TSTP Solution File: GRP596-1 by PyRes---1.3
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- Process Solution
%------------------------------------------------------------------------------
% File : PyRes---1.3
% Problem : GRP596-1 : TPTP v8.1.0. Bugfixed v2.7.0.
% Transfm : none
% Format : tptp:raw
% Command : pyres-fof.py -tifbsVp -nlargest -HPickGiven5 %s
% Computer : n023.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 : Sat Jul 16 11:23:38 EDT 2022
% Result : Unsatisfiable 285.42s 285.87s
% Output : Refutation 285.42s
% Verified :
% SZS Type : ERROR: Analysing output (Could not find formula named eq_axiom)
% Comments :
%------------------------------------------------------------------------------
cnf(prove_these_axioms_4,negated_conjecture,
multiply(a,b) != multiply(b,a),
input ).
cnf(symmetry,axiom,
( X4 != X3
| X3 = X4 ),
eq_axiom ).
cnf(transitivity,axiom,
( X10 != X9
| X9 != X8
| X10 = X8 ),
eq_axiom ).
cnf(reflexivity,axiom,
X2 = X2,
eq_axiom ).
cnf(c2,plain,
( X53 != X52
| X50 != X51
| multiply(X53,X50) = multiply(X52,X51) ),
eq_axiom ).
cnf(c40,plain,
( X56 != X54
| multiply(X56,X55) = multiply(X54,X55) ),
inference(resolution,status(thm),[c2,reflexivity]) ).
cnf(single_axiom,axiom,
inverse(double_divide(double_divide(X11,X12),inverse(double_divide(X11,inverse(double_divide(X13,X12)))))) = X13,
input ).
cnf(c7,plain,
( X68 != inverse(double_divide(double_divide(X67,X66),inverse(double_divide(X67,inverse(double_divide(X69,X66))))))
| X68 = X69 ),
inference(resolution,status(thm),[single_axiom,transitivity]) ).
cnf(multiply,axiom,
multiply(X6,X7) = inverse(double_divide(X7,X6)),
input ).
cnf(c5,plain,
( X25 != multiply(X24,X23)
| X25 = inverse(double_divide(X23,X24)) ),
inference(resolution,status(thm),[transitivity,multiply]) ).
cnf(c48,plain,
multiply(multiply(X76,X77),X78) = multiply(inverse(double_divide(X77,X76)),X78),
inference(resolution,status(thm),[c40,multiply]) ).
cnf(c80,plain,
multiply(multiply(X131,X130),X129) = inverse(double_divide(X129,inverse(double_divide(X130,X131)))),
inference(resolution,status(thm),[c48,c5]) ).
cnf(c156,plain,
multiply(multiply(inverse(double_divide(X136,X138)),X137),double_divide(X137,X138)) = X136,
inference(resolution,status(thm),[c80,c7]) ).
cnf(c173,plain,
( X384 != multiply(multiply(inverse(double_divide(X383,X386)),X385),double_divide(X385,X386))
| X384 = X383 ),
inference(resolution,status(thm),[c156,transitivity]) ).
cnf(c83,plain,
multiply(multiply(multiply(X632,X630),X629),X631) = multiply(multiply(inverse(double_divide(X630,X632)),X629),X631),
inference(resolution,status(thm),[c48,c40]) ).
cnf(c1785,plain,
multiply(multiply(multiply(X634,X633),X635),double_divide(X635,X634)) = X633,
inference(resolution,status(thm),[c83,c173]) ).
cnf(c1840,plain,
multiply(multiply(multiply(multiply(X748,X749),X750),double_divide(X750,X748)),X747) = multiply(X749,X747),
inference(resolution,status(thm),[c1785,c40]) ).
cnf(c2627,plain,
( X3975 != multiply(multiply(multiply(multiply(X3976,X3974),X3973),double_divide(X3973,X3976)),X3972)
| X3975 = multiply(X3974,X3972) ),
inference(resolution,status(thm),[c1840,transitivity]) ).
cnf(c1835,plain,
( X681 != multiply(multiply(multiply(X680,X679),X682),double_divide(X682,X680))
| X681 = X679 ),
inference(resolution,status(thm),[c1785,transitivity]) ).
cnf(c1831,plain,
X637 = multiply(multiply(multiply(X636,X637),X638),double_divide(X638,X636)),
inference(resolution,status(thm),[c1785,symmetry]) ).
