TSTP Solution File: MGT025-1 by Bliksem---1.12
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- Process Solution
%------------------------------------------------------------------------------
% File : Bliksem---1.12
% Problem : MGT025-1 : TPTP v8.1.0. Released v2.4.0.
% Transfm : none
% Format : tptp:raw
% Command : bliksem %s
% Computer : n021.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 21:57:42 EDT 2022
% Result : Unsatisfiable 0.73s 1.22s
% Output : Refutation 0.73s
% Verified :
% SZS Type : -
% Comments :
%------------------------------------------------------------------------------
%----WARNING: Could not form TPTP format derivation
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.07/0.12 % Problem : MGT025-1 : TPTP v8.1.0. Released v2.4.0.
% 0.07/0.13 % Command : bliksem %s
% 0.13/0.34 % Computer : n021.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 % DateTime : Thu Jun 9 10:03:08 EDT 2022
% 0.13/0.34 % CPUTime :
% 0.73/1.22 *** allocated 10000 integers for termspace/termends
% 0.73/1.22 *** allocated 10000 integers for clauses
% 0.73/1.22 *** allocated 10000 integers for justifications
% 0.73/1.22 Bliksem 1.12
% 0.73/1.22
% 0.73/1.22
% 0.73/1.22 Automatic Strategy Selection
% 0.73/1.22
% 0.73/1.22 Clauses:
% 0.73/1.22 [
% 0.73/1.22 [ ~( environment( X ) ), ~( subpopulation( Y, X, Z ) ), greater(
% 0.73/1.22 'cardinality_at_time'( Y, Z ), zero ), =( 'number_of_organizations'( X, Z
% 0.73/1.22 ), sum( 'cardinality_at_time'( 'first_movers', Z ),
% 0.73/1.22 'cardinality_at_time'( 'efficient_producers', Z ) ) ) ],
% 0.73/1.22 [ ~( environment( X ) ), ~( subpopulation( Y, X, Z ) ), ~( =( Y,
% 0.73/1.22 'efficient_producers' ) ), =( 'number_of_organizations'( X, Z ), sum(
% 0.73/1.22 'cardinality_at_time'( 'first_movers', Z ), 'cardinality_at_time'(
% 0.73/1.22 'efficient_producers', Z ) ) ) ],
% 0.73/1.22 [ ~( environment( X ) ), ~( subpopulation( Y, X, Z ) ), ~( =( Y,
% 0.73/1.22 'first_movers' ) ), =( 'number_of_organizations'( X, Z ), sum(
% 0.73/1.22 'cardinality_at_time'( 'first_movers', Z ), 'cardinality_at_time'(
% 0.73/1.22 'efficient_producers', Z ) ) ) ],
% 0.73/1.22 [ ~( environment( X ) ), ~( 'in_environment'( X, Y ) ), subpopulation(
% 0.73/1.22 'first_movers', X, Y ) ],
% 0.73/1.22 [ ~( environment( X ) ), ~( 'in_environment'( X, Y ) ), subpopulation(
% 0.73/1.22 'efficient_producers', X, Y ) ],
% 0.73/1.22 [ ~( =( X, sum( Y, Z ) ) ), ~( constant( X ) ), constant( Y ), increases(
% 0.73/1.22 Y ), decreases( Y ) ],
% 0.73/1.22 [ ~( =( X, sum( Y, Z ) ) ), ~( constant( X ) ), constant( Y ), increases(
% 0.73/1.22 Y ), increases( Z ) ],
% 0.73/1.22 [ ~( =( X, sum( Y, Z ) ) ), ~( constant( X ) ), constant( Y ), decreases(
% 0.73/1.22 Z ), decreases( Y ) ],
% 0.73/1.22 [ ~( =( X, sum( Y, Z ) ) ), ~( constant( X ) ), constant( Y ), decreases(
% 0.73/1.22 Z ), increases( Z ) ],
% 0.73/1.22 [ ~( =( X, sum( Y, Z ) ) ), ~( constant( X ) ), constant( Z ), increases(
% 0.73/1.22 Y ), decreases( Y ) ],
% 0.73/1.22 [ ~( =( X, sum( Y, Z ) ) ), ~( constant( X ) ), constant( Z ), increases(
% 0.73/1.22 Y ), increases( Z ) ],
% 0.73/1.22 [ ~( =( X, sum( Y, Z ) ) ), ~( constant( X ) ), constant( Z ), decreases(
% 0.73/1.22 Z ), decreases( Y ) ],
% 0.73/1.22 [ ~( =( X, sum( Y, Z ) ) ), ~( constant( X ) ), constant( Z ), decreases(
% 0.73/1.22 Z ), increases( Z ) ],
% 0.73/1.22 [ ~( environment( X ) ), ~( 'in_environment'( X, Y ) ), ~( subpopulation(
% 0.73/1.22 Z, X, Y ) ), ~( greater( 'cardinality_at_time'( Z, Y ), zero ) ), ~(
% 0.73/1.22 constant( 'cardinality_at_time'( Z, Y ) ) ), =( 'growth_rate'( Z, Y ),
% 0.73/1.22 zero ) ],
% 0.73/1.22 [ ~( environment( X ) ), ~( 'in_environment'( X, Y ) ), ~( subpopulation(
% 0.73/1.22 Z, X, Y ) ), ~( greater( 'cardinality_at_time'( Z, Y ), zero ) ), ~(
% 0.73/1.22 increases( 'cardinality_at_time'( Z, Y ) ) ), greater( 'growth_rate'( Z,
% 0.73/1.22 Y ), zero ) ],
% 0.73/1.22 [ ~( environment( X ) ), ~( 'in_environment'( X, Y ) ), ~( subpopulation(
% 0.73/1.22 Z, X, Y ) ), ~( greater( 'cardinality_at_time'( Z, Y ), zero ) ), ~(
% 0.73/1.22 decreases( 'cardinality_at_time'( Z, Y ) ) ), greater( zero,
% 0.73/1.22 'growth_rate'( Z, Y ) ) ],
% 0.73/1.22 [ ~( environment( X ) ), ~( subpopulations( 'first_movers',
% 0.73/1.22 'efficient_producers', X, Y ) ), greater( 'cardinality_at_time'(
% 0.73/1.22 'first_movers', Y ), zero ) ],
% 0.73/1.22 [ ~( environment( X ) ), ~( subpopulations( 'first_movers',
% 0.73/1.22 'efficient_producers', X, Y ) ), greater( 'cardinality_at_time'(
% 0.73/1.22 'efficient_producers', Y ), zero ) ],
% 0.73/1.22 [ ~( environment( X ) ), ~( subpopulations( 'first_movers',
% 0.73/1.22 'efficient_producers', X, Y ) ), 'in_environment'( X, Y ) ],
% 0.73/1.22 [ ~( environment( X ) ), ~( subpopulation( Y, X, Z ) ), ~( greater(
% 0.73/1.22 'cardinality_at_time'( Y, Z ), zero ) ), =( Y, 'efficient_producers' ),
% 0.73/1.22 =( Y, 'first_movers' ) ],
% 0.73/1.22 [ environment( sk1 ) ],
% 0.73/1.22 [ subpopulations( 'first_movers', 'efficient_producers', sk1, sk2 ) ]
% 0.73/1.22 ,
% 0.73/1.22 [ constant( 'number_of_organizations'( sk1, sk2 ) ) ],
% 0.73/1.22 [ ~( =( 'growth_rate'( 'first_movers', sk2 ), zero ) ), ~( =(
% 0.73/1.22 'growth_rate'( 'efficient_producers', sk2 ), zero ) ) ],
% 0.73/1.22 [ ~( greater( 'growth_rate'( 'first_movers', sk2 ), zero ) ), ~( greater(
% 0.73/1.22 zero, 'growth_rate'( 'efficient_producers', sk2 ) ) ) ],
% 0.73/1.22 [ ~( greater( 'growth_rate'( 'efficient_producers', sk2 ), zero ) ), ~(
% 0.73/1.22 greater( zero, 'growth_rate'( 'first_movers', sk2 ) ) ) ]
% 0.73/1.22 ] .
