TSTP Solution File: AGT010+2 by SATCoP---0.1
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- Process Solution
%------------------------------------------------------------------------------
% File : SATCoP---0.1
% Problem : AGT010+2 : TPTP v8.1.0. Bugfixed v3.1.0.
% Transfm : none
% Format : tptp:raw
% Command : satcop --statistics %s
% Computer : n018.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 : Thu Jul 14 12:03:46 EDT 2022
% Result : Theorem 6.13s 1.17s
% Output : Proof 6.13s
% Verified :
% SZS Type : ERROR: Analysing output (MakeTreeStats fails)
% Comments :
%------------------------------------------------------------------------------
cnf(g0,plain,
accept_population(countryamedicalorganization,native,n85),
inference(ground_cnf,[],[file('/export/starexec/sandbox2/benchmark/theBenchmark.p',query_10)]) ).
cnf(g1,plain,
( ~ accept_population(countryamedicalorganization,atheist,n12)
| ~ accept_population(countryamedicalorganization,christian,n3)
| ~ accept_population(countryamedicalorganization,muslim,n0)
| ~ accept_population(countryamedicalorganization,native,n85)
| ~ accept_population(countryamedicalorganization,other,n0)
| accept_city(countryamedicalorganization,coastvillage) ),
inference(ground_cnf,[],[file('Axioms/AGT001+0.ax',a2_7)]) ).
cnf(g2,plain,
accept_population(countryamedicalorganization,muslim,n1),
inference(ground_cnf,[],[file('Axioms/AGT001+2.ax',deduced_222)]) ).
cnf(g3,plain,
accept_population(countryamedicalorganization,other,n0),
inference(ground_cnf,[],[file('Axioms/AGT001+2.ax',deduced_220)]) ).
cnf(g4,plain,
rdn_translate(n0,rdn_pos(rdnn(n0))),
inference(ground_cnf,[],[file('Axioms/NUM005+0.ax',rdn0)]) ).
cnf(g5,plain,
( ~ less(n3,n16)
| ~ accept_population(countryamedicalorganization,christian,n16)
| accept_population(countryamedicalorganization,christian,n3) ),
inference(ground_cnf,[],[file('Axioms/AGT001+0.ax',a1_3)]) ).
cnf(g6,plain,
accept_population(countryamedicalorganization,christian,n20),
inference(ground_cnf,[],[file('Axioms/AGT001+2.ax',deduced_211)]) ).
cnf(g7,plain,
accept_population(countryamedicalorganization,atheist,n30),
inference(ground_cnf,[],[file('Axioms/AGT001+2.ax',deduced_18)]) ).
cnf(g8,plain,
( ~ less(n0,n1)
| ~ accept_population(countryamedicalorganization,muslim,n1)
| accept_population(countryamedicalorganization,muslim,n0) ),
inference(ground_cnf,[],[file('Axioms/AGT001+0.ax',a1_3)]) ).
cnf(g9,plain,
( ~ less(n12,n30)
| ~ accept_population(countryamedicalorganization,atheist,n30)
| accept_population(countryamedicalorganization,atheist,n12) ),
inference(ground_cnf,[],[file('Axioms/AGT001+0.ax',a1_3)]) ).
cnf(g10,plain,
~ accept_city(countryamedicalorganization,coastvillage),
inference(ground_cnf,[],[file('Axioms/AGT001+2.ax',deduced_13)]) ).
cnf(g11,plain,
rdn_translate(n16,rdn_pos(rdn(rdnn(n6),rdnn(n1)))),
inference(ground_cnf,[],[file('Axioms/NUM005+0.ax',rdn16)]) ).
cnf(g12,plain,
rdn_translate(n12,rdn_pos(rdn(rdnn(n2),rdnn(n1)))),
inference(ground_cnf,[],[file('Axioms/NUM005+0.ax',rdn12)]) ).
cnf(g13,plain,
rdn_positive_less(rdnn(n0),rdnn(n1)),
inference(ground_cnf,[],[file('Axioms/NUM005+1.ax',rdn_positive_less01)]) ).
cnf(g14,plain,
( ~ rdn_translate(n12,rdn_pos(rdn(rdnn(n2),rdnn(n1))))
| ~ rdn_translate(n30,rdn_pos(rdn(rdnn(n0),rdnn(n3))))
| ~ rdn_positive_less(rdn(rdnn(n2),rdnn(n1)),rdn(rdnn(n0),rdnn(n3)))
| less(n12,n30) ),
inference(ground_cnf,[],[file('Axioms/NUM005+1.ax',less_entry_point_pos_pos)]) ).
cnf(g15,plain,
rdn_translate(n30,rdn_pos(rdn(rdnn(n0),rdnn(n3)))),
inference(ground_cnf,[],[file('Axioms/NUM005+0.ax',rdn30)]) ).
cnf(g16,plain,
( ~ rdn_positive_less(rdnn(n1),rdnn(n3))
| rdn_positive_less(rdn(rdnn(n2),rdnn(n1)),rdn(rdnn(n0),rdnn(n3))) ),
inference(ground_cnf,[],[file('Axioms/NUM005+1.ax',rdn_positive_less_multi_digit_high)]) ).
cnf(g17,plain,
rdn_positive_less(rdnn(n2),rdnn(n3)),
inference(ground_cnf,[],[file('Axioms/NUM005+1.ax',rdn_positive_less23)]) ).
cnf(g18,plain,
rdn_translate(n3,rdn_pos(rdnn(n3))),
inference(ground_cnf,[],[file('Axioms/NUM005+0.ax',rdn3)]) ).