cnf(c1870,plain,
multiply(X757,X758) = multiply(multiply(multiply(multiply(X756,X757),X755),double_divide(X755,X756)),X758),
inference(resolution,status(thm),[c1831,c40]) ).
cnf(c2700,plain,
multiply(X761,double_divide(double_divide(X759,X760),multiply(X760,X761))) = X759,
inference(resolution,status(thm),[c1870,c1835]) ).
cnf(c2749,plain,
( X4110 != X4111
| multiply(X4110,multiply(X4112,double_divide(double_divide(X4113,X4114),multiply(X4114,X4112)))) = multiply(X4111,X4113) ),
inference(resolution,status(thm),[c2700,c2]) ).
cnf(c36357,plain,
multiply(X4118,multiply(X4117,double_divide(double_divide(X4115,X4116),multiply(X4116,X4117)))) = multiply(X4118,X4115),
inference(resolution,status(thm),[c2749,reflexivity]) ).
cnf(c36663,plain,
( X6597 != multiply(X6593,multiply(X6596,double_divide(double_divide(X6595,X6594),multiply(X6594,X6596))))
| X6597 = multiply(X6593,X6595) ),
inference(resolution,status(thm),[c36357,transitivity]) ).
cnf(c1855,plain,
X644 = inverse(double_divide(double_divide(X643,X642),multiply(multiply(X642,X644),X643))),
inference(resolution,status(thm),[c1831,c5]) ).
cnf(c1888,plain,
inverse(double_divide(double_divide(X660,X661),multiply(multiply(X661,X659),X660))) = X659,
inference(resolution,status(thm),[c1855,symmetry]) ).
cnf(c2021,plain,
( X858 != inverse(double_divide(double_divide(X860,X859),multiply(multiply(X859,X857),X860)))
| X858 = X857 ),
inference(resolution,status(thm),[c1888,transitivity]) ).
cnf(c4,plain,
inverse(double_divide(X20,X19)) = multiply(X19,X20),
inference(resolution,status(thm),[multiply,symmetry]) ).
cnf(c12,plain,
( X33 != inverse(double_divide(X32,X34))
| X33 = multiply(X34,X32) ),
inference(resolution,status(thm),[c4,transitivity]) ).
cnf(c0,plain,
( X17 != X16
| inverse(X17) = inverse(X16) ),
eq_axiom ).
cnf(c2738,plain,
( X793 != multiply(X792,double_divide(double_divide(X791,X794),multiply(X794,X792)))
| X793 = X791 ),
inference(resolution,status(thm),[c2700,transitivity]) ).
cnf(c2703,plain,
multiply(multiply(X9133,X9132),X9131) = multiply(multiply(multiply(multiply(multiply(X9130,X9133),X9129),double_divide(X9129,X9130)),X9132),X9131),
inference(resolution,status(thm),[c1870,c40]) ).
cnf(c109662,plain,
multiply(multiply(X9141,X9139),double_divide(X9139,multiply(multiply(X9140,X9141),X9138))) = double_divide(X9138,X9140),
inference(resolution,status(thm),[c2703,c1835]) ).
cnf(c109751,plain,
double_divide(X9144,X9142) = multiply(multiply(X9143,X9145),double_divide(X9145,multiply(multiply(X9142,X9143),X9144))),
inference(resolution,status(thm),[c109662,symmetry]) ).
cnf(c109960,plain,
double_divide(multiply(X9152,double_divide(X9151,multiply(X9153,X9152))),X9153) = X9151,
inference(resolution,status(thm),[c109751,c2738]) ).
cnf(c110285,plain,
( X9186 != double_divide(multiply(X9183,double_divide(X9184,multiply(X9185,X9183))),X9185)
| X9186 = X9184 ),
inference(resolution,status(thm),[c109960,transitivity]) ).
cnf(c1,plain,
( X38 != X37
| X35 != X36
| double_divide(X38,X35) = double_divide(X37,X36) ),
eq_axiom ).
cnf(c25,plain,
( X44 != X43
| double_divide(X44,X45) = double_divide(X43,X45) ),
inference(resolution,status(thm),[c1,reflexivity]) ).
cnf(c2734,plain,
X764 = multiply(X763,double_divide(double_divide(X764,X762),multiply(X762,X763))),
inference(resolution,status(thm),[c2700,symmetry]) ).
cnf(c2782,plain,
multiply(X950,X951) = multiply(multiply(X949,double_divide(double_divide(X950,X948),multiply(X948,X949))),X951),
inference(resolution,status(thm),[c2734,c40]) ).
