TSTP Solution File: GRP225-1 by Bliksem---1.12

%------------------------------------------------------------------------------
% File     : Bliksem---1.12
% Problem  : GRP225-1 : TPTP v8.1.0. Released v2.5.0.
% 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 07:36:11 EDT 2022

% Result   : Timeout 300.03s 300.39s
% Output   : None 
% Verified : 
% SZS Type : -

% Comments : 
%------------------------------------------------------------------------------
%----No solution output by system
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.04/0.13  % Problem  : GRP225-1 : TPTP v8.1.0. Released v2.5.0.
% 0.04/0.13  % Command  : bliksem %s
% 0.14/0.35  % Computer : n026.cluster.edu
% 0.14/0.35  % Model    : x86_64 x86_64
% 0.14/0.35  % CPU      : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 0.14/0.35  % Memory   : 8042.1875MB
% 0.14/0.35  % OS       : Linux 3.10.0-693.el7.x86_64
% 0.14/0.35  % CPULimit : 300
% 0.14/0.35  % DateTime : Tue Jun 14 06:48:36 EDT 2022
% 0.14/0.35  % CPUTime  : 
% 190.06/190.41  *** allocated 10000 integers for termspace/termends
% 190.06/190.41  *** allocated 10000 integers for clauses
% 190.06/190.41  *** allocated 10000 integers for justifications
% 190.06/190.41  Bliksem 1.12
% 190.06/190.41  
% 190.06/190.41  
% 190.06/190.41  Automatic Strategy Selection
% 190.06/190.41  
% 190.06/190.41  Clauses:
% 190.06/190.41  [
% 190.06/190.41     [ =( multiply( identity, X ), X ) ],
% 190.06/190.41     [ =( multiply( inverse( X ), X ), identity ) ],
% 190.06/190.41     [ =( multiply( multiply( X, Y ), Z ), multiply( X, multiply( Y, Z ) ) )
% 190.06/190.41     ],
% 190.06/190.41     [ =( inverse( 'sk_c1' ), 'sk_c9' ), =( inverse( 'sk_c4' ), 'sk_c9' ) ]
% 190.06/190.41    ,
% 190.06/190.41     [ =( inverse( 'sk_c1' ), 'sk_c9' ), =( multiply( 'sk_c4', 'sk_c8' ), 
% 190.06/190.41    'sk_c9' ) ],
% 190.06/190.41     [ =( inverse( 'sk_c1' ), 'sk_c9' ), =( multiply( 'sk_c5', 'sk_c8' ), 
% 190.06/190.41    'sk_c9' ) ],
% 190.06/190.41     [ =( inverse( 'sk_c1' ), 'sk_c9' ), =( inverse( 'sk_c5' ), 'sk_c8' ) ]
% 190.06/190.41    ,
% 190.06/190.41     [ =( inverse( 'sk_c1' ), 'sk_c9' ), =( multiply( 'sk_c6', 'sk_c7' ), 
% 190.06/190.41    'sk_c8' ) ],
% 190.06/190.41     [ =( inverse( 'sk_c1' ), 'sk_c9' ), =( inverse( 'sk_c6' ), 'sk_c7' ) ]
% 190.06/190.41    ,
% 190.06/190.41     [ =( inverse( 'sk_c1' ), 'sk_c9' ), =( multiply( 'sk_c7', 'sk_c9' ), 
% 190.06/190.41    'sk_c8' ) ],
% 190.06/190.41     [ =( multiply( 'sk_c1', 'sk_c8' ), 'sk_c9' ), =( inverse( 'sk_c4' ), 
% 190.06/190.41    'sk_c9' ) ],
% 190.06/190.41     [ =( multiply( 'sk_c1', 'sk_c8' ), 'sk_c9' ), =( multiply( 'sk_c4', 
% 190.06/190.41    'sk_c8' ), 'sk_c9' ) ],
% 190.06/190.41     [ =( multiply( 'sk_c1', 'sk_c8' ), 'sk_c9' ), =( multiply( 'sk_c5', 
% 190.06/190.41    'sk_c8' ), 'sk_c9' ) ],
% 190.06/190.41     [ =( multiply( 'sk_c1', 'sk_c8' ), 'sk_c9' ), =( inverse( 'sk_c5' ), 
% 190.06/190.41    'sk_c8' ) ],
% 190.06/190.41     [ =( multiply( 'sk_c1', 'sk_c8' ), 'sk_c9' ), =( multiply( 'sk_c6', 
% 190.06/190.41    'sk_c7' ), 'sk_c8' ) ],
% 190.06/190.41     [ =( multiply( 'sk_c1', 'sk_c8' ), 'sk_c9' ), =( inverse( 'sk_c6' ), 
% 190.06/190.41    'sk_c7' ) ],
% 190.06/190.41     [ =( multiply( 'sk_c1', 'sk_c8' ), 'sk_c9' ), =( multiply( 'sk_c7', 
% 190.06/190.41    'sk_c9' ), 'sk_c8' ) ],
% 190.06/190.41     [ =( multiply( 'sk_c9', 'sk_c3' ), 'sk_c8' ), =( inverse( 'sk_c4' ), 
% 190.06/190.41    'sk_c9' ) ],
