TSTP Solution File: GRP592-1 by Fiesta---2
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%------------------------------------------------------------------------------
% File : Fiesta---2
% Problem : GRP592-1 : TPTP v8.1.0. Bugfixed v2.7.0.
% Transfm : none
% Format : dedam
% Command : fiesta-wrapper %s
% Computer : n003.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 09:14:41 EDT 2022
% Result : Unsatisfiable 0.46s 1.09s
% Output : CNFRefutation 0.46s
% Verified :
% SZS Type : -
% Comments :
%------------------------------------------------------------------------------
%----WARNING: Could not form TPTP format derivation
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.10/0.12 % Problem : GRP592-1 : TPTP v8.1.0. Bugfixed v2.7.0.
% 0.10/0.12 % Command : fiesta-wrapper %s
% 0.13/0.34 % Computer : n003.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 % WCLimit : 600
% 0.13/0.34 % DateTime : Tue Jun 14 12:14:10 EDT 2022
% 0.13/0.34 % CPUTime :
% 0.46/1.09 Theorem Proved.
% 0.46/1.09 % SZS status Unsatisfiable
% 0.46/1.09 % SZS output start CNFRefutation
% 0.46/1.09 [1=axiom,[],
% 0.46/1.09 inverse(double_divide(X11,X10)) = multiply(X10,X11)].
% 0.46/1.09 [2=axiom,[1,1],
% 0.46/1.09 double_divide(multiply(multiply(inverse(X10),X11),double_divide(X11,X12)),X12) = X10].
% 0.46/1.09 [3=axiom,[],
% 0.46/1.09 thtop(X10,X10) = thmfalse].
% 0.46/1.09 [4=axiom,[],
% 0.46/1.09 thtop(multiply(a,b),multiply(b,a)) = thmtrue].
% 0.46/1.09 [6=param(1,2),[],
% 0.46/1.09 multiply(X11,multiply(multiply(inverse(X10),X12),double_divide(X12,X11))) = inverse(X10)].
% 0.46/1.09 [8=param(2,2),[],
% 0.46/1.09 double_divide(multiply(multiply(inverse(X10),multiply(multiply(inverse(X11),X12),double_divide(X12,X13))),X11),X13) = X10].
% 0.46/1.09 [9=param(8,6),[],
% 0.46/1.09 double_divide(multiply(inverse(X10),X10),inverse(X11)) = X11].
% 0.46/1.09 [10=param(9,1),[],
% 0.46/1.09 double_divide(multiply(multiply(X10,X11),double_divide(X11,X10)),inverse(X12)) = X12].
% 0.46/1.09 [11=param(1,9),[],
% 0.46/1.09 multiply(inverse(X10),multiply(inverse(X11),X11)) = inverse(X10)].
% 0.46/1.09 [12=param(2,9),[11],
% 0.46/1.09 double_divide(multiply(inverse(X10),X11),inverse(X11)) = X10].
% 0.46/1.09 [14=param(12,1),[],
% 0.46/1.09 double_divide(multiply(multiply(X10,X11),X12),inverse(X12)) = double_divide(X11,X10)].
% 0.46/1.09 [16=param(1,12),[],
% 0.46/1.09 multiply(inverse(X11),multiply(inverse(X10),X11)) = inverse(X10)].
% 0.46/1.09 [17=param(2,12),[],
% 0.46/1.09 double_divide(multiply(multiply(inverse(X10),multiply(inverse(X11),X12)),X11),inverse(X12)) = X10].
% 0.46/1.09 [24=param(12,16),[],
% 0.46/1.09 double_divide(inverse(X10),inverse(multiply(inverse(X10),X11))) = X11].
% 0.46/1.09 [26=param(9,11),[],
% 0.46/1.09 double_divide(inverse(multiply(inverse(X10),X10)),inverse(X11)) = X11].
% 0.46/1.09 [27=param(12,11),[],
% 0.46/1.09 double_divide(inverse(X10),inverse(multiply(inverse(X11),X11))) = X10].