% 0.73/1.22
% 0.73/1.22
% 0.73/1.22 percentage equality = 0.181818, percentage horn = 0.615385
% 0.73/1.22 This is a problem with some equality
% 0.73/1.22
% 0.73/1.22
% 0.73/1.22
% 0.73/1.22 Options Used:
% 0.73/1.22
% 0.73/1.22 useres = 1
% 0.73/1.22 useparamod = 1
% 0.73/1.22 useeqrefl = 1
% 0.73/1.22 useeqfact = 1
% 0.73/1.22 usefactor = 1
% 0.73/1.22 usesimpsplitting = 0
% 0.73/1.22 usesimpdemod = 5
% 0.73/1.22 usesimpres = 3
% 0.73/1.22
% 0.73/1.22 resimpinuse = 1000
% 0.73/1.22 resimpclauses = 20000
% 0.73/1.22 substype = eqrewr
% 0.73/1.22 backwardsubs = 1
% 0.73/1.22 selectoldest = 5
% 0.73/1.22
% 0.73/1.22 litorderings [0] = split
% 0.73/1.22 litorderings [1] = extend the termordering, first sorting on arguments
% 0.73/1.22
% 0.73/1.22 termordering = kbo
% 0.73/1.22
% 0.73/1.22 litapriori = 0
% 0.73/1.22 termapriori = 1
% 0.73/1.22 litaposteriori = 0
% 0.73/1.22 termaposteriori = 0
% 0.73/1.22 demodaposteriori = 0
% 0.73/1.22 ordereqreflfact = 0
% 0.73/1.22
% 0.73/1.22 litselect = negord
% 0.73/1.22
% 0.73/1.22 maxweight = 15
% 0.73/1.22 maxdepth = 30000
% 0.73/1.22 maxlength = 115
% 0.73/1.22 maxnrvars = 195
% 0.73/1.22 excuselevel = 1
% 0.73/1.22 increasemaxweight = 1
% 0.73/1.22
% 0.73/1.22 maxselected = 10000000
% 0.73/1.22 maxnrclauses = 10000000
% 0.73/1.22
% 0.73/1.22 showgenerated = 0
% 0.73/1.22 showkept = 0
% 0.73/1.22 showselected = 0
% 0.73/1.22 showdeleted = 0
% 0.73/1.22 showresimp = 1
% 0.73/1.22 showstatus = 2000
% 0.73/1.22
% 0.73/1.22 prologoutput = 1
% 0.73/1.22 nrgoals = 5000000
% 0.73/1.22 totalproof = 1
% 0.73/1.22
% 0.73/1.22 Symbols occurring in the translation:
% 0.73/1.22
% 0.73/1.22 {} [0, 0] (w:1, o:2, a:1, s:1, b:0),
% 0.73/1.22 . [1, 2] (w:1, o:26, a:1, s:1, b:0),
% 0.73/1.22 ! [4, 1] (w:0, o:17, a:1, s:1, b:0),
% 0.73/1.22 = [13, 2] (w:1, o:0, a:0, s:1, b:0),
% 0.73/1.22 ==> [14, 2] (w:1, o:0, a:0, s:1, b:0),
% 0.73/1.22 environment [40, 1] (w:1, o:23, a:1, s:1, b:0),
% 0.73/1.22 subpopulation [43, 3] (w:1, o:57, a:1, s:1, b:0),
% 0.73/1.22 'cardinality_at_time' [44, 2] (w:1, o:51, a:1, s:1, b:0),
% 0.73/1.22 zero [45, 0] (w:1, o:14, a:1, s:1, b:0),
% 0.73/1.22 greater [46, 2] (w:1, o:52, a:1, s:1, b:0),
% 0.73/1.22 'number_of_organizations' [47, 2] (w:1, o:53, a:1, s:1, b:0),
% 0.73/1.22 'first_movers' [48, 0] (w:1, o:16, a:1, s:1, b:0),
% 0.73/1.22 'efficient_producers' [49, 0] (w:1, o:15, a:1, s:1, b:0),
% 0.73/1.22 sum [50, 2] (w:1, o:54, a:1, s:1, b:0),
% 0.73/1.22 'in_environment' [51, 2] (w:1, o:55, a:1, s:1, b:0),
% 0.73/1.22 constant [52, 1] (w:1, o:24, a:1, s:1, b:0),
% 0.73/1.22 increases [53, 1] (w:1, o:25, a:1, s:1, b:0),
% 0.73/1.22 decreases [54, 1] (w:1, o:22, a:1, s:1, b:0),
% 0.73/1.22 'growth_rate' [55, 2] (w:1, o:56, a:1, s:1, b:0),
% 0.73/1.22 subpopulations [56, 4] (w:1, o:58, a:1, s:1, b:0),
% 0.73/1.22 sk1 [57, 0] (w:1, o:5, a:1, s:1, b:0),
% 0.73/1.22 sk2 [58, 0] (w:1, o:6, a:1, s:1, b:0).
% 0.73/1.22
% 0.73/1.22
% 0.73/1.22 Starting Search:
% 0.73/1.22
% 0.73/1.22
% 0.73/1.22 Bliksems!, er is een bewijs:
% 0.73/1.22 % SZS status Unsatisfiable
% 0.73/1.22 % SZS output start Refutation
% 0.73/1.22
% 0.73/1.22 clause( 1, [ ~( environment( X ) ), ~( subpopulation( Y, X, Z ) ), ~( =( Y
% 0.73/1.22 , 'efficient_producers' ) ), =( 'number_of_organizations'( X, Z ), sum(
% 0.73/1.22 'cardinality_at_time'( 'first_movers', Z ), 'cardinality_at_time'(
% 0.73/1.22 'efficient_producers', Z ) ) ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 3, [ ~( environment( X ) ), ~( 'in_environment'( X, Y ) ),
% 0.73/1.22 subpopulation( 'first_movers', X, Y ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 4, [ ~( environment( X ) ), ~( 'in_environment'( X, Y ) ),
% 0.73/1.22 subpopulation( 'efficient_producers', X, Y ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 5, [ ~( =( X, sum( Y, Z ) ) ), ~( constant( X ) ), constant( Y ),
% 0.73/1.22 increases( Y ), decreases( Y ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 6, [ ~( =( X, sum( Y, Z ) ) ), ~( constant( X ) ), constant( Y ),
% 0.73/1.22 increases( Y ), increases( Z ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 7, [ ~( =( X, sum( Y, Z ) ) ), ~( constant( X ) ), constant( Y ),
% 0.73/1.22 decreases( Z ), decreases( Y ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 8, [ ~( =( X, sum( Y, Z ) ) ), ~( constant( X ) ), constant( Y ),
% 0.73/1.22 decreases( Z ), increases( Z ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 9, [ ~( =( X, sum( Y, Z ) ) ), ~( constant( X ) ), constant( Z ),
% 0.73/1.22 increases( Y ), decreases( Y ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 10, [ ~( =( X, sum( Y, Z ) ) ), ~( constant( X ) ), constant( Z ),
% 0.73/1.22 increases( Y ), increases( Z ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 11, [ ~( =( X, sum( Y, Z ) ) ), ~( constant( X ) ), constant( Z ),
% 0.73/1.22 decreases( Z ), decreases( Y ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 12, [ ~( =( X, sum( Y, Z ) ) ), ~( constant( X ) ), constant( Z ),
% 0.73/1.22 decreases( Z ), increases( Z ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 13, [ ~( environment( X ) ), ~( 'in_environment'( X, Y ) ), ~(
% 0.73/1.22 subpopulation( Z, X, Y ) ), ~( greater( 'cardinality_at_time'( Z, Y ),
% 0.73/1.22 zero ) ), ~( constant( 'cardinality_at_time'( Z, Y ) ) ), =(
% 0.73/1.22 'growth_rate'( Z, Y ), zero ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 14, [ ~( environment( X ) ), ~( 'in_environment'( X, Y ) ), ~(
% 0.73/1.22 subpopulation( Z, X, Y ) ), ~( greater( 'cardinality_at_time'( Z, Y ),
% 0.73/1.22 zero ) ), ~( increases( 'cardinality_at_time'( Z, Y ) ) ), greater(
% 0.73/1.22 'growth_rate'( Z, Y ), zero ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 15, [ ~( environment( X ) ), ~( 'in_environment'( X, Y ) ), ~(
% 0.73/1.22 subpopulation( Z, X, Y ) ), ~( greater( 'cardinality_at_time'( Z, Y ),
% 0.73/1.22 zero ) ), ~( decreases( 'cardinality_at_time'( Z, Y ) ) ), greater( zero
% 0.73/1.22 , 'growth_rate'( Z, Y ) ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 16, [ ~( environment( X ) ), ~( subpopulations( 'first_movers',
% 0.73/1.22 'efficient_producers', X, Y ) ), greater( 'cardinality_at_time'(
% 0.73/1.22 'first_movers', Y ), zero ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 17, [ ~( environment( X ) ), ~( subpopulations( 'first_movers',
% 0.73/1.22 'efficient_producers', X, Y ) ), greater( 'cardinality_at_time'(
% 0.73/1.22 'efficient_producers', Y ), zero ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 18, [ ~( environment( X ) ), ~( subpopulations( 'first_movers',
% 0.73/1.22 'efficient_producers', X, Y ) ), 'in_environment'( X, Y ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 20, [ environment( sk1 ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 21, [ subpopulations( 'first_movers', 'efficient_producers', sk1,
% 0.73/1.22 sk2 ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 22, [ constant( 'number_of_organizations'( sk1, sk2 ) ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 23, [ ~( =( 'growth_rate'( 'first_movers', sk2 ), zero ) ), ~( =(
% 0.73/1.22 'growth_rate'( 'efficient_producers', sk2 ), zero ) ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 24, [ ~( greater( 'growth_rate'( 'first_movers', sk2 ), zero ) ),
% 0.73/1.22 ~( greater( zero, 'growth_rate'( 'efficient_producers', sk2 ) ) ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 25, [ ~( greater( 'growth_rate'( 'efficient_producers', sk2 ), zero
% 0.73/1.22 ) ), ~( greater( zero, 'growth_rate'( 'first_movers', sk2 ) ) ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 28, [ ~( constant( sum( X, Y ) ) ), constant( X ), increases( X ),
% 0.73/1.22 decreases( X ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 30, [ ~( constant( sum( X, Y ) ) ), constant( X ), increases( X ),
% 0.73/1.22 increases( Y ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 33, [ ~( constant( sum( X, Y ) ) ), constant( X ), decreases( Y ),
% 0.73/1.22 decreases( X ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 35, [ ~( constant( sum( X, Y ) ) ), constant( X ), decreases( Y ),
% 0.73/1.22 increases( Y ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 36, [ ~( constant( sum( X, Y ) ) ), constant( Y ), increases( X ),
% 0.73/1.22 decreases( X ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 37, [ ~( constant( sum( X, Y ) ) ), constant( Y ), increases( X ),
% 0.73/1.22 increases( Y ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 38, [ ~( constant( sum( X, Y ) ) ), constant( Y ), decreases( Y ),
% 0.73/1.22 decreases( X ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 39, [ ~( constant( sum( X, Y ) ) ), constant( Y ), decreases( Y ),
% 0.73/1.22 increases( Y ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 46, [ ~( 'in_environment'( sk1, X ) ), subpopulation(
% 0.73/1.22 'efficient_producers', sk1, X ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 62, [ 'in_environment'( sk1, sk2 ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 65, [ subpopulation( 'efficient_producers', sk1, sk2 ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 67, [ =( sum( 'cardinality_at_time'( 'first_movers', sk2 ),
% 0.73/1.22 'cardinality_at_time'( 'efficient_producers', sk2 ) ),
% 0.73/1.22 'number_of_organizations'( sk1, sk2 ) ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 143, [ constant( 'cardinality_at_time'( 'first_movers', sk2 ) ),
% 0.73/1.22 increases( 'cardinality_at_time'( 'first_movers', sk2 ) ), decreases(
% 0.73/1.22 'cardinality_at_time'( 'first_movers', sk2 ) ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 144, [ constant( 'cardinality_at_time'( 'first_movers', sk2 ) ),
% 0.73/1.22 increases( 'cardinality_at_time'( 'first_movers', sk2 ) ), increases(
% 0.73/1.22 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 145, [ constant( 'cardinality_at_time'( 'first_movers', sk2 ) ),
% 0.73/1.22 decreases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ),
% 0.73/1.22 decreases( 'cardinality_at_time'( 'first_movers', sk2 ) ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 146, [ constant( 'cardinality_at_time'( 'first_movers', sk2 ) ),
% 0.73/1.22 decreases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ),
% 0.73/1.22 increases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 147, [ constant( 'cardinality_at_time'( 'efficient_producers', sk2
% 0.73/1.22 ) ), increases( 'cardinality_at_time'( 'first_movers', sk2 ) ),
% 0.73/1.22 decreases( 'cardinality_at_time'( 'first_movers', sk2 ) ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 148, [ constant( 'cardinality_at_time'( 'efficient_producers', sk2
% 0.73/1.22 ) ), increases( 'cardinality_at_time'( 'first_movers', sk2 ) ),
% 0.73/1.22 increases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 149, [ constant( 'cardinality_at_time'( 'efficient_producers', sk2
% 0.73/1.22 ) ), decreases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ),
% 0.73/1.22 decreases( 'cardinality_at_time'( 'first_movers', sk2 ) ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 150, [ constant( 'cardinality_at_time'( 'efficient_producers', sk2
% 0.73/1.22 ) ), decreases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ),
% 0.73/1.22 increases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 151, [ greater( 'cardinality_at_time'( 'efficient_producers', sk2 )
% 0.73/1.22 , zero ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 171, [ greater( 'cardinality_at_time'( 'first_movers', sk2 ), zero
% 0.73/1.22 ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 217, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ), ~(
% 0.73/1.22 constant( 'cardinality_at_time'( 'first_movers', sk2 ) ) ), =(
% 0.73/1.22 'growth_rate'( 'first_movers', sk2 ), zero ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 239, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ), ~(
% 0.73/1.22 increases( 'cardinality_at_time'( 'first_movers', sk2 ) ) ), greater(
% 0.73/1.22 'growth_rate'( 'first_movers', sk2 ), zero ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 243, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ), ~(
% 0.73/1.22 increases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ),
% 0.73/1.22 greater( 'growth_rate'( 'efficient_producers', sk2 ), zero ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 261, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ), ~(
% 0.73/1.22 decreases( 'cardinality_at_time'( 'first_movers', sk2 ) ) ), greater(
% 0.73/1.22 zero, 'growth_rate'( 'first_movers', sk2 ) ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 263, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ), ~(
% 0.73/1.22 decreases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ),
% 0.73/1.22 greater( zero, 'growth_rate'( 'efficient_producers', sk2 ) ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 280, [ ~( decreases( 'cardinality_at_time'( 'first_movers', sk2 ) )
% 0.73/1.22 ), greater( zero, 'growth_rate'( 'first_movers', sk2 ) ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 287, [ ~( decreases( 'cardinality_at_time'( 'first_movers', sk2 ) )
% 0.73/1.22 ), ~( greater( 'growth_rate'( 'efficient_producers', sk2 ), zero ) ) ]
% 0.73/1.22 )
% 0.73/1.22 .