% 190.06/190.41     [ =( multiply( 'sk_c9', 'sk_c3' ), 'sk_c8' ), =( multiply( 'sk_c4', 
% 190.06/190.41    'sk_c8' ), 'sk_c9' ) ],
% 190.06/190.41     [ =( multiply( 'sk_c9', 'sk_c3' ), 'sk_c8' ), =( multiply( 'sk_c5', 
% 190.06/190.41    'sk_c8' ), 'sk_c9' ) ],
% 190.06/190.41     [ =( multiply( 'sk_c9', 'sk_c3' ), 'sk_c8' ), =( inverse( 'sk_c5' ), 
% 190.06/190.41    'sk_c8' ) ],
% 190.06/190.41     [ =( multiply( 'sk_c9', 'sk_c3' ), 'sk_c8' ), =( multiply( 'sk_c6', 
% 190.06/190.41    'sk_c7' ), 'sk_c8' ) ],
% 190.06/190.41     [ =( multiply( 'sk_c9', 'sk_c3' ), 'sk_c8' ), =( inverse( 'sk_c6' ), 
% 190.06/190.41    'sk_c7' ) ],
% 190.06/190.41     [ =( multiply( 'sk_c9', 'sk_c3' ), 'sk_c8' ), =( multiply( 'sk_c7', 
% 190.06/190.41    'sk_c9' ), 'sk_c8' ) ],
% 190.06/190.41     [ =( multiply( 'sk_c2', 'sk_c9' ), 'sk_c3' ), =( inverse( 'sk_c4' ), 
% 190.06/190.41    'sk_c9' ) ],
% 190.06/190.41     [ =( multiply( 'sk_c2', 'sk_c9' ), 'sk_c3' ), =( multiply( 'sk_c4', 
% 190.06/190.41    'sk_c8' ), 'sk_c9' ) ],
% 190.06/190.41     [ =( multiply( 'sk_c2', 'sk_c9' ), 'sk_c3' ), =( multiply( 'sk_c5', 
% 190.06/190.41    'sk_c8' ), 'sk_c9' ) ],
% 190.06/190.41     [ =( multiply( 'sk_c2', 'sk_c9' ), 'sk_c3' ), =( inverse( 'sk_c5' ), 
% 190.06/190.41    'sk_c8' ) ],
% 190.06/190.41     [ =( multiply( 'sk_c2', 'sk_c9' ), 'sk_c3' ), =( multiply( 'sk_c6', 
% 190.06/190.41    'sk_c7' ), 'sk_c8' ) ],
% 190.06/190.41     [ =( multiply( 'sk_c2', 'sk_c9' ), 'sk_c3' ), =( inverse( 'sk_c6' ), 
% 190.06/190.41    'sk_c7' ) ],
% 190.06/190.41     [ =( multiply( 'sk_c2', 'sk_c9' ), 'sk_c3' ), =( multiply( 'sk_c7', 
% 190.06/190.41    'sk_c9' ), 'sk_c8' ) ],
% 190.06/190.41     [ =( inverse( 'sk_c2' ), 'sk_c9' ), =( inverse( 'sk_c4' ), 'sk_c9' ) ]
% 190.06/190.41    ,
% 190.06/190.41     [ =( inverse( 'sk_c2' ), 'sk_c9' ), =( multiply( 'sk_c4', 'sk_c8' ), 
% 190.06/190.41    'sk_c9' ) ],
% 190.06/190.41     [ =( inverse( 'sk_c2' ), 'sk_c9' ), =( multiply( 'sk_c5', 'sk_c8' ), 
% 190.06/190.41    'sk_c9' ) ],
% 190.06/190.41     [ =( inverse( 'sk_c2' ), 'sk_c9' ), =( inverse( 'sk_c5' ), 'sk_c8' ) ]
% 190.06/190.41    ,
% 190.06/190.41     [ =( inverse( 'sk_c2' ), 'sk_c9' ), =( multiply( 'sk_c6', 'sk_c7' ), 
% 190.06/190.41    'sk_c8' ) ],
% 190.06/190.41     [ =( inverse( 'sk_c2' ), 'sk_c9' ), =( inverse( 'sk_c6' ), 'sk_c7' ) ]
% 190.06/190.41    ,
% 190.06/190.41     [ =( inverse( 'sk_c2' ), 'sk_c9' ), =( multiply( 'sk_c7', 'sk_c9' ), 
% 190.06/190.41    'sk_c8' ) ],
% 190.06/190.41     [ ~( =( inverse( X ), 'sk_c9' ) ), ~( =( multiply( X, 'sk_c8' ), 'sk_c9'
% 190.06/190.41     ) ), ~( =( multiply( 'sk_c9', Y ), 'sk_c8' ) ), ~( =( multiply( Z, 
% 190.06/190.41    'sk_c9' ), Y ) ), ~( =( inverse( Z ), 'sk_c9' ) ), ~( =( inverse( T ), 
% 190.06/190.41    'sk_c9' ) ), ~( =( multiply( T, 'sk_c8' ), 'sk_c9' ) ), ~( =( multiply( U
% 190.06/190.41    , 'sk_c8' ), 'sk_c9' ) ), ~( =( inverse( U ), 'sk_c8' ) ), ~( =( multiply( 
% 190.06/190.41    W, V0 ), 'sk_c8' ) ), ~( =( inverse( W ), V0 ) ), ~( =( multiply( V0, 
% 190.06/190.41    'sk_c9' ), 'sk_c8' ) ) ]
% 190.06/190.41  ] .
% 190.06/190.41  
% 190.06/190.41  
% 190.06/190.41  percentage equality = 1.000000, percentage horn = 0.102564
% 190.06/190.41  This is a pure equality problem
% 190.06/190.41  
% 190.06/190.41  
% 190.06/190.41  
% 190.06/190.41  Options UsedCputime limit exceeded (core dumped)
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