TSTP Solution File: GRP587-1 by Drodi---3.5.1
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%------------------------------------------------------------------------------
% File : Drodi---3.5.1
% Problem : GRP587-1 : TPTP v8.1.2. Released v2.6.0.
% Transfm : none
% Format : tptp:raw
% Command : drodi -learnfrom(drodi.lrn) -timeout(%d) %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 : 300s
% DateTime : Wed May 31 12:12:08 EDT 2023
% Result : Unsatisfiable 1.22s 0.57s
% Output : CNFRefutation 1.22s
% Verified :
% SZS Type : Refutation
% Derivation depth : 31
% Number of leaves : 3
% Syntax : Number of formulae : 51 ( 51 unt; 0 def)
% Number of atoms : 51 ( 50 equ)
% Maximal formula atoms : 1 ( 1 avg)
% Number of connectives : 3 ( 3 ~; 0 |; 0 &)
% ( 0 <=>; 0 =>; 0 <=; 0 <~>)
% Maximal formula depth : 5 ( 3 avg)
% Maximal term depth : 7 ( 2 avg)
% Number of predicates : 2 ( 0 usr; 1 prp; 0-2 aty)
% Number of functors : 6 ( 6 usr; 3 con; 0-2 aty)
% Number of variables : 123 (; 123 !; 0 ?)
% Comments :
%------------------------------------------------------------------------------
fof(f1,axiom,
! [A,B,C] : double_divide(A,inverse(double_divide(inverse(double_divide(double_divide(A,B),inverse(C))),B))) = C,
file('/export/starexec/sandbox/benchmark/theBenchmark.p') ).
fof(f2,axiom,
! [A,B] : multiply(A,B) = inverse(double_divide(B,A)),
file('/export/starexec/sandbox/benchmark/theBenchmark.p') ).
fof(f3,negated_conjecture,
multiply(multiply(a3,b3),c3) != multiply(a3,multiply(b3,c3)),
file('/export/starexec/sandbox/benchmark/theBenchmark.p') ).
fof(f4,plain,
! [X0,X1,X2] : double_divide(X0,inverse(double_divide(inverse(double_divide(double_divide(X0,X1),inverse(X2))),X1))) = X2,
inference(cnf_transformation,[status(esa)],[f1]) ).
fof(f5,plain,
! [X0,X1] : multiply(X0,X1) = inverse(double_divide(X1,X0)),
inference(cnf_transformation,[status(esa)],[f2]) ).
fof(f6,plain,
multiply(multiply(a3,b3),c3) != multiply(a3,multiply(b3,c3)),
inference(cnf_transformation,[status(esa)],[f3]) ).
fof(f7,plain,
! [X0,X1,X2] : double_divide(X0,inverse(double_divide(multiply(inverse(X1),double_divide(X0,X2)),X2))) = X1,
inference(backward_demodulation,[status(thm)],[f5,f4]) ).
fof(f8,plain,
! [X0,X1,X2] : double_divide(X0,multiply(X1,multiply(inverse(X2),double_divide(X0,X1)))) = X2,
inference(forward_demodulation,[status(thm)],[f5,f7]) ).
fof(f10,plain,
! [X0,X1,X2,X3] : double_divide(X0,multiply(multiply(X1,multiply(inverse(X2),double_divide(X0,X1))),multiply(inverse(X3),X2))) = X3,
inference(paramodulation,[status(thm)],[f8,f8]) ).
fof(f11,plain,
! [X0,X1,X2] : multiply(multiply(X0,multiply(inverse(X1),double_divide(X2,X0))),X2) = inverse(X1),
inference(paramodulation,[status(thm)],[f8,f5]) ).
fof(f12,plain,
! [X0,X1,X2,X3] : multiply(multiply(X0,multiply(multiply(X1,X2),double_divide(X3,X0))),X3) = inverse(double_divide(X2,X1)),
inference(paramodulation,[status(thm)],[f5,f11]) ).
fof(f13,plain,
! [X0,X1,X2,X3] : multiply(multiply(X0,multiply(multiply(X1,X2),double_divide(X3,X0))),X3) = multiply(X1,X2),
inference(forward_demodulation,[status(thm)],[f5,f12]) ).
fof(f24,plain,
! [X0,X1] : double_divide(multiply(inverse(X0),X1),inverse(X1)) = X0,
inference(paramodulation,[status(thm)],[f11,f10]) ).
fof(f35,plain,
! [X0,X1,X2] : double_divide(multiply(inverse(X0),double_divide(X1,X2)),multiply(X2,X1)) = X0,
inference(paramodulation,[status(thm)],[f5,f24]) ).
