sfBSE/output/H2/SF-TDDFT/b3lyp/h2_1.20.log

Running Job 1 of 1 h2_1.20.inp
qchem h2_1.20.inp_42614.0 /mnt/beegfs/tmpdir/qchem42614/ 0
/share/apps/common/q-chem/5.2.1/exe/qcprog.exe_s h2_1.20.inp_42614.0 /mnt/beegfs/tmpdir/qchem42614/
                  Welcome to Q-Chem
     A Quantum Leap Into The Future Of Chemistry


 Q-Chem 5.2, Q-Chem, Inc., Pleasanton, CA (2019)

 Yihan Shao,  Zhengting Gan,  E. Epifanovsky,  A. T. B. Gilbert,  M. Wormit,  
 J. Kussmann,  A. W. Lange,  A. Behn,  Jia Deng,  Xintian Feng,  D. Ghosh,  
 M. Goldey,  P. R. Horn,  L. D. Jacobson,  I. Kaliman,  T. Kus,  A. Landau,  
 Jie Liu,  E. I. Proynov,  R. M. Richard,  R. P. Steele,  E. J. Sundstrom,  
 H. L. Woodcock III,  P. M. Zimmerman,  D. Zuev,  B. Albrecht,  E. Alguire,  
 S. A. Baeppler,  D. Barton,  Z. Benda,  Y. A. Bernard,  E. J. Berquist,  
 K. B. Bravaya,  H. Burton,  D. Casanova,  Chun-Min Chang,  Yunqing Chen,  
 A. Chien,  K. D. Closser,  M. P. Coons,  S. Coriani,  S. Dasgupta,  
 A. L. Dempwolff,  M. Diedenhofen,  Hainam Do,  R. G. Edgar,  Po-Tung Fang,  
 S. Faraji,  S. Fatehi,  Qingguo Feng,  K. D. Fenk,  J. Fosso-Tande,  
 J. Gayvert,  Qinghui Ge,  A. Ghysels,  G. Gidofalvi,  J. Gomes,  
 J. Gonthier,  A. Gunina,  D. Hait,  M. W. D. Hanson-Heine,  
 P. H. P. Harbach,  A. W. Hauser,  M. F. Herbst,  J. E. Herr,  
 E. G. Hohenstein,  Z. C. Holden,  Kerwin Hui,  B. C. Huynh,  T.-C. Jagau,  
 Hyunjun Ji,  B. Kaduk,  K. Khistyaev,  Jaehoon Kim,  P. Klunzinger,  K. Koh,  
 D. Kosenkov,  L. Koulias,  T. Kowalczyk,  C. M. Krauter,  A. Kunitsa,  
 Ka Un Lao,  A. Laurent,  K. V. Lawler,  Joonho Lee,  D. Lefrancois,  
 S. Lehtola,  D. S. Levine,  Yi-Pei Li,  You-Sheng Lin,  Fenglai Liu,  
 E. Livshits,  A. Luenser,  P. Manohar,  E. Mansoor,  S. F. Manzer,  
 Shan-Ping Mao,  Yuezhi Mao,  N. Mardirossian,  A. V. Marenich,  
 T. Markovich,  L. A. Martinez-Martinez,  S. A. Maurer,  N. J. Mayhall,  
 S. C. McKenzie,  J.-M. Mewes,  P. Morgante,  A. F. Morrison,  
 J. W. Mullinax,  K. Nanda,  T. S. Nguyen-Beck,  R. Olivares-Amaya,  
 J. A. Parkhill,  Zheng Pei,  T. M. Perrine,  F. Plasser,  P. Pokhilko,  
 S. Prager,  A. Prociuk,  E. Ramos,  D. R. Rehn,  F. Rob,  M. Scheurer,  
 M. Schneider,  N. Sergueev,  S. M. Sharada,  S. Sharma,  D. W. Small,  
 T. Stauch,  T. Stein,  Yu-Chuan Su,  A. J. W. Thom,  A. Tkatchenko,  
 T. Tsuchimochi,  N. M. Tubman,  L. Vogt,  M. L. Vidal,  O. Vydrov,  
 M. A. Watson,  J. Wenzel,  M. de Wergifosse,  T. A. Wesolowski,  A. White,  
 J. Witte,  A. Yamada,  Jun Yang,  K. Yao,  S. Yeganeh,  S. R. Yost,  
 Zhi-Qiang You,  A. Zech,  Igor Ying Zhang,  Xing Zhang,  Yan Zhao,  
 Ying Zhu,  B. R. Brooks,  G. K. L. Chan,  C. J. Cramer,  M. S. Gordon,  
 W. J. Hehre,  A. Klamt,  M. W. Schmidt,  C. D. Sherrill,  D. G. Truhlar,  
 A. Aspuru-Guzik,  R. Baer,  A. T. Bell,  N. A. Besley,  Jeng-Da Chai,  
 A. E. DePrince, III,  R. A. DiStasio Jr.,  A. Dreuw,  B. D. Dunietz,  
 T. R. Furlani,  Chao-Ping Hsu,  Yousung Jung,  Jing Kong,  D. S. Lambrecht,  
 WanZhen Liang,  C. Ochsenfeld,  V. A. Rassolov,  L. V. Slipchenko,  
 J. E. Subotnik,  T. Van Voorhis,  J. M. Herbert,  A. I. Krylov,  
 P. M. W. Gill,  M. Head-Gordon

