TSTP Solution File: MED006+1 by SPASS---3.9

%------------------------------------------------------------------------------
% File     : SPASS---3.9
% Problem  : MED006+1 : TPTP v8.1.0. Released v3.2.0.
% Transfm  : none
% Format   : tptp
% Command  : run_spass %d %s

% Computer : n028.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 21:55:52 EDT 2022

% Result   : Theorem 1.21s 1.44s
% Output   : Refutation 1.28s
% Verified : 
% SZS Type : -

% Comments : 
%------------------------------------------------------------------------------
%----WARNING: Could not form TPTP format derivation
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.03/0.12  % Problem  : MED006+1 : TPTP v8.1.0. Released v3.2.0.
% 0.03/0.13  % Command  : run_spass %d %s
% 0.13/0.34  % Computer : n028.cluster.edu
% 0.13/0.34  % Model    : x86_64 x86_64
% 0.13/0.34  % CPU      : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 0.13/0.34  % Memory   : 8042.1875MB
% 0.13/0.34  % OS       : Linux 3.10.0-693.el7.x86_64
% 0.13/0.34  % CPULimit : 300
% 0.13/0.34  % WCLimit  : 600
% 0.13/0.34  % DateTime : Tue Jul  5 01:33:35 EDT 2022
% 0.13/0.34  % CPUTime  : 
% 1.21/1.44  
% 1.21/1.44  SPASS V 3.9 
% 1.21/1.44  SPASS beiseite: Proof found.
% 1.21/1.44  % SZS status Theorem
% 1.21/1.44  Problem: /export/starexec/sandbox/benchmark/theBenchmark.p 
% 1.21/1.44  SPASS derived 3992 clauses, backtracked 436 clauses, performed 6 splits and kept 2227 clauses.
% 1.21/1.44  SPASS allocated 101080 KBytes.
% 1.21/1.44  SPASS spent	0:00:01.09 on the problem.
% 1.21/1.44  		0:00:00.04 for the input.
% 1.21/1.44  		0:00:00.05 for the FLOTTER CNF translation.
% 1.21/1.44  		0:00:00.06 for inferences.
% 1.21/1.44  		0:00:00.00 for the backtracking.
% 1.21/1.44  		0:00:00.90 for the reduction.
% 1.21/1.44  
% 1.21/1.44  
% 1.21/1.44  Here is a proof with depth 10, length 146 :
% 1.21/1.44  % SZS output start Refutation
% 1.21/1.44  1[0:Inp] ||  -> s1(n0)*.
% 1.21/1.44  2[0:Inp] ||  -> qilt27(n0)*.
% 1.21/1.44  3[0:Inp] || bcapacitysn(n0)* -> .
% 1.21/1.44  4[0:Inp] || gt(u,u)* -> .
% 1.21/1.44  9[0:Inp] ||  -> conditionnormo(u)* gt(n0,u).
% 1.21/1.44  13[0:Inp] || gt(u,skf26(u))*r -> .
% 1.21/1.44  16[0:Inp] || gt(u,skf32(u))*r -> .
% 1.21/1.44  22[0:Inp] || gt(u,skf36(u))*r -> .
% 1.21/1.44  23[0:Inp] SkP8(u) ||  -> bcapacitysn(u)*.
% 1.21/1.44  30[0:Inp] drugi(u) ||  -> s3(u)*.
% 1.21/1.44  31[0:Inp] || gt(u,skf38(u))*r -> .
% 1.21/1.44  32[0:Inp] || gt(u,skf37(u))*r -> .
% 1.21/1.44  33[0:Inp] || gt(u,skf39(u))*r -> .
% 1.21/1.44  34[0:Inp] || gt(u,skf40(u))*r -> .
% 1.21/1.44  39[0:Inp] ||  -> bcapacitysn(u) bcapacityex(u)* bcapacityne(u).
% 1.21/1.44  42[0:Inp] bcapacitysn(u) bcapacityex(u) ||  -> .
% 1.21/1.44  45[0:Inp] conditionnormo(u) conditionhyper(u) ||  -> .
% 1.21/1.44  48[0:Inp] || bsecretioni(skf26(u))* -> SkP1(u).
% 1.21/1.44  50[0:Inp] || bsecretioni(skf32(u))* -> SkP4(u).
% 1.21/1.44  56[0:Inp] s2(u) s1(u) ||  -> .