fof(f40,plain,
! [X0,X1] : multiply(inverse(X0),multiply(inverse(X1),X0)) = inverse(X1),
inference(paramodulation,[status(thm)],[f24,f5]) ).
fof(f45,plain,
! [X0,X1] : double_divide(inverse(X0),inverse(multiply(inverse(X0),X1))) = X1,
inference(paramodulation,[status(thm)],[f40,f24]) ).
fof(f49,plain,
! [X0,X1,X2] : double_divide(multiply(X0,X1),inverse(multiply(inverse(double_divide(X1,X0)),X2))) = X2,
inference(paramodulation,[status(thm)],[f5,f45]) ).
fof(f50,plain,
! [X0,X1,X2] : double_divide(multiply(X0,X1),inverse(multiply(multiply(X0,X1),X2))) = X2,
inference(forward_demodulation,[status(thm)],[f5,f49]) ).
fof(f51,plain,
! [X0,X1] : double_divide(inverse(X0),inverse(inverse(X1))) = multiply(inverse(X1),X0),
inference(paramodulation,[status(thm)],[f40,f45]) ).
fof(f118,plain,
! [X0,X1,X2] : double_divide(inverse(X0),inverse(multiply(X1,X2))) = multiply(inverse(double_divide(X2,X1)),X0),
inference(paramodulation,[status(thm)],[f5,f51]) ).
fof(f119,plain,
! [X0,X1,X2] : double_divide(inverse(X0),inverse(multiply(X1,X2))) = multiply(multiply(X1,X2),X0),
inference(forward_demodulation,[status(thm)],[f5,f118]) ).
fof(f128,plain,
! [X0,X1] : multiply(multiply(inverse(X0),X1),X0) = X1,
inference(backward_demodulation,[status(thm)],[f119,f45]) ).
fof(f138,plain,
! [X0,X1,X2] : double_divide(multiply(multiply(inverse(X0),X1),X0),inverse(multiply(X1,X2))) = X2,
inference(paramodulation,[status(thm)],[f128,f50]) ).
fof(f139,plain,
! [X0,X1] : double_divide(X0,inverse(multiply(X0,X1))) = X1,
inference(forward_demodulation,[status(thm)],[f128,f138]) ).
fof(f154,plain,
! [X0,X1] : multiply(inverse(multiply(X0,X1)),X0) = inverse(X1),
inference(paramodulation,[status(thm)],[f139,f5]) ).
fof(f164,plain,
! [X0,X1,X2] : double_divide(X0,multiply(X1,inverse(X2))) = multiply(double_divide(X0,X1),X2),
inference(paramodulation,[status(thm)],[f154,f8]) ).
fof(f165,plain,
! [X0,X1] : multiply(inverse(X0),multiply(X1,X0)) = X1,
inference(paramodulation,[status(thm)],[f154,f128]) ).
fof(f167,plain,
! [X0,X1] : double_divide(inverse(X0),inverse(X1)) = multiply(X1,X0),
inference(paramodulation,[status(thm)],[f154,f24]) ).
fof(f188,plain,
! [X0,X1,X2] : multiply(multiply(X0,X1),X2) = multiply(inverse(double_divide(X2,X0)),X1),
inference(paramodulation,[status(thm)],[f128,f13]) ).
fof(f189,plain,
! [X0,X1,X2] : multiply(multiply(X0,X1),X2) = multiply(multiply(X0,X2),X1),
inference(forward_demodulation,[status(thm)],[f5,f188]) ).
fof(f305,plain,
! [X0,X1,X2] : double_divide(multiply(X0,X1),inverse(X2)) = multiply(X2,double_divide(X1,X0)),
inference(paramodulation,[status(thm)],[f5,f167]) ).
fof(f314,plain,
! [X0,X1] : multiply(X0,double_divide(X0,inverse(X1))) = X1,
inference(backward_demodulation,[status(thm)],[f305,f24]) ).
fof(f325,plain,
! [X0,X1] : double_divide(X0,multiply(inverse(X0),inverse(X1))) = X1,
inference(paramodulation,[status(thm)],[f314,f35]) ).
fof(f326,plain,
! [X0,X1] : multiply(double_divide(X0,inverse(X0)),X1) = X1,
inference(forward_demodulation,[status(thm)],[f164,f325]) ).
fof(f333,plain,
! [X0,X1] : multiply(multiply(inverse(X0),X0),X1) = X1,
inference(paramodulation,[status(thm)],[f167,f326]) ).