% 0.73/1.22 clause( 288, [ ~( greater( 'growth_rate'( 'efficient_producers', sk2 ),
% 0.73/1.22 zero ) ), constant( 'cardinality_at_time'( 'efficient_producers', sk2 ) )
% 0.73/1.22 , decreases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 289, [ ~( greater( 'growth_rate'( 'efficient_producers', sk2 ),
% 0.73/1.22 zero ) ), constant( 'cardinality_at_time'( 'efficient_producers', sk2 ) )
% 0.73/1.22 , increases( 'cardinality_at_time'( 'first_movers', sk2 ) ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 290, [ ~( greater( 'growth_rate'( 'efficient_producers', sk2 ),
% 0.73/1.22 zero ) ), constant( 'cardinality_at_time'( 'first_movers', sk2 ) ),
% 0.73/1.22 decreases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 291, [ ~( greater( 'growth_rate'( 'efficient_producers', sk2 ),
% 0.73/1.22 zero ) ), constant( 'cardinality_at_time'( 'first_movers', sk2 ) ),
% 0.73/1.22 increases( 'cardinality_at_time'( 'first_movers', sk2 ) ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 461, [ ~( decreases( 'cardinality_at_time'( 'efficient_producers',
% 0.73/1.22 sk2 ) ) ), greater( zero, 'growth_rate'( 'efficient_producers', sk2 ) ) ]
% 0.73/1.22 )
% 0.73/1.22 .
% 0.73/1.22 clause( 472, [ ~( decreases( 'cardinality_at_time'( 'efficient_producers',
% 0.73/1.22 sk2 ) ) ), ~( greater( 'growth_rate'( 'first_movers', sk2 ), zero ) ) ]
% 0.73/1.22 )
% 0.73/1.22 .
% 0.73/1.22 clause( 475, [ ~( greater( 'growth_rate'( 'first_movers', sk2 ), zero ) ),
% 0.73/1.22 ~( greater( 'growth_rate'( 'efficient_producers', sk2 ), zero ) ),
% 0.73/1.22 constant( 'cardinality_at_time'( 'first_movers', sk2 ) ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 476, [ ~( greater( 'growth_rate'( 'first_movers', sk2 ), zero ) ),
% 0.73/1.22 ~( greater( 'growth_rate'( 'efficient_producers', sk2 ), zero ) ),
% 0.73/1.22 constant( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 477, [ ~( greater( 'growth_rate'( 'first_movers', sk2 ), zero ) ),
% 0.73/1.22 constant( 'cardinality_at_time'( 'efficient_producers', sk2 ) ),
% 0.73/1.22 increases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 479, [ ~( greater( 'growth_rate'( 'first_movers', sk2 ), zero ) ),
% 0.73/1.22 constant( 'cardinality_at_time'( 'first_movers', sk2 ) ), increases(
% 0.73/1.22 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 495, [ ~( increases( 'cardinality_at_time'( 'first_movers', sk2 ) )
% 0.73/1.22 ), greater( 'growth_rate'( 'first_movers', sk2 ), zero ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 496, [ ~( greater( 'growth_rate'( 'efficient_producers', sk2 ),
% 0.73/1.22 zero ) ), constant( 'cardinality_at_time'( 'efficient_producers', sk2 ) )
% 0.73/1.22 ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 497, [ ~( greater( 'growth_rate'( 'efficient_producers', sk2 ),
% 0.73/1.22 zero ) ), constant( 'cardinality_at_time'( 'first_movers', sk2 ) ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 501, [ constant( 'cardinality_at_time'( 'first_movers', sk2 ) ),
% 0.73/1.22 increases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 503, [ constant( 'cardinality_at_time'( 'efficient_producers', sk2
% 0.73/1.22 ) ), increases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ]
% 0.73/1.22 )
% 0.73/1.22 .
% 0.73/1.22 clause( 527, [ ~( increases( 'cardinality_at_time'( 'efficient_producers',
% 0.73/1.22 sk2 ) ) ), greater( 'growth_rate'( 'efficient_producers', sk2 ), zero ) ]
% 0.73/1.22 )
% 0.73/1.22 .
% 0.73/1.22 clause( 528, [ constant( 'cardinality_at_time'( 'first_movers', sk2 ) ) ]
% 0.73/1.22 )
% 0.73/1.22 .
% 0.73/1.22 clause( 529, [ constant( 'cardinality_at_time'( 'efficient_producers', sk2
% 0.73/1.22 ) ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 562, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ), =(
% 0.73/1.22 'growth_rate'( 'first_movers', sk2 ), zero ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 565, [ =( 'growth_rate'( 'first_movers', sk2 ), zero ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 575, [ ~( =( 'growth_rate'( 'efficient_producers', sk2 ), zero ) )
% 0.73/1.22 ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 587, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ), ~(
% 0.73/1.22 greater( 'cardinality_at_time'( 'efficient_producers', sk2 ), zero ) ),
% 0.73/1.22 ~( constant( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 683, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ) ] )
% 0.73/1.22 .
% 0.73/1.22 clause( 685, [] )
% 0.73/1.22 .
% 0.73/1.22
% 0.73/1.22
% 0.73/1.22 % SZS output end Refutation
% 0.73/1.22 found a proof!
