 E= 12.24 E-Eo=  2.07 Re(Z)=0.89 Im(Z)=-.6539E-3 nlXC=-4.807 lXC=-10.14 So=-3.008
   B=6 Eo= 16.13 E= 18.72 E-Eo=  2.59 Re(Z)=0.87 Im(Z)=  0.03531 nlXC= -6.38928 lXC=-12.68322 So= -3.31183

  QP [eV] @ K [10] (iku): 0.187500 -0.187500  0.562500
   B=3 Eo= -1.43 E= -4.37 E-Eo= -2.93 Re(Z)=0.84 Im(Z)=-.1058E-2 nlXC=-27.99 lXC=-20.37 So= 4.107
   B=4 Eo= -0.42 E= -3.24 E-Eo= -2.82 Re(Z)=0.84 Im(Z)=-.1010E-2 nlXC=-29.74 lXC=-22.14 So= 4.218
   B=5 Eo= 12.23 E= 14.51 E-Eo=  2.27 Re(Z)=0.89 Im(Z)=-.6988E-3 nlXC=-5.369 lXC=-10.95 So=-3.018
   B=6 Eo= 14.77 E= 17.36 E-Eo=  2.58 Re(Z)=0.88 Im(Z)=-.9243E-3 nlXC=-6.568 lXC=-12.63 So=-3.117

  [WR./02_QP_PPA//ndb.QP]-------------------------------------
   Lattice constants                : 3.851738  3.851738  3.851738
   Coulomb cutoff potential         :none
   Electronic Temperature        [K]: 0.000000
   Bosonic    Temperature        [K]: 0.000000
   Green`s function   energies      :Slater exchange(X)+Perdew & Zunger(C)
                      wavefunctions :Slater exchange(X)+Perdew & Zunger(C)
   PPA    diel. fun.  energies      :Slater exchange(X)+Perdew & Zunger(C)
                      wavefunctions :Slater exchange(X)+Perdew & Zunger(C)
   QP tot states          :  40
   GW SC iterations       :0
   GW solver              : Newton
   == PPA-GN GW ==
  
   PPA imaginary pt   [ev]: 27.21138
   dS/dw steps            : 2
   dS/dw step         [ev]:  0.10000
   X G`s            [used]: 15
   X G`s            [disk]: 15
   X bands                :  1  20
   X poles           [o/o]: 100.0000
   X e/h E range      [ev]:-1.000000 -1.000000
   X xc-Kernel            : none
   X BZ energy Double Grid: no
   X BZ Double Grid points:0
   Sc/G bands             :   1   50
   Sc/G damping       [ev]:  0.10000
   Sc bands terminator    : no
   Sx RL components       : 1139
  
   QP @ K 1 - 10 : b 3 - 6
  - S/N 002231 -------------------------- v.04.04.00 r.00148 -

 Timing [Min/Max/Average]: 31s/31s/31s

 [07] Timing Overview
 ====================

 Routines: global (Only MASTER cpu here)
                                    io_WF :     0.00s CPU (        49 calls,   0.737 millisec avg)
                                  io_GROT :     0.00s CPU (         2 calls,   2.136 millisec avg)
                                 io_QINDX :     0.00s CPU (         2 calls,   2.164 millisec avg)
                               io_COL_CUT :     0.00s CPU
                           io_Double_Grid :     0.00s CPU
                                    io_HF :     0.00s CPU (         3 calls,   1.225 millisec avg)
                               io_DIPOLES :     0.00s CPU (        13 calls,   2.488 millisec avg)
                              io_KB_pwscf :     0.00s CPU (        12 calls,   1.137 millisec avg)
                             io_KB_abinit :     0.00s CPU
                                     io_X :     0.00s CPU (        45 calls,   1.928 millisec avg)
                                    io_BS :     0.00s CPU
                  IO_and_Messaging_switch :     0.00s CPU (         8 calls,   0.003 millisec avg)
                                  Dipoles :     0.00s CPU
                        DIPOLE_transverse :     0.00s CPU
                             PP_uspp_init :     0.00s CPU (         4 calls,   0.019 millisec avg)
                              WF_load_FFT :     0.00s CPU (         4 calls,  18.554 millisec avg)
                              io_fragment :     0.00s CPU (        99 calls,   0.529 millisec avg)
                                FFT_setup :     0.00s CPU (        21 calls,  27.944 millisec avg)
                           Xo (procedure) :    16.00s CPU (        19 calls,   0.869 sec avg)
                               Xo (REDUX) :     0.00s CPU (        19 calls,   0.001 millisec avg)
                            X (procedure) :     0.00s CPU (        19 calls,   0.310 millisec avg)
  MATRIX transfer (X_G_all_q_X_redux_1_1) :     0.00s CPU (        38 calls,   0.003 millisec avg)
                           LINEAR ALGEBRA :     0.00s CPU (        38 calls,   0.037 millisec avg)
                        SERIAL_lin_system :     0.00s CPU (        38 calls,   0.036 millisec avg)
                                X (REDUX) :     0.00s CPU (        19 calls,   0.009 millisec avg)
  MATRIX transfer (X_G_all_q_X_redux_2_1) :     0.00s CPU (        38 calls,   0.002 millisec avg)
                                       HF :     5.00s CPU
                                HF(REDUX) :     0.00s CPU
                                XCo_local :     0.00s CPU
                      XC_potential_driver :     0.00s CPU (         2 calls,   9.274 millisec avg)
                                  GW(ppa) :    31.00s CPU
                                GW(REDUX) :     0.00s CPU
                             io_QP_and_GF :     0.00s CPU

