TSTP Solution File: MGT017+1 by PyRes---1.3
View Problem
- Process Solution
%------------------------------------------------------------------------------
% File : PyRes---1.3
% Problem : MGT017+1 : TPTP v8.1.0. Released v2.0.0.
% Transfm : none
% Format : tptp:raw
% Command : pyres-fof.py -tifbsVp -nlargest -HPickGiven5 %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 : Sun Jul 17 22:23:18 EDT 2022
% Result : Theorem 0.41s 0.63s
% Output : Refutation 0.41s
% Verified :
% SZS Type : -
% Comments :
%------------------------------------------------------------------------------
%----WARNING: Could not form TPTP format derivation
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.03/0.12 % Problem : MGT017+1 : TPTP v8.1.0. Released v2.0.0.
% 0.03/0.13 % Command : pyres-fof.py -tifbsVp -nlargest -HPickGiven5 %s
% 0.14/0.34 % Computer : n021.cluster.edu
% 0.14/0.34 % Model : x86_64 x86_64
% 0.14/0.34 % CPU : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 0.14/0.34 % Memory : 8042.1875MB
% 0.14/0.34 % OS : Linux 3.10.0-693.el7.x86_64
% 0.14/0.34 % CPULimit : 300
% 0.14/0.34 % WCLimit : 600
% 0.14/0.34 % DateTime : Thu Jun 9 08:12:23 EDT 2022
% 0.14/0.34 % CPUTime :
% 0.41/0.63 # Version: 1.3
% 0.41/0.63 # SZS status Theorem
% 0.41/0.63 # SZS output start CNFRefutation
% 0.41/0.63 fof(t17_FOL,conjecture,(![X]:(![Y]:(![Rt]:(![C]:(![S1]:(![S2]:(![Ta]:(![Tb]:(![Tc]:((((((((((((organization(X,Ta)&organization(Y,Ta))&organization(Y,Tc))&class(X,C,Ta))&class(Y,C,Ta))&reorganization(X,Ta,Tb))&reorganization(Y,Ta,Tc))&reorganization_type(X,Rt,Ta))&reorganization_type(Y,Rt,Ta))&size(X,S1,Ta))&size(Y,S2,Ta))&greater(S2,S1))=>greater(Tc,Tb))))))))))),input).
% 0.41/0.63 fof(c0,negated_conjecture,(~(![X]:(![Y]:(![Rt]:(![C]:(![S1]:(![S2]:(![Ta]:(![Tb]:(![Tc]:((((((((((((organization(X,Ta)&organization(Y,Ta))&organization(Y,Tc))&class(X,C,Ta))&class(Y,C,Ta))&reorganization(X,Ta,Tb))&reorganization(Y,Ta,Tc))&reorganization_type(X,Rt,Ta))&reorganization_type(Y,Rt,Ta))&size(X,S1,Ta))&size(Y,S2,Ta))&greater(S2,S1))=>greater(Tc,Tb)))))))))))),inference(assume_negation,status(cth),[t17_FOL])).
% 0.41/0.63 fof(c1,negated_conjecture,(?[X]:(?[Y]:(?[Rt]:(?[C]:(?[S1]:(?[S2]:(?[Ta]:(?[Tb]:(?[Tc]:((((((((((((organization(X,Ta)&organization(Y,Ta))&organization(Y,Tc))&class(X,C,Ta))&class(Y,C,Ta))&reorganization(X,Ta,Tb))&reorganization(Y,Ta,Tc))&reorganization_type(X,Rt,Ta))&reorganization_type(Y,Rt,Ta))&size(X,S1,Ta))&size(Y,S2,Ta))&greater(S2,S1))&~greater(Tc,Tb))))))))))),inference(fof_nnf,status(thm),[c0])).
