TSTP Solution File: MGT036+1 by nanoCoP---2.0

View Problem - Process Solution 
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% File     : nanoCoP---2.0
% Problem  : MGT036+1 : TPTP v8.1.2. Released v2.0.0.
% Transfm  : none
% Format   : tptp:raw
% Command  : nanocop.sh %s %d

% Computer : n026.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  : 300s
% DateTime : Fri May 19 11:35:40 EDT 2023

% Result   : Theorem 0.35s 1.41s
% Output   : Proof 0.35s
% Verified : 
% SZS Type : -

% Comments : 
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%----WARNING: Could not form TPTP format derivation
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%----ORIGINAL SYSTEM OUTPUT
% 0.08/0.14  % Problem  : MGT036+1 : TPTP v8.1.2. Released v2.0.0.
% 0.08/0.14  % Command  : nanocop.sh %s %d
% 0.14/0.36  % Computer : n026.cluster.edu
% 0.14/0.36  % Model    : x86_64 x86_64
% 0.14/0.36  % CPU      : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 0.14/0.36  % Memory   : 8042.1875MB
% 0.14/0.36  % OS       : Linux 3.10.0-693.el7.x86_64
% 0.14/0.36  % CPULimit : 300
% 0.14/0.36  % WCLimit  : 300
% 0.14/0.36  % DateTime : Thu May 18 23:56:35 EDT 2023
% 0.14/0.36  % CPUTime  : 
% 0.35/1.41  
% 0.35/1.41  /export/starexec/sandbox/benchmark/theBenchmark.p is a Theorem
% 0.35/1.41  Start of proof for /export/starexec/sandbox/benchmark/theBenchmark.p
% 0.35/1.41  %-----------------------------------------------------
% 0.35/1.41  ncf(matrix, plain, [(94 ^ _17554) ^ [] : [-(environment(91 ^ []))], (96 ^ _17554) ^ [] : [-(subpopulations(first_movers, efficient_producers, 91 ^ [], 92 ^ []))], (98 ^ _17554) ^ [] : [-(outcompetes(first_movers, efficient_producers, 92 ^ []))], (2 ^ _17554) ^ [_17667, _17669] : [-(subpopulations(efficient_producers, first_movers, _17669, _17667)), environment(_17669), subpopulations(first_movers, efficient_producers, _17669, _17667)], (12 ^ _17554) ^ [_17972, _17974] : [-(in_environment(_17974, _17972)), environment(_17974), subpopulations(first_movers, efficient_producers, _17974, _17972)], (22 ^ _17554) ^ [_18330, _18332, _18334, _18336] : [23 ^ _17554 : [(24 ^ _17554) ^ [] : [-(environment(_18336))], (26 ^ _17554) ^ [] : [-(subpopulations(_18334, _18332, _18336, _18330))], (28 ^ _17554) ^ [] : [greater_or_equal(growth_rate(_18334, _18330), zero)]], greater(zero, growth_rate(_18334, _18330))], (32 ^ _17554) ^ [_18678, _18680, _18682, _18684] : [-(greater(zero, growth_rate(_18682, _18678))), -(greater_or_equal(growth_rate(_18682, _18678), zero)), environment(_18684), subpopulations(_18682, _18680, _18684, _18678)], (90 ^ _17554) ^ [] : [-(greater(resilience(efficient_producers), resilience(first_movers)))], (72 ^ _17554) ^ [_19953, _19955, _19957, _19959] : [greater(zero, growth_rate(_19955, _19953)), environment(_19959), in_environment(_19959, _19953), -(greater(zero, growth_rate(_19957, _19953))), greater(resilience(_19955), resilience(_19957))], (46 ^ _17554) ^ [_19141, _19143, _19145, _19147] : [environment(_19147), subpopulations(_19145, _19143, _19147, _19141), 53 ^ _17554 : [(64 ^ _17554) ^ [] : [outcompetes(_19143, _19145, _19141), 67 ^ _17554 : [(68 ^ _17554) ^ [] : [-(greater_or_equal(growth_rate(_19143, _19141), zero))], (70 ^ _17554) ^ [] : [-(greater(zero, growth_rate(_19145, _19141)))]]], (54 ^ _17554) ^ [] : [-(outcompetes(_19143, _19145, _19141)), greater_or_equal(growth_rate(_19143, _19141), zero), greater(zero, growth_rate(_19145, _19141))]]]], input).