% 0.46/1.09 [31=param(27,1),[],
% 0.46/1.09 double_divide(multiply(X10,X11),inverse(multiply(inverse(X12),X12))) = double_divide(X11,X10)].
% 0.46/1.09 [33=param(2,27),[31],
% 0.46/1.09 double_divide(X10,multiply(inverse(X11),inverse(X10))) = X11].
% 0.46/1.09 [35=param(1,33),[],
% 0.46/1.09 multiply(multiply(inverse(X10),inverse(X11)),X11) = inverse(X10)].
% 0.46/1.09 [43=param(14,35),[],
% 0.46/1.09 double_divide(inverse(X10),inverse(X11)) = double_divide(inverse(X11),inverse(X10))].
% 0.46/1.09 [46=param(26,27),[],
% 0.46/1.09 multiply(inverse(X10),X10) = multiply(inverse(X11),X11)].
% 0.46/1.09 [48=param(2,46),[],
% 0.46/1.09 double_divide(multiply(multiply(inverse(X10),X10),double_divide(X11,X12)),X12) = X11].
% 0.46/1.09 [51=param(10,46),[],
% 0.46/1.09 double_divide(multiply(multiply(inverse(X10),X10),double_divide(X11,inverse(X11))),inverse(X12)) = X12].
% 0.46/1.09 [54=param(17,46),[],
% 0.46/1.09 double_divide(multiply(multiply(inverse(X10),X10),X11),inverse(X12)) = multiply(inverse(X11),X12)].
% 0.46/1.09 [55=demod(51),[54,1],
% 0.46/1.09 multiply(multiply(inverse(X10),X10),X11) = X11].
% 0.46/1.09 [56=demod(54),[55],
% 0.46/1.09 double_divide(X10,inverse(X11)) = multiply(inverse(X10),X11)].
% 0.46/1.09 [64=demod(31),[56,11],
% 0.46/1.09 double_divide(X11,X10) = inverse(multiply(X10,X11))].
% 0.46/1.09 [69=demod(2),[64,64],
% 0.46/1.09 inverse(multiply(X10,multiply(multiply(inverse(X11),X12),inverse(multiply(X10,X12))))) = X11].
% 0.46/1.09 [78=demod(6),[64],
% 0.46/1.09 multiply(X10,multiply(multiply(inverse(X11),X12),inverse(multiply(X10,X12)))) = inverse(X11)].
% 0.46/1.09 [79=demod(69),[78],
% 0.46/1.09 inverse(inverse(X10)) = X10].
% 0.46/1.09 [84=demod(56),[64],
% 0.46/1.09 inverse(multiply(inverse(X10),X11)) = multiply(inverse(X11),X10)].
% 0.46/1.09 [89=demod(24),[64,-84,79,79],
% 0.46/1.09 multiply(X10,multiply(inverse(X10),X11)) = X11].
% 0.46/1.09 [90=demod(43),[64,64],
% 0.46/1.09 inverse(multiply(inverse(X10),inverse(X11))) = inverse(multiply(inverse(X11),inverse(X10)))].
% 0.46/1.09 [93=demod(48),[64,55,64],
% 0.46/1.09 inverse(multiply(X10,inverse(multiply(X10,X11)))) = X11].
% 0.46/1.09 [108=param(79,93),[],
% 0.46/1.09 multiply(X11,inverse(multiply(X11,X10))) = inverse(X10)].
% 0.46/1.09 [113=param(108,89),[],
% 0.46/1.09 inverse(multiply(inverse(X10),X11)) = multiply(X10,inverse(X11))].
% 0.46/1.09 [125=demod(90),[113,79,113,79],
% 0.46/1.09 multiply(X10,X11) = multiply(X11,X10)].
% 0.46/1.09 [134=param(4,125),[3],
% 0.46/1.09 thmtrue = thmfalse].
% 0.46/1.09 % SZS output end CNFRefutation
% 0.46/1.09 Space: 81 KB
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