 [08] Memory Overview
 ====================

 Memory Usage: global (Only MASTER cpu here). [O] stands for group 'O'
 Memory treshold are: 10.00000Mb (basic treshold)  100.0000Mb (SAVEs treshold)

         TOTAL not deallocated :  703.0000Kb

         Max memory used   :  15.55000Mb

 [09] Game Over & Game summary
 =============================

 11/04/2019 at 16:35 YAMBO @ dufour [start]
 11/04/2019 at 16:36                [end]

 Timing   [Min/Max/Average]: 54s/54s/54s
             [Time-Profile]: 54s

 .-ACKNOWLEDGMENT
 |
 | The users of YAMBO have little formal obligations with respect to
 | the YAMBO group (those specified in the GNU General Public
 | License, http://www.gnu.org/copyleft/gpl.txt). However, it is
 | common practice in the scientific literature, to acknowledge the
 | efforts of people that have made the research possible. In this
 | spirit, please find below the reference we kindly ask you to use
 | in order to acknowledge YAMBO:
 |
 | Yambo: An ab initio tool for excited state calculations
 | A. Marini, C. Hogan, M. Gr\"uning, D. Varsano
 | Computer Physics Communications  180, 1392 (2009).
 |
  
 .-Input file : References/02_QP_PPA_02_QP_PPA.in
 | em1d                           # [R Xd] Dynamical Inverse Dielectric Matrix
 | ppa                            # [R Xp] Plasmon Pole Approximation
 | HF_and_locXC                   # [R XX] Hartree-Fock Self-energy and Vxc
 | gw0                            # [R GW] GoWo Quasiparticle energy levels
 | BoseTemp= 0.000000     eV      # Bosonic Temperature
 | FFTGvecs= 1139         RL      # [FFT] Plane-waves
 | X_Threads= 1                   # [OPENMP/X] Number of threads for response functions
 | DIP_Threads= 1                 # [OPENMP/X] Number of threads for dipoles
 | SE_Threads= 1                  # [OPENMP/GW] Number of threads for self-energy
 | EXXRLvcs= 1139         RL      # [XX] Exchange    RL components
 | VXCRLvcs= 1139         RL      # [XC] XCpotential RL components
 | Chimod= "HARTREE"              # [X] IP/Hartree/ALDA/LRC/PF/BSfxc
 | % BndsRnXp
 |   1 | 20 |                     # [Xp] Polarization function bands
 | %
 | NGsBlkXp= 15           RL      # [Xp] Response block size
 | % LongDrXp
 | 0.1000E-4 | 0.000    | 0.000    |        # [Xp] [cc] Electric Field
 | %
 | PPAPntXp= 27.21138     eV      # [Xp] PPA imaginary energy
 | % GbndRnge
 |    1 |  50 |                   # [GW] G[W] bands range
 | %
 | GDamping=  0.10000     eV      # [GW] G[W] damping
 | dScStep=  0.10000      eV      # [GW] Energy step to evaluate Z factors
 | DysSolver= "n"                 # [GW] Dyson Equation solver ("n","s","g")
 | ExtendOut                      # [GW] Print all variables in the output file
 | %QPkrange                      # # [GW] QP generalized Kpoint/Band indices
 | 1|10|3|6|
 | %
 | %QPerange                      # # [GW] QP generalized Kpoint/Energy indices
 | 1|10| 0.000000|-1.000000|
 | %
