TSTP Solution File: MGT035-2 by Bliksem---1.12

%------------------------------------------------------------------------------
% File     : Bliksem---1.12
% Problem  : MGT035-2 : TPTP v8.1.0. Released v2.4.0.
% Transfm  : none
% Format   : tptp:raw
% Command  : bliksem %s

% Computer : n017.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  : 0s
% DateTime : Sun Jul 17 21:57:47 EDT 2022

% Result   : Timeout 300.03s 300.40s
% Output   : None 
% Verified : 
% SZS Type : -

% Comments : 
%------------------------------------------------------------------------------
%----No solution output by system
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.01/0.12  % Problem  : MGT035-2 : TPTP v8.1.0. Released v2.4.0.
% 0.14/0.13  % Command  : bliksem %s
% 0.14/0.34  % Computer : n017.cluster.edu
% 0.14/0.34  % Model    : x86_64 x86_64
% 0.14/0.34  % CPU      : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 0.14/0.34  % Memory   : 8042.1875MB
% 0.14/0.34  % OS       : Linux 3.10.0-693.el7.x86_64
% 0.14/0.35  % CPULimit : 300
% 0.14/0.35  % DateTime : Thu Jun  9 09:55:34 EDT 2022
% 0.14/0.35  % CPUTime  : 
% 0.71/1.10  *** allocated 10000 integers for termspace/termends
% 0.71/1.10  *** allocated 10000 integers for clauses
% 0.71/1.10  *** allocated 10000 integers for justifications
% 0.71/1.10  Bliksem 1.12
% 0.71/1.10  
% 0.71/1.10  
% 0.71/1.10  Automatic Strategy Selection
% 0.71/1.10  
% 0.71/1.10  Clauses:
% 0.71/1.10  [
% 0.71/1.10     [ ~( environment( X ) ), ~( subpopulations( 'first_movers', 
% 0.71/1.10    'efficient_producers', X, Y ) ), 'in_environment'( X, Y ) ],
% 0.71/1.10     [ ~( environment( X ) ), ~( subpopulations( 'first_movers', 
% 0.71/1.10    'efficient_producers', X, Y ) ), greater( 'number_of_organizations'( X, Y
% 0.71/1.10     ), zero ) ],
% 0.71/1.10     [ ~( environment( X ) ), ~( subpopulation( Y, X, Z ) ), greater( 
% 0.71/1.10    'cardinality_at_time'( Y, Z ), zero ), =( 'number_of_organizations'( X, Z
% 0.71/1.10     ), sum( 'cardinality_at_time'( 'first_movers', Z ), 
% 0.71/1.10    'cardinality_at_time'( 'efficient_producers', Z ) ) ) ],
% 0.71/1.10     [ ~( environment( X ) ), ~( subpopulation( Y, X, Z ) ), ~( =( Y, 
% 0.71/1.10    'efficient_producers' ) ), =( 'number_of_organizations'( X, Z ), sum( 
% 0.71/1.10    'cardinality_at_time'( 'first_movers', Z ), 'cardinality_at_time'( 
% 0.71/1.10    'efficient_producers', Z ) ) ) ],
% 0.71/1.10     [ ~( environment( X ) ), ~( subpopulation( Y, X, Z ) ), ~( =( Y, 
% 0.71/1.10    'first_movers' ) ), =( 'number_of_organizations'( X, Z ), sum( 
% 0.71/1.10    'cardinality_at_time'( 'first_movers', Z ), 'cardinality_at_time'( 
% 0.71/1.10    'efficient_producers', Z ) ) ) ],
% 0.71/1.10     [ ~( environment( X ) ), ~( 'in_environment'( X, Y ) ), subpopulation( 
% 0.71/1.10    'first_movers', X, Y ) ],
% 0.71/1.10     [ ~( environment( X ) ), ~( 'in_environment'( X, Y ) ), subpopulation( 
% 0.71/1.10    'efficient_producers', X, Y ) ],
% 0.71/1.10     [ ~( =( X, sum( Y, Z ) ) ), ~( constant( X ) ), constant( Y ), increases( 
% 0.71/1.10    Y ), decreases( Y ) ],
% 0.71/1.10     [ ~( =( X, sum( Y, Z ) ) ), ~( constant( X ) ), constant( Y ), increases( 
