TSTP Solution File: MED002+1 by SOS---2.0
View Problem
- Process Solution
%------------------------------------------------------------------------------
% File : SOS---2.0
% Problem : MED002+1 : TPTP v8.1.0. Released v3.2.0.
% Transfm : none
% Format : tptp:raw
% Command : sos-script %s
% Computer : n010.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 21:55:47 EDT 2022
% Result : Theorem 30.76s 31.00s
% Output : Refutation 30.83s
% Verified :
% SZS Type : -
% Comments :
%------------------------------------------------------------------------------
%----WARNING: Could not form TPTP format derivation
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.04/0.11 % Problem : MED002+1 : TPTP v8.1.0. Released v3.2.0.
% 0.04/0.12 % Command : sos-script %s
% 0.12/0.33 % Computer : n010.cluster.edu
% 0.12/0.33 % Model : x86_64 x86_64
% 0.12/0.33 % CPU : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 0.12/0.33 % Memory : 8042.1875MB
% 0.12/0.33 % OS : Linux 3.10.0-693.el7.x86_64
% 0.12/0.33 % CPULimit : 300
% 0.12/0.33 % WCLimit : 600
% 0.12/0.33 % DateTime : Tue Jul 5 01:29:02 EDT 2022
% 0.12/0.33 % CPUTime :
% 0.12/0.34 ----- Otter 3.2, August 2001 -----
% 0.12/0.34 The process was started by sandbox on n010.cluster.edu,
% 0.12/0.34 Tue Jul 5 01:29:02 2022
% 0.12/0.34 The command was "./sos". The process ID is 29927.
% 0.12/0.34
% 0.12/0.34 set(prolog_style_variables).
% 0.12/0.34 set(auto).
% 0.12/0.34 dependent: set(auto1).
% 0.12/0.34 dependent: set(process_input).
% 0.12/0.34 dependent: clear(print_kept).
% 0.12/0.34 dependent: clear(print_new_demod).
% 0.12/0.34 dependent: clear(print_back_demod).
% 0.12/0.34 dependent: clear(print_back_sub).
% 0.12/0.34 dependent: set(control_memory).
% 0.12/0.34 dependent: assign(max_mem, 12000).
% 0.12/0.34 dependent: assign(pick_given_ratio, 4).
% 0.12/0.34 dependent: assign(stats_level, 1).
% 0.12/0.34 dependent: assign(pick_semantic_ratio, 3).
% 0.12/0.34 dependent: assign(sos_limit, 5000).
% 0.12/0.34 dependent: assign(max_weight, 60).
% 0.12/0.34 clear(print_given).
% 0.12/0.34
% 0.12/0.34 formula_list(usable).
% 0.12/0.34
% 0.12/0.34 SCAN INPUT: prop=0, horn=0, equality=0, symmetry=0, max_lits=7.
% 0.12/0.34
% 0.12/0.34 This is a non-Horn set without equality. The strategy
% 0.12/0.34 will be ordered hyper_res, ur_res, unit deletion, and
% 0.12/0.34 factoring, with satellites in sos and nuclei in usable.
% 0.12/0.34
% 0.12/0.34 dependent: set(hyper_res).
% 0.12/0.34 dependent: set(factor).
% 0.12/0.34 dependent: set(unit_deletion).
