%------------------------------------------------------------------------------
% File     : Bliksem---1.12
% Problem  : GRP641+1 : TPTP v8.1.0. Released v3.4.0.
% Transfm  : none
% Format   : tptp:raw
% Command  : bliksem %s

% Computer : n026.cluster.edu
% Model    : x86_64 x86_64
% CPU      : Intel(R) Xeon(R) CPU E5-2620 v4 2.10GHz
% Memory   : 8042.1875MB
% OS       : Linux 3.10.0-693.el7.x86_64
% CPULimit : 300s
% WCLimit  : 0s
% DateTime : Sat Jul 16 07:38:10 EDT 2022

% Result   : Timeout 300.09s 300.44s
% Output   : None 
% Verified : 
% SZS Type : -

% Comments : 
%------------------------------------------------------------------------------
%----No solution output by system
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.03/0.12  % Problem  : GRP641+1 : TPTP v8.1.0. Released v3.4.0.
% 0.03/0.13  % Command  : bliksem %s
% 0.13/0.34  % Computer : n026.cluster.edu
% 0.13/0.34  % Model    : x86_64 x86_64
% 0.13/0.34  % CPU      : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 0.13/0.34  % Memory   : 8042.1875MB
% 0.13/0.34  % OS       : Linux 3.10.0-693.el7.x86_64
% 0.13/0.34  % CPULimit : 300
% 0.13/0.34  % DateTime : Mon Jun 13 13:39:36 EDT 2022
% 0.13/0.35  % CPUTime  : 
% 0.78/1.14  *** allocated 10000 integers for termspace/termends
% 0.78/1.14  *** allocated 10000 integers for clauses
% 0.78/1.14  *** allocated 10000 integers for justifications
% 0.78/1.14  Bliksem 1.12
% 0.78/1.14  
% 0.78/1.14  
% 0.78/1.14  Automatic Strategy Selection
% 0.78/1.14  
% 0.78/1.14  
% 0.78/1.14  Clauses:
% 0.78/1.14  
% 0.78/1.14  { ! v3_struct_0( skol1 ) }.
% 0.78/1.14  { v3_group_1( skol1 ) }.
% 0.78/1.14  { v4_group_1( skol1 ) }.
% 0.78/1.14  { l1_group_1( skol1 ) }.
% 0.78/1.14  { v1_group_1( skol17 ) }.
% 0.78/1.14  { m1_group_2( skol17, skol1 ) }.
% 0.78/1.14  { ! r2_hidden( k2_group_1( skol1 ), k1_funct_1( k1_latsubgr( skol1 ), 
% 0.78/1.14    skol17 ) ) }.
% 0.78/1.14  { ! l1_group_1( X ), ! v1_group_1( X ), X = g1_group_1( u1_struct_0( X ), 
% 0.78/1.14    u1_group_1( X ) ) }.
% 0.78/1.14  { ! r2_hidden( X, Y ), ! r2_hidden( Y, X ) }.
% 0.78/1.14  { ! m1_relset_1( Z, X, Y ), ! v1_funct_1( Z ), ! v1_partfun1( Z, X, Y ), 
% 0.78/1.14    v1_funct_1( Z ) }.
% 0.78/1.14  { ! m1_relset_1( Z, X, Y ), ! v1_funct_1( Z ), ! v1_partfun1( Z, X, Y ), 
% 0.78/1.14    v1_funct_2( Z, X, Y ) }.
% 0.78/1.14  { ! m1_subset_1( X, k1_zfmisc_1( k2_zfmisc_1( Y, Z ) ) ), v1_relat_1( X ) }
% 0.78/1.14    .
% 0.78/1.14  { v1_xboole_0( X ), ! m1_relset_1( Z, Y, X ), ! v1_funct_1( Z ), ! 
% 0.78/1.14    v1_funct_2( Z, Y, X ), v1_funct_1( Z ) }.
% 0.78/1.14  { v1_xboole_0( X ), ! m1_relset_1( Z, Y, X ), ! v1_funct_1( Z ), ! 
% 0.78/1.14    v1_funct_2( Z, Y, X ), v1_partfun1( Z, Y, X ) }.