% 0.73/1.22
% 0.73/1.22 % ABCDEFGHIJKLMNOPQRSTUVWXYZ
% 0.73/1.22
% 0.73/1.22 initialclauses(
% 0.73/1.22 [ clause( 687, [ ~( environment( X ) ), ~( subpopulation( Y, X, Z ) ),
% 0.73/1.22 greater( 'cardinality_at_time'( Y, Z ), zero ), =(
% 0.73/1.22 'number_of_organizations'( X, Z ), sum( 'cardinality_at_time'(
% 0.73/1.22 'first_movers', Z ), 'cardinality_at_time'( 'efficient_producers', Z ) )
% 0.73/1.22 ) ] )
% 0.73/1.22 , clause( 688, [ ~( environment( X ) ), ~( subpopulation( Y, X, Z ) ), ~(
% 0.73/1.22 =( Y, 'efficient_producers' ) ), =( 'number_of_organizations'( X, Z ),
% 0.73/1.22 sum( 'cardinality_at_time'( 'first_movers', Z ), 'cardinality_at_time'(
% 0.73/1.22 'efficient_producers', Z ) ) ) ] )
% 0.73/1.22 , clause( 689, [ ~( environment( X ) ), ~( subpopulation( Y, X, Z ) ), ~(
% 0.73/1.22 =( Y, 'first_movers' ) ), =( 'number_of_organizations'( X, Z ), sum(
% 0.73/1.22 'cardinality_at_time'( 'first_movers', Z ), 'cardinality_at_time'(
% 0.73/1.22 'efficient_producers', Z ) ) ) ] )
% 0.73/1.22 , clause( 690, [ ~( environment( X ) ), ~( 'in_environment'( X, Y ) ),
% 0.73/1.22 subpopulation( 'first_movers', X, Y ) ] )
% 0.73/1.22 , clause( 691, [ ~( environment( X ) ), ~( 'in_environment'( X, Y ) ),
% 0.73/1.22 subpopulation( 'efficient_producers', X, Y ) ] )
% 0.73/1.22 , clause( 692, [ ~( =( X, sum( Y, Z ) ) ), ~( constant( X ) ), constant( Y
% 0.73/1.22 ), increases( Y ), decreases( Y ) ] )
% 0.73/1.22 , clause( 693, [ ~( =( X, sum( Y, Z ) ) ), ~( constant( X ) ), constant( Y
% 0.73/1.22 ), increases( Y ), increases( Z ) ] )
% 0.73/1.22 , clause( 694, [ ~( =( X, sum( Y, Z ) ) ), ~( constant( X ) ), constant( Y
% 0.73/1.22 ), decreases( Z ), decreases( Y ) ] )
% 0.73/1.22 , clause( 695, [ ~( =( X, sum( Y, Z ) ) ), ~( constant( X ) ), constant( Y
% 0.73/1.22 ), decreases( Z ), increases( Z ) ] )
% 0.73/1.22 , clause( 696, [ ~( =( X, sum( Y, Z ) ) ), ~( constant( X ) ), constant( Z
% 0.73/1.22 ), increases( Y ), decreases( Y ) ] )
% 0.73/1.22 , clause( 697, [ ~( =( X, sum( Y, Z ) ) ), ~( constant( X ) ), constant( Z
% 0.73/1.22 ), increases( Y ), increases( Z ) ] )
% 0.73/1.22 , clause( 698, [ ~( =( X, sum( Y, Z ) ) ), ~( constant( X ) ), constant( Z
% 0.73/1.22 ), decreases( Z ), decreases( Y ) ] )
% 0.73/1.22 , clause( 699, [ ~( =( X, sum( Y, Z ) ) ), ~( constant( X ) ), constant( Z
% 0.73/1.22 ), decreases( Z ), increases( Z ) ] )
% 0.73/1.22 , clause( 700, [ ~( environment( X ) ), ~( 'in_environment'( X, Y ) ), ~(
% 0.73/1.22 subpopulation( Z, X, Y ) ), ~( greater( 'cardinality_at_time'( Z, Y ),
% 0.73/1.22 zero ) ), ~( constant( 'cardinality_at_time'( Z, Y ) ) ), =(
% 0.73/1.22 'growth_rate'( Z, Y ), zero ) ] )
% 0.73/1.22 , clause( 701, [ ~( environment( X ) ), ~( 'in_environment'( X, Y ) ), ~(
% 0.73/1.22 subpopulation( Z, X, Y ) ), ~( greater( 'cardinality_at_time'( Z, Y ),
% 0.73/1.22 zero ) ), ~( increases( 'cardinality_at_time'( Z, Y ) ) ), greater(
% 0.73/1.22 'growth_rate'( Z, Y ), zero ) ] )
% 0.73/1.22 , clause( 702, [ ~( environment( X ) ), ~( 'in_environment'( X, Y ) ), ~(
% 0.73/1.22 subpopulation( Z, X, Y ) ), ~( greater( 'cardinality_at_time'( Z, Y ),
% 0.73/1.22 zero ) ), ~( decreases( 'cardinality_at_time'( Z, Y ) ) ), greater( zero
% 0.73/1.22 , 'growth_rate'( Z, Y ) ) ] )
% 0.73/1.22 , clause( 703, [ ~( environment( X ) ), ~( subpopulations( 'first_movers',
% 0.73/1.22 'efficient_producers', X, Y ) ), greater( 'cardinality_at_time'(
% 0.73/1.22 'first_movers', Y ), zero ) ] )
% 0.73/1.22 , clause( 704, [ ~( environment( X ) ), ~( subpopulations( 'first_movers',
% 0.73/1.22 'efficient_producers', X, Y ) ), greater( 'cardinality_at_time'(
% 0.73/1.22 'efficient_producers', Y ), zero ) ] )
% 0.73/1.22 , clause( 705, [ ~( environment( X ) ), ~( subpopulations( 'first_movers',
% 0.73/1.22 'efficient_producers', X, Y ) ), 'in_environment'( X, Y ) ] )
% 0.73/1.22 , clause( 706, [ ~( environment( X ) ), ~( subpopulation( Y, X, Z ) ), ~(
% 0.73/1.22 greater( 'cardinality_at_time'( Y, Z ), zero ) ), =( Y,
% 0.73/1.22 'efficient_producers' ), =( Y, 'first_movers' ) ] )
% 0.73/1.22 , clause( 707, [ environment( sk1 ) ] )
% 0.73/1.22 , clause( 708, [ subpopulations( 'first_movers', 'efficient_producers', sk1
% 0.73/1.22 , sk2 ) ] )
% 0.73/1.22 , clause( 709, [ constant( 'number_of_organizations'( sk1, sk2 ) ) ] )
% 0.73/1.22 , clause( 710, [ ~( =( 'growth_rate'( 'first_movers', sk2 ), zero ) ), ~(
% 0.73/1.22 =( 'growth_rate'( 'efficient_producers', sk2 ), zero ) ) ] )
% 0.73/1.22 , clause( 711, [ ~( greater( 'growth_rate'( 'first_movers', sk2 ), zero ) )
% 0.73/1.22 , ~( greater( zero, 'growth_rate'( 'efficient_producers', sk2 ) ) ) ] )
% 0.73/1.22 , clause( 712, [ ~( greater( 'growth_rate'( 'efficient_producers', sk2 ),
% 0.73/1.22 zero ) ), ~( greater( zero, 'growth_rate'( 'first_movers', sk2 ) ) ) ] )
% 0.73/1.22 ] ).
% 0.73/1.22
% 0.73/1.22
% 0.73/1.22
% 0.73/1.22 subsumption(
% 0.73/1.22 clause( 1, [ ~( environment( X ) ), ~( subpopulation( Y, X, Z ) ), ~( =( Y
% 0.73/1.22 , 'efficient_producers' ) ), =( 'number_of_organizations'( X, Z ), sum(
% 0.73/1.22 'cardinality_at_time'( 'first_movers', Z ), 'cardinality_at_time'(
% 0.73/1.22 'efficient_producers', Z ) ) ) ] )
% 0.73/1.22 , clause( 688, [ ~( environment( X ) ), ~( subpopulation( Y, X, Z ) ), ~(
% 0.73/1.22 =( Y, 'efficient_producers' ) ), =( 'number_of_organizations'( X, Z ),
% 0.73/1.22 sum( 'cardinality_at_time'( 'first_movers', Z ), 'cardinality_at_time'(
% 0.73/1.22 'efficient_producers', Z ) ) ) ] )
% 0.73/1.22 , substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z )] ),
% 0.73/1.22 permutation( 0, [ ==>( 0, 0 ), ==>( 1, 1 ), ==>( 2, 2 ), ==>( 3, 3 )] )
% 0.73/1.22 ).
% 0.73/1.22
% 0.73/1.22
% 0.73/1.22 subsumption(
% 0.73/1.22 clause( 3, [ ~( environment( X ) ), ~( 'in_environment'( X, Y ) ),
% 0.73/1.22 subpopulation( 'first_movers', X, Y ) ] )
% 0.73/1.22 , clause( 690, [ ~( environment( X ) ), ~( 'in_environment'( X, Y ) ),
% 0.73/1.22 subpopulation( 'first_movers', X, Y ) ] )
% 0.73/1.22 , substitution( 0, [ :=( X, X ), :=( Y, Y )] ), permutation( 0, [ ==>( 0, 0
% 0.73/1.22 ), ==>( 1, 1 ), ==>( 2, 2 )] ) ).
% 0.73/1.22
% 0.73/1.22
% 0.73/1.22 subsumption(
% 0.73/1.22 clause( 4, [ ~( environment( X ) ), ~( 'in_environment'( X, Y ) ),
% 0.73/1.22 subpopulation( 'efficient_producers', X, Y ) ] )
% 0.73/1.22 , clause( 691, [ ~( environment( X ) ), ~( 'in_environment'( X, Y ) ),
% 0.73/1.22 subpopulation( 'efficient_producers', X, Y ) ] )
% 0.73/1.22 , substitution( 0, [ :=( X, X ), :=( Y, Y )] ), permutation( 0, [ ==>( 0, 0
% 0.73/1.22 ), ==>( 1, 1 ), ==>( 2, 2 )] ) ).
% 0.73/1.22
% 0.73/1.22
% 0.73/1.22 subsumption(
% 0.73/1.22 clause( 5, [ ~( =( X, sum( Y, Z ) ) ), ~( constant( X ) ), constant( Y ),
% 0.73/1.22 increases( Y ), decreases( Y ) ] )
% 0.73/1.22 , clause( 692, [ ~( =( X, sum( Y, Z ) ) ), ~( constant( X ) ), constant( Y
% 0.73/1.22 ), increases( Y ), decreases( Y ) ] )
% 0.73/1.22 , substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z )] ),
% 0.73/1.22 permutation( 0, [ ==>( 0, 0 ), ==>( 1, 1 ), ==>( 2, 2 ), ==>( 3, 3 ),
% 0.73/1.22 ==>( 4, 4 )] ) ).
% 0.73/1.22
% 0.73/1.22
% 0.73/1.22 subsumption(
% 0.73/1.22 clause( 6, [ ~( =( X, sum( Y, Z ) ) ), ~( constant( X ) ), constant( Y ),
% 0.73/1.22 increases( Y ), increases( Z ) ] )
% 0.73/1.22 , clause( 693, [ ~( =( X, sum( Y, Z ) ) ), ~( constant( X ) ), constant( Y
% 0.73/1.22 ), increases( Y ), increases( Z ) ] )
% 0.73/1.22 , substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z )] ),
% 0.73/1.22 permutation( 0, [ ==>( 0, 0 ), ==>( 1, 1 ), ==>( 2, 2 ), ==>( 3, 3 ),
% 0.73/1.22 ==>( 4, 4 )] ) ).
% 0.73/1.22
% 0.73/1.22
% 0.73/1.22 subsumption(
% 0.73/1.22 clause( 7, [ ~( =( X, sum( Y, Z ) ) ), ~( constant( X ) ), constant( Y ),
% 0.73/1.22 decreases( Z ), decreases( Y ) ] )
% 0.73/1.22 , clause( 694, [ ~( =( X, sum( Y, Z ) ) ), ~( constant( X ) ), constant( Y
% 0.73/1.22 ), decreases( Z ), decreases( Y ) ] )
% 0.73/1.22 , substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z )] ),
% 0.73/1.22 permutation( 0, [ ==>( 0, 0 ), ==>( 1, 1 ), ==>( 2, 2 ), ==>( 3, 3 ),
% 0.73/1.22 ==>( 4, 4 )] ) ).