 Contributors to earlier versions of Q-Chem not listed above: 
 R. D. Adamson,  B. Austin,  J. Baker,  G. J. O. Beran,  K. Brandhorst,  
 S. T. Brown,  E. F. C. Byrd,  A. K. Chakraborty,  C.-L. Cheng,  
 Siu Hung Chien,  D. M. Chipman,  D. L. Crittenden,  H. Dachsel,  
 R. J. Doerksen,  A. D. Dutoi,  L. Fusti-Molnar,  W. A. Goddard III,  
 A. Golubeva-Zadorozhnaya,  S. R. Gwaltney,  G. Hawkins,  A. Heyden,  
 S. Hirata,  G. Kedziora,  F. J. Keil,  C. Kelley,  Jihan Kim,  R. A. King,  
 R. Z. Khaliullin,  P. P. Korambath,  W. Kurlancheek,  A. M. Lee,  M. S. Lee,  
 S. V. Levchenko,  Ching Yeh Lin,  D. Liotard,  R. C. Lochan,  I. Lotan,  
 P. E. Maslen,  N. Nair,  D. P. O'Neill,  D. Neuhauser,  E. Neuscamman,  
 C. M. Oana,  R. Olson,  B. Peters,  R. Peverati,  P. A. Pieniazek,  
 Y. M. Rhee,  J. Ritchie,  M. A. Rohrdanz,  E. Rosta,  N. J. Russ,  
 H. F. Schaefer III,  N. E. Schultz,  N. Shenvi,  A. C. Simmonett,  A. Sodt,  
 D. Stuck,  K. S. Thanthiriwatte,  V. Vanovschi,  Tao Wang,  A. Warshel,  
 C. F. Williams,  Q. Wu,  X. Xu,  W. Zhang

 Please cite Q-Chem as follows:
 Y. Shao et al., Mol. Phys. 113, 184-215 (2015)
 DOI: 10.1080/00268976.2014.952696

 Q-Chem 5.2.1 for Intel X86 EM64T Linux

 Parts of Q-Chem use Armadillo 8.300.2 (Tropical Shenanigans).
 http://arma.sourceforge.net/

 Q-Chem begins on Fri Jan 22 16:14:56 2021  

Host: 
0

     Scratch files written to /mnt/beegfs/tmpdir/qchem42614//
 Jul1719 |scratch|qcdevops|jenkins|workspace|build_RNUM 6358   
Processing $rem in /share/apps/common/q-chem/5.2.1/config/preferences:
	 MEM_TOTAL  5000 
NAlpha2: 4
NElect   2
Mult     3

Checking the input file for inconsistencies... 	...done.