% 0.78/1.14  { v1_xboole_0( X ), ! m1_relset_1( Z, Y, X ), ! v1_funct_1( Z ), ! 
% 0.78/1.14    v1_funct_2( Z, Y, X ), v1_funct_2( Z, Y, X ) }.
% 0.78/1.14  { v1_xboole_0( X ), v1_xboole_0( Y ), ! m1_relset_1( Z, X, Y ), ! 
% 0.78/1.14    v1_funct_1( Z ), ! v1_funct_2( Z, X, Y ), alpha2( Z ) }.
% 0.78/1.14  { v1_xboole_0( X ), v1_xboole_0( Y ), ! m1_relset_1( Z, X, Y ), ! 
% 0.78/1.14    v1_funct_1( Z ), ! v1_funct_2( Z, X, Y ), v1_partfun1( Z, X, Y ) }.
% 0.78/1.14  { v1_xboole_0( X ), v1_xboole_0( Y ), ! m1_relset_1( Z, X, Y ), ! 
% 0.78/1.14    v1_funct_1( Z ), ! v1_funct_2( Z, X, Y ), v1_funct_2( Z, X, Y ) }.
% 0.78/1.14  { ! alpha2( X ), v1_funct_1( X ) }.
% 0.78/1.14  { ! alpha2( X ), ! v1_xboole_0( X ) }.
% 0.78/1.14  { ! v1_funct_1( X ), v1_xboole_0( X ), alpha2( X ) }.
% 0.78/1.14  { v3_struct_0( X ), ! v3_group_1( X ), ! v4_group_1( X ), ! l1_group_1( X )
% 0.78/1.14    , ! v1_funct_1( Y ), ! v1_funct_2( Y, k1_group_3( X ), k1_zfmisc_1( 
% 0.78/1.14    u1_struct_0( X ) ) ), ! m2_relset_1( Y, k1_group_3( X ), k1_zfmisc_1( 
% 0.78/1.14    u1_struct_0( X ) ) ), ! Y = k1_latsubgr( X ), ! alpha1( X, Z ), 
% 0.78/1.14    k1_funct_1( Y, Z ) = u1_struct_0( Z ) }.
% 0.78/1.14  { v3_struct_0( X ), ! v3_group_1( X ), ! v4_group_1( X ), ! l1_group_1( X )
% 0.78/1.14    , ! v1_funct_1( Y ), ! v1_funct_2( Y, k1_group_3( X ), k1_zfmisc_1( 
% 0.78/1.14    u1_struct_0( X ) ) ), ! m2_relset_1( Y, k1_group_3( X ), k1_zfmisc_1( 
% 0.78/1.14    u1_struct_0( X ) ) ), ! k1_funct_1( Y, skol2( Z, Y ) ) = u1_struct_0( 
% 0.78/1.14    skol2( Z, Y ) ), Y = k1_latsubgr( X ) }.
% 0.78/1.14  { v3_struct_0( X ), ! v3_group_1( X ), ! v4_group_1( X ), ! l1_group_1( X )
% 0.78/1.14    , ! v1_funct_1( Y ), ! v1_funct_2( Y, k1_group_3( X ), k1_zfmisc_1( 
% 0.78/1.14    u1_struct_0( X ) ) ), ! m2_relset_1( Y, k1_group_3( X ), k1_zfmisc_1( 
% 0.78/1.14    u1_struct_0( X ) ) ), alpha1( X, skol2( X, Y ) ), Y = k1_latsubgr( X ) }
% 0.78/1.14    .
% 0.78/1.14  { ! alpha1( X, Y ), v1_group_1( Y ) }.
% 0.78/1.14  { ! alpha1( X, Y ), m1_group_2( Y, X ) }.
% 0.78/1.14  { ! v1_group_1( Y ), ! m1_group_2( Y, X ), alpha1( X, Y ) }.
% 0.78/1.14  { ! v1_funct_1( Y ), ! v1_funct_2( Y, k2_zfmisc_1( X, X ), X ), ! 