% 0.73/1.22
% 0.73/1.22
% 0.73/1.22 subsumption(
% 0.73/1.22 clause( 8, [ ~( =( X, sum( Y, Z ) ) ), ~( constant( X ) ), constant( Y ),
% 0.73/1.22 decreases( Z ), increases( Z ) ] )
% 0.73/1.23 , clause( 695, [ ~( =( X, sum( Y, Z ) ) ), ~( constant( X ) ), constant( Y
% 0.73/1.23 ), decreases( Z ), increases( Z ) ] )
% 0.73/1.23 , substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z )] ),
% 0.73/1.23 permutation( 0, [ ==>( 0, 0 ), ==>( 1, 1 ), ==>( 2, 2 ), ==>( 3, 3 ),
% 0.73/1.23 ==>( 4, 4 )] ) ).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 subsumption(
% 0.73/1.23 clause( 9, [ ~( =( X, sum( Y, Z ) ) ), ~( constant( X ) ), constant( Z ),
% 0.73/1.23 increases( Y ), decreases( Y ) ] )
% 0.73/1.23 , clause( 696, [ ~( =( X, sum( Y, Z ) ) ), ~( constant( X ) ), constant( Z
% 0.73/1.23 ), increases( Y ), decreases( Y ) ] )
% 0.73/1.23 , substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z )] ),
% 0.73/1.23 permutation( 0, [ ==>( 0, 0 ), ==>( 1, 1 ), ==>( 2, 2 ), ==>( 3, 3 ),
% 0.73/1.23 ==>( 4, 4 )] ) ).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 subsumption(
% 0.73/1.23 clause( 10, [ ~( =( X, sum( Y, Z ) ) ), ~( constant( X ) ), constant( Z ),
% 0.73/1.23 increases( Y ), increases( Z ) ] )
% 0.73/1.23 , clause( 697, [ ~( =( X, sum( Y, Z ) ) ), ~( constant( X ) ), constant( Z
% 0.73/1.23 ), increases( Y ), increases( Z ) ] )
% 0.73/1.23 , substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z )] ),
% 0.73/1.23 permutation( 0, [ ==>( 0, 0 ), ==>( 1, 1 ), ==>( 2, 2 ), ==>( 3, 3 ),
% 0.73/1.23 ==>( 4, 4 )] ) ).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 subsumption(
% 0.73/1.23 clause( 11, [ ~( =( X, sum( Y, Z ) ) ), ~( constant( X ) ), constant( Z ),
% 0.73/1.23 decreases( Z ), decreases( Y ) ] )
% 0.73/1.23 , clause( 698, [ ~( =( X, sum( Y, Z ) ) ), ~( constant( X ) ), constant( Z
% 0.73/1.23 ), decreases( Z ), decreases( Y ) ] )
% 0.73/1.23 , substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z )] ),
% 0.73/1.23 permutation( 0, [ ==>( 0, 0 ), ==>( 1, 1 ), ==>( 2, 2 ), ==>( 3, 3 ),
% 0.73/1.23 ==>( 4, 4 )] ) ).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 subsumption(
% 0.73/1.23 clause( 12, [ ~( =( X, sum( Y, Z ) ) ), ~( constant( X ) ), constant( Z ),
% 0.73/1.23 decreases( Z ), increases( Z ) ] )
% 0.73/1.23 , clause( 699, [ ~( =( X, sum( Y, Z ) ) ), ~( constant( X ) ), constant( Z
% 0.73/1.23 ), decreases( Z ), increases( Z ) ] )
% 0.73/1.23 , substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z )] ),
% 0.73/1.23 permutation( 0, [ ==>( 0, 0 ), ==>( 1, 1 ), ==>( 2, 2 ), ==>( 3, 3 ),
% 0.73/1.23 ==>( 4, 4 )] ) ).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 subsumption(
% 0.73/1.23 clause( 13, [ ~( environment( X ) ), ~( 'in_environment'( X, Y ) ), ~(
% 0.73/1.23 subpopulation( Z, X, Y ) ), ~( greater( 'cardinality_at_time'( Z, Y ),
% 0.73/1.23 zero ) ), ~( constant( 'cardinality_at_time'( Z, Y ) ) ), =(
% 0.73/1.23 'growth_rate'( Z, Y ), zero ) ] )
% 0.73/1.23 , clause( 700, [ ~( environment( X ) ), ~( 'in_environment'( X, Y ) ), ~(
% 0.73/1.23 subpopulation( Z, X, Y ) ), ~( greater( 'cardinality_at_time'( Z, Y ),
% 0.73/1.23 zero ) ), ~( constant( 'cardinality_at_time'( Z, Y ) ) ), =(
% 0.73/1.23 'growth_rate'( Z, Y ), zero ) ] )
% 0.73/1.23 , substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z )] ),
% 0.73/1.23 permutation( 0, [ ==>( 0, 0 ), ==>( 1, 1 ), ==>( 2, 2 ), ==>( 3, 3 ),
% 0.73/1.23 ==>( 4, 4 ), ==>( 5, 5 )] ) ).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 subsumption(
% 0.73/1.23 clause( 14, [ ~( environment( X ) ), ~( 'in_environment'( X, Y ) ), ~(
% 0.73/1.23 subpopulation( Z, X, Y ) ), ~( greater( 'cardinality_at_time'( Z, Y ),
% 0.73/1.23 zero ) ), ~( increases( 'cardinality_at_time'( Z, Y ) ) ), greater(
% 0.73/1.23 'growth_rate'( Z, Y ), zero ) ] )
% 0.73/1.23 , clause( 701, [ ~( environment( X ) ), ~( 'in_environment'( X, Y ) ), ~(
% 0.73/1.23 subpopulation( Z, X, Y ) ), ~( greater( 'cardinality_at_time'( Z, Y ),
% 0.73/1.23 zero ) ), ~( increases( 'cardinality_at_time'( Z, Y ) ) ), greater(
% 0.73/1.23 'growth_rate'( Z, Y ), zero ) ] )
% 0.73/1.23 , substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z )] ),
% 0.73/1.23 permutation( 0, [ ==>( 0, 0 ), ==>( 1, 1 ), ==>( 2, 2 ), ==>( 3, 3 ),
% 0.73/1.23 ==>( 4, 4 ), ==>( 5, 5 )] ) ).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 subsumption(
% 0.73/1.23 clause( 15, [ ~( environment( X ) ), ~( 'in_environment'( X, Y ) ), ~(
% 0.73/1.23 subpopulation( Z, X, Y ) ), ~( greater( 'cardinality_at_time'( Z, Y ),
% 0.73/1.23 zero ) ), ~( decreases( 'cardinality_at_time'( Z, Y ) ) ), greater( zero
% 0.73/1.23 , 'growth_rate'( Z, Y ) ) ] )
% 0.73/1.23 , clause( 702, [ ~( environment( X ) ), ~( 'in_environment'( X, Y ) ), ~(
% 0.73/1.23 subpopulation( Z, X, Y ) ), ~( greater( 'cardinality_at_time'( Z, Y ),
% 0.73/1.23 zero ) ), ~( decreases( 'cardinality_at_time'( Z, Y ) ) ), greater( zero
% 0.73/1.23 , 'growth_rate'( Z, Y ) ) ] )
% 0.73/1.23 , substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z )] ),
% 0.73/1.23 permutation( 0, [ ==>( 0, 0 ), ==>( 1, 1 ), ==>( 2, 2 ), ==>( 3, 3 ),
% 0.73/1.23 ==>( 4, 4 ), ==>( 5, 5 )] ) ).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 subsumption(
% 0.73/1.23 clause( 16, [ ~( environment( X ) ), ~( subpopulations( 'first_movers',
% 0.73/1.23 'efficient_producers', X, Y ) ), greater( 'cardinality_at_time'(
% 0.73/1.23 'first_movers', Y ), zero ) ] )
% 0.73/1.23 , clause( 703, [ ~( environment( X ) ), ~( subpopulations( 'first_movers',
% 0.73/1.23 'efficient_producers', X, Y ) ), greater( 'cardinality_at_time'(
% 0.73/1.23 'first_movers', Y ), zero ) ] )
% 0.73/1.23 , substitution( 0, [ :=( X, X ), :=( Y, Y )] ), permutation( 0, [ ==>( 0, 0
% 0.73/1.23 ), ==>( 1, 1 ), ==>( 2, 2 )] ) ).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 subsumption(
% 0.73/1.23 clause( 17, [ ~( environment( X ) ), ~( subpopulations( 'first_movers',
% 0.73/1.23 'efficient_producers', X, Y ) ), greater( 'cardinality_at_time'(
% 0.73/1.23 'efficient_producers', Y ), zero ) ] )
% 0.73/1.23 , clause( 704, [ ~( environment( X ) ), ~( subpopulations( 'first_movers',
% 0.73/1.23 'efficient_producers', X, Y ) ), greater( 'cardinality_at_time'(
% 0.73/1.23 'efficient_producers', Y ), zero ) ] )
% 0.73/1.23 , substitution( 0, [ :=( X, X ), :=( Y, Y )] ), permutation( 0, [ ==>( 0, 0
% 0.73/1.23 ), ==>( 1, 1 ), ==>( 2, 2 )] ) ).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 subsumption(
% 0.73/1.23 clause( 18, [ ~( environment( X ) ), ~( subpopulations( 'first_movers',
% 0.73/1.23 'efficient_producers', X, Y ) ), 'in_environment'( X, Y ) ] )
% 0.73/1.23 , clause( 705, [ ~( environment( X ) ), ~( subpopulations( 'first_movers',
% 0.73/1.23 'efficient_producers', X, Y ) ), 'in_environment'( X, Y ) ] )
% 0.73/1.23 , substitution( 0, [ :=( X, X ), :=( Y, Y )] ), permutation( 0, [ ==>( 0, 0
% 0.73/1.23 ), ==>( 1, 1 ), ==>( 2, 2 )] ) ).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 subsumption(
% 0.73/1.23 clause( 20, [ environment( sk1 ) ] )
% 0.73/1.23 , clause( 707, [ environment( sk1 ) ] )
% 0.73/1.23 , substitution( 0, [] ), permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 subsumption(
% 0.73/1.23 clause( 21, [ subpopulations( 'first_movers', 'efficient_producers', sk1,
% 0.73/1.23 sk2 ) ] )
% 0.73/1.23 , clause( 708, [ subpopulations( 'first_movers', 'efficient_producers', sk1
% 0.73/1.23 , sk2 ) ] )
% 0.73/1.23 , substitution( 0, [] ), permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 subsumption(