% 0.41/0.63 fof(c2,negated_conjecture,(?[X2]:(?[X3]:(?[X4]:(?[X5]:(?[X6]:(?[X7]:(?[X8]:(?[X9]:(?[X10]:((((((((((((organization(X2,X8)&organization(X3,X8))&organization(X3,X10))&class(X2,X5,X8))&class(X3,X5,X8))&reorganization(X2,X8,X9))&reorganization(X3,X8,X10))&reorganization_type(X2,X4,X8))&reorganization_type(X3,X4,X8))&size(X2,X6,X8))&size(X3,X7,X8))&greater(X7,X6))&~greater(X10,X9))))))))))),inference(variable_rename,status(thm),[c1])).
% 0.41/0.63 fof(c3,negated_conjecture,((((((((((((organization(skolem0001,skolem0007)&organization(skolem0002,skolem0007))&organization(skolem0002,skolem0009))&class(skolem0001,skolem0004,skolem0007))&class(skolem0002,skolem0004,skolem0007))&reorganization(skolem0001,skolem0007,skolem0008))&reorganization(skolem0002,skolem0007,skolem0009))&reorganization_type(skolem0001,skolem0003,skolem0007))&reorganization_type(skolem0002,skolem0003,skolem0007))&size(skolem0001,skolem0005,skolem0007))&size(skolem0002,skolem0006,skolem0007))&greater(skolem0006,skolem0005))&~greater(skolem0009,skolem0008)),inference(skolemize,status(esa),[c2])).
% 0.41/0.63 cnf(c16,negated_conjecture,~greater(skolem0009,skolem0008),inference(split_conjunct,status(thm),[c3])).
% 0.41/0.63 cnf(c4,negated_conjecture,organization(skolem0001,skolem0007),inference(split_conjunct,status(thm),[c3])).
% 0.41/0.63 cnf(c5,negated_conjecture,organization(skolem0002,skolem0007),inference(split_conjunct,status(thm),[c3])).
% 0.41/0.63 cnf(c6,negated_conjecture,organization(skolem0002,skolem0009),inference(split_conjunct,status(thm),[c3])).
% 0.41/0.63 cnf(c7,negated_conjecture,class(skolem0001,skolem0004,skolem0007),inference(split_conjunct,status(thm),[c3])).
% 0.41/0.63 cnf(c8,negated_conjecture,class(skolem0002,skolem0004,skolem0007),inference(split_conjunct,status(thm),[c3])).
% 0.41/0.63 cnf(c9,negated_conjecture,reorganization(skolem0001,skolem0007,skolem0008),inference(split_conjunct,status(thm),[c3])).
% 0.41/0.63 cnf(c10,negated_conjecture,reorganization(skolem0002,skolem0007,skolem0009),inference(split_conjunct,status(thm),[c3])).
% 0.41/0.63 cnf(c11,negated_conjecture,reorganization_type(skolem0001,skolem0003,skolem0007),inference(split_conjunct,status(thm),[c3])).
% 0.41/0.63 cnf(c12,negated_conjecture,reorganization_type(skolem0002,skolem0003,skolem0007),inference(split_conjunct,status(thm),[c3])).
% 0.41/0.63 fof(mp5,axiom,(![X]:(![T]:(organization(X,T)=>(?[I]:inertia(X,I,T))))),input).
% 0.41/0.63 fof(c25,axiom,(![X]:(![T]:(~organization(X,T)|(?[I]:inertia(X,I,T))))),inference(fof_nnf,status(thm),[mp5])).
% 0.41/0.63 fof(c26,axiom,(![X29]:(![X30]:(~organization(X29,X30)|(?[X31]:inertia(X29,X31,X30))))),inference(variable_rename,status(thm),[c25])).
% 0.41/0.63 fof(c27,axiom,(![X29]:(![X30]:(~organization(X29,X30)|inertia(X29,skolem0010(X29,X30),X30)))),inference(skolemize,status(esa),[c26])).
% 0.41/0.63 cnf(c28,axiom,~organization(X33,X32)|inertia(X33,skolem0010(X33,X32),X32),inference(split_conjunct,status(thm),[c27])).
