TSTP Solution File: GRP583-1 by Fiesta---2

%------------------------------------------------------------------------------
% File     : Fiesta---2
% Problem  : GRP583-1 : TPTP v8.1.0. Released v2.6.0.
% Transfm  : none
% Format   : dedam
% Command  : fiesta-wrapper %s

% Computer : n021.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  : 600s
% DateTime : Sat Jul 16 09:14:39 EDT 2022

% Result   : Unsatisfiable 0.62s 1.02s
% Output   : CNFRefutation 0.62s
% Verified : 
% SZS Type : -

% Comments : 
%------------------------------------------------------------------------------
%----WARNING: Could not form TPTP format derivation
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.04/0.09  % Problem  : GRP583-1 : TPTP v8.1.0. Released v2.6.0.
% 0.04/0.09  % Command  : fiesta-wrapper %s
% 0.09/0.29  % Computer : n021.cluster.edu
% 0.09/0.29  % Model    : x86_64 x86_64
% 0.09/0.29  % CPU      : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 0.09/0.29  % Memory   : 8042.1875MB
% 0.09/0.29  % OS       : Linux 3.10.0-693.el7.x86_64
% 0.09/0.29  % CPULimit : 300
% 0.09/0.29  % WCLimit  : 600
% 0.09/0.29  % DateTime : Mon Jun 13 21:12:42 EDT 2022
% 0.09/0.29  % CPUTime  : 
% 0.62/1.02  Theorem Proved.
% 0.62/1.02  % SZS status Unsatisfiable
% 0.62/1.02  % SZS output start CNFRefutation
% 0.62/1.02  [1=axiom,[],
% 0.62/1.02  			double_divide(X10,inverse(X10)) 	= identity].
% 0.62/1.02  [2=axiom,[],
% 0.62/1.02  			double_divide(X10,identity) 	= inverse(X10)].
% 0.62/1.02  [3=axiom,[2],
% 0.62/1.02  			inverse(double_divide(X11,X10)) 	= multiply(X10,X11)].
% 0.62/1.02  [4=axiom,[2],
% 0.62/1.02  			double_divide(double_divide(X10,double_divide(double_divide(identity,X11),double_divide(X12,double_divide(X11,X10)))),inverse(identity)) 	= X12].
% 0.62/1.02  [5=axiom,[],
% 0.62/1.02  			thtop(X10,X10) 	= thmfalse].
% 0.62/1.02  [6=axiom,[],
% 0.62/1.02  			thtop(multiply(multiply(a3,b3),c3),multiply(a3,multiply(b3,c3))) 	= thmtrue].
% 0.62/1.02  [7=param(3,1),[],
% 0.62/1.02  			multiply(inverse(X10),X10) 	= inverse(identity)].
% 0.62/1.02  [9=param(3,2),[],
% 0.62/1.02  			multiply(identity,X10) 	= inverse(inverse(X10))].
% 0.62/1.02  [10=param(4,1),[],
% 0.62/1.02  			double_divide(double_divide(X10,double_divide(identity,double_divide(X11,double_divide(inverse(identity),X10)))),inverse(identity)) 	= X11].
% 0.62/1.02  [11=param(4,1),[2],
% 0.62/1.02  			double_divide(double_divide(inverse(X10),double_divide(double_divide(identity,X10),inverse(X11))),inverse(identity)) 	= X11].
% 0.62/1.02  [12=param(4,2),[],
% 0.62/1.02  			double_divide(double_divide(X10,double_divide(inverse(identity),double_divide(X11,double_divide(identity,X10)))),inverse(identity)) 	= X11].
% 0.62/1.02  [13=param(4,2),[],
% 0.62/1.02  			double_divide(double_divide(identity,double_divide(double_divide(identity,X10),double_divide(X11,inverse(X10)))),inverse(identity)) 	= X11].
% 0.62/1.02  [15=param(11,1),[2],
% 0.62/1.02  			double_divide(inverse(inverse(X10)),inverse(identity)) 	= double_divide(identity,X10)].
% 0.62/1.02  [21=param(11,10),[2,3],
% 0.62/1.02  			double_divide(double_divide(multiply(double_divide(X10,inverse(inverse(identity))),identity),X10),inverse(identity)) 	= identity].
% 0.62/1.02  [22=param(3,15),[3],
% 0.62/1.02  			multiply(X10,identity) 	= multiply(inverse(identity),inverse(inverse(X10)))].
% 0.62/1.02  [23=demod(21),[22,3],
% 0.62/1.02  			double_divide(double_divide(multiply(inverse(identity),inverse(multiply(inverse(inverse(identity)),X10))),X10),inverse(identity)) 	= identity].
% 0.62/1.02  [29=param(13,1),[2,3],
% 0.62/1.02  			double_divide(double_divide(identity,multiply(X10,identity)),inverse(identity)) 	= X10].
% 0.62/1.02  [32=param(29,7),[1,1],
% 0.62/1.02  			inverse(identity) 	= identity].
% 0.62/1.02  [34=demod(29),[32,2,3,22,32,9],
% 0.62/1.02  			inverse(inverse(inverse(inverse(multiply(X10,identity))))) 	= X10].
% 0.62/1.02  [40=demod(23),[32,32,32,9,9,32,2,3],
