TSTP Solution File: LCL913+1 by Crossbow---0.1
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%------------------------------------------------------------------------------
% File : Crossbow---0.1
% Problem : LCL913+1 : TPTP v8.1.0. Released v6.4.0.
% Transfm : none
% Format : tptp:raw
% Command : do_Crossbow---0.1 %s
% Computer : n007.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 08:08:11 EDT 2022
% Result : Satisfiable 5.32s 5.52s
% Output : FiniteModel 5.32s
% Verified :
% SZS Type : -
% Comments :
%------------------------------------------------------------------------------
%----WARNING: Could not form TPTP format derivation
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.00/0.12 % Problem : LCL913+1 : TPTP v8.1.0. Released v6.4.0.
% 0.00/0.13 % Command : do_Crossbow---0.1 %s
% 0.13/0.33 % Computer : n007.cluster.edu
% 0.13/0.33 % Model : x86_64 x86_64
% 0.13/0.33 % CPU : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 0.13/0.33 % Memory : 8042.1875MB
% 0.13/0.33 % OS : Linux 3.10.0-693.el7.x86_64
% 0.13/0.33 % CPULimit : 300
% 0.13/0.33 % WCLimit : 600
% 0.13/0.33 % DateTime : Sat Jul 2 16:45:55 EDT 2022
% 0.13/0.33 % CPUTime :
% 0.13/0.33 /export/starexec/sandbox2/solver/bin
% 0.13/0.33 crossbow.opt
% 0.13/0.33 do_Crossbow---0.1
% 0.13/0.33 eprover
% 0.13/0.33 runsolver
% 0.13/0.33 starexec_run_Crossbow---0.1
% 5.32/5.52 % SZS status Satisfiable for theBenchmark.p
% 5.32/5.52 % SZS output start FiniteModel for theBenchmark.p
% 5.32/5.52 % domain size: 1
% 5.32/5.52 fof(interp, fi_domain, ![X] : X = 0).
% 5.32/5.52 fof(interp, fi_predicates, adjunction).
% 5.32/5.52 fof(interp, fi_functors, and(0, 0) = 0).
% 5.32/5.52 fof(interp, fi_predicates, axiom_4).
% 5.32/5.52 fof(interp, fi_predicates, axiom_5).
% 5.32/5.52 fof(interp, fi_predicates, axiom_B).
% 5.32/5.52 fof(interp, fi_predicates, axiom_K).
% 5.32/5.52 fof(interp, fi_predicates, axiom_M).
% 5.32/5.52 fof(interp, fi_predicates, axiom_m1).
% 5.32/5.52 fof(interp, fi_predicates, axiom_m10).
% 5.32/5.52 fof(interp, fi_predicates, axiom_m2).
% 5.32/5.52 fof(interp, fi_predicates, axiom_m3).
% 5.32/5.52 fof(interp, fi_predicates, axiom_m4).
% 5.32/5.52 fof(interp, fi_predicates, axiom_m5).
% 5.32/5.52 fof(interp, fi_predicates, axiom_m6).
% 5.32/5.52 fof(interp, fi_predicates, axiom_m7).
% 5.32/5.52 fof(interp, fi_predicates, axiom_m8).
% 5.32/5.52 fof(interp, fi_predicates, axiom_m9).
% 5.32/5.52 fof(interp, fi_predicates, axiom_s1).
% 5.32/5.52 fof(interp, fi_predicates, axiom_s2).
% 5.32/5.52 fof(interp, fi_predicates, axiom_s3).
% 5.32/5.52 fof(interp, fi_predicates, axiom_s4).
% 5.32/5.52 fof(interp, fi_functors, equiv(0, 0) = 0).
% 5.32/5.52 fof(interp, fi_functors, esk10_0 = 0).
% 5.32/5.52 fof(interp, fi_functors, esk11_0 = 0).
% 5.32/5.52 fof(interp, fi_functors, esk12_0 = 0).
% 5.32/5.52 fof(interp, fi_functors, esk13_0 = 0).
% 5.32/5.52 fof(interp, fi_functors, esk14_0 = 0).
% 5.32/5.52 fof(interp, fi_functors, esk15_0 = 0).
% 5.32/5.52 fof(interp, fi_functors, esk16_0 = 0).
% 5.32/5.52 fof(interp, fi_functors, esk17_0 = 0).
% 5.32/5.52 fof(interp, fi_functors, esk18_0 = 0).
% 5.32/5.52 fof(interp, fi_functors, esk19_0 = 0).
% 5.32/5.52 fof(interp, fi_functors, esk1_0 = 0).
% 5.32/5.52 fof(interp, fi_functors, esk20_0 = 0).
% 5.32/5.52 fof(interp, fi_functors, esk21_0 = 0).
% 5.32/5.52 fof(interp, fi_functors, esk22_0 = 0).
% 5.32/5.52 fof(interp, fi_functors, esk23_0 = 0).
% 5.32/5.52 fof(interp, fi_functors, esk24_0 = 0).
% 5.32/5.52 fof(interp, fi_functors, esk25_0 = 0).
% 5.32/5.52 fof(interp, fi_functors, esk26_0 = 0).
% 5.32/5.52 fof(interp, fi_functors, esk27_0 = 0).
% 5.32/5.52 fof(interp, fi_functors, esk28_0 = 0).