% 0.12/0.34
% 0.12/0.34 ------------> process usable:
% 0.12/0.34
% 0.12/0.34 ------------> process sos:
% 0.12/0.34
% 0.12/0.34 ======= end of input processing =======
% 0.18/0.38
% 0.18/0.38 Model 1 (0.00 seconds, 0 Inserts)
% 0.18/0.38
% 0.18/0.38 Stopped by limit on number of solutions
% 0.18/0.38
% 0.18/0.38
% 0.18/0.38 -------------- Softie stats --------------
% 0.18/0.38
% 0.18/0.38 UPDATE_STOP: 300
% 0.18/0.38 SFINDER_TIME_LIMIT: 2
% 0.18/0.38 SHORT_CLAUSE_CUTOFF: 4
% 0.18/0.38 number of clauses in intial UL: 68
% 0.18/0.38 number of clauses initially in problem: 73
% 0.18/0.38 percentage of clauses intially in UL: 93
% 0.18/0.38 percentage of distinct symbols occuring in initial UL: 100
% 0.18/0.38 percent of all initial clauses that are short: 100
% 0.18/0.38 absolute distinct symbol count: 31
% 0.18/0.38 distinct predicate count: 15
% 0.18/0.38 distinct function count: 14
% 0.18/0.38 distinct constant count: 2
% 0.18/0.38
% 0.18/0.38 ---------- no more Softie stats ----------
% 0.18/0.38
% 0.18/0.38
% 0.18/0.38
% 0.18/0.38 Model 2 (0.00 seconds, 0 Inserts)
% 0.18/0.38
% 0.18/0.38 Stopped by limit on number of solutions
% 0.18/0.38
% 0.18/0.38 =========== start of search ===========
% 30.76/31.00
% 30.76/31.00 -- HEY sandbox, WE HAVE A PROOF!! --
% 30.76/31.00
% 30.76/31.00 Model 3 (0.00 seconds, 0 Inserts)
% 30.76/31.00
% 30.76/31.00 Stopped by limit on number of solutions
% 30.76/31.00
% 30.76/31.00 Model 4 (0.00 seconds, 0 Inserts)
% 30.76/31.00
% 30.76/31.00 Stopped by limit on number of solutions
% 30.76/31.00
% 30.76/31.00 Stopped by limit on insertions
% 30.76/31.00
% 30.76/31.00 Model 5 [ 1 1 702 ] (0.00 seconds, 250000 Inserts)
% 30.76/31.00
% 30.76/31.00 Modelling stopped after 300 given clauses and 0.00 seconds
% 30.76/31.00
% 30.76/31.00
% 30.76/31.00 ----> UNIT CONFLICT at 30.59 sec ----> 4279 [binary,4278.1,51.1] {-} $F.
% 30.76/31.00
% 30.76/31.00 Length of proof is 94. Level of proof is 46.
% 30.76/31.00
% 30.76/31.00 ---------------- PROOF ----------------
% 30.76/31.00 % SZS status Theorem
% 30.76/31.00 % SZS output start Refutation
% 30.76/31.00
% 30.76/31.00 3 [] {+} -bcapacityne(A)| -bcapacityex(A).
% 30.76/31.00 14 [] {+} -gt(A,$f2(A))|bcapacityex(A)|gt(A,B)|bsecretioni(B).
% 30.76/31.00 15 [] {+} -drugsu($f2(A))|bcapacityex(A)|gt(A,B)|bsecretioni(B).
% 30.76/31.00 16 [] {+} -gt(A,$f3(A))|gt(A,B)| -releaselg(B).
% 30.76/31.00 17 [] {+} -drugbg($f3(A))|gt(A,B)| -releaselg(B).
% 30.76/31.00 26 [] {+} -gt(A,$f8(A))| -bcapacityne(A)| -gt(A,$f10(A))|gt(A,$f11(A))|gt(A,B)|conditionnormo(B).
% 30.76/31.00 27 [] {+} -gt(A,$f8(A))| -bcapacityne(A)| -gt(A,$f10(A))| -conditionhyper($f11(A))|gt(A,B)|conditionnormo(B).
% 30.76/31.00 28 [] {+} -gt(A,$f8(A))| -bcapacityne(A)| -bsecretioni($f10(A))|gt(A,$f11(A))|gt(A,B)|conditionnormo(B).
% 30.76/31.00 29 [] {+} -gt(A,$f8(A))| -bcapacityne(A)| -bsecretioni($f10(A))| -conditionhyper($f11(A))|gt(A,B)|conditionnormo(B).
% 30.76/31.00 30 [] {+} releaselg($f8(A))| -bcapacityne(A)| -gt(A,$f10(A))|gt(A,$f11(A))|gt(A,B)|conditionnormo(B).