cnf(c3937,plain,
multiply(multiply(X12516,X12515),X12517) = multiply(multiply(multiply(X12514,double_divide(double_divide(X12516,X12518),multiply(X12518,X12514))),X12515),X12517),
inference(resolution,status(thm),[c2782,c40]) ).
cnf(c184334,plain,
multiply(multiply(X12520,X12519),double_divide(X12519,X12521)) = double_divide(double_divide(X12520,X12522),multiply(X12522,X12521)),
inference(resolution,status(thm),[c3937,c1835]) ).
cnf(c184435,plain,
double_divide(double_divide(X12523,X12525),multiply(X12525,X12524)) = multiply(multiply(X12523,X12526),double_divide(X12526,X12524)),
inference(resolution,status(thm),[c184334,symmetry]) ).
cnf(c184625,plain,
double_divide(double_divide(multiply(X12529,X12527),X12528),multiply(X12528,X12529)) = X12527,
inference(resolution,status(thm),[c184435,c1835]) ).
cnf(c184721,plain,
X12531 = double_divide(double_divide(multiply(X12530,X12531),X12532),multiply(X12532,X12530)),
inference(resolution,status(thm),[c184625,symmetry]) ).
cnf(c185038,plain,
inverse(X12619) = inverse(double_divide(double_divide(multiply(X12618,X12619),X12617),multiply(X12617,X12618))),
inference(resolution,status(thm),[c184721,c0]) ).
cnf(c186889,plain,
inverse(X12621) = multiply(multiply(X12622,X12620),double_divide(multiply(X12620,X12621),X12622)),
inference(resolution,status(thm),[c185038,c12]) ).
cnf(c187138,plain,
multiply(inverse(X13425),X13424) = multiply(multiply(multiply(X13422,X13423),double_divide(multiply(X13423,X13425),X13422)),X13424),
inference(resolution,status(thm),[c186889,c40]) ).
cnf(c211045,plain,
multiply(inverse(X13427),double_divide(double_divide(multiply(X13426,X13427),X13428),X13428)) = X13426,
inference(resolution,status(thm),[c187138,c1835]) ).
cnf(c211154,plain,
X13430 = multiply(inverse(X13429),double_divide(double_divide(multiply(X13430,X13429),X13431),X13431)),
inference(resolution,status(thm),[c211045,symmetry]) ).
cnf(c211470,plain,
double_divide(X14191,X14192) = double_divide(multiply(inverse(X14190),double_divide(double_divide(multiply(X14191,X14190),X14193),X14193)),X14192),
inference(resolution,status(thm),[c211154,c25]) ).
cnf(c229484,plain,
double_divide(X14202,X14201) = double_divide(multiply(X14202,X14200),multiply(X14201,inverse(X14200))),
inference(resolution,status(thm),[c211470,c110285]) ).
cnf(c229803,plain,
inverse(double_divide(X14245,X14246)) = inverse(double_divide(multiply(X14245,X14247),multiply(X14246,inverse(X14247)))),
inference(resolution,status(thm),[c229484,c0]) ).
cnf(c230966,plain,
inverse(double_divide(X14250,X14248)) = multiply(multiply(X14248,inverse(X14249)),multiply(X14250,X14249)),
inference(resolution,status(thm),[c229803,c12]) ).
cnf(c231104,plain,
multiply(multiply(X14252,inverse(X14253)),multiply(X14251,X14253)) = inverse(double_divide(X14251,X14252)),
inference(resolution,status(thm),[c230966,symmetry]) ).
cnf(c231271,plain,
multiply(multiply(X14255,inverse(X14256)),multiply(X14254,X14256)) = multiply(X14255,X14254),
inference(resolution,status(thm),[c231104,c12]) ).
cnf(c231571,plain,
( X14439 != multiply(multiply(X14440,inverse(X14438)),multiply(X14437,X14438))
| X14439 = multiply(X14440,X14437) ),
inference(resolution,status(thm),[c231271,transitivity]) ).
cnf(c110140,plain,
( X10186 != X10187
| multiply(X10186,double_divide(multiply(X10184,double_divide(X10188,multiply(X10185,X10184))),X10185)) = multiply(X10187,X10188) ),
inference(resolution,status(thm),[c109960,c2]) ).
cnf(c130139,plain,
multiply(X10192,double_divide(multiply(X10191,double_divide(X10189,multiply(X10190,X10191))),X10190)) = multiply(X10192,X10189),
inference(resolution,status(thm),[c110140,reflexivity]) ).