% 0.41/0.63 cnf(c29,plain,inertia(skolem0001,skolem0010(skolem0001,skolem0007),skolem0007),inference(resolution,status(thm),[c28, c4])).
% 0.41/0.63 cnf(c30,plain,inertia(skolem0002,skolem0010(skolem0002,skolem0007),skolem0007),inference(resolution,status(thm),[c28, c5])).
% 0.41/0.63 fof(a13_FOL,plain,(![X]:(![Y]:(![Rt]:(![C]:(![I1]:(![I2]:(![Ta]:(![Tb]:(![Tc]:((((((((((((organization(X,Ta)&organization(Y,Ta))&organization(Y,Tc))&class(X,C,Ta))&class(Y,C,Ta))&reorganization(X,Ta,Tb))&reorganization(Y,Ta,Tc))&reorganization_type(X,Rt,Ta))&reorganization_type(Y,Rt,Ta))&inertia(X,I1,Ta))&inertia(Y,I2,Ta))&greater(I2,I1))=>greater(Tc,Tb))))))))))),input).
% 0.41/0.63 fof(c17,plain,(![X]:(![Y]:(![Rt]:(![C]:(![I1]:(![I2]:(![Ta]:(![Tb]:(![Tc]:((((((((((((~organization(X,Ta)|~organization(Y,Ta))|~organization(Y,Tc))|~class(X,C,Ta))|~class(Y,C,Ta))|~reorganization(X,Ta,Tb))|~reorganization(Y,Ta,Tc))|~reorganization_type(X,Rt,Ta))|~reorganization_type(Y,Rt,Ta))|~inertia(X,I1,Ta))|~inertia(Y,I2,Ta))|~greater(I2,I1))|greater(Tc,Tb))))))))))),inference(fof_nnf,status(thm),[a13_FOL])).
% 0.41/0.63 fof(c18,plain,(![X11]:(![X12]:(![X13]:(![X14]:(![X15]:(![X16]:(![X17]:(![X18]:(![X19]:((((((((((((~organization(X11,X17)|~organization(X12,X17))|~organization(X12,X19))|~class(X11,X14,X17))|~class(X12,X14,X17))|~reorganization(X11,X17,X18))|~reorganization(X12,X17,X19))|~reorganization_type(X11,X13,X17))|~reorganization_type(X12,X13,X17))|~inertia(X11,X15,X17))|~inertia(X12,X16,X17))|~greater(X16,X15))|greater(X19,X18))))))))))),inference(variable_rename,status(thm),[c17])).
% 0.41/0.63 cnf(c19,plain,~organization(X39,X42)|~organization(X37,X42)|~organization(X37,X41)|~class(X39,X35,X42)|~class(X37,X35,X42)|~reorganization(X39,X42,X38)|~reorganization(X37,X42,X41)|~reorganization_type(X39,X40,X42)|~reorganization_type(X37,X40,X42)|~inertia(X39,X34,X42)|~inertia(X37,X36,X42)|~greater(X36,X34)|greater(X41,X38),inference(split_conjunct,status(thm),[c18])).
% 0.41/0.63 cnf(c33,plain,~organization(X88,skolem0007)|~organization(skolem0002,skolem0007)|~organization(skolem0002,X90)|~class(X88,X93,skolem0007)|~class(skolem0002,X93,skolem0007)|~reorganization(X88,skolem0007,X91)|~reorganization(skolem0002,skolem0007,X90)|~reorganization_type(X88,X92,skolem0007)|~reorganization_type(skolem0002,X92,skolem0007)|~inertia(X88,X89,skolem0007)|~greater(skolem0010(skolem0002,skolem0007),X89)|greater(X90,X91),inference(resolution,status(thm),[c19, c30])).
% 0.41/0.63 cnf(c15,negated_conjecture,greater(skolem0006,skolem0005),inference(split_conjunct,status(thm),[c3])).