% 0.78/1.14    m1_relset_1( Y, k2_zfmisc_1( X, X ), X ), v1_group_1( g1_group_1( X, Y )
% 0.78/1.14     ) }.
% 0.78/1.14  { ! v1_funct_1( Y ), ! v1_funct_2( Y, k2_zfmisc_1( X, X ), X ), ! 
% 0.78/1.14    m1_relset_1( Y, k2_zfmisc_1( X, X ), X ), l1_group_1( g1_group_1( X, Y )
% 0.78/1.14     ) }.
% 0.78/1.14  { && }.
% 0.78/1.14  { && }.
% 0.78/1.14  { v3_struct_0( X ), ! v3_group_1( X ), ! v4_group_1( X ), ! l1_group_1( X )
% 0.78/1.14    , v1_funct_1( k1_latsubgr( X ) ) }.
% 0.78/1.14  { v3_struct_0( X ), ! v3_group_1( X ), ! v4_group_1( X ), ! l1_group_1( X )
% 0.78/1.14    , v1_funct_2( k1_latsubgr( X ), k1_group_3( X ), k1_zfmisc_1( u1_struct_0
% 0.78/1.14    ( X ) ) ) }.
% 0.78/1.14  { v3_struct_0( X ), ! v3_group_1( X ), ! v4_group_1( X ), ! l1_group_1( X )
% 0.78/1.14    , m2_relset_1( k1_latsubgr( X ), k1_group_3( X ), k1_zfmisc_1( 
% 0.78/1.14    u1_struct_0( X ) ) ) }.
% 0.78/1.14  { && }.
% 0.78/1.14  { && }.
% 0.78/1.14  { v3_struct_0( X ), ! l1_group_1( X ), m1_subset_1( k2_group_1( X ), 
% 0.78/1.14    u1_struct_0( X ) ) }.
% 0.78/1.14  { && }.
% 0.78/1.14  { ! l1_group_1( X ), l1_struct_0( X ) }.
% 0.78/1.14  { && }.
% 0.78/1.14  { v3_struct_0( X ), ! v3_group_1( X ), ! l1_group_1( X ), ! m1_group_2( Y, 
% 0.78/1.14    X ), ! v3_struct_0( Y ) }.
% 0.78/1.14  { v3_struct_0( X ), ! v3_group_1( X ), ! l1_group_1( X ), ! m1_group_2( Y, 
% 0.78/1.14    X ), v3_group_1( Y ) }.
% 0.78/1.14  { v3_struct_0( X ), ! v3_group_1( X ), ! l1_group_1( X ), ! m1_group_2( Y, 
% 0.78/1.14    X ), l1_group_1( Y ) }.
% 0.78/1.14  { && }.
% 10.61/11.03  { && }.
% 10.61/11.03  { ! m2_relset_1( Z, X, Y ), m1_subset_1( Z, k1_zfmisc_1( k2_zfmisc_1( X, Y
% 10.61/11.03     ) ) ) }.
% 10.61/11.03  { ! l1_group_1( X ), v1_funct_1( u1_group_1( X ) ) }.
% 10.61/11.03  { ! l1_group_1( X ), v1_funct_2( u1_group_1( X ), k2_zfmisc_1( u1_struct_0
% 10.61/11.03    ( X ), u1_struct_0( X ) ), u1_struct_0( X ) ) }.
% 10.61/11.03  { ! l1_group_1( X ), m2_relset_1( u1_group_1( X ), k2_zfmisc_1( u1_struct_0
% 10.61/11.03    ( X ), u1_struct_0( X ) ), u1_struct_0( X ) ) }.
% 10.61/11.03  { && }.
% 10.61/11.03  { l1_group_1( skol3 ) }.
% 10.61/11.03  { l1_struct_0( skol4 ) }.
% 10.61/11.03  { v3_struct_0( X ), ! v3_group_1( X ), ! l1_group_1( X ), m1_group_2( skol5
% 10.61/11.03    ( X ), X ) }.
% 10.61/11.03  { m1_relset_1( skol6( X, Y ), X, Y ) }.
% 10.61/11.03  { m1_subset_1( skol7( X ), X ) }.