% 0.62/1.02  			multiply(X10,inverse(inverse(inverse(inverse(inverse(X10)))))) 	= identity].
% 0.62/1.02  [41=demod(22),[32,9],
% 0.62/1.02  			multiply(X10,identity) 	= inverse(inverse(inverse(inverse(X10))))].
% 0.62/1.02  [42=demod(34),[41],
% 0.62/1.02  			inverse(inverse(inverse(inverse(inverse(inverse(inverse(inverse(X10)))))))) 	= X10].
% 0.62/1.02  [45=demod(15),[32,2],
% 0.62/1.02  			double_divide(identity,X10) 	= inverse(inverse(inverse(X10)))].
% 0.62/1.02  [51=demod(12),[32,45,45,3,32,2,3],
% 0.62/1.02  			multiply(inverse(inverse(multiply(inverse(inverse(inverse(X10))),X11))),X10) 	= X11].
% 0.62/1.02  [52=demod(11),[45,32,2,3],
% 0.62/1.02  			multiply(double_divide(inverse(inverse(inverse(X10))),inverse(X11)),inverse(X10)) 	= X11].
% 0.62/1.02  [54=demod(4),[45,32,2,3],
% 0.62/1.02  			multiply(double_divide(inverse(inverse(inverse(X10))),double_divide(X11,double_divide(X10,X12))),X12) 	= X11].
% 0.62/1.02  [56=param(42,3),[],
% 0.62/1.02  			double_divide(X11,X10) 	= inverse(inverse(inverse(inverse(inverse(inverse(inverse(multiply(X10,X11))))))))].
% 0.62/1.02  [61=demod(52),[56],
% 0.62/1.02  			multiply(inverse(inverse(inverse(inverse(inverse(inverse(inverse(multiply(inverse(X10),inverse(inverse(inverse(X11))))))))))),inverse(X11)) 	= X10].
% 0.62/1.02  [62=demod(54),[56,56,56],
% 0.62/1.02  			multiply(inverse(inverse(inverse(inverse(inverse(inverse(inverse(multiply(inverse(inverse(inverse(inverse(inverse(inverse(inverse(multiply(inverse(inverse(inverse(inverse(inverse(inverse(inverse(multiply(X10,X11)))))))),X12)))))))),inverse(inverse(inverse(X11))))))))))),X10) 	= X12].
% 0.62/1.02  [64=param(51,40),[32,32,9,42],
% 0.62/1.02  			inverse(inverse(X10)) 	= X10].
% 0.62/1.02  [68=demod(51),[64,64],
% 0.62/1.02  			multiply(multiply(inverse(X10),X11),X10) 	= X11].
% 0.62/1.02  [71=demod(62),[64,64,64,64,64,64,64,64,64,64],
% 0.62/1.02  			multiply(inverse(multiply(inverse(multiply(inverse(multiply(X10,X11)),X12)),inverse(X11))),X10) 	= X12].
% 0.62/1.02  [72=demod(61),[64,64,64,64],
% 0.62/1.02  			multiply(inverse(multiply(inverse(X10),inverse(X11))),inverse(X11)) 	= X10].
% 0.62/1.02  [74=param(68,64),[],
% 0.62/1.02  			multiply(multiply(X10,X11),inverse(X10)) 	= X11].
% 0.62/1.02  [76=param(74,74),[],
% 0.62/1.02  			multiply(X10,inverse(multiply(X11,X10))) 	= inverse(X11)].
% 0.62/1.02  [77=param(76,68),[],
% 0.62/1.02  			inverse(multiply(inverse(X10),X11)) 	= multiply(X10,inverse(X11))].
% 0.62/1.02  [78=demod(71),[77],
% 0.62/1.02  			multiply(inverse(multiply(multiply(multiply(X10,X11),inverse(X12)),inverse(X11))),X10) 	= X12].
% 0.62/1.02  [79=demod(72),[77,64],
% 0.62/1.02  			multiply(multiply(X10,X11),inverse(X11)) 	= X10].
% 0.62/1.02  [80=param(68,76),[],
% 0.62/1.02  			multiply(inverse(X10),X11) 	= inverse(multiply(X10,inverse(X11)))].
% 0.62/1.02  [81=demod(78),[80],
% 0.62/1.02  			inverse(multiply(multiply(multiply(multiply(X10,X11),inverse(X12)),inverse(X11)),inverse(X10))) 	= X12].
% 0.62/1.02  [83=param(79,74),[64],
% 0.62/1.02  			multiply(X10,X11) 	= multiply(X11,X10)].
% 0.62/1.02  [85=demod(81),[83,80,80,64,83,64],
% 0.62/1.02  			multiply(X10,multiply(X11,inverse(multiply(multiply(X10,X11),inverse(X12))))) 	= X12].
% 0.62/1.02  [88=param(76,83),[],
% 0.62/1.02  			multiply(X10,inverse(multiply(X10,X11))) 	= inverse(X11)].
% 0.62/1.02  [90=param(85,64),[],
% 0.62/1.02  			multiply(X10,multiply(X11,inverse(multiply(multiply(X10,X11),X12)))) 	= inverse(X12)].
% 0.62/1.02  [98=param(90,76),[64,64],
% 0.62/1.02  			multiply(X10,multiply(X11,X12)) 	= multiply(X12,multiply(X10,X11))].
% 0.62/1.02  [106=param(90,88),[64,64],
% 0.62/1.02  			multiply(multiply(X10,X11),X12) 	= multiply(X10,multiply(X11,X12))].
% 0.62/1.02  [114=param(6,106),[83,98,83,83,98,83,5],
% 0.62/1.02  			thmtrue 	= thmfalse].
% 0.62/1.02  % SZS output end CNFRefutation
% 0.62/1.02  Space:     76 KB 
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