% 0.41/0.63 cnf(c13,negated_conjecture,size(skolem0001,skolem0005,skolem0007),inference(split_conjunct,status(thm),[c3])).
% 0.41/0.63 cnf(c14,negated_conjecture,size(skolem0002,skolem0006,skolem0007),inference(split_conjunct,status(thm),[c3])).
% 0.41/0.63 fof(a5_FOL,plain,(![X]:(![Y]:(![C]:(![S1]:(![S2]:(![I1]:(![I2]:(![T1]:(![T2]:(((((((((organization(X,T1)&organization(Y,T2))&class(X,C,T1))&class(Y,C,T2))&size(X,S1,T1))&size(Y,S2,T2))&inertia(X,I1,T1))&inertia(Y,I2,T2))&greater(S2,S1))=>greater(I2,I1))))))))))),input).
% 0.41/0.63 fof(c20,plain,(![X]:(![Y]:(![C]:(![S1]:(![S2]:(![I1]:(![I2]:(![T1]:(![T2]:(((((((((~organization(X,T1)|~organization(Y,T2))|~class(X,C,T1))|~class(Y,C,T2))|~size(X,S1,T1))|~size(Y,S2,T2))|~inertia(X,I1,T1))|~inertia(Y,I2,T2))|~greater(S2,S1))|greater(I2,I1))))))))))),inference(fof_nnf,status(thm),[a5_FOL])).
% 0.41/0.63 fof(c21,plain,(![X]:(![Y]:(![C]:(![S1]:(![S2]:(![I1]:(![I2]:(((![T1]:(![T2]:(((((((~organization(X,T1)|~organization(Y,T2))|~class(X,C,T1))|~class(Y,C,T2))|~size(X,S1,T1))|~size(Y,S2,T2))|~inertia(X,I1,T1))|~inertia(Y,I2,T2))))|~greater(S2,S1))|greater(I2,I1))))))))),inference(shift_quantors,status(thm),[c20])).
% 0.41/0.63 fof(c23,plain,(![X20]:(![X21]:(![X22]:(![X23]:(![X24]:(![X25]:(![X26]:(![X27]:(![X28]:(((((((((~organization(X20,X27)|~organization(X21,X28))|~class(X20,X22,X27))|~class(X21,X22,X28))|~size(X20,X23,X27))|~size(X21,X24,X28))|~inertia(X20,X25,X27))|~inertia(X21,X26,X28))|~greater(X24,X23))|greater(X26,X25))))))))))),inference(shift_quantors,status(thm),[fof(c22,plain,(![X20]:(![X21]:(![X22]:(![X23]:(![X24]:(![X25]:(![X26]:(((![X27]:(![X28]:(((((((~organization(X20,X27)|~organization(X21,X28))|~class(X20,X22,X27))|~class(X21,X22,X28))|~size(X20,X23,X27))|~size(X21,X24,X28))|~inertia(X20,X25,X27))|~inertia(X21,X26,X28))))|~greater(X24,X23))|greater(X26,X25))))))))),inference(variable_rename,status(thm),[c21])).])).
% 0.41/0.63 cnf(c24,plain,~organization(X43,X47)|~organization(X45,X44)|~class(X43,X50,X47)|~class(X45,X50,X44)|~size(X43,X46,X47)|~size(X45,X49,X44)|~inertia(X43,X51,X47)|~inertia(X45,X48,X44)|~greater(X49,X46)|greater(X48,X51),inference(split_conjunct,status(thm),[c23])).
% 0.41/0.63 cnf(c36,plain,~organization(X66,X61)|~organization(skolem0002,skolem0007)|~class(X66,X62,X61)|~class(skolem0002,X62,skolem0007)|~size(X66,X65,X61)|~size(skolem0002,X64,skolem0007)|~inertia(X66,X63,X61)|~greater(X64,X65)|greater(skolem0010(skolem0002,skolem0007),X63),inference(resolution,status(thm),[c24, c30])).