% 30.76/31.00 31 [] {+} releaselg($f8(A))| -bcapacityne(A)| -gt(A,$f10(A))| -conditionhyper($f11(A))|gt(A,B)|conditionnormo(B).
% 30.76/31.00 32 [] {+} releaselg($f8(A))| -bcapacityne(A)| -bsecretioni($f10(A))|gt(A,$f11(A))|gt(A,B)|conditionnormo(B).
% 30.76/31.00 33 [] {+} releaselg($f8(A))| -bcapacityne(A)| -bsecretioni($f10(A))| -conditionhyper($f11(A))|gt(A,B)|conditionnormo(B).
% 30.76/31.00 50 [] {+} -gt(n0,A)|conditionhyper(A).
% 30.76/31.00 51 [] {+} -gt(n0,$c1).
% 30.76/31.00 52 [] {+} -conditionnormo($c1).
% 30.76/31.00 71 [] {+} gt(n0,A)|drugbg(A).
% 30.76/31.00 72 [] {+} gt(n0,A)|drugsu(A).
% 30.76/31.00 73 [] {+} bcapacityne(n0).
% 30.76/31.00 76 [hyper,72,15] {+} gt(n0,$f2(A))|bcapacityex(A)|gt(A,B)|bsecretioni(B).
% 30.76/31.00 81 [hyper,76,32,73] {+} gt(n0,$f2(A))|bcapacityex(A)|gt(A,$f10(n0))|releaselg($f8(n0))|gt(n0,$f11(n0))|gt(n0,B)|conditionnormo(B).
% 30.76/31.00 92 [hyper,81,17,71] {-} gt(n0,$f2(A))|bcapacityex(A)|gt(A,$f10(n0))|gt(n0,$f11(n0))|gt(n0,B)|conditionnormo(B)|gt(C,$f8(n0))|gt(n0,$f3(C)).
% 30.83/31.00 98 [hyper,92,52,unit_del,51] {-} gt(n0,$f2(A))|bcapacityex(A)|gt(A,$f10(n0))|gt(n0,$f11(n0))|gt(B,$f8(n0))|gt(n0,$f3(B)).
% 30.83/31.00 99 [hyper,98,3,73] {-} gt(n0,$f2(n0))|gt(n0,$f10(n0))|gt(n0,$f11(n0))|gt(A,$f8(n0))|gt(n0,$f3(A)).
% 30.83/31.00 106 [hyper,99,14] {+} gt(n0,$f10(n0))|gt(n0,$f11(n0))|gt(A,$f8(n0))|gt(n0,$f3(A))|bcapacityex(n0)|gt(n0,B)|bsecretioni(B).
% 30.83/31.00 109 [hyper,99,30,73,factor_simp] {+} gt(n0,$f2(n0))|gt(n0,$f11(n0))|gt(A,$f8(n0))|gt(n0,$f3(A))|releaselg($f8(n0))|gt(n0,B)|conditionnormo(B).
% 30.83/31.00 110 [hyper,99,50] {-} gt(n0,$f2(n0))|gt(n0,$f10(n0))|gt(A,$f8(n0))|gt(n0,$f3(A))|conditionhyper($f11(n0)).
% 30.83/31.00 113 [hyper,99,28,73,76,factor_simp] {-} gt(n0,$f2(n0))|gt(n0,$f10(n0))|gt(n0,$f11(n0))|gt(n0,$f3(n0))|gt(n0,A)|conditionnormo(A)|gt(n0,$f2(B))|bcapacityex(B)|gt(B,$f10(n0)).
% 30.83/31.00 119 [hyper,99,16,81,factor_simp,factor_simp] {-} gt(n0,$f2(n0))|gt(n0,$f10(n0))|gt(n0,$f11(n0))|gt(n0,$f8(n0))|gt(n0,$f2(A))|bcapacityex(A)|gt(A,$f10(n0))|gt(n0,B)|conditionnormo(B).