% 10.61/11.03  { m2_relset_1( skol8( X, Y ), X, Y ) }.
% 10.61/11.03  { v3_struct_0( X ), ! v3_group_1( X ), ! v4_group_1( X ), ! l1_group_1( X )
% 10.61/11.03    , ! v1_xboole_0( k1_group_3( X ) ) }.
% 10.61/11.03  { v3_struct_0( X ), ! l1_struct_0( X ), ! v1_xboole_0( u1_struct_0( X ) ) }
% 10.61/11.03    .
% 10.61/11.03  { ! v1_xboole_0( k1_zfmisc_1( X ) ) }.
% 10.61/11.03  { v1_xboole_0( k1_xboole_0 ) }.
% 10.61/11.03  { v1_xboole_0( X ), v1_xboole_0( Y ), ! v1_xboole_0( k2_zfmisc_1( X, Y ) )
% 10.61/11.03     }.
% 10.61/11.03  { ! v1_funct_1( Y ), ! v1_funct_2( Y, k2_zfmisc_1( X, X ), X ), ! 
% 10.61/11.03    m1_relset_1( Y, k2_zfmisc_1( X, X ), X ), ! g1_group_1( X, Y ) = 
% 10.61/11.03    g1_group_1( Z, T ), X = Z }.
% 10.61/11.03  { ! v1_funct_1( Y ), ! v1_funct_2( Y, k2_zfmisc_1( X, X ), X ), ! 
% 10.61/11.03    m1_relset_1( Y, k2_zfmisc_1( X, X ), X ), ! g1_group_1( X, Y ) = 
% 10.61/11.03    g1_group_1( Z, T ), Y = T }.
% 10.61/11.03  { v1_relat_1( skol9( Z, T ) ) }.
% 10.61/11.03  { v1_funct_1( skol9( Z, T ) ) }.
% 10.61/11.03  { m1_relset_1( skol9( X, Y ), X, Y ) }.
% 10.61/11.03  { v1_funct_2( skol9( X, Y ), X, Y ) }.
% 10.61/11.03  { v1_xboole_0( X ), ! v1_xboole_0( skol10( Y ) ) }.
% 10.61/11.03  { v1_xboole_0( X ), m1_subset_1( skol10( X ), k1_zfmisc_1( X ) ) }.
% 10.61/11.03  { v1_xboole_0( skol11 ) }.
% 10.61/11.03  { v1_relat_1( skol12( Z, T ) ) }.
% 10.61/11.03  { v1_funct_1( skol12( Z, T ) ) }.
% 10.61/11.03  { m1_relset_1( skol12( X, Y ), X, Y ) }.
% 10.61/11.03  { v1_xboole_0( skol13( Y ) ) }.
% 10.61/11.03  { m1_subset_1( skol13( X ), k1_zfmisc_1( X ) ) }.
% 10.61/11.03  { ! v1_xboole_0( skol14 ) }.
% 10.61/11.03  { l1_struct_0( skol15 ) }.
% 10.61/11.03  { ! v3_struct_0( skol15 ) }.
% 10.61/11.03  { v3_struct_0( X ), ! l1_struct_0( X ), ! v1_xboole_0( skol16( Y ) ) }.
% 10.61/11.03  { v3_struct_0( X ), ! l1_struct_0( X ), m1_subset_1( skol16( X ), 
% 10.61/11.03    k1_zfmisc_1( u1_struct_0( X ) ) ) }.
% 10.61/11.03  { ! m2_relset_1( Z, X, Y ), m1_relset_1( Z, X, Y ) }.
% 10.61/11.03  { ! m1_relset_1( Z, X, Y ), m2_relset_1( Z, X, Y ) }.
% 10.61/11.03  { r1_tarski( X, X ) }.
% 10.61/11.03  { ! r2_hidden( X, Y ), m1_subset_1( X, Y ) }.
% 10.61/11.03  { ! m1_subset_1( X, Y ), v1_xboole_0( Y ), r2_hidden( X, Y ) }.
% 10.61/11.03  { ! m1_subset_1( X, k1_zfmisc_1( Y ) ), r1_tarski( X, Y ) }.