% 0.73/1.23 clause( 22, [ constant( 'number_of_organizations'( sk1, sk2 ) ) ] )
% 0.73/1.23 , clause( 709, [ constant( 'number_of_organizations'( sk1, sk2 ) ) ] )
% 0.73/1.23 , substitution( 0, [] ), permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 subsumption(
% 0.73/1.23 clause( 23, [ ~( =( 'growth_rate'( 'first_movers', sk2 ), zero ) ), ~( =(
% 0.73/1.23 'growth_rate'( 'efficient_producers', sk2 ), zero ) ) ] )
% 0.73/1.23 , clause( 710, [ ~( =( 'growth_rate'( 'first_movers', sk2 ), zero ) ), ~(
% 0.73/1.23 =( 'growth_rate'( 'efficient_producers', sk2 ), zero ) ) ] )
% 0.73/1.23 , substitution( 0, [] ), permutation( 0, [ ==>( 0, 0 ), ==>( 1, 1 )] )
% 0.73/1.23 ).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 subsumption(
% 0.73/1.23 clause( 24, [ ~( greater( 'growth_rate'( 'first_movers', sk2 ), zero ) ),
% 0.73/1.23 ~( greater( zero, 'growth_rate'( 'efficient_producers', sk2 ) ) ) ] )
% 0.73/1.23 , clause( 711, [ ~( greater( 'growth_rate'( 'first_movers', sk2 ), zero ) )
% 0.73/1.23 , ~( greater( zero, 'growth_rate'( 'efficient_producers', sk2 ) ) ) ] )
% 0.73/1.23 , substitution( 0, [] ), permutation( 0, [ ==>( 0, 0 ), ==>( 1, 1 )] )
% 0.73/1.23 ).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 subsumption(
% 0.73/1.23 clause( 25, [ ~( greater( 'growth_rate'( 'efficient_producers', sk2 ), zero
% 0.73/1.23 ) ), ~( greater( zero, 'growth_rate'( 'first_movers', sk2 ) ) ) ] )
% 0.73/1.23 , clause( 712, [ ~( greater( 'growth_rate'( 'efficient_producers', sk2 ),
% 0.73/1.23 zero ) ), ~( greater( zero, 'growth_rate'( 'first_movers', sk2 ) ) ) ] )
% 0.73/1.23 , substitution( 0, [] ), permutation( 0, [ ==>( 0, 0 ), ==>( 1, 1 )] )
% 0.73/1.23 ).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 eqswap(
% 0.73/1.23 clause( 1174, [ ~( =( sum( Y, Z ), X ) ), ~( constant( X ) ), constant( Y )
% 0.73/1.23 , increases( Y ), decreases( Y ) ] )
% 0.73/1.23 , clause( 5, [ ~( =( X, sum( Y, Z ) ) ), ~( constant( X ) ), constant( Y )
% 0.73/1.23 , increases( Y ), decreases( Y ) ] )
% 0.73/1.23 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z )] )).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 eqrefl(
% 0.73/1.23 clause( 1175, [ ~( constant( sum( X, Y ) ) ), constant( X ), increases( X )
% 0.73/1.23 , decreases( X ) ] )
% 0.73/1.23 , clause( 1174, [ ~( =( sum( Y, Z ), X ) ), ~( constant( X ) ), constant( Y
% 0.73/1.23 ), increases( Y ), decreases( Y ) ] )
% 0.73/1.23 , 0, substitution( 0, [ :=( X, sum( X, Y ) ), :=( Y, X ), :=( Z, Y )] )
% 0.73/1.23 ).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 subsumption(
% 0.73/1.23 clause( 28, [ ~( constant( sum( X, Y ) ) ), constant( X ), increases( X ),
% 0.73/1.23 decreases( X ) ] )
% 0.73/1.23 , clause( 1175, [ ~( constant( sum( X, Y ) ) ), constant( X ), increases( X
% 0.73/1.23 ), decreases( X ) ] )
% 0.73/1.23 , substitution( 0, [ :=( X, X ), :=( Y, Y )] ), permutation( 0, [ ==>( 0, 0
% 0.73/1.23 ), ==>( 1, 1 ), ==>( 2, 2 ), ==>( 3, 3 )] ) ).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 eqswap(
% 0.73/1.23 clause( 1176, [ ~( =( sum( Y, Z ), X ) ), ~( constant( X ) ), constant( Y )
% 0.73/1.23 , increases( Y ), increases( Z ) ] )
% 0.73/1.23 , clause( 6, [ ~( =( X, sum( Y, Z ) ) ), ~( constant( X ) ), constant( Y )
% 0.73/1.23 , increases( Y ), increases( Z ) ] )
% 0.73/1.23 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z )] )).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 eqrefl(
% 0.73/1.23 clause( 1177, [ ~( constant( sum( X, Y ) ) ), constant( X ), increases( X )
% 0.73/1.23 , increases( Y ) ] )
% 0.73/1.23 , clause( 1176, [ ~( =( sum( Y, Z ), X ) ), ~( constant( X ) ), constant( Y
% 0.73/1.23 ), increases( Y ), increases( Z ) ] )
% 0.73/1.23 , 0, substitution( 0, [ :=( X, sum( X, Y ) ), :=( Y, X ), :=( Z, Y )] )
% 0.73/1.23 ).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 subsumption(
% 0.73/1.23 clause( 30, [ ~( constant( sum( X, Y ) ) ), constant( X ), increases( X ),
% 0.73/1.23 increases( Y ) ] )
% 0.73/1.23 , clause( 1177, [ ~( constant( sum( X, Y ) ) ), constant( X ), increases( X
% 0.73/1.23 ), increases( Y ) ] )
% 0.73/1.23 , substitution( 0, [ :=( X, X ), :=( Y, Y )] ), permutation( 0, [ ==>( 0, 0
% 0.73/1.23 ), ==>( 1, 1 ), ==>( 2, 2 ), ==>( 3, 3 )] ) ).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 eqswap(
% 0.73/1.23 clause( 1179, [ ~( =( sum( Y, Z ), X ) ), ~( constant( X ) ), constant( Y )
% 0.73/1.23 , decreases( Z ), decreases( Y ) ] )
% 0.73/1.23 , clause( 7, [ ~( =( X, sum( Y, Z ) ) ), ~( constant( X ) ), constant( Y )
% 0.73/1.23 , decreases( Z ), decreases( Y ) ] )
% 0.73/1.23 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z )] )).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 eqrefl(
% 0.73/1.23 clause( 1180, [ ~( constant( sum( X, Y ) ) ), constant( X ), decreases( Y )
% 0.73/1.23 , decreases( X ) ] )
% 0.73/1.23 , clause( 1179, [ ~( =( sum( Y, Z ), X ) ), ~( constant( X ) ), constant( Y
% 0.73/1.23 ), decreases( Z ), decreases( Y ) ] )
% 0.73/1.23 , 0, substitution( 0, [ :=( X, sum( X, Y ) ), :=( Y, X ), :=( Z, Y )] )
% 0.73/1.23 ).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 subsumption(
% 0.73/1.23 clause( 33, [ ~( constant( sum( X, Y ) ) ), constant( X ), decreases( Y ),
% 0.73/1.23 decreases( X ) ] )
% 0.73/1.23 , clause( 1180, [ ~( constant( sum( X, Y ) ) ), constant( X ), decreases( Y
% 0.73/1.23 ), decreases( X ) ] )
% 0.73/1.23 , substitution( 0, [ :=( X, X ), :=( Y, Y )] ), permutation( 0, [ ==>( 0, 0
% 0.73/1.23 ), ==>( 1, 1 ), ==>( 2, 2 ), ==>( 3, 3 )] ) ).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 eqswap(
% 0.73/1.23 clause( 1182, [ ~( =( sum( Y, Z ), X ) ), ~( constant( X ) ), constant( Y )
% 0.73/1.23 , decreases( Z ), increases( Z ) ] )
% 0.73/1.23 , clause( 8, [ ~( =( X, sum( Y, Z ) ) ), ~( constant( X ) ), constant( Y )
% 0.73/1.23 , decreases( Z ), increases( Z ) ] )
% 0.73/1.23 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z )] )).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 eqrefl(
% 0.73/1.23 clause( 1183, [ ~( constant( sum( X, Y ) ) ), constant( X ), decreases( Y )
% 0.73/1.23 , increases( Y ) ] )
% 0.73/1.23 , clause( 1182, [ ~( =( sum( Y, Z ), X ) ), ~( constant( X ) ), constant( Y
% 0.73/1.23 ), decreases( Z ), increases( Z ) ] )
% 0.73/1.23 , 0, substitution( 0, [ :=( X, sum( X, Y ) ), :=( Y, X ), :=( Z, Y )] )
% 0.73/1.23 ).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 subsumption(
% 0.73/1.23 clause( 35, [ ~( constant( sum( X, Y ) ) ), constant( X ), decreases( Y ),
% 0.73/1.23 increases( Y ) ] )
% 0.73/1.23 , clause( 1183, [ ~( constant( sum( X, Y ) ) ), constant( X ), decreases( Y
% 0.73/1.23 ), increases( Y ) ] )
% 0.73/1.23 , substitution( 0, [ :=( X, X ), :=( Y, Y )] ), permutation( 0, [ ==>( 0, 0
% 0.73/1.23 ), ==>( 1, 1 ), ==>( 2, 2 ), ==>( 3, 3 )] ) ).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 eqswap(
% 0.73/1.23 clause( 1184, [ ~( =( sum( Y, Z ), X ) ), ~( constant( X ) ), constant( Z )
% 0.73/1.23 , increases( Y ), decreases( Y ) ] )
% 0.73/1.23 , clause( 9, [ ~( =( X, sum( Y, Z ) ) ), ~( constant( X ) ), constant( Z )
% 0.73/1.23 , increases( Y ), decreases( Y ) ] )
% 0.73/1.23 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z )] )).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 eqrefl(
% 0.73/1.23 clause( 1185, [ ~( constant( sum( X, Y ) ) ), constant( Y ), increases( X )
% 0.73/1.23 , decreases( X ) ] )
% 0.73/1.23 , clause( 1184, [ ~( =( sum( Y, Z ), X ) ), ~( constant( X ) ), constant( Z