% 30.83/31.00 132 [factor,113.1.7,factor_simp] {-} gt(n0,$f2(n0))|gt(n0,$f10(n0))|gt(n0,$f11(n0))|gt(n0,$f3(n0))|gt(n0,A)|conditionnormo(A)|bcapacityex(n0).
% 30.83/31.00 139 [factor,119.1.5,factor_simp] {-} gt(n0,$f2(n0))|gt(n0,$f10(n0))|gt(n0,$f11(n0))|gt(n0,$f8(n0))|bcapacityex(n0)|gt(n0,A)|conditionnormo(A).
% 30.83/31.00 173 [hyper,110,33,73,76] {+} gt(n0,$f2(n0))|gt(n0,$f10(n0))|gt(A,$f8(n0))|gt(n0,$f3(A))|releaselg($f8(n0))|gt(n0,B)|conditionnormo(B)|gt(n0,$f2(C))|bcapacityex(C)|gt(C,$f10(n0)).
% 30.83/31.00 175 [factor,173.1.8,factor_simp] {+} gt(n0,$f2(n0))|gt(n0,$f10(n0))|gt(A,$f8(n0))|gt(n0,$f3(A))|releaselg($f8(n0))|gt(n0,B)|conditionnormo(B)|bcapacityex(n0).
% 30.83/31.00 426 [hyper,106,32,73,factor_simp,factor_simp] {+} gt(n0,$f10(n0))|gt(n0,$f11(n0))|gt(A,$f8(n0))|gt(n0,$f3(A))|bcapacityex(n0)|releaselg($f8(n0))|gt(n0,B)|conditionnormo(B).
% 30.83/31.00 449 [hyper,132,52,unit_del,51] {-} gt(n0,$f2(n0))|gt(n0,$f10(n0))|gt(n0,$f11(n0))|gt(n0,$f3(n0))|bcapacityex(n0).
% 30.83/31.00 450 [hyper,449,3,73] {-} gt(n0,$f2(n0))|gt(n0,$f10(n0))|gt(n0,$f11(n0))|gt(n0,$f3(n0)).
% 30.83/31.00 451 [hyper,109,17,71,factor_simp,factor_simp] {-} gt(n0,$f2(n0))|gt(n0,$f11(n0))|gt(A,$f8(n0))|gt(n0,$f3(A))|gt(n0,B)|conditionnormo(B).
% 30.83/31.00 531 [hyper,451,52,unit_del,51] {-} gt(n0,$f2(n0))|gt(n0,$f11(n0))|gt(A,$f8(n0))|gt(n0,$f3(A)).
% 30.83/31.00 539 [hyper,531,26,73,450,factor_simp,factor_simp,factor_simp,factor_simp] {-} gt(n0,$f2(n0))|gt(n0,$f11(n0))|gt(n0,$f3(n0))|gt(n0,A)|conditionnormo(A).
% 30.83/31.00 580 [hyper,139,52,unit_del,51] {-} gt(n0,$f2(n0))|gt(n0,$f10(n0))|gt(n0,$f11(n0))|gt(n0,$f8(n0))|bcapacityex(n0).
% 30.83/31.00 616 [hyper,539,52,unit_del,51] {-} gt(n0,$f2(n0))|gt(n0,$f11(n0))|gt(n0,$f3(n0)).
% 30.83/31.00 682 [hyper,175,17,71,factor_simp,factor_simp] {-} gt(n0,$f2(n0))|gt(n0,$f10(n0))|gt(A,$f8(n0))|gt(n0,$f3(A))|gt(n0,B)|conditionnormo(B)|bcapacityex(n0).
% 30.83/31.00 732 [hyper,580,3,73] {-} gt(n0,$f2(n0))|gt(n0,$f10(n0))|gt(n0,$f11(n0))|gt(n0,$f8(n0)).
% 30.83/31.00 742 [hyper,732,28,73,76,factor_simp] {-} gt(n0,$f2(n0))|gt(n0,$f10(n0))|gt(n0,$f11(n0))|gt(n0,A)|conditionnormo(A)|gt(n0,$f2(B))|bcapacityex(B)|gt(B,$f10(n0)).