% 10.61/11.03  { ! r1_tarski( X, Y ), m1_subset_1( X, k1_zfmisc_1( Y ) ) }.
% 10.61/11.03  { ! r2_hidden( X, Z ), ! m1_subset_1( Z, k1_zfmisc_1( Y ) ), m1_subset_1( X
% 10.61/11.03    , Y ) }.
% 10.61/11.03  { v3_struct_0( X ), ! v3_group_1( X ), ! v4_group_1( X ), ! l1_group_1( X )
% 10.61/11.03    , ! m1_group_2( Y, X ), k2_group_1( Y ) = k2_group_1( X ) }.
% 10.61/11.03  { ! r2_hidden( X, Y ), ! m1_subset_1( Y, k1_zfmisc_1( Z ) ), ! v1_xboole_0
% 10.61/11.03    ( Z ) }.
% 10.61/11.03  { ! v1_xboole_0( X ), X = k1_xboole_0 }.
% 10.61/11.03  { ! r2_hidden( X, Y ), ! v1_xboole_0( Y ) }.
% 10.61/11.03  { ! v1_xboole_0( X ), X = Y, ! v1_xboole_0( Y ) }.
% 10.61/11.03  
% 10.61/11.03  percentage equality = 0.061611, percentage horn = 0.775000
% 10.61/11.03  This is a problem with some equality
% 10.61/11.03  
% 10.61/11.03  
% 10.61/11.03  
% 10.61/11.03  Options Used:
% 10.61/11.03  
% 10.61/11.03  useres =            1
% 10.61/11.03  useparamod =        1
% 10.61/11.03  useeqrefl =         1
% 10.61/11.03  useeqfact =         1
% 10.61/11.03  usefactor =         1
% 10.61/11.03  usesimpsplitting =  0
% 10.61/11.03  usesimpdemod =      5
% 10.61/11.03  usesimpres =        3
% 10.61/11.03  
% 10.61/11.03  resimpinuse      =  1000
% 10.61/11.03  resimpclauses =     20000
% 10.61/11.03  substype =          eqrewr
% 10.61/11.03  backwardsubs =      1
% 10.61/11.03  selectoldest =      5
% 10.61/11.03  
% 10.61/11.03  litorderings [0] =  split
% 10.61/11.03  litorderings [1] =  extend the termordering, first sorting on arguments
% 10.61/11.03  
% 10.61/11.03  termordering =      kbo
% 10.61/11.03  
% 10.61/11.03  litapriori =        0
% 10.61/11.03  termapriori =       1
% 10.61/11.03  litaposteriori =    0
% 10.61/11.03  termaposteriori =   0
% 10.61/11.03  demodaposteriori =  0
% 10.61/11.03  ordereqreflfact =   0
% 10.61/11.03  
% 10.61/11.03  litselect =         negord
% 10.61/11.03  
% 10.61/11.03  maxweight =         15
% 10.61/11.03  maxdepth =          30000
% 10.61/11.03  maxlength =         115
% 10.61/11.03  maxnrvars =         195
% 10.61/11.03  excuselevel =       1
% 10.61/11.03  increasemaxweight = 1
% 10.61/11.03  
% 10.61/11.03  maxselected =       10000000
% 10.61/11.03  maxnrclauses =      10000000
% 10.61/11.03  
% 10.61/11.03  showgenerated =    0
% 10.61/11.03  showkept =         0
% 10.61/11.03  showselected =     0
% 10.61/11.03  showdeleted =      0
% 10.61/11.03  showresimp =       1
% 10.61/11.03  showstatus =       2000
% 10.61/11.03  
% 10.61/11.03  prologoutput =     0
% 10.61/11.03  nrgoals =          5000000
% 10.61/11.03  totalproof =       1
% 10.61/11.03  
% 10.61/11.03  Symbols occurring in the translation:
% 10.61/11.03  
% 10.61/11.03  {}  [0, 0]      (w:1, o:2, a:1, s:1, b:0), 
% 10.61/11.03  .  [Cputime limit exceeded (core dumped)
%------------------------------------------------------------------------------