cnf(c130672,plain,
multiply(X10194,X10195) = multiply(X10194,double_divide(multiply(X10196,double_divide(X10195,multiply(X10193,X10196))),X10193)),
inference(resolution,status(thm),[c130139,symmetry]) ).
cnf(c130866,plain,
multiply(multiply(multiply(X10203,X10201),multiply(X10202,double_divide(X10204,multiply(X10203,X10202)))),X10204) = X10201,
inference(resolution,status(thm),[c130672,c1835]) ).
cnf(c131127,plain,
( X11362 != multiply(multiply(multiply(X11359,X11361),multiply(X11363,double_divide(X11360,multiply(X11359,X11363)))),X11360)
| X11362 = X11361 ),
inference(resolution,status(thm),[c130866,transitivity]) ).
cnf(c1841,plain,
( X3734 != X3735
| multiply(X3734,multiply(multiply(multiply(X3733,X3736),X3737),double_divide(X3737,X3733))) = multiply(X3735,X3736) ),
inference(resolution,status(thm),[c1785,c2]) ).
cnf(c30748,plain,
multiply(X3741,multiply(multiply(multiply(X3740,X3739),X3738),double_divide(X3738,X3740))) = multiply(X3741,X3739),
inference(resolution,status(thm),[c1841,reflexivity]) ).
cnf(c31026,plain,
( X6299 != multiply(X6297,multiply(multiply(multiply(X6298,X6295),X6296),double_divide(X6296,X6298)))
| X6299 = multiply(X6297,X6295) ),
inference(resolution,status(thm),[c30748,transitivity]) ).
cnf(c39,plain,
( X223 != X221
| multiply(X223,inverse(double_divide(X220,X222))) = multiply(X221,multiply(X222,X220)) ),
inference(resolution,status(thm),[c2,c4]) ).
cnf(c400,plain,
multiply(X226,inverse(double_divide(X224,X225))) = multiply(X226,multiply(X225,X224)),
inference(resolution,status(thm),[c39,reflexivity]) ).
cnf(c415,plain,
multiply(X231,multiply(X233,X232)) = multiply(X231,inverse(double_divide(X232,X233))),
inference(resolution,status(thm),[c400,symmetry]) ).
cnf(c448,plain,
multiply(multiply(X1415,multiply(X1413,X1412)),X1414) = multiply(multiply(X1415,inverse(double_divide(X1412,X1413))),X1414),
inference(resolution,status(thm),[c415,c40]) ).
cnf(c235708,plain,
multiply(multiply(X14609,multiply(X14611,X14612)),multiply(X14610,double_divide(X14612,X14611))) = multiply(X14609,X14610),
inference(resolution,status(thm),[c231571,c448]) ).
cnf(c239043,plain,
multiply(X14676,X14675) = multiply(multiply(X14676,multiply(X14674,X14677)),multiply(X14675,double_divide(X14677,X14674))),
inference(resolution,status(thm),[c235708,symmetry]) ).
cnf(c241682,plain,
multiply(X14714,multiply(multiply(X14716,X14715),X14717)) = multiply(multiply(X14714,multiply(X14716,X14717)),X14715),
inference(resolution,status(thm),[c239043,c31026]) ).
cnf(c242455,plain,
multiply(multiply(X14744,X14747),multiply(multiply(X14746,X14745),double_divide(X14745,multiply(X14744,X14746)))) = X14747,
inference(resolution,status(thm),[c241682,c131127]) ).
cnf(c243678,plain,
X14796 = multiply(multiply(X14795,X14796),multiply(multiply(X14794,X14797),double_divide(X14797,multiply(X14795,X14794)))),
inference(resolution,status(thm),[c242455,symmetry]) ).
cnf(c246467,plain,
inverse(double_divide(X14800,multiply(X14799,X14798))) = multiply(X14799,multiply(X14798,X14800)),
inference(resolution,status(thm),[c243678,c231571]) ).
cnf(c246590,plain,
multiply(X14807,multiply(X14808,X14806)) = inverse(double_divide(X14806,multiply(X14807,X14808))),
inference(resolution,status(thm),[c246467,symmetry]) ).
cnf(c247024,plain,
multiply(multiply(X14812,X14813),multiply(X14814,double_divide(X14814,X14812))) = X14813,
inference(resolution,status(thm),[c246590,c2021]) ).
cnf(c247248,plain,
X14829 = multiply(multiply(X14827,X14829),multiply(X14828,double_divide(X14828,X14827))),
inference(resolution,status(thm),[c247024,symmetry]) ).