% 30.83/31.00 750 [factor,742.1.6,factor_simp] {-} gt(n0,$f2(n0))|gt(n0,$f10(n0))|gt(n0,$f11(n0))|gt(n0,A)|conditionnormo(A)|bcapacityex(n0).
% 30.83/31.00 961 [hyper,426,17,71,factor_simp,factor_simp] {-} gt(n0,$f10(n0))|gt(n0,$f11(n0))|gt(A,$f8(n0))|gt(n0,$f3(A))|bcapacityex(n0)|gt(n0,B)|conditionnormo(B).
% 30.83/31.00 1145 [hyper,750,52,unit_del,51] {-} gt(n0,$f2(n0))|gt(n0,$f10(n0))|gt(n0,$f11(n0))|bcapacityex(n0).
% 30.83/31.00 1146 [hyper,1145,3,73] {-} gt(n0,$f2(n0))|gt(n0,$f10(n0))|gt(n0,$f11(n0)).
% 30.83/31.00 1148 [hyper,1146,14] {+} gt(n0,$f10(n0))|gt(n0,$f11(n0))|bcapacityex(n0)|gt(n0,A)|bsecretioni(A).
% 30.83/31.00 1170 [hyper,1146,30,73,factor_simp] {+} gt(n0,$f2(n0))|gt(n0,$f11(n0))|releaselg($f8(n0))|gt(n0,A)|conditionnormo(A).
% 30.83/31.00 1186 [hyper,1146,50] {-} gt(n0,$f2(n0))|gt(n0,$f10(n0))|conditionhyper($f11(n0)).
% 30.83/31.00 1187 [factor,1148.1.4] {+} gt(n0,$f10(n0))|gt(n0,$f11(n0))|bcapacityex(n0)|bsecretioni($f10(n0)).
% 30.83/31.00 1207 [hyper,1186,33,73,76] {+} gt(n0,$f2(n0))|gt(n0,$f10(n0))|releaselg($f8(n0))|gt(n0,A)|conditionnormo(A)|gt(n0,$f2(B))|bcapacityex(B)|gt(B,$f10(n0)).
% 30.83/31.00 1211 [factor,1207.1.6,factor_simp] {+} gt(n0,$f2(n0))|gt(n0,$f10(n0))|releaselg($f8(n0))|gt(n0,A)|conditionnormo(A)|bcapacityex(n0).
% 30.83/31.00 1246 [hyper,1187,32,73,factor_simp] {+} gt(n0,$f10(n0))|gt(n0,$f11(n0))|bcapacityex(n0)|releaselg($f8(n0))|gt(n0,A)|conditionnormo(A).
% 30.83/31.00 2109 [hyper,1170,16,616,factor_simp,factor_simp] {-} gt(n0,$f2(n0))|gt(n0,$f11(n0))|gt(n0,A)|conditionnormo(A)|gt(n0,$f8(n0)).
% 30.83/31.00 2111 [hyper,2109,52,unit_del,51] {-} gt(n0,$f2(n0))|gt(n0,$f11(n0))|gt(n0,$f8(n0)).
% 30.83/31.00 2127 [hyper,2111,26,73,1146,factor_simp,factor_simp,factor_simp] {-} gt(n0,$f2(n0))|gt(n0,$f11(n0))|gt(n0,A)|conditionnormo(A).
% 30.83/31.00 2155 [hyper,2127,52,unit_del,51] {-} gt(n0,$f2(n0))|gt(n0,$f11(n0)).
% 30.83/31.00 2158 [hyper,2155,50] {-} gt(n0,$f2(n0))|conditionhyper($f11(n0)).
% 30.83/31.00 2170 [hyper,682,52,unit_del,51] {-} gt(n0,$f2(n0))|gt(n0,$f10(n0))|gt(A,$f8(n0))|gt(n0,$f3(A))|bcapacityex(n0).