--------------------------------------------------------------
User input:
--------------------------------------------------------------
$comment
SF-TDDFT
$end

$molecule
0 3
H 0 0 0
H 0 0 1.20
$end

$rem
JOBTYPE = sp
METHOD = B3LYP
BASIS = CC-PVQZ
PURECART = 2222
SCF_CONVERGENCE = 9
THRESH = 12
MAX_SCF_CYCLES = 100
MAX_CIS_CYCLES = 100
SPIN_FLIP = TRUE
UNRESTRICTED = TRUE
CIS_N_ROOTS = 20
RPA = FALSE
$end
--------------------------------------------------------------
 ----------------------------------------------------------------
             Standard Nuclear Orientation (Angstroms)
    I     Atom           X                Y                Z
 ----------------------------------------------------------------
    1      H       0.0000000000     0.0000000000    -0.6000000000
    2      H       0.0000000000     0.0000000000     0.6000000000
 ----------------------------------------------------------------
 Molecular Point Group                 D*h   NOp =***
 Largest Abelian Subgroup              D2h   NOp =  1
 Nuclear Repulsion Energy =           0.44098101 hartrees
 There are        2 alpha and        0 beta electrons

 Q-Chem warning in module forms1/BasisType.C, line 1983:

 You are not using the predefined 5D/6D in this basis set.

 Requested basis set is cc-pVQZ
 There are 20 shells and 70 basis functions

 Total QAlloc Memory Limit   5000 MB
 Mega-Array Size       188 MB
 MEM_STATIC part       192 MB

                       Distance Matrix (Angstroms)
             H (  1)
   H (  2)  1.200000
 
 A cutoff of  1.0D-12 yielded    210 shell pairs
 There are      2653 function pairs
 Smallest overlap matrix eigenvalue = 4.20E-04

 Scale SEOQF with 1.000000e+00/1.000000e+00/1.000000e+00

 Standard Electronic Orientation quadrupole field applied
 Nucleus-field energy     =    -0.0000000008 hartrees
 Guess from superposition of atomic densities
 Warning:  Energy on first SCF cycle will be non-variational
 SAD guess density has 0.090382 electrons

 -----------------------------------------------------------------------
  General SCF calculation program by
  Eric Jon Sundstrom, Paul Horn, Yuezhi Mao, Dmitri Zuev, Alec White,
  David Stuck, Shaama M.S., Shane Yost, Joonho Lee, David Small,
  Daniel Levine, Susi Lehtola, Hugh Burton, Evgeny Epifanovsky,
  Bang C. Huynh
 -----------------------------------------------------------------------
 Exchange:     0.2000 Hartree-Fock + 0.0800 Slater + 0.7200 B88
 Correlation:  0.1900 VWN1RPA + 0.8100 LYP
 Using SG-1 standard quadrature grid
 A unrestricted SCF calculation will be
 performed using DIIS
 SCF converges when DIIS error is below 1.0e-09
 ---------------------------------------
  Cycle       Energy         DIIS error
 ---------------------------------------
    1       0.3438173276      9.42e-04  
    2      -0.8815411005      3.54e-03  
    3      -0.8806740516      3.59e-03  
    4      -0.9157998335      1.69e-03  
    5      -0.9299194490      1.11e-04  
    6      -0.9299938796      1.74e-06  
    7      -0.9299939028      1.24e-07  
    8      -0.9299939028      2.42e-08  
    9      -0.9299939028      1.10e-09  
   10      -0.9299939028      9.94e-11  Convergence criterion met
 ---------------------------------------
 SCF time:   CPU 1.52s  wall 1.00s 
<S^2> =          2.000000000
 SCF   energy in the final basis set =       -0.9299939028
 Total energy in the final basis set =       -0.9299939028
 
 Spin-flip DFT calculation will be performed
 CIS energy converged when residual is below 10e- 6
 ---------------------------------------------------
 Iter    Rts Conv    Rts Left    Ttl Dev     Max Dev
 ---------------------------------------------------
   1         0          20      0.023645    0.001904
   2         0          20      0.000365    0.000051
   3        20           0      0.000004    0.000001    Roots Converged
 ---------------------------------------------------
 
 ---------------------------------------------------
            SF-DFT Excitation Energies              
 (The first "excited" state might be the ground state) 
 ---------------------------------------------------

 Excited state   1: excitation energy (eV) =    1.8243
 Total energy for state  1:                    -0.86295037 au
    <S**2>     :  0.0812
    S(  2) --> S(  1) amplitude =  0.9969 alpha