cnf(g19,plain,
( ~ less(n16,n20)
| ~ accept_population(countryamedicalorganization,christian,n20)
| accept_population(countryamedicalorganization,christian,n16) ),
inference(ground_cnf,[],[file('Axioms/AGT001+0.ax',a1_3)]) ).
cnf(g20,plain,
rdn_positive_less(rdnn(n1),rdnn(n2)),
inference(ground_cnf,[],[file('Axioms/NUM005+1.ax',rdn_positive_less12)]) ).
cnf(g21,plain,
rdn_translate(n1,rdn_pos(rdnn(n1))),
inference(ground_cnf,[],[file('Axioms/NUM005+0.ax',rdn1)]) ).
cnf(g22,plain,
( ~ rdn_translate(n0,rdn_pos(rdnn(n0)))
| ~ rdn_translate(n1,rdn_pos(rdnn(n1)))
| ~ rdn_positive_less(rdnn(n0),rdnn(n1))
| less(n0,n1) ),
inference(ground_cnf,[],[file('Axioms/NUM005+1.ax',less_entry_point_pos_pos)]) ).
cnf(g23,plain,
rdn_translate(n20,rdn_pos(rdn(rdnn(n0),rdnn(n2)))),
inference(ground_cnf,[],[file('Axioms/NUM005+0.ax',rdn20)]) ).
cnf(g24,plain,
( ~ rdn_positive_less(rdnn(n1),rdnn(n2))
| ~ rdn_positive_less(rdnn(n2),rdnn(n3))
| rdn_positive_less(rdnn(n1),rdnn(n3)) ),
inference(ground_cnf,[],[file('Axioms/NUM005+1.ax',rdn_positive_less_transitivity)]) ).
cnf(g25,plain,
( ~ rdn_non_zero_digit(rdnn(n1))
| rdn_non_zero(rdnn(n1)) ),
inference(ground_cnf,[],[file('Axioms/NUM005+1.ax',rdn_non_zero_by_digit)]) ).
cnf(g26,plain,
rdn_non_zero_digit(rdnn(n1)),
inference(ground_cnf,[],[file('Axioms/NUM005+1.ax',rdn_digit1)]) ).
cnf(g27,plain,
( ~ rdn_translate(n3,rdn_pos(rdnn(n3)))
| ~ rdn_translate(n16,rdn_pos(rdn(rdnn(n6),rdnn(n1))))
| ~ rdn_positive_less(rdnn(n3),rdn(rdnn(n6),rdnn(n1)))
| less(n3,n16) ),
inference(ground_cnf,[],[file('Axioms/NUM005+1.ax',less_entry_point_pos_pos)]) ).
cnf(g28,plain,
( ~ rdn_non_zero(rdnn(n1))
| rdn_positive_less(rdnn(n3),rdn(rdnn(n6),rdnn(n1))) ),
inference(ground_cnf,[],[file('Axioms/NUM005+1.ax',rdn_extra_digits_positive_less)]) ).
cnf(g29,plain,
( ~ rdn_translate(n16,rdn_pos(rdn(rdnn(n6),rdnn(n1))))
| ~ rdn_translate(n20,rdn_pos(rdn(rdnn(n0),rdnn(n2))))
| ~ rdn_positive_less(rdn(rdnn(n6),rdnn(n1)),rdn(rdnn(n0),rdnn(n2)))
| less(n16,n20) ),
inference(ground_cnf,[],[file('Axioms/NUM005+1.ax',less_entry_point_pos_pos)]) ).
cnf(g30,plain,
( ~ rdn_positive_less(rdnn(n1),rdnn(n2))
| rdn_positive_less(rdn(rdnn(n6),rdnn(n1)),rdn(rdnn(n0),rdnn(n2))) ),
inference(ground_cnf,[],[file('Axioms/NUM005+1.ax',rdn_positive_less_multi_digit_high)]) ).
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.04/0.12 % Problem : AGT010+2 : TPTP v8.1.0. Bugfixed v3.1.0.
% 0.04/0.13 % Command : satcop --statistics %s
% 0.12/0.34 % Computer : n018.cluster.edu
% 0.12/0.34 % Model : x86_64 x86_64
% 0.12/0.34 % CPU : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 0.12/0.34 % Memory : 8042.1875MB
% 0.12/0.34 % OS : Linux 3.10.0-693.el7.x86_64
% 0.12/0.34 % CPULimit : 300
% 0.12/0.34 % WCLimit : 600
% 0.12/0.34 % DateTime : Sat Jun 4 04:49:02 EDT 2022
% 0.12/0.34 % CPUTime :
% 6.13/1.17 % symbols: 308
% 6.13/1.17 % clauses: 1019
% 6.13/1.17 % start clauses: 1
% 6.13/1.17 % iterative deepening steps: 2110
% 6.13/1.17 % maximum path limit: 5
% 6.13/1.17 % literal attempts: 1994271
% 6.13/1.17 % depth failures: 1312096
% 6.13/1.17 % regularity failures: 174176
% 6.13/1.17 % tautology failures: 143558
% 6.13/1.17 % reductions: 46249
% 6.13/1.17 % extensions: 1946498
% 6.13/1.17 % SAT variables: 102757
% 6.13/1.17 % SAT clauses: 184646
% 6.13/1.17 % WalkSAT solutions: 184646
% 6.13/1.17 % CDCL solutions: 0
% 6.13/1.17 % SZS status Theorem for theBenchmark
% 6.13/1.17 % SZS output start ListOfCNF for theBenchmark
% See solution above
%------------------------------------------------------------------------------