% 30.83/31.00 2171 [hyper,2170,3,73] {-} gt(n0,$f2(n0))|gt(n0,$f10(n0))|gt(A,$f8(n0))|gt(n0,$f3(A)).
% 30.83/31.00 2380 [hyper,961,52,unit_del,51] {-} gt(n0,$f10(n0))|gt(n0,$f11(n0))|gt(A,$f8(n0))|gt(n0,$f3(A))|bcapacityex(n0).
% 30.83/31.00 2416 [hyper,1211,16,2171,factor_simp,factor_simp,factor_simp] {-} gt(n0,$f2(n0))|gt(n0,$f10(n0))|gt(n0,A)|conditionnormo(A)|bcapacityex(n0)|gt(n0,$f8(n0)).
% 30.83/31.00 2514 [hyper,2380,3,73] {-} gt(n0,$f10(n0))|gt(n0,$f11(n0))|gt(A,$f8(n0))|gt(n0,$f3(A)).
% 30.83/31.00 2537 [hyper,2514,16,1246,factor_simp,factor_simp,factor_simp] {-} gt(n0,$f10(n0))|gt(n0,$f11(n0))|gt(n0,$f8(n0))|bcapacityex(n0)|gt(n0,A)|conditionnormo(A).
% 30.83/31.00 3070 [hyper,2416,52,unit_del,51] {-} gt(n0,$f2(n0))|gt(n0,$f10(n0))|bcapacityex(n0)|gt(n0,$f8(n0)).
% 30.83/31.00 3071 [hyper,3070,3,73] {-} gt(n0,$f2(n0))|gt(n0,$f10(n0))|gt(n0,$f8(n0)).
% 30.83/31.00 3081 [hyper,3071,29,73,76,2158,factor_simp] {-} gt(n0,$f2(n0))|gt(n0,$f10(n0))|gt(n0,A)|conditionnormo(A)|gt(n0,$f2(B))|bcapacityex(B)|gt(B,$f10(n0)).
% 30.83/31.00 3087 [factor,3081.1.5,factor_simp] {-} gt(n0,$f2(n0))|gt(n0,$f10(n0))|gt(n0,A)|conditionnormo(A)|bcapacityex(n0).
% 30.83/31.00 3130 [hyper,3087,52,unit_del,51] {-} gt(n0,$f2(n0))|gt(n0,$f10(n0))|bcapacityex(n0).
% 30.83/31.00 3133 [hyper,3130,3,73] {-} gt(n0,$f2(n0))|gt(n0,$f10(n0)).
% 30.83/31.00 3135 [hyper,3133,14] {+} gt(n0,$f10(n0))|bcapacityex(n0)|gt(n0,A)|bsecretioni(A).
% 30.83/31.00 3139 [hyper,3133,31,73,2158,factor_simp] {+} gt(n0,$f2(n0))|releaselg($f8(n0))|gt(n0,A)|conditionnormo(A).
% 30.83/31.00 3140 [factor,3135.1.3] {+} gt(n0,$f10(n0))|bcapacityex(n0)|bsecretioni($f10(n0)).
% 30.83/31.00 3193 [hyper,2537,52,unit_del,51] {-} gt(n0,$f10(n0))|gt(n0,$f11(n0))|gt(n0,$f8(n0))|bcapacityex(n0).
% 30.83/31.00 3207 [hyper,3193,3,73] {-} gt(n0,$f10(n0))|gt(n0,$f11(n0))|gt(n0,$f8(n0)).
% 30.83/31.00 3221 [hyper,3207,28,73,3140,factor_simp,factor_simp] {-} gt(n0,$f10(n0))|gt(n0,$f11(n0))|gt(n0,A)|conditionnormo(A)|bcapacityex(n0).
% 30.83/31.00 3243 [hyper,3139,17,71] {-} gt(n0,$f2(n0))|gt(n0,A)|conditionnormo(A)|gt(B,$f8(n0))|gt(n0,$f3(B)).
% 30.83/31.00 3246 [hyper,3221,52,unit_del,51] {-} gt(n0,$f10(n0))|gt(n0,$f11(n0))|bcapacityex(n0).