cnf(c247877,plain,
X14840 = multiply(multiply(multiply(X14838,double_divide(X14839,X14838)),X14840),X14839),
inference(resolution,status(thm),[c247248,c36663]) ).
cnf(c247999,plain,
double_divide(double_divide(X14940,multiply(X14938,X14939)),X14938) = multiply(X14939,X14940),
inference(resolution,status(thm),[c247877,c2627]) ).
cnf(c253544,plain,
multiply(X15164,X15166) = double_divide(double_divide(X15166,multiply(X15165,X15164)),X15165),
inference(resolution,status(thm),[c247999,symmetry]) ).
cnf(c211360,plain,
( X13462 != multiply(inverse(X13463),double_divide(double_divide(multiply(X13461,X13463),X13464),X13464))
| X13462 = X13461 ),
inference(resolution,status(thm),[c211045,transitivity]) ).
cnf(c248044,plain,
X14846 = double_divide(double_divide(X14846,X14847),X14847),
inference(resolution,status(thm),[c247877,c1835]) ).
cnf(c248379,plain,
inverse(X14853) = inverse(double_divide(double_divide(X14853,X14852),X14852)),
inference(resolution,status(thm),[c248044,c0]) ).
cnf(c248734,plain,
inverse(X14854) = multiply(X14855,double_divide(X14854,X14855)),
inference(resolution,status(thm),[c248379,c12]) ).
cnf(c248975,plain,
inverse(double_divide(multiply(X14886,X14885),inverse(X14885))) = X14886,
inference(resolution,status(thm),[c248734,c211360]) ).
cnf(c251484,plain,
X14897 = inverse(double_divide(multiply(X14897,X14896),inverse(X14896))),
inference(resolution,status(thm),[c248975,symmetry]) ).
cnf(c251767,plain,
X14898 = multiply(inverse(X14899),multiply(X14898,X14899)),
inference(resolution,status(thm),[c251484,c12]) ).
cnf(c251909,plain,
multiply(inverse(X14900),multiply(X14901,X14900)) = X14901,
inference(resolution,status(thm),[c251767,symmetry]) ).
cnf(c252289,plain,
( X15077 != multiply(inverse(X15075),multiply(X15076,X15075))
| X15077 = X15076 ),
inference(resolution,status(thm),[c251909,transitivity]) ).
cnf(c157,plain,
inverse(double_divide(X179,inverse(double_divide(X180,X181)))) = multiply(multiply(X181,X180),X179),
inference(resolution,status(thm),[c80,symmetry]) ).
cnf(c272,plain,
( X1331 != inverse(double_divide(X1328,inverse(double_divide(X1329,X1330))))
| X1331 = multiply(multiply(X1330,X1329),X1328) ),
inference(resolution,status(thm),[c157,transitivity]) ).
cnf(c251825,plain,
X15054 = multiply(multiply(X15053,X15052),multiply(X15054,double_divide(X15052,X15053))),
inference(resolution,status(thm),[c251484,c272]) ).
cnf(c259483,plain,
multiply(multiply(X15267,X15266),X15265) = multiply(multiply(X15267,X15265),X15266),
inference(resolution,status(thm),[c251825,c31026]) ).
cnf(c246921,plain,
multiply(X14811,multiply(X14810,X14809)) = multiply(multiply(X14811,X14810),X14809),
inference(resolution,status(thm),[c246590,c12]) ).
cnf(c247070,plain,
multiply(multiply(X14817,X14815),X14816) = multiply(X14817,multiply(X14815,X14816)),
inference(resolution,status(thm),[c246921,symmetry]) ).
cnf(c261938,plain,
multiply(multiply(inverse(X15088),X15089),X15088) = X15089,
inference(resolution,status(thm),[c252289,c247070]) ).
cnf(c262353,plain,
( X15288 != multiply(multiply(inverse(X15287),X15289),X15287)
| X15288 = X15289 ),
inference(resolution,status(thm),[c261938,transitivity]) ).
cnf(c270900,plain,
multiply(multiply(inverse(X15311),X15311),X15310) = X15310,
inference(resolution,status(thm),[c262353,c259483]) ).
cnf(c271284,plain,
X15317 = multiply(multiply(inverse(X15316),X15316),X15317),
inference(resolution,status(thm),[c270900,symmetry]) ).
cnf(c271593,plain,
multiply(X15341,X15342) = multiply(inverse(inverse(X15342)),X15341),
inference(resolution,status(thm),[c271284,c231571]) ).