% 0.71/1.10    Y ), increases( Z ) ],
% 0.71/1.10     [ ~( =( X, sum( Y, Z ) ) ), ~( constant( X ) ), constant( Y ), decreases( 
% 0.71/1.10    Z ), decreases( Y ) ],
% 0.71/1.10     [ ~( =( X, sum( Y, Z ) ) ), ~( constant( X ) ), constant( Y ), decreases( 
% 0.71/1.10    Z ), increases( Z ) ],
% 0.71/1.10     [ ~( =( X, sum( Y, Z ) ) ), ~( constant( X ) ), constant( Z ), increases( 
% 0.71/1.10    Y ), decreases( Y ) ],
% 0.71/1.10     [ ~( =( X, sum( Y, Z ) ) ), ~( constant( X ) ), constant( Z ), increases( 
% 0.71/1.10    Y ), increases( Z ) ],
% 0.71/1.10     [ ~( =( X, sum( Y, Z ) ) ), ~( constant( X ) ), constant( Z ), decreases( 
% 0.71/1.10    Z ), decreases( Y ) ],
% 0.71/1.10     [ ~( =( X, sum( Y, Z ) ) ), ~( constant( X ) ), constant( Z ), decreases( 
% 0.71/1.10    Z ), increases( Z ) ],
% 0.71/1.10     [ ~( environment( X ) ), ~( 'in_environment'( X, Y ) ), ~( subpopulation( 
% 0.71/1.10    Z, X, Y ) ), ~( greater( 'cardinality_at_time'( Z, Y ), zero ) ), ~( 
% 0.71/1.10    constant( 'cardinality_at_time'( Z, Y ) ) ), =( 'growth_rate'( Z, Y ), 
% 0.71/1.10    zero ) ],
% 0.71/1.10     [ ~( environment( X ) ), ~( 'in_environment'( X, Y ) ), ~( subpopulation( 
% 0.71/1.10    Z, X, Y ) ), ~( greater( 'cardinality_at_time'( Z, Y ), zero ) ), ~( 
% 0.71/1.10    increases( 'cardinality_at_time'( Z, Y ) ) ), greater( 'growth_rate'( Z, 
% 0.71/1.10    Y ), zero ) ],
% 0.71/1.10     [ ~( environment( X ) ), ~( 'in_environment'( X, Y ) ), ~( subpopulation( 
% 0.71/1.10    Z, X, Y ) ), ~( greater( 'cardinality_at_time'( Z, Y ), zero ) ), ~( 
% 0.71/1.10    decreases( 'cardinality_at_time'( Z, Y ) ) ), greater( zero, 
% 0.71/1.10    'growth_rate'( Z, Y ) ) ],
% 0.71/1.10     [ ~( environment( X ) ), ~( subpopulations( 'first_movers', 
% 0.71/1.10    'efficient_producers', X, Y ) ), greater( 'cardinality_at_time'( 
% 0.71/1.10    'first_movers', Y ), zero ) ],
% 0.71/1.10     [ ~( environment( X ) ), ~( subpopulations( 'first_movers', 
% 0.71/1.10    'efficient_producers', X, Y ) ), greater( 'cardinality_at_time'( 
% 0.71/1.10    'efficient_producers', Y ), zero ) ],
% 0.71/1.10     [ ~( greater( X, Y ) ), ~( =( X, Y ) ) ],
% 0.71/1.10     [ ~( greater( X, Y ) ), ~( greater( Y, X ) ) ],
% 0.71/1.10     [ ~( greater( X, Y ) ), ~( greater( Y, Z ) ), greater( X, Z ) ],
% 0.71/1.10     [ ~( 'in_environment'( X, Y ) ), ~( 'in_environment'( X, Z ) ), greater( 
% 0.71/1.10    Z, Y ), =( Z, Y ), greater( Y, Z ) ],
% 0.71/1.10     [ ~( 'greater_or_equal'( X, Y ) ), greater( X, Y ), =( X, Y ) ],
% 0.71/1.10     [ ~( greater( X, Y ) ), 'greater_or_equal'( X, Y ) ],
% 0.71/1.10     [ ~( =( X, Y ) ), 'greater_or_equal'( X, Y ) ],
% 0.71/1.10     [ ~( environment( X ) ), ~( 'greater_or_equal'( Y, equilibrium( X ) ) )
% 0.71/1.10    , ~( greater( equilibrium( X ), Y ) ) ],
% 0.71/1.10     [ ~( environment( X ) ), ~( subpopulations( Y, Z, X, T ) ), ~( 
% 0.71/1.10    'greater_or_equal'( 'growth_rate'( Z, T ), zero ) ), ~( greater( zero, 
% 0.71/1.10    'growth_rate'( Y, T ) ) ), outcompetes( Z, Y, T ) ],
% 300.03/300.40  Cputime limit exceeded (core dumped)
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