% 30.83/31.00 3247 [hyper,3246,3,73] {-} gt(n0,$f10(n0))|gt(n0,$f11(n0)).
% 30.83/31.00 3252 [hyper,3247,30,73,factor_simp] {+} gt(n0,$f11(n0))|releaselg($f8(n0))|gt(n0,A)|conditionnormo(A).
% 30.83/31.00 3253 [hyper,3247,50] {-} gt(n0,$f10(n0))|conditionhyper($f11(n0)).
% 30.83/31.00 3257 [hyper,3253,33,73,3140,factor_simp] {+} gt(n0,$f10(n0))|releaselg($f8(n0))|gt(n0,A)|conditionnormo(A)|bcapacityex(n0).
% 30.83/31.00 3265 [hyper,3243,52,unit_del,51] {-} gt(n0,$f2(n0))|gt(A,$f8(n0))|gt(n0,$f3(A)).
% 30.83/31.00 3281 [hyper,3265,16,3139,factor_simp,factor_simp] {-} gt(n0,$f2(n0))|gt(n0,$f8(n0))|gt(n0,A)|conditionnormo(A).
% 30.83/31.00 3435 [hyper,3252,17,71] {-} gt(n0,$f11(n0))|gt(n0,A)|conditionnormo(A)|gt(B,$f8(n0))|gt(n0,$f3(B)).
% 30.83/31.00 3438 [hyper,3281,52,unit_del,51] {-} gt(n0,$f2(n0))|gt(n0,$f8(n0)).
% 30.83/31.00 3447 [hyper,3438,27,73,3133,2158,factor_simp,factor_simp] {-} gt(n0,$f2(n0))|gt(n0,A)|conditionnormo(A).
% 30.83/31.00 3455 [hyper,3447,52,unit_del,51] {-} gt(n0,$f2(n0)).
% 30.83/31.00 3457 [hyper,3455,14] {+} bcapacityex(n0)|gt(n0,A)|bsecretioni(A).
% 30.83/31.00 3460 [hyper,3435,52,unit_del,51] {-} gt(n0,$f11(n0))|gt(A,$f8(n0))|gt(n0,$f3(A)).
% 30.83/31.00 3489 [hyper,3460,16,3252,factor_simp,factor_simp] {-} gt(n0,$f11(n0))|gt(n0,$f8(n0))|gt(n0,A)|conditionnormo(A).
% 30.83/31.00 3595 [hyper,3489,52,unit_del,51] {-} gt(n0,$f11(n0))|gt(n0,$f8(n0)).
% 30.83/31.00 3605 [hyper,3595,26,73,3247,factor_simp,factor_simp] {-} gt(n0,$f11(n0))|gt(n0,A)|conditionnormo(A).
% 30.83/31.00 3614 [hyper,3605,52,unit_del,51] {-} gt(n0,$f11(n0)).
% 30.83/31.00 3615 [hyper,3614,50] {-} conditionhyper($f11(n0)).
% 30.83/31.00 3621 [hyper,3257,17,71] {-} gt(n0,$f10(n0))|gt(n0,A)|conditionnormo(A)|bcapacityex(n0)|gt(B,$f8(n0))|gt(n0,$f3(B)).
% 30.83/31.00 3624 [hyper,3621,52,unit_del,51] {-} gt(n0,$f10(n0))|bcapacityex(n0)|gt(A,$f8(n0))|gt(n0,$f3(A)).
% 30.83/31.00 3625 [hyper,3624,3,73] {-} gt(n0,$f10(n0))|gt(A,$f8(n0))|gt(n0,$f3(A)).
% 30.83/31.00 3639 [hyper,3625,16,3257,factor_simp,factor_simp] {-} gt(n0,$f10(n0))|gt(n0,$f8(n0))|gt(n0,A)|conditionnormo(A)|bcapacityex(n0).
% 30.83/31.00 4016 [hyper,3639,52,unit_del,51] {-} gt(n0,$f10(n0))|gt(n0,$f8(n0))|bcapacityex(n0).