cnf(c272177,plain,
multiply(multiply(X15344,inverse(X15343)),X15343) = X15344,
inference(resolution,status(thm),[c271593,c252289]) ).
cnf(c272236,plain,
X15346 = multiply(multiply(X15346,inverse(X15345)),X15345),
inference(resolution,status(thm),[c272177,symmetry]) ).
cnf(c271508,plain,
( X15714 != multiply(multiply(inverse(X15713),X15713),X15712)
| X15714 = X15712 ),
inference(resolution,status(thm),[c270900,transitivity]) ).
cnf(c288132,plain,
inverse(inverse(X15723)) = X15723,
inference(resolution,status(thm),[c271508,c272236]) ).
cnf(c288826,plain,
( X15757 != inverse(inverse(X15756))
| X15757 = X15756 ),
inference(resolution,status(thm),[c288132,transitivity]) ).
cnf(c9,plain,
inverse(multiply(X30,X31)) = inverse(inverse(double_divide(X31,X30))),
inference(resolution,status(thm),[c0,multiply]) ).
cnf(c18,plain,
( X97 != inverse(multiply(X96,X95))
| X97 = inverse(inverse(double_divide(X95,X96))) ),
inference(resolution,status(thm),[c9,transitivity]) ).
cnf(c272460,plain,
( X16143 != multiply(multiply(X16142,inverse(X16141)),X16141)
| X16143 = X16142 ),
inference(resolution,status(thm),[c272177,transitivity]) ).
cnf(c308201,plain,
inverse(multiply(X16154,double_divide(X16154,X16153))) = X16153,
inference(resolution,status(thm),[c272460,c247248]) ).
cnf(c308575,plain,
X16172 = inverse(multiply(X16171,double_divide(X16171,X16172))),
inference(resolution,status(thm),[c308201,symmetry]) ).
cnf(c309601,plain,
X16213 = inverse(inverse(double_divide(double_divide(X16214,X16213),X16214))),
inference(resolution,status(thm),[c308575,c18]) ).
cnf(c310959,plain,
X16215 = double_divide(double_divide(X16216,X16215),X16216),
inference(resolution,status(thm),[c309601,c288826]) ).
cnf(c311031,plain,
double_divide(double_divide(X16226,X16225),X16226) = X16225,
inference(resolution,status(thm),[c310959,symmetry]) ).
cnf(c311593,plain,
( X16332 != double_divide(double_divide(X16330,X16331),X16330)
| X16332 = X16331 ),
inference(resolution,status(thm),[c311031,transitivity]) ).
cnf(c318920,plain,
multiply(X16353,X16354) = multiply(X16354,X16353),
inference(resolution,status(thm),[c311593,c253544]) ).
cnf(c319702,plain,
$false,
inference(resolution,status(thm),[c318920,prove_these_axioms_4]) ).
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.02/0.08 % Problem : GRP596-1 : TPTP v8.1.0. Bugfixed v2.7.0.
% 0.02/0.09 % Command : pyres-fof.py -tifbsVp -nlargest -HPickGiven5 %s
% 0.09/0.28 % Computer : n023.cluster.edu
% 0.09/0.28 % Model : x86_64 x86_64
% 0.09/0.28 % CPU : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 0.09/0.28 % Memory : 8042.1875MB
% 0.09/0.28 % OS : Linux 3.10.0-693.el7.x86_64
% 0.09/0.28 % CPULimit : 300
% 0.09/0.28 % WCLimit : 600
% 0.09/0.28 % DateTime : Mon Jun 13 11:29:06 EDT 2022
% 0.09/0.28 % CPUTime :
% 285.42/285.87 # Version: 1.3
% 285.42/285.87 # SZS status Unsatisfiable
% 285.42/285.87 # SZS output start CNFRefutation
% See solution above
% 285.42/285.87
% 285.42/285.87 # Initial clauses : 9
% 285.42/285.87 # Processed clauses : 2030
% 285.42/285.87 # Factors computed : 0
% 285.42/285.87 # Resolvents computed: 319719
% 285.42/285.87 # Tautologies deleted: 1
% 285.42/285.87 # Forward subsumed : 2399
% 285.42/285.87 # Backward subsumed : 0
% 285.42/285.87 # -------- CPU Time ---------
% 285.42/285.87 # User time : 284.370 s
% 285.42/285.87 # System time : 0.997 s
% 285.42/285.87 # Total time : 285.367 s
%------------------------------------------------------------------------------