% 0.41/0.63 cnf(c43,plain,~organization(skolem0001,skolem0007)|~organization(skolem0002,skolem0007)|~class(skolem0001,X114,skolem0007)|~class(skolem0002,X114,skolem0007)|~size(skolem0001,X115,skolem0007)|~size(skolem0002,X116,skolem0007)|~greater(X116,X115)|greater(skolem0010(skolem0002,skolem0007),skolem0010(skolem0001,skolem0007)),inference(resolution,status(thm),[c36, c29])).
% 0.41/0.63 cnf(c54,plain,~organization(skolem0001,skolem0007)|~organization(skolem0002,skolem0007)|~class(skolem0001,X117,skolem0007)|~class(skolem0002,X117,skolem0007)|~size(skolem0001,X118,skolem0007)|~greater(skolem0006,X118)|greater(skolem0010(skolem0002,skolem0007),skolem0010(skolem0001,skolem0007)),inference(resolution,status(thm),[c43, c14])).
% 0.41/0.63 cnf(c55,plain,~organization(skolem0001,skolem0007)|~organization(skolem0002,skolem0007)|~class(skolem0001,X119,skolem0007)|~class(skolem0002,X119,skolem0007)|~greater(skolem0006,skolem0005)|greater(skolem0010(skolem0002,skolem0007),skolem0010(skolem0001,skolem0007)),inference(resolution,status(thm),[c54, c13])).
% 0.41/0.63 cnf(c56,plain,~organization(skolem0001,skolem0007)|~organization(skolem0002,skolem0007)|~class(skolem0001,skolem0004,skolem0007)|~greater(skolem0006,skolem0005)|greater(skolem0010(skolem0002,skolem0007),skolem0010(skolem0001,skolem0007)),inference(resolution,status(thm),[c55, c8])).
% 0.41/0.63 cnf(c58,plain,~organization(skolem0001,skolem0007)|~organization(skolem0002,skolem0007)|~greater(skolem0006,skolem0005)|greater(skolem0010(skolem0002,skolem0007),skolem0010(skolem0001,skolem0007)),inference(resolution,status(thm),[c56, c7])).
% 0.41/0.63 cnf(c59,plain,~organization(skolem0001,skolem0007)|~organization(skolem0002,skolem0007)|greater(skolem0010(skolem0002,skolem0007),skolem0010(skolem0001,skolem0007)),inference(resolution,status(thm),[c58, c15])).
% 0.41/0.63 cnf(c60,plain,~organization(skolem0001,skolem0007)|greater(skolem0010(skolem0002,skolem0007),skolem0010(skolem0001,skolem0007)),inference(resolution,status(thm),[c59, c5])).
% 0.41/0.63 cnf(c61,plain,greater(skolem0010(skolem0002,skolem0007),skolem0010(skolem0001,skolem0007)),inference(resolution,status(thm),[c60, c4])).
% 0.41/0.63 cnf(c62,plain,~organization(X131,skolem0007)|~organization(skolem0002,skolem0007)|~organization(skolem0002,X132)|~class(X131,X134,skolem0007)|~class(skolem0002,X134,skolem0007)|~reorganization(X131,skolem0007,X133)|~reorganization(skolem0002,skolem0007,X132)|~reorganization_type(X131,X135,skolem0007)|~reorganization_type(skolem0002,X135,skolem0007)|~inertia(X131,skolem0010(skolem0001,skolem0007),skolem0007)|greater(X132,X133),inference(resolution,status(thm),[c61, c33])).
% 0.41/0.63 cnf(c67,plain,~organization(skolem0001,skolem0007)|~organization(skolem0002,skolem0007)|~organization(skolem0002,X137)|~class(skolem0001,X138,skolem0007)|~class(skolem0002,X138,skolem0007)|~reorganization(skolem0001,skolem0007,X136)|~reorganization(skolem0002,skolem0007,X137)|~reorganization_type(skolem0001,X139,skolem0007)|~reorganization_type(skolem0002,X139,skolem0007)|greater(X137,X136),inference(resolution,status(thm),[c62, c29])).