% 1.21/1.44  57[0:Inp] s3(u) s1(u) ||  -> .
% 1.21/1.44  59[0:Inp] || conditionnormo(skf36(u))* -> SkP7(u).
% 1.21/1.44  61[0:Inp] SkP11(u) bcapacityex(u) ||  -> .
% 1.21/1.44  62[0:Inp] || bsecretioni(skf39(u))* -> SkP11(u).
% 1.21/1.44  64[0:Inp] ||  -> releaselg(u) uptakelg(u)* gt(v,u)*.
% 1.21/1.44  68[0:Inp] SkP8(u) ||  -> bsecretioni(v)* gt(u,v)*.
% 1.21/1.44  69[0:Inp] SkP10(u) ||  -> bsecretioni(v)* gt(u,v)*.
% 1.21/1.44  70[0:Inp] qilt27(u) s1(u) ||  -> drugsu(u)*.
% 1.21/1.44  72[0:Inp] ||  -> drugbg(u)* releaselg(skf40(v))* gt(v,u)*.
% 1.21/1.44  73[0:Inp] uptakelg(u) releaselg(u) ||  -> gt(v,u)*.
% 1.21/1.44  74[0:Inp] SkP8(u) || gt(u,v)*+ -> conditionhyper(v)*.
% 1.21/1.44  75[0:Inp] SkP9(u) releaselg(v) ||  -> gt(u,v)*.
% 1.21/1.44  76[0:Inp] SkP9(u) || gt(u,v)* -> conditionhyper(v)*.
% 1.21/1.44  77[0:Inp] SkP10(u) || gt(u,v)*+ -> conditionhyper(v)*.
% 1.21/1.44  81[0:Inp] || uptakelg(skf37(u))*+ -> drugi(v)* gt(u,v)*.
% 1.21/1.44  82[0:Inp] || uptakepg(skf38(u))*+ -> drugi(v)* gt(u,v)*.
% 1.21/1.44  84[0:Inp] drugbg(u) qilt27(u) ||  -> s3(u)* s2(u).
% 1.21/1.44  85[0:Inp] || gt(u,v)* gt(v,w)* -> gt(u,w)*.
% 1.21/1.44  87[0:Inp] SkP7(u) ||  -> SkP10(u)* SkP9(u) SkP8(u) bcapacityex(u).
% 1.21/1.44  92[0:Inp] SkP7(u) ||  -> SkP10(u)* SkP9(u) SkP8(u) uptakelg(v)* gt(u,v)*.
% 1.21/1.44  93[0:Inp] SkP7(u) ||  -> SkP10(u)* SkP9(u) SkP8(u) uptakepg(v)* gt(u,v)*.
% 1.21/1.44  94[0:Inp] SkP10(u) releaselg(v) ||  -> uptakepg(w)* gt(u,w)* gt(u,v)*.
% 1.21/1.44  96[0:Inp] SkP7(u) || gt(u,v)* -> conditionhyper(v)* SkP8(u) SkP9(u) SkP10(u)*.
% 1.21/1.44  104[0:MRR:96.3,96.4,96.5,74.0,76.0,77.0] SkP7(u) || gt(u,v)*+ -> conditionhyper(v)*.
% 1.21/1.44  106[0:Res:2.0,84.0] drugbg(n0) ||  -> s2(n0) s3(n0)*.
% 1.21/1.44  107[0:Res:2.0,70.1] s1(n0) ||  -> drugsu(n0)*.
% 1.21/1.44  115[0:Res:1.0,56.0] s2(n0) ||  -> .
% 1.21/1.44  116[0:Res:1.0,57.0] s3(n0) ||  -> .
% 1.21/1.44  117[0:Res:39.2,3.0] ||  -> bcapacityex(n0)* bcapacityne(n0).
% 1.21/1.44  118[0:Res:23.1,3.0] SkP8(n0) ||  -> .
% 1.21/1.44  120[0:Res:9.0,4.0] ||  -> conditionnormo(n0)*.
% 1.21/1.44  125[0:Res:9.0,33.0] ||  -> conditionnormo(skf39(n0))*.
% 1.21/1.44  126[0:Res:9.0,32.0] ||  -> conditionnormo(skf37(n0))*.
% 1.21/1.44  127[0:Res:9.0,31.0] ||  -> conditionnormo(skf38(n0))*.