fof(f337,plain,
! [X0,X1] : multiply(inverse(X0),X0) = double_divide(X1,inverse(X1)),
inference(paramodulation,[status(thm)],[f326,f165]) ).
fof(f341,plain,
! [X0,X1] : X0 = double_divide(multiply(inverse(X1),X1),inverse(X0)),
inference(paramodulation,[status(thm)],[f314,f333]) ).
fof(f342,plain,
! [X0,X1] : X0 = multiply(X0,double_divide(X1,inverse(X1))),
inference(forward_demodulation,[status(thm)],[f305,f341]) ).
fof(f444,plain,
! [X0,X1,X2] : double_divide(multiply(inverse(X0),double_divide(X1,inverse(X1))),double_divide(X2,inverse(X2))) = X0,
inference(paramodulation,[status(thm)],[f337,f35]) ).
fof(f445,plain,
! [X0,X1] : double_divide(inverse(X0),double_divide(X1,inverse(X1))) = X0,
inference(forward_demodulation,[status(thm)],[f342,f444]) ).
fof(f456,plain,
! [X0,X1,X2] : double_divide(multiply(X0,X1),double_divide(X2,inverse(X2))) = double_divide(X1,X0),
inference(paramodulation,[status(thm)],[f5,f445]) ).
fof(f465,plain,
! [X0,X1,X2] : double_divide(multiply(inverse(X0),X1),multiply(double_divide(X2,inverse(X2)),inverse(X1))) = X0,
inference(paramodulation,[status(thm)],[f445,f35]) ).
fof(f466,plain,
! [X0,X1,X2] : multiply(double_divide(multiply(inverse(X0),X1),double_divide(X2,inverse(X2))),X1) = X0,
inference(forward_demodulation,[status(thm)],[f164,f465]) ).
fof(f467,plain,
! [X0,X1] : multiply(double_divide(X0,inverse(X1)),X0) = X1,
inference(forward_demodulation,[status(thm)],[f456,f466]) ).
fof(f473,plain,
! [X0,X1] : multiply(X0,X1) = multiply(X1,X0),
inference(paramodulation,[status(thm)],[f139,f467]) ).
fof(f745,plain,
multiply(c3,multiply(a3,b3)) != multiply(a3,multiply(b3,c3)),
inference(paramodulation,[status(thm)],[f473,f6]) ).
fof(f1491,plain,
! [X0,X1,X2] : multiply(X0,multiply(X1,X2)) = multiply(multiply(X1,X0),X2),
inference(paramodulation,[status(thm)],[f473,f189]) ).
fof(f1530,plain,
! [X0,X1,X2] : multiply(multiply(X0,X1),X2) = multiply(multiply(X1,X2),X0),
inference(paramodulation,[status(thm)],[f473,f189]) ).
fof(f1531,plain,
! [X0,X1,X2] : multiply(X0,multiply(X1,X2)) = multiply(multiply(X0,X2),X1),
inference(forward_demodulation,[status(thm)],[f1491,f1530]) ).
fof(f1532,plain,
! [X0,X1,X2] : multiply(X0,multiply(X1,X2)) = multiply(X2,multiply(X0,X1)),
inference(forward_demodulation,[status(thm)],[f1491,f1531]) ).
fof(f1533,plain,
$false,
inference(backward_subsumption_resolution,[status(thm)],[f745,f1532]) ).
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.05/0.10 % Problem : GRP587-1 : TPTP v8.1.2. Released v2.6.0.
% 0.05/0.11 % Command : drodi -learnfrom(drodi.lrn) -timeout(%d) %s
% 0.09/0.31 % Computer : n026.cluster.edu
% 0.09/0.31 % Model : x86_64 x86_64
% 0.09/0.31 % CPU : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 0.09/0.31 % Memory : 8042.1875MB
% 0.09/0.31 % OS : Linux 3.10.0-693.el7.x86_64
% 0.09/0.31 % CPULimit : 300
% 0.09/0.31 % WCLimit : 300
% 0.09/0.32 % DateTime : Tue May 30 11:49:28 EDT 2023
% 0.09/0.32 % CPUTime :
% 0.09/0.32 % Drodi V3.5.1
% 1.22/0.57 % Refutation found
% 1.22/0.57 % SZS status Unsatisfiable for theBenchmark: Theory is unsatisfiable
% 1.22/0.57 % SZS output start CNFRefutation for theBenchmark
% See solution above
% 1.22/0.59 % Elapsed time: 0.265005 seconds
% 1.22/0.59 % CPU time: 1.390682 seconds
% 1.22/0.59 % Memory used: 24.022 MB
%------------------------------------------------------------------------------