% 0.41/0.63 cnf(c68,plain,~organization(skolem0001,skolem0007)|~organization(skolem0002,skolem0007)|~organization(skolem0002,X142)|~class(skolem0001,X140,skolem0007)|~class(skolem0002,X140,skolem0007)|~reorganization(skolem0001,skolem0007,X141)|~reorganization(skolem0002,skolem0007,X142)|~reorganization_type(skolem0001,skolem0003,skolem0007)|greater(X142,X141),inference(resolution,status(thm),[c67, c12])).
% 0.41/0.63 cnf(c69,plain,~organization(skolem0001,skolem0007)|~organization(skolem0002,skolem0007)|~organization(skolem0002,X145)|~class(skolem0001,X144,skolem0007)|~class(skolem0002,X144,skolem0007)|~reorganization(skolem0001,skolem0007,X143)|~reorganization(skolem0002,skolem0007,X145)|greater(X145,X143),inference(resolution,status(thm),[c68, c11])).
% 0.41/0.63 cnf(c70,plain,~organization(skolem0001,skolem0007)|~organization(skolem0002,skolem0007)|~organization(skolem0002,skolem0009)|~class(skolem0001,X147,skolem0007)|~class(skolem0002,X147,skolem0007)|~reorganization(skolem0001,skolem0007,X146)|greater(skolem0009,X146),inference(resolution,status(thm),[c69, c10])).
% 0.41/0.63 cnf(c71,plain,~organization(skolem0001,skolem0007)|~organization(skolem0002,skolem0007)|~organization(skolem0002,skolem0009)|~class(skolem0001,X148,skolem0007)|~class(skolem0002,X148,skolem0007)|greater(skolem0009,skolem0008),inference(resolution,status(thm),[c70, c9])).
% 0.41/0.63 cnf(c72,plain,~organization(skolem0001,skolem0007)|~organization(skolem0002,skolem0007)|~organization(skolem0002,skolem0009)|~class(skolem0001,skolem0004,skolem0007)|greater(skolem0009,skolem0008),inference(resolution,status(thm),[c71, c8])).
% 0.41/0.63 cnf(c73,plain,~organization(skolem0001,skolem0007)|~organization(skolem0002,skolem0007)|~organization(skolem0002,skolem0009)|greater(skolem0009,skolem0008),inference(resolution,status(thm),[c72, c7])).
% 0.41/0.63 cnf(c74,plain,~organization(skolem0001,skolem0007)|~organization(skolem0002,skolem0007)|greater(skolem0009,skolem0008),inference(resolution,status(thm),[c73, c6])).
% 0.41/0.63 cnf(c75,plain,~organization(skolem0001,skolem0007)|greater(skolem0009,skolem0008),inference(resolution,status(thm),[c74, c5])).
% 0.41/0.63 cnf(c76,plain,greater(skolem0009,skolem0008),inference(resolution,status(thm),[c75, c4])).
% 0.41/0.63 cnf(c77,plain,$false,inference(resolution,status(thm),[c76, c16])).
% 0.41/0.63 # SZS output end CNFRefutation
% 0.41/0.63
% 0.41/0.63 # Initial clauses : 16
% 0.41/0.63 # Processed clauses : 64
% 0.41/0.63 # Factors computed : 0
% 0.41/0.63 # Resolvents computed: 49
% 0.41/0.63 # Tautologies deleted: 0
% 0.41/0.63 # Forward subsumed : 0
% 0.41/0.63 # Backward subsumed : 18
% 0.41/0.63 # -------- CPU Time ---------
% 0.41/0.63 # User time : 0.270 s
% 0.41/0.63 # System time : 0.014 s
% 0.41/0.63 # Total time : 0.284 s
%------------------------------------------------------------------------------