%------------------------------------------------------------------------------
% File     : FDP---0.9.16
% Problem  : GRP125-2.004 : TPTP v5.0.0. Released v1.2.0.
% Transfm  : add_equality
% Format   : protein
% Command  : fdp-casc %s %d

% Computer : art04.cs.miami.edu
% Model    : i686 i686
% CPU      : Intel(R) Pentium(R) 4 CPU 2.80GHz @ 2793MHz
% Memory   : 2018MB
% OS       : Linux 2.6.26.8-57.fc8
% CPULimit : 300s
% DateTime : Sun Jan  9 03:51:28 EST 2011

% Result   : Satisfiable 1.33s
% Output   : Assurance 1.33s
% Verified : 
% SZS Type : None (Parsing solution fails)
% Syntax   : Number of formulae    : 0

% Comments : 
%------------------------------------------------------------------------------
%----NO SOLUTION OUTPUT BY SYSTEM
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% FDPLL - A First-Order Davis-Putnam Theorem Prover
% Version 0.9.16 (26/06/2002)
% Proving /tmp/GRP125-2.004+noeq ...
% Done.
% Input File...............: /tmp/GRP125-2.004+noeq.tme
% System...................: Linux art04.cs.miami.edu 2.6.26.8-57.fc8 #1 SMP Thu Dec 18 19:19:45 EST 2008 i686 i686 i386 GNU/Linux
% Automatic mode...........: on
% Time limit...............: 300 seconds
% Current restart interval.: off
% Restart with =-axioms....: off
% Initial interpretation...: [+(_48269)]
% Clause set type..........: Non-Horn, without equality
% Equality transformation..: off
% Non-constant functions...: no
% Term depth settings......: 3/2 (Init/Increment)
% unit_extend..............: on
% splitting type...........: exact
% Final tree statistics:
% Tree for clause set......: as initially given
% # Restarts...............: 0
% Term depth limit.........: 3
% # Splits.................: 21
% # Commits................: 3
% # Unit extension steps...: 99
% # Unit back subsumptions.: 0
% # Branches closed........: 0
% # Level cuts.............: 0
% Time.....................: 1.1 seconds.
% Result...................: SATISFIABLE with model:
%   +(product(e_1, e_1, e_1))
%   +(product(e_2, e_2, e_2))
%   +(product(e_3, e_3, e_3))
%   -(greater(e_4, e_4))
%   -(next(e_3, e_1))
%   -(next(e_3, e_2))
%   -(next(e_3, e_3))
%   +(product(e_3, e_2, e_1))
%   +(product(e_1, e_3, e_2))
%   +(product(e_1, e_4, e_3))
%   +(product(e_3, e_1, e_4))
%   +(product(e_4, e_2, e_3))
%   +(product(e_2, e_3, e_4))
%   +(product(e_3, e_4, e_2))
%   +(product(e_4, e_3, e_1))
%   -(product(e_3, e_2, e_4))
%   -(product(e_1, e_3, e_4))
%   -(product(e_1, e_4, e_2))
%   -(product(e_3, e_1, e_2))
%   -(product(e_4, e_3, e_2))
%   -(next(e_4, e_1))
%   -(product(e_4, e_2, e_1))
%   -(product(e_3, e_4, e_1))
%   -(product(e_2, e_3, e_1))
%   +(product(e_1, e_2, e_4))
%   +(product(e_4, e_1, e_2))
%   +(product(e_2, e_4, e_1))
%   -(product(e_1, e_2, e_3))