% 1.21/1.44  128[0:Res:9.0,22.0] ||  -> conditionnormo(skf36(n0))*.
% 1.21/1.44  133[0:Res:9.0,16.0] ||  -> conditionnormo(skf32(n0))*.
% 1.21/1.44  135[0:Res:9.0,13.0] ||  -> conditionnormo(skf26(n0))*.
% 1.21/1.44  143[0:MRR:107.0,1.0] ||  -> drugsu(n0)*.
% 1.21/1.44  144[0:MRR:106.1,106.2,115.0,116.0] drugbg(n0) ||  -> .
% 1.21/1.44  279[0:SoR:116.0,30.1] drugi(n0) ||  -> .
% 1.21/1.44  288[0:Res:128.0,59.0] ||  -> SkP7(n0)*.
% 1.21/1.44  332[0:Res:9.0,59.0] ||  -> gt(n0,skf36(u))*r SkP7(u).
% 1.21/1.44  365[0:NCh:85.2,85.1,332.0,4.0] || gt(skf36(u),n0)*l -> SkP7(u).
% 1.21/1.44  366[0:NCh:85.2,85.1,332.0,22.0] || gt(u,n0) -> SkP7(u)*.
% 1.21/1.44  404[0:Res:64.2,365.0] ||  -> releaselg(n0) uptakelg(n0) SkP7(u)*.
% 1.21/1.44  406[1:Spt:404.2] ||  -> SkP7(u)*.
% 1.21/1.44  408[1:MRR:104.0,406.0] || gt(u,v)*+ -> conditionhyper(v)*.
% 1.21/1.44  410[1:MRR:92.0,406.0] ||  -> SkP10(u)* SkP9(u) SkP8(u) uptakelg(v)* gt(u,v)*.
% 1.21/1.44  421[1:EmS:45.0,45.1,126.0,408.1] || gt(u,skf37(n0))* -> .
% 1.21/1.44  422[1:EmS:45.0,45.1,127.0,408.1] || gt(u,skf38(n0))* -> .
% 1.21/1.44  434[1:EmS:45.0,45.1,120.0,408.1] || gt(u,n0)* -> .
% 1.21/1.44  435[1:Res:64.2,408.0] ||  -> releaselg(u) uptakelg(u) conditionhyper(u)*.
% 1.21/1.44  480[1:EmS:45.0,45.1,126.0,435.2] ||  -> uptakelg(skf37(n0))* releaselg(skf37(n0)).
% 1.21/1.44  631[0:SoR:144.0,72.0] ||  -> gt(u,n0) releaselg(skf40(u))*.
% 1.21/1.44  668[1:MRR:631.0,434.0] ||  -> releaselg(skf40(u))*.
% 1.21/1.44  669[0:Res:73.2,4.0] uptakelg(u) releaselg(u) ||  -> .
% 1.21/1.44  741[0:Res:75.2,34.0] SkP9(u) releaselg(skf40(u)) ||  -> .
% 1.21/1.44  792[1:SSi:741.1,668.0] SkP9(u) ||  -> .
% 1.21/1.44  795[1:MRR:410.1,792.0] ||  -> SkP10(u)* SkP8(u) uptakelg(v)* gt(u,v)*.
% 1.21/1.44  798[0:SoR:279.0,82.1] || uptakepg(skf38(u))* -> gt(u,n0).
% 1.21/1.44  801[1:MRR:798.1,434.0] || uptakepg(skf38(u))* -> .
% 1.21/1.44  833[0:SoR:279.0,81.1] || uptakelg(skf37(u))* -> gt(u,n0).
% 1.21/1.44  838[1:MRR:833.1,434.0] || uptakelg(skf37(u))* -> .
% 1.21/1.44  839[1:MRR:480.0,838.0] ||  -> releaselg(skf37(n0))*.
% 1.21/1.44  1033[1:EmS:669.0,669.1,795.2,839.0] ||  -> SkP10(u)* SkP8(u) gt(u,skf37(n0))*.
% 1.21/1.44  1043[1:MRR:1033.2,421.0] ||  -> SkP10(u)* SkP8(u).
% 1.21/1.44  1599[0:Res:94.4,34.0] SkP10(u) releaselg(skf40(u)) ||  -> uptakepg(v)* gt(u,v)*.
% 1.21/1.44  1794[1:SSi:1599.1,668.0] SkP10(u) ||  -> uptakepg(v)* gt(u,v)*.