 Excited state   2: excitation energy (eV) =    7.1319
 Total energy for state  2:                    -0.66790056 au
    <S**2>     :  1.3345
    S(  1) --> S(  1) amplitude =  0.1975 alpha
    S(  2) --> S(  2) amplitude =  0.9761 alpha

 Excited state   3: excitation energy (eV) =    9.5176
 Total energy for state  3:                    -0.58022946 au
    <S**2>     :  0.7531
    S(  1) --> S(  1) amplitude =  0.9714 alpha
    S(  2) --> S(  2) amplitude = -0.2052 alpha

 Excited state   4: excitation energy (eV) =   10.8179
 Total energy for state  4:                    -0.53244461 au
    <S**2>     :  0.9287
    S(  2) --> V(  1) amplitude =  0.9969 alpha

 Excited state   5: excitation energy (eV) =   15.0061
 Total energy for state  5:                    -0.37853149 au
    <S**2>     :  0.9416
    S(  2) --> V(  2) amplitude =  0.9878 alpha

 Excited state   6: excitation energy (eV) =   15.2169
 Total energy for state  6:                    -0.37078324 au
    <S**2>     :  0.2207
    S(  1) --> S(  2) amplitude =  0.9941 alpha

 Excited state   7: excitation energy (eV) =   15.4339
 Total energy for state  7:                    -0.36280983 au
    <S**2>     :  1.0000
    S(  2) --> V(  4) amplitude =  0.9996 alpha

 Excited state   8: excitation energy (eV) =   15.4339
 Total energy for state  8:                    -0.36280983 au
    <S**2>     :  1.0000
    S(  2) --> V(  3) amplitude =  0.9996 alpha

 Excited state   9: excitation energy (eV) =   18.6806
 Total energy for state  9:                    -0.24349504 au
    <S**2>     :  0.9768
    S(  1) --> V(  1) amplitude =  0.9907 alpha

 Excited state  10: excitation energy (eV) =   21.7835
 Total energy for state 10:                    -0.12946621 au
    <S**2>     :  0.9985
    S(  1) --> V(  2) amplitude = -0.1719 alpha
    S(  2) --> V(  5) amplitude =  0.9827 alpha

 Excited state  11: excitation energy (eV) =   22.2098
 Total energy for state 11:                    -0.11379987 au
    <S**2>     :  1.0000
    S(  1) --> V(  4) amplitude = -0.3688 alpha
    S(  2) --> V(  7) amplitude =  0.9294 alpha

 Excited state  12: excitation energy (eV) =   22.2098
 Total energy for state 12:                    -0.11379987 au
    <S**2>     :  1.0000
    S(  1) --> V(  3) amplitude =  0.3688 alpha
    S(  2) --> V(  6) amplitude =  0.9294 alpha

 Excited state  13: excitation energy (eV) =   22.9144
 Total energy for state 13:                    -0.08790633 au
    <S**2>     :  0.7924
    S(  1) --> V(  2) amplitude =  0.9792 alpha
    S(  2) --> V(  5) amplitude =  0.1763 alpha

 Excited state  14: excitation energy (eV) =   23.3513
 Total energy for state 14:                    -0.07184941 au
    <S**2>     :  1.0000
    S(  1) --> V(  4) amplitude =  0.9293 alpha
    S(  2) --> V(  7) amplitude =  0.3689 alpha

 Excited state  15: excitation energy (eV) =   23.3513
 Total energy for state 15:                    -0.07184941 au
    <S**2>     :  1.0000
    S(  1) --> V(  3) amplitude =  0.9293 alpha
    S(  2) --> V(  6) amplitude = -0.3689 alpha

 Excited state  16: excitation energy (eV) =   29.6596
 Total energy for state 16:                     0.15997730 au
    <S**2>     :  0.9981
    S(  1) --> V(  5) amplitude =  0.9588 alpha
    S(  2) --> V(  8) amplitude = -0.2820 alpha

 Excited state  17: excitation energy (eV) =   30.3029
 Total energy for state 17:                     0.18361752 au
    <S**2>     :  1.0000
    S(  1) --> V(  7) amplitude =  0.9995 alpha