% 5.32/5.52 fof(interp, fi_functors, esk29_0 = 0).
% 5.32/5.52 fof(interp, fi_functors, esk2_0 = 0).
% 5.32/5.52 fof(interp, fi_functors, esk30_0 = 0).
% 5.32/5.52 fof(interp, fi_functors, esk31_0 = 0).
% 5.32/5.52 fof(interp, fi_functors, esk32_0 = 0).
% 5.32/5.52 fof(interp, fi_functors, esk33_0 = 0).
% 5.32/5.52 fof(interp, fi_functors, esk34_0 = 0).
% 5.32/5.52 fof(interp, fi_functors, esk35_0 = 0).
% 5.32/5.52 fof(interp, fi_functors, esk36_0 = 0).
% 5.32/5.52 fof(interp, fi_functors, esk37_0 = 0).
% 5.32/5.52 fof(interp, fi_functors, esk38_0 = 0).
% 5.32/5.52 fof(interp, fi_functors, esk39_0 = 0).
% 5.32/5.52 fof(interp, fi_functors, esk3_0 = 0).
% 5.32/5.52 fof(interp, fi_functors, esk4_0 = 0).
% 5.32/5.52 fof(interp, fi_functors, esk5_0 = 0).
% 5.32/5.52 fof(interp, fi_functors, esk6_0 = 0).
% 5.32/5.52 fof(interp, fi_functors, esk7_0 = 0).
% 5.32/5.52 fof(interp, fi_functors, esk8_0 = 0).
% 5.32/5.52 fof(interp, fi_functors, esk9_0 = 0).
% 5.32/5.52 fof(interp, fi_functors, implies(0, 0) = 0).
% 5.32/5.52 fof(interp, fi_predicates, is_a_theorem(0)).
% 5.32/5.52 fof(interp, fi_predicates, modus_ponens_strict_implies).
% 5.32/5.52 fof(interp, fi_functors, necessarily(0) = 0).
% 5.32/5.52 fof(interp, fi_predicates, necessitation).
% 5.32/5.52 fof(interp, fi_functors, not(0) = 0).
% 5.32/5.52 fof(interp, fi_predicates, ~op_and).
% 5.32/5.52 fof(interp, fi_predicates, op_equiv).
% 5.32/5.52 fof(interp, fi_predicates, op_implies).
% 5.32/5.52 fof(interp, fi_predicates, ~op_implies_and).
% 5.32/5.52 fof(interp, fi_predicates, ~op_implies_or).
% 5.32/5.52 fof(interp, fi_predicates, ~op_necessarily).
% 5.32/5.52 fof(interp, fi_predicates, op_or).
% 5.32/5.52 fof(interp, fi_predicates, op_possibly).
% 5.32/5.52 fof(interp, fi_predicates, op_strict_equiv).
% 5.32/5.52 fof(interp, fi_predicates, op_strict_implies).
% 5.32/5.52 fof(interp, fi_functors, or(0, 0) = 0).
% 5.32/5.52 fof(interp, fi_functors, possibly(0) = 0).
% 5.32/5.52 fof(interp, fi_functors, strict_equiv(0, 0) = 0).
% 5.32/5.52 fof(interp, fi_functors, strict_implies(0, 0) = 0).
% 5.32/5.52 fof(interp, fi_predicates, substitution_strict_equiv).
% 5.32/5.52 % SZS output end FiniteModel for theBenchmark.p
% 5.32/5.52 % 12 lemma(s) from E
% 5.32/5.52 % cnf(cl, axiom, A = and(A, A)).
% 5.32/5.52 % cnf(cl, axiom, is_a_theorem(strict_implies(A, A))).
% 5.32/5.52 % cnf(cl, axiom, implies(A, A) = equiv(A, A)).
% 5.32/5.52 % cnf(cl, axiom, strict_implies(A, A) = strict_equiv(A, A)).
% 5.32/5.52 % cnf(cl, axiom, not(not(A)) = or(A, A)).
% 5.32/5.52 % cnf(cl, axiom, not(necessarily(not(A))) = possibly(A)).
% 5.32/5.52 % cnf(cl, axiom, is_a_theorem(strict_implies(and(A, B), A))).
% 5.32/5.52 % cnf(cl, axiom, necessarily(implies(A, B)) = strict_implies(A, B)).
% 5.32/5.52 % cnf(cl, axiom, is_a_theorem(strict_implies(and(A, B), and(A, B)))).
% 5.32/5.52 % cnf(cl, axiom, is_a_theorem(strict_implies(strict_equiv(A, B), strict_equiv(A, B)))).
% 5.32/5.52 % cnf(cl, axiom, is_a_theorem(strict_implies(equiv(A, B), equiv(A, B)))).
% 5.32/5.52 % cnf(cl, axiom, is_a_theorem(strict_implies(and(A, B), B))).
% 5.32/5.52 % 85 pred(s)
% 5.32/5.52 % 125 func(s)
% 5.32/5.52 % 1 sort(s)
% 5.32/5.52 % 215 clause(s)
% 5.32/5.52 % Instantiating 1 (5160 ms)
% 5.32/5.52 % Solving (5160 ms)
% 5.32/5.52 %
% 5.32/5.52 % 1 model found (5161 ms)
%------------------------------------------------------------------------------