% 1.21/1.44  2140[1:Res:1794.2,422.0] SkP10(u) ||  -> uptakepg(skf38(n0))*.
% 1.21/1.44  2219[1:MRR:2140.1,801.0] SkP10(u) ||  -> .
% 1.21/1.44  2220[1:MRR:1043.0,2219.0] ||  -> SkP8(u)*.
% 1.21/1.44  2221[1:UnC:2220.0,118.0] ||  -> .
% 1.21/1.44  2222[1:Spt:2221.0,404.0,404.1] ||  -> releaselg(n0) uptakelg(n0)*.
% 1.21/1.44  2597[0:SoR:741.1,631.1] SkP9(u) ||  -> gt(u,n0)*.
% 1.21/1.44  2630[0:EmS:45.0,45.1,126.0,104.2] SkP7(u) || gt(u,skf37(n0))* -> .
% 1.21/1.44  2631[0:EmS:45.0,45.1,127.0,104.2] SkP7(u) || gt(u,skf38(n0))* -> .
% 1.21/1.44  2643[0:EmS:45.0,45.1,120.0,104.2] SkP7(u) || gt(u,n0)* -> .
% 1.21/1.44  2657[0:Res:64.2,104.1] SkP7(u) ||  -> releaselg(v) uptakelg(v) conditionhyper(v)*.
% 1.21/1.44  2686[0:MRR:2643.0,366.1] || gt(u,n0)* -> .
% 1.21/1.44  2687[0:MRR:631.0,2686.0] ||  -> releaselg(skf40(u))*.
% 1.21/1.44  2688[0:MRR:2597.1,2686.0] SkP9(u) ||  -> .
% 1.21/1.44  2689[0:MRR:798.1,2686.0] || uptakepg(skf38(u))* -> .
% 1.21/1.44  2690[0:MRR:833.1,2686.0] || uptakelg(skf37(u))* -> .
% 1.21/1.44  2703[0:MRR:1599.1,2687.0] SkP10(u) ||  -> uptakepg(v)* gt(u,v)*.
% 1.21/1.44  2706[0:MRR:87.2,2688.0] SkP7(u) ||  -> SkP10(u)* SkP8(u) bcapacityex(u).
% 1.21/1.44  2707[0:MRR:92.2,2688.0] SkP7(u) ||  -> SkP10(u)* SkP8(u) uptakelg(v)* gt(u,v)*.
% 1.21/1.44  2708[0:MRR:93.2,2688.0] SkP7(u) ||  -> SkP10(u)* SkP8(u) uptakepg(v)* gt(u,v)*.
% 1.21/1.44  2715[0:MRR:2708.1,2703.0] SkP7(u) ||  -> SkP8(u)* uptakepg(v)* gt(u,v)*.
% 1.21/1.44  2728[0:Res:69.2,2686.0] SkP10(u) ||  -> bsecretioni(n0)*.
% 1.21/1.44  2732[0:Res:68.2,2686.0] SkP8(u) ||  -> bsecretioni(n0)*.
% 1.21/1.44  2751[0:EmS:2728.0,2706.1] SkP7(u) ||  -> bsecretioni(n0) bcapacityex(u) SkP8(u)*.
% 1.21/1.44  2752[0:MRR:2751.3,2732.0] SkP7(u) ||  -> bsecretioni(n0)* bcapacityex(u)*.
% 1.21/1.44  2782[0:Res:69.2,77.1] SkP10(u) SkP10(u) ||  -> bsecretioni(v) conditionhyper(v)*.
% 1.21/1.44  2817[0:Obv:2782.0] SkP10(u) ||  -> bsecretioni(v) conditionhyper(v)*.
% 1.21/1.44  2819[2:Spt:2752.0,2752.2] SkP7(u) ||  -> bcapacityex(u)*.
% 1.21/1.44  2820[2:EmS:42.0,42.1,23.1,2819.1] SkP8(u) SkP7(u) ||  -> .
% 1.21/1.44  2823[2:MRR:2715.1,2820.0] SkP7(u) ||  -> uptakepg(v)* gt(u,v)*.
% 1.21/1.44  2827[2:Res:2823.1,2689.0] SkP7(u) ||  -> gt(u,skf38(v))*.
% 1.21/1.44  2886[2:MRR:2631.1,2827.1] SkP7(u) ||  -> .