% 30.83/31.00 4017 [hyper,4016,3,73] {-} gt(n0,$f10(n0))|gt(n0,$f8(n0)).
% 30.83/31.00 4027 [hyper,4017,29,73,3457,3615,factor_simp] {-} gt(n0,$f10(n0))|gt(n0,A)|conditionnormo(A)|bcapacityex(n0).
% 30.83/31.00 4061 [hyper,4027,52,unit_del,51] {-} gt(n0,$f10(n0))|bcapacityex(n0).
% 30.83/31.00 4062 [hyper,4061,3,73] {-} gt(n0,$f10(n0)).
% 30.83/31.00 4065 [hyper,4062,31,73,3615] {+} releaselg($f8(n0))|gt(n0,A)|conditionnormo(A).
% 30.83/31.00 4094 [hyper,4065,17,71] {-} gt(n0,A)|conditionnormo(A)|gt(B,$f8(n0))|gt(n0,$f3(B)).
% 30.83/31.00 4097 [hyper,4094,52,unit_del,51] {-} gt(A,$f8(n0))|gt(n0,$f3(A)).
% 30.83/31.00 4109 [hyper,4097,16,4065,factor_simp] {-} gt(n0,$f8(n0))|gt(n0,A)|conditionnormo(A).
% 30.83/31.00 4269 [hyper,4109,52,unit_del,51] {-} gt(n0,$f8(n0)).
% 30.83/31.00 4274 [hyper,4269,27,73,4062,3615] {-} gt(n0,A)|conditionnormo(A).
% 30.83/31.00 4278 [hyper,4274,52] {-} gt(n0,$c1).
% 30.83/31.00 4279 [binary,4278.1,51.1] {-} $F.
% 30.83/31.00
% 30.83/31.00 % SZS output end Refutation
% 30.83/31.00 ------------ end of proof -------------
% 30.83/31.00
% 30.83/31.00
% 30.83/31.00 Search stopped by max_proofs option.
% 30.83/31.00
% 30.83/31.00
% 30.83/31.00 Search stopped by max_proofs option.
% 30.83/31.00
% 30.83/31.00 ============ end of search ============
% 30.83/31.00
% 30.83/31.00 ----------- soft-scott stats ----------
% 30.83/31.00
% 30.83/31.00 true clauses given 222 (29.9%)
% 30.83/31.00 false clauses given 521
% 30.83/31.00
% 30.83/31.00 FALSE TRUE
% 30.83/31.00 17 0 1
% 30.83/31.00 19 0 1
% 30.83/31.00 29 0 1
% 30.83/31.00 30 0 5
% 30.83/31.00 31 0 1
% 30.83/31.00 32 0 3
% 30.83/31.00 34 0 4
% 30.83/31.00 36 0 1
% 30.83/31.00 38 0 1
% 30.83/31.00 41 1 0
% 30.83/31.00 43 3 0
% 30.83/31.00 44 0 14
% 30.83/31.00 45 2 5
% 30.83/31.00 46 10 28
% 30.83/31.00 47 3 11
% 30.83/31.00 48 10 19
% 30.83/31.00 49 2 7
% 30.83/31.00 50 7 29
% 30.83/31.00 51 0 11
% 30.83/31.00 52 13 21
% 30.83/31.00 53 0 8
% 30.83/31.00 54 3 3
% 30.83/31.00 55 0 1
% 30.83/31.00 56 4 2
% 30.83/31.00 57 0 1
% 30.83/31.00 58 1 0
% 30.83/31.00 tot: 59 178 (75.1% true)
% 30.83/31.00
% 30.83/31.00
% 30.83/31.00 Model 5 [ 1 1 702 ] (0.00 seconds, 250000 Inserts)
% 30.83/31.00
% 30.83/31.00 That finishes the proof of the theorem.
% 30.83/31.00
% 30.83/31.00 Process 29927 finished Tue Jul 5 01:29:33 2022
%------------------------------------------------------------------------------