% 0.73/1.23 ), increases( Y ), decreases( Y ) ] )
% 0.73/1.23 , 0, substitution( 0, [ :=( X, sum( X, Y ) ), :=( Y, X ), :=( Z, Y )] )
% 0.73/1.23 ).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 subsumption(
% 0.73/1.23 clause( 36, [ ~( constant( sum( X, Y ) ) ), constant( Y ), increases( X ),
% 0.73/1.23 decreases( X ) ] )
% 0.73/1.23 , clause( 1185, [ ~( constant( sum( X, Y ) ) ), constant( Y ), increases( X
% 0.73/1.23 ), decreases( X ) ] )
% 0.73/1.23 , substitution( 0, [ :=( X, X ), :=( Y, Y )] ), permutation( 0, [ ==>( 0, 0
% 0.73/1.23 ), ==>( 1, 1 ), ==>( 2, 2 ), ==>( 3, 3 )] ) ).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 eqswap(
% 0.73/1.23 clause( 1186, [ ~( =( sum( Y, Z ), X ) ), ~( constant( X ) ), constant( Z )
% 0.73/1.23 , increases( Y ), increases( Z ) ] )
% 0.73/1.23 , clause( 10, [ ~( =( X, sum( Y, Z ) ) ), ~( constant( X ) ), constant( Z )
% 0.73/1.23 , increases( Y ), increases( Z ) ] )
% 0.73/1.23 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z )] )).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 eqrefl(
% 0.73/1.23 clause( 1187, [ ~( constant( sum( X, Y ) ) ), constant( Y ), increases( X )
% 0.73/1.23 , increases( Y ) ] )
% 0.73/1.23 , clause( 1186, [ ~( =( sum( Y, Z ), X ) ), ~( constant( X ) ), constant( Z
% 0.73/1.23 ), increases( Y ), increases( Z ) ] )
% 0.73/1.23 , 0, substitution( 0, [ :=( X, sum( X, Y ) ), :=( Y, X ), :=( Z, Y )] )
% 0.73/1.23 ).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 subsumption(
% 0.73/1.23 clause( 37, [ ~( constant( sum( X, Y ) ) ), constant( Y ), increases( X ),
% 0.73/1.23 increases( Y ) ] )
% 0.73/1.23 , clause( 1187, [ ~( constant( sum( X, Y ) ) ), constant( Y ), increases( X
% 0.73/1.23 ), increases( Y ) ] )
% 0.73/1.23 , substitution( 0, [ :=( X, X ), :=( Y, Y )] ), permutation( 0, [ ==>( 0, 0
% 0.73/1.23 ), ==>( 1, 1 ), ==>( 2, 2 ), ==>( 3, 3 )] ) ).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 eqswap(
% 0.73/1.23 clause( 1189, [ ~( =( sum( Y, Z ), X ) ), ~( constant( X ) ), constant( Z )
% 0.73/1.23 , decreases( Z ), decreases( Y ) ] )
% 0.73/1.23 , clause( 11, [ ~( =( X, sum( Y, Z ) ) ), ~( constant( X ) ), constant( Z )
% 0.73/1.23 , decreases( Z ), decreases( Y ) ] )
% 0.73/1.23 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z )] )).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 eqrefl(
% 0.73/1.23 clause( 1190, [ ~( constant( sum( X, Y ) ) ), constant( Y ), decreases( Y )
% 0.73/1.23 , decreases( X ) ] )
% 0.73/1.23 , clause( 1189, [ ~( =( sum( Y, Z ), X ) ), ~( constant( X ) ), constant( Z
% 0.73/1.23 ), decreases( Z ), decreases( Y ) ] )
% 0.73/1.23 , 0, substitution( 0, [ :=( X, sum( X, Y ) ), :=( Y, X ), :=( Z, Y )] )
% 0.73/1.23 ).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 subsumption(
% 0.73/1.23 clause( 38, [ ~( constant( sum( X, Y ) ) ), constant( Y ), decreases( Y ),
% 0.73/1.23 decreases( X ) ] )
% 0.73/1.23 , clause( 1190, [ ~( constant( sum( X, Y ) ) ), constant( Y ), decreases( Y
% 0.73/1.23 ), decreases( X ) ] )
% 0.73/1.23 , substitution( 0, [ :=( X, X ), :=( Y, Y )] ), permutation( 0, [ ==>( 0, 0
% 0.73/1.23 ), ==>( 1, 1 ), ==>( 2, 2 ), ==>( 3, 3 )] ) ).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 eqswap(
% 0.73/1.23 clause( 1192, [ ~( =( sum( Y, Z ), X ) ), ~( constant( X ) ), constant( Z )
% 0.73/1.23 , decreases( Z ), increases( Z ) ] )
% 0.73/1.23 , clause( 12, [ ~( =( X, sum( Y, Z ) ) ), ~( constant( X ) ), constant( Z )
% 0.73/1.23 , decreases( Z ), increases( Z ) ] )
% 0.73/1.23 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z )] )).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 eqrefl(
% 0.73/1.23 clause( 1193, [ ~( constant( sum( X, Y ) ) ), constant( Y ), decreases( Y )
% 0.73/1.23 , increases( Y ) ] )
% 0.73/1.23 , clause( 1192, [ ~( =( sum( Y, Z ), X ) ), ~( constant( X ) ), constant( Z
% 0.73/1.23 ), decreases( Z ), increases( Z ) ] )
% 0.73/1.23 , 0, substitution( 0, [ :=( X, sum( X, Y ) ), :=( Y, X ), :=( Z, Y )] )
% 0.73/1.23 ).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 subsumption(
% 0.73/1.23 clause( 39, [ ~( constant( sum( X, Y ) ) ), constant( Y ), decreases( Y ),
% 0.73/1.23 increases( Y ) ] )
% 0.73/1.23 , clause( 1193, [ ~( constant( sum( X, Y ) ) ), constant( Y ), decreases( Y
% 0.73/1.23 ), increases( Y ) ] )
% 0.73/1.23 , substitution( 0, [ :=( X, X ), :=( Y, Y )] ), permutation( 0, [ ==>( 0, 0
% 0.73/1.23 ), ==>( 1, 1 ), ==>( 2, 2 ), ==>( 3, 3 )] ) ).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 resolution(
% 0.73/1.23 clause( 1194, [ ~( 'in_environment'( sk1, X ) ), subpopulation(
% 0.73/1.23 'efficient_producers', sk1, X ) ] )
% 0.73/1.23 , clause( 4, [ ~( environment( X ) ), ~( 'in_environment'( X, Y ) ),
% 0.73/1.23 subpopulation( 'efficient_producers', X, Y ) ] )
% 0.73/1.23 , 0, clause( 20, [ environment( sk1 ) ] )
% 0.73/1.23 , 0, substitution( 0, [ :=( X, sk1 ), :=( Y, X )] ), substitution( 1, [] )
% 0.73/1.23 ).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 subsumption(
% 0.73/1.23 clause( 46, [ ~( 'in_environment'( sk1, X ) ), subpopulation(
% 0.73/1.23 'efficient_producers', sk1, X ) ] )
% 0.73/1.23 , clause( 1194, [ ~( 'in_environment'( sk1, X ) ), subpopulation(
% 0.73/1.23 'efficient_producers', sk1, X ) ] )
% 0.73/1.23 , substitution( 0, [ :=( X, X )] ), permutation( 0, [ ==>( 0, 0 ), ==>( 1,
% 0.73/1.23 1 )] ) ).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 resolution(
% 0.73/1.23 clause( 1195, [ ~( environment( sk1 ) ), 'in_environment'( sk1, sk2 ) ] )
% 0.73/1.23 , clause( 18, [ ~( environment( X ) ), ~( subpopulations( 'first_movers',
% 0.73/1.23 'efficient_producers', X, Y ) ), 'in_environment'( X, Y ) ] )
% 0.73/1.23 , 1, clause( 21, [ subpopulations( 'first_movers', 'efficient_producers',
% 0.73/1.23 sk1, sk2 ) ] )
% 0.73/1.23 , 0, substitution( 0, [ :=( X, sk1 ), :=( Y, sk2 )] ), substitution( 1, [] )
% 0.73/1.23 ).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 resolution(
% 0.73/1.23 clause( 1196, [ 'in_environment'( sk1, sk2 ) ] )
% 0.73/1.23 , clause( 1195, [ ~( environment( sk1 ) ), 'in_environment'( sk1, sk2 ) ]
% 0.73/1.23 )
% 0.73/1.23 , 0, clause( 20, [ environment( sk1 ) ] )
% 0.73/1.23 , 0, substitution( 0, [] ), substitution( 1, [] )).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 subsumption(
% 0.73/1.23 clause( 62, [ 'in_environment'( sk1, sk2 ) ] )
% 0.73/1.23 , clause( 1196, [ 'in_environment'( sk1, sk2 ) ] )
% 0.73/1.23 , substitution( 0, [] ), permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 resolution(
% 0.73/1.23 clause( 1197, [ subpopulation( 'efficient_producers', sk1, sk2 ) ] )
% 0.73/1.23 , clause( 46, [ ~( 'in_environment'( sk1, X ) ), subpopulation(
% 0.73/1.23 'efficient_producers', sk1, X ) ] )
% 0.73/1.23 , 0, clause( 62, [ 'in_environment'( sk1, sk2 ) ] )
% 0.73/1.23 , 0, substitution( 0, [ :=( X, sk2 )] ), substitution( 1, [] )).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 subsumption(
% 0.73/1.23 clause( 65, [ subpopulation( 'efficient_producers', sk1, sk2 ) ] )
% 0.73/1.23 , clause( 1197, [ subpopulation( 'efficient_producers', sk1, sk2 ) ] )
% 0.73/1.23 , substitution( 0, [] ), permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 eqswap(
% 0.73/1.23 clause( 1198, [ ~( =( 'efficient_producers', X ) ), ~( environment( Y ) ),
% 0.73/1.23 ~( subpopulation( X, Y, Z ) ), =( 'number_of_organizations'( Y, Z ), sum(
% 0.73/1.23 'cardinality_at_time'( 'first_movers', Z ), 'cardinality_at_time'(
% 0.73/1.23 'efficient_producers', Z ) ) ) ] )