% 0.35/1.41  ncf('1',plain,[28 : greater_or_equal(growth_rate(first_movers, 92 ^ []), zero), 28 : greater(zero, growth_rate(first_movers, 92 ^ []))],start(22 ^ 0,bind([[_18330, _18332, _18334, _18336], [92 ^ [], _9117, first_movers, _9121]]))).
% 0.35/1.41  ncf('1.1',plain,[-(greater_or_equal(growth_rate(first_movers, 92 ^ []), zero)), 64 : outcompetes(first_movers, efficient_producers, 92 ^ []), 64 : environment(91 ^ []), 64 : subpopulations(efficient_producers, first_movers, 91 ^ [], 92 ^ [])],extension(46 ^ 3,bind([[_19141, _19143, _19145, _19147], [92 ^ [], first_movers, efficient_producers, 91 ^ []]]))).
% 0.35/1.41  ncf('1.1.1',plain,[-(outcompetes(first_movers, efficient_producers, 92 ^ []))],extension(98 ^ 6)).
% 0.35/1.41  ncf('1.1.2',plain,[-(environment(91 ^ []))],extension(94 ^ 4)).
% 0.35/1.41  ncf('1.1.3',plain,[-(subpopulations(efficient_producers, first_movers, 91 ^ [], 92 ^ [])), environment(91 ^ []), subpopulations(first_movers, efficient_producers, 91 ^ [], 92 ^ [])],extension(2 ^ 4,bind([[_17667, _17669], [92 ^ [], 91 ^ []]]))).
% 0.35/1.41  ncf('1.1.3.1',plain,[-(environment(91 ^ []))],lemmata('[1].x')).
% 0.35/1.41  ncf('1.1.3.2',plain,[-(subpopulations(first_movers, efficient_producers, 91 ^ [], 92 ^ []))],extension(96 ^ 5)).
% 0.35/1.41  ncf('1.2',plain,[-(greater(zero, growth_rate(first_movers, 92 ^ []))), greater(zero, growth_rate(efficient_producers, 92 ^ [])), environment(91 ^ []), in_environment(91 ^ [], 92 ^ []), greater(resilience(efficient_producers), resilience(first_movers))],extension(72 ^ 1,bind([[_19953, _19955, _19957, _19959], [92 ^ [], efficient_producers, first_movers, 91 ^ []]]))).
% 0.35/1.41  ncf('1.2.1',plain,[-(greater(zero, growth_rate(efficient_producers, 92 ^ []))), 64 : outcompetes(first_movers, efficient_producers, 92 ^ []), 64 : environment(91 ^ []), 64 : subpopulations(efficient_producers, first_movers, 91 ^ [], 92 ^ [])],extension(46 ^ 2,bind([[_19141, _19143, _19145, _19147], [92 ^ [], first_movers, efficient_producers, 91 ^ []]]))).
% 0.35/1.41  ncf('1.2.1.1',plain,[-(outcompetes(first_movers, efficient_producers, 92 ^ []))],extension(98 ^ 5)).
% 0.35/1.41  ncf('1.2.1.2',plain,[-(environment(91 ^ []))],extension(94 ^ 3)).
% 0.35/1.41  ncf('1.2.1.3',plain,[-(subpopulations(efficient_producers, first_movers, 91 ^ [], 92 ^ [])), environment(91 ^ []), subpopulations(first_movers, efficient_producers, 91 ^ [], 92 ^ [])],extension(2 ^ 3,bind([[_17667, _17669], [92 ^ [], 91 ^ []]]))).
% 0.35/1.41  ncf('1.2.1.3.1',plain,[-(environment(91 ^ []))],lemmata('[2, 1].x')).
% 0.35/1.41  ncf('1.2.1.3.2',plain,[-(subpopulations(first_movers, efficient_producers, 91 ^ [], 92 ^ []))],extension(96 ^ 4)).
% 0.35/1.41  ncf('1.2.2',plain,[-(environment(91 ^ []))],extension(94 ^ 2)).
% 0.35/1.41  ncf('1.2.3',plain,[-(in_environment(91 ^ [], 92 ^ [])), environment(91 ^ []), subpopulations(first_movers, efficient_producers, 91 ^ [], 92 ^ [])],extension(12 ^ 2,bind([[_17972, _17974], [92 ^ [], 91 ^ []]]))).
% 0.35/1.41  ncf('1.2.3.1',plain,[-(environment(91 ^ []))],lemmata('[1].x')).
% 0.35/1.41  ncf('1.2.3.2',plain,[-(subpopulations(first_movers, efficient_producers, 91 ^ [], 92 ^ []))],extension(96 ^ 3)).
% 0.35/1.41  ncf('1.2.4',plain,[-(greater(resilience(efficient_producers), resilience(first_movers)))],extension(90 ^ 2)).
% 0.35/1.41  %-----------------------------------------------------
% 0.35/1.41  End of proof for /export/starexec/sandbox/benchmark/theBenchmark.p
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