%   -(product(e_4, e_1, e_3))
%   -(product(e_2, e_4, e_3))
%   -(greater(e_3, e_3))
%   -(next(e_2, e_1))
%   -(next(e_2, e_2))
%   +(product(e_2, e_1, e_3))
%   -(product(e_4, e_3, e_3))
%   -(product(e_3, e_4, e_4))
%   -(product(e_3, e_4, e_3))
%   -(product(e_4, e_3, e_4))
%   -(product(e_3, e_3, e_4))
%   -(product(e_4, e_4, e_3))
%   -(product(e_4, e_2, e_2))
%   -(product(e_2, e_4, e_4))
%   -(product(e_2, e_4, e_2))
%   -(product(e_4, e_2, e_4))
%   -(product(e_2, e_2, e_4))
%   -(product(e_4, e_4, e_2))
%   -(product(e_3, e_2, e_2))
%   -(product(e_2, e_3, e_3))
%   -(product(e_2, e_3, e_2))
%   -(product(e_3, e_2, e_3))
%   -(product(e_2, e_2, e_3))
%   -(product(e_3, e_3, e_2))
%   -(product(e_4, e_1, e_1))
%   -(product(e_1, e_4, e_4))
%   -(product(e_1, e_4, e_1))
%   -(product(e_4, e_1, e_4))
%   -(product(e_4, e_4, e_1))
%   -(product(e_3, e_1, e_1))
%   -(product(e_1, e_3, e_3))
%   -(product(e_1, e_3, e_1))
%   -(product(e_3, e_1, e_3))
%   -(product(e_3, e_3, e_1))
%   -(product(e_2, e_1, e_1))
%   -(product(e_1, e_2, e_2))
%   -(product(e_1, e_2, e_1))
%   -(product(e_2, e_1, e_2))
%   -(product(e_1, e_1, e_2))
%   -(product(e_2, e_2, e_1))
%   +(equalish(X_48876, X_48876))
%   -(greater(e_1, e_2))
%   -(product(e_2, e_1, e_4))
%   -(product(e_1, e_1, e_4))
%   -(product(e_1, e_1, e_3))
%   -(equalish(e_4, e_3))
%   -(equalish(e_4, e_2))
%   -(equalish(e_4, e_1))
%   -(equalish(e_3, e_4))
%   -(equalish(e_3, e_2))
%   -(equalish(e_3, e_1))
%   -(equalish(e_2, e_4))
%   -(equalish(e_2, e_3))
%   -(equalish(e_2, e_1))
%   -(equalish(e_1, e_4))
%   -(equalish(e_1, e_3))
%   -(equalish(e_1, e_2))
%   +(product(X_49000, X_49000, X_49000))
%   +(group_element(e_4))
%   +(group_element(e_3))
%   +(group_element(e_2))
%   +(group_element(e_1))
%   +(greater(e_4, e_3))
%   +(greater(e_4, e_2))
%   +(greater(e_3, e_2))
%   +(greater(e_4, e_1))
%   +(greater(e_3, e_1))
%   +(greater(e_2, e_1))
%   +(next(e_3, e_4))
%   +(next(e_2, e_3))
%   +(next(e_1, e_2))
%   +(_49091)
%   -(greater(e_4, X1_49116))
%   -(greater(e_2, X1_49141))
%   -(greater(e_3, X1_49166))
%   -(greater(e_1, X1_49191))
%   -(greater(Y_49216, e_4))
%   -(greater(Y_49241, e_3))
%   -(greater(Y_49266, e_2))
%   -(next(X_49291, e_3))
%   -(next(X_49316, e_2))
%   -(next(X_49341, e_1))
%   -(greater(Y_49366, X1_49367))
%   -(product(X_49393, Y_49394, e_3))
%   -(product(X_49420, Y_49421, e_2))
%   -(product(X_49447, Y_49448, e_1))
%   -(product(X_49474, e_3, Y_49475))
%   -(product(X_49501, e_2, Y_49502))
%   -(product(X_49528, e_1, Y_49529))
%   -(product(e_3, Y_49555, X_49556))
%   -(product(e_2, Y_49582, X_49583))
%   -(product(e_1, Y_49609, X_49610))
%   -(group_element(X_49634))
% 
%------------------------------------------------------------------------------