% 1.21/1.44  2887[2:UnC:2886.0,288.0] ||  -> .
% 1.21/1.44  2890[2:Spt:2887.0,2752.1] ||  -> bsecretioni(n0)*.
% 1.21/1.44  2891[0:EmS:2657.0,288.0] ||  -> releaselg(u) uptakelg(u) conditionhyper(u)*.
% 1.21/1.44  2907[0:EmS:45.0,45.1,126.0,2891.2] ||  -> uptakelg(skf37(n0))* releaselg(skf37(n0)).
% 1.21/1.44  2925[0:MRR:2907.0,2690.0] ||  -> releaselg(skf37(n0))*.
% 1.21/1.44  2968[0:Res:68.2,74.1] SkP8(u) SkP8(u) ||  -> bsecretioni(v) conditionhyper(v)*.
% 1.21/1.44  2994[0:Obv:2968.0] SkP8(u) ||  -> bsecretioni(v) conditionhyper(v)*.
% 1.21/1.44  3007[0:Res:2715.3,104.1] SkP7(u) SkP7(u) ||  -> SkP8(u)* uptakepg(v) conditionhyper(v)*.
% 1.21/1.44  3064[0:Obv:3007.0] SkP7(u) ||  -> SkP8(u)* uptakepg(v) conditionhyper(v)*.
% 1.21/1.44  3075[0:EmS:669.0,669.1,2707.3,2925.0] SkP7(u) ||  -> SkP10(u)* SkP8(u) gt(u,skf37(n0))*.
% 1.21/1.44  3142[0:MRR:3075.3,2630.1] SkP7(u) ||  -> SkP10(u)* SkP8(u).
% 1.21/1.44  3309[0:EmS:2817.0,3142.1] SkP7(u) ||  -> bsecretioni(v) conditionhyper(v)* SkP8(u)*.
% 1.21/1.44  3311[0:MRR:3309.3,2994.0] SkP7(u) ||  -> bsecretioni(v) conditionhyper(v)*.
% 1.21/1.44  3313[0:EmS:3311.0,288.0] ||  -> bsecretioni(u) conditionhyper(u)*.
% 1.21/1.44  3410[0:EmS:45.0,45.1,125.0,3313.1] ||  -> bsecretioni(skf39(n0))*.
% 1.21/1.44  3418[0:EmS:45.0,45.1,133.0,3313.1] ||  -> bsecretioni(skf32(n0))*.
% 1.21/1.44  3420[0:EmS:45.0,45.1,135.0,3313.1] ||  -> bsecretioni(skf26(n0))*.
% 1.28/1.46  3644[0:Res:3410.0,62.0] ||  -> SkP11(n0)*.
% 1.28/1.46  3645[0:EmS:61.0,61.1,3644.0,117.0] ||  -> bcapacityne(n0)*.
% 1.28/1.46  4124[0:Res:3418.0,50.0] ||  -> SkP4(n0)*.
% 1.28/1.46  4417[0:Res:3420.0,48.0] ||  -> SkP1(n0)*.
% 1.28/1.46  4418[3:Spt:3064.2,3064.3] ||  -> uptakepg(u) conditionhyper(u)*.
% 1.28/1.46  4441[3:EmS:45.0,45.1,127.0,4418.1] ||  -> uptakepg(skf38(n0))*.
% 1.28/1.46  4458[3:MRR:4441.0,2689.0] ||  -> .
% 1.28/1.46  4459[3:Spt:4458.0,3064.0,3064.1] SkP7(u) ||  -> SkP8(u)*.
% 1.28/1.46  4460[3:SoR:118.0,4459.1] SkP7(n0) ||  -> .
% 1.28/1.46  4461[3:SSi:4460.0,2.0,1.0,143.0,120.0,288.0,2890.0,3644.0,3645.0,4124.0,4417.0] ||  -> .
% 1.28/1.46  % SZS output end Refutation
% 1.28/1.46  Formulae used in the proof : unsuccessfuls1_qilt27 irreflexivity_gt sn_cure_1 xorcondition3 ne_cure normo insulincomp insulin_completion su_completion bg_completion xorcapacity1 xorcapacity4 xorstep5 xorstep6 uptake_completion step1 liver_glucose bgcomp transitivity_gt
% 1.28/1.46  
%------------------------------------------------------------------------------