 Excited state  18: excitation energy (eV) =   30.3029
 Total energy for state 18:                     0.18361752 au
    <S**2>     :  1.0000
    S(  1) --> V(  6) amplitude =  0.9995 alpha

 Excited state  19: excitation energy (eV) =   31.0896
 Total energy for state 19:                     0.21252730 au
    <S**2>     :  1.0001
    S(  1) --> V(  5) amplitude =  0.2820 alpha
    S(  2) --> V(  8) amplitude =  0.9589 alpha

 Excited state  20: excitation energy (eV) =   34.1281
 Total energy for state 20:                     0.32419205 au
    <S**2>     :  0.9911
    S(  2) --> V(  9) amplitude =  0.9982 alpha
 
 ---------------------------------------------------
  SETman timing summary (seconds)
  CPU time                 0.81s
  System time              0.00s
  Wall time                1.30s
 
 --------------------------------------------------------------
 
                    Orbital Energies (a.u.)
 --------------------------------------------------------------
 
 Alpha MOs
 -- Occupied --
 -0.4781  -0.1833
 -- Virtual --
  0.1209   0.1989   0.2565   0.2565   0.4691   0.5103   0.5103   0.8158
  0.9139   1.0186   1.4491   1.4491   1.5186   1.6474   1.6474   1.7611
  1.7611   1.8641   1.8641   2.0600   2.0600   2.1415   2.5935   2.7117
  2.7117   2.7780   2.8245   3.8705   4.0531   4.0924   4.0924   4.2501
  4.2501   4.9426   5.2622   5.2622   5.5004   5.5004   5.5784   5.5784
  5.8508   5.8508   6.4125   6.5251   6.5251   7.6584   7.6587   7.8276
  7.8278   7.9535   7.9535   8.0075   8.0075   8.0877   8.0877   8.2199
  8.6416   9.0681   9.1902   9.2211   9.2211   9.2608   9.4014   9.4014
  9.8086  11.1409  22.2453  24.5111
 --------------------------------------------------------------
 
          Ground-State Mulliken Net Atomic Charges

     Atom                 Charge (a.u.)    Spin (a.u.)
  --------------------------------------------------------
      1 H                     0.000000       1.000000
      2 H                    -0.000000       1.000000
  --------------------------------------------------------
  Sum of atomic charges =    -0.000000
  Sum of spin   charges =     2.000000

 -----------------------------------------------------------------
                    Cartesian Multipole Moments
 -----------------------------------------------------------------
    Charge (ESU x 10^10)
                -0.0000
    Dipole Moment (Debye)
         X       0.0000      Y      -0.0000      Z      -0.0000
       Tot       0.0000
    Quadrupole Moments (Debye-Ang)
        XX      -2.6645     XY      -0.0000     YY      -2.6645
        XZ       0.0000     YZ      -0.0000     ZZ      -4.7959
    Octopole Moments (Debye-Ang^2)
       XXX       0.0000    XXY       0.0000    XYY       0.0000
       YYY       0.0000    XXZ      -0.0000    XYZ      -0.0000
       YYZ      -0.0000    XZZ       0.0000    YZZ       0.0000
       ZZZ      -0.0000
    Hexadecapole Moments (Debye-Ang^3)
      XXXX      -3.5047   XXXY      -0.0000   XXYY      -1.1682
      XYYY      -0.0000   YYYY      -3.5047   XXXZ       0.0000
      XXYZ      -0.0000   XYYZ       0.0000   YYYZ      -0.0000
      XXZZ      -3.3725   XYZZ      -0.0000   YYZZ      -3.3725
      XZZZ       0.0000   YZZZ      -0.0000   ZZZZ     -17.7528
 -----------------------------------------------------------------
Archival summary:
1\1\lcpq-curie.ups-tlse.fr\SP\ProcedureUnspecified\BasisUnspecified\2(3)\emonino\FriJan2216:15:002021FriJan2216:15:002021\0\\#,ProcedureUnspecified,BasisUnspecified,\\0,3\H\H,1,1.2\\\@

 Total job time:  3.41s(wall), 2.43s(cpu) 
 Fri Jan 22 16:15:00 2021

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