% 0.73/1.23 , clause( 1, [ ~( environment( X ) ), ~( subpopulation( Y, X, Z ) ), ~( =(
% 0.73/1.23 Y, 'efficient_producers' ) ), =( 'number_of_organizations'( X, Z ), sum(
% 0.73/1.23 'cardinality_at_time'( 'first_movers', Z ), 'cardinality_at_time'(
% 0.73/1.23 'efficient_producers', Z ) ) ) ] )
% 0.73/1.23 , 2, substitution( 0, [ :=( X, Y ), :=( Y, X ), :=( Z, Z )] )).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 resolution(
% 0.73/1.23 clause( 1201, [ ~( =( 'efficient_producers', 'efficient_producers' ) ), ~(
% 0.73/1.23 environment( sk1 ) ), =( 'number_of_organizations'( sk1, sk2 ), sum(
% 0.73/1.23 'cardinality_at_time'( 'first_movers', sk2 ), 'cardinality_at_time'(
% 0.73/1.23 'efficient_producers', sk2 ) ) ) ] )
% 0.73/1.23 , clause( 1198, [ ~( =( 'efficient_producers', X ) ), ~( environment( Y ) )
% 0.73/1.23 , ~( subpopulation( X, Y, Z ) ), =( 'number_of_organizations'( Y, Z ),
% 0.73/1.23 sum( 'cardinality_at_time'( 'first_movers', Z ), 'cardinality_at_time'(
% 0.73/1.23 'efficient_producers', Z ) ) ) ] )
% 0.73/1.23 , 2, clause( 65, [ subpopulation( 'efficient_producers', sk1, sk2 ) ] )
% 0.73/1.23 , 0, substitution( 0, [ :=( X, 'efficient_producers' ), :=( Y, sk1 ), :=( Z
% 0.73/1.23 , sk2 )] ), substitution( 1, [] )).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 eqrefl(
% 0.73/1.23 clause( 1202, [ ~( environment( sk1 ) ), =( 'number_of_organizations'( sk1
% 0.73/1.23 , sk2 ), sum( 'cardinality_at_time'( 'first_movers', sk2 ),
% 0.73/1.23 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ) ] )
% 0.73/1.23 , clause( 1201, [ ~( =( 'efficient_producers', 'efficient_producers' ) ),
% 0.73/1.23 ~( environment( sk1 ) ), =( 'number_of_organizations'( sk1, sk2 ), sum(
% 0.73/1.23 'cardinality_at_time'( 'first_movers', sk2 ), 'cardinality_at_time'(
% 0.73/1.23 'efficient_producers', sk2 ) ) ) ] )
% 0.73/1.23 , 0, substitution( 0, [] )).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 resolution(
% 0.73/1.23 clause( 1203, [ =( 'number_of_organizations'( sk1, sk2 ), sum(
% 0.73/1.23 'cardinality_at_time'( 'first_movers', sk2 ), 'cardinality_at_time'(
% 0.73/1.23 'efficient_producers', sk2 ) ) ) ] )
% 0.73/1.23 , clause( 1202, [ ~( environment( sk1 ) ), =( 'number_of_organizations'(
% 0.73/1.23 sk1, sk2 ), sum( 'cardinality_at_time'( 'first_movers', sk2 ),
% 0.73/1.23 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ) ] )
% 0.73/1.23 , 0, clause( 20, [ environment( sk1 ) ] )
% 0.73/1.23 , 0, substitution( 0, [] ), substitution( 1, [] )).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 eqswap(
% 0.73/1.23 clause( 1204, [ =( sum( 'cardinality_at_time'( 'first_movers', sk2 ),
% 0.73/1.23 'cardinality_at_time'( 'efficient_producers', sk2 ) ),
% 0.73/1.23 'number_of_organizations'( sk1, sk2 ) ) ] )
% 0.73/1.23 , clause( 1203, [ =( 'number_of_organizations'( sk1, sk2 ), sum(
% 0.73/1.23 'cardinality_at_time'( 'first_movers', sk2 ), 'cardinality_at_time'(
% 0.73/1.23 'efficient_producers', sk2 ) ) ) ] )
% 0.73/1.23 , 0, substitution( 0, [] )).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 subsumption(
% 0.73/1.23 clause( 67, [ =( sum( 'cardinality_at_time'( 'first_movers', sk2 ),
% 0.73/1.23 'cardinality_at_time'( 'efficient_producers', sk2 ) ),
% 0.73/1.23 'number_of_organizations'( sk1, sk2 ) ) ] )
% 0.73/1.23 , clause( 1204, [ =( sum( 'cardinality_at_time'( 'first_movers', sk2 ),
% 0.73/1.23 'cardinality_at_time'( 'efficient_producers', sk2 ) ),
% 0.73/1.23 'number_of_organizations'( sk1, sk2 ) ) ] )
% 0.73/1.23 , substitution( 0, [] ), permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 paramod(
% 0.73/1.23 clause( 1206, [ ~( constant( 'number_of_organizations'( sk1, sk2 ) ) ),
% 0.73/1.23 constant( 'cardinality_at_time'( 'first_movers', sk2 ) ), increases(
% 0.73/1.23 'cardinality_at_time'( 'first_movers', sk2 ) ), decreases(
% 0.73/1.23 'cardinality_at_time'( 'first_movers', sk2 ) ) ] )
% 0.73/1.23 , clause( 67, [ =( sum( 'cardinality_at_time'( 'first_movers', sk2 ),
% 0.73/1.23 'cardinality_at_time'( 'efficient_producers', sk2 ) ),
% 0.73/1.23 'number_of_organizations'( sk1, sk2 ) ) ] )
% 0.73/1.23 , 0, clause( 28, [ ~( constant( sum( X, Y ) ) ), constant( X ), increases(
% 0.73/1.23 X ), decreases( X ) ] )
% 0.73/1.23 , 0, 2, substitution( 0, [] ), substitution( 1, [ :=( X,
% 0.73/1.23 'cardinality_at_time'( 'first_movers', sk2 ) ), :=( Y,
% 0.73/1.23 'cardinality_at_time'( 'efficient_producers', sk2 ) )] )).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 resolution(
% 0.73/1.23 clause( 1207, [ constant( 'cardinality_at_time'( 'first_movers', sk2 ) ),
% 0.73/1.23 increases( 'cardinality_at_time'( 'first_movers', sk2 ) ), decreases(
% 0.73/1.23 'cardinality_at_time'( 'first_movers', sk2 ) ) ] )
% 0.73/1.23 , clause( 1206, [ ~( constant( 'number_of_organizations'( sk1, sk2 ) ) ),
% 0.73/1.23 constant( 'cardinality_at_time'( 'first_movers', sk2 ) ), increases(
% 0.73/1.23 'cardinality_at_time'( 'first_movers', sk2 ) ), decreases(
% 0.73/1.23 'cardinality_at_time'( 'first_movers', sk2 ) ) ] )
% 0.73/1.23 , 0, clause( 22, [ constant( 'number_of_organizations'( sk1, sk2 ) ) ] )
% 0.73/1.23 , 0, substitution( 0, [] ), substitution( 1, [] )).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 subsumption(
% 0.73/1.23 clause( 143, [ constant( 'cardinality_at_time'( 'first_movers', sk2 ) ),
% 0.73/1.23 increases( 'cardinality_at_time'( 'first_movers', sk2 ) ), decreases(
% 0.73/1.23 'cardinality_at_time'( 'first_movers', sk2 ) ) ] )
% 0.73/1.23 , clause( 1207, [ constant( 'cardinality_at_time'( 'first_movers', sk2 ) )
% 0.73/1.23 , increases( 'cardinality_at_time'( 'first_movers', sk2 ) ), decreases(
% 0.73/1.23 'cardinality_at_time'( 'first_movers', sk2 ) ) ] )
% 0.73/1.23 , substitution( 0, [] ), permutation( 0, [ ==>( 0, 0 ), ==>( 1, 1 ), ==>( 2
% 0.73/1.23 , 2 )] ) ).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 paramod(
% 0.73/1.23 clause( 1209, [ ~( constant( 'number_of_organizations'( sk1, sk2 ) ) ),
% 0.73/1.23 constant( 'cardinality_at_time'( 'first_movers', sk2 ) ), increases(
% 0.73/1.23 'cardinality_at_time'( 'first_movers', sk2 ) ), increases(
% 0.73/1.23 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.73/1.23 , clause( 67, [ =( sum( 'cardinality_at_time'( 'first_movers', sk2 ),
% 0.73/1.23 'cardinality_at_time'( 'efficient_producers', sk2 ) ),
% 0.73/1.23 'number_of_organizations'( sk1, sk2 ) ) ] )
% 0.73/1.23 , 0, clause( 30, [ ~( constant( sum( X, Y ) ) ), constant( X ), increases(
% 0.73/1.23 X ), increases( Y ) ] )
% 0.73/1.23 , 0, 2, substitution( 0, [] ), substitution( 1, [ :=( X,
% 0.73/1.23 'cardinality_at_time'( 'first_movers', sk2 ) ), :=( Y,
% 0.73/1.23 'cardinality_at_time'( 'efficient_producers', sk2 ) )] )).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 resolution(
% 0.73/1.23 clause( 1210, [ constant( 'cardinality_at_time'( 'first_movers', sk2 ) ),
% 0.73/1.23 increases( 'cardinality_at_time'( 'first_movers', sk2 ) ), increases(
% 0.73/1.23 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.73/1.23 , clause( 1209, [ ~( constant( 'number_of_organizations'( sk1, sk2 ) ) ),
% 0.73/1.23 constant( 'cardinality_at_time'( 'first_movers', sk2 ) ), increases(
% 0.73/1.23 'cardinality_at_time'( 'first_movers', sk2 ) ), increases(
% 0.73/1.23 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.73/1.23 , 0, clause( 22, [ constant( 'number_of_organizations'( sk1, sk2 ) ) ] )
% 0.73/1.23 , 0, substitution( 0, [] ), substitution( 1, [] )).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 subsumption(
% 0.73/1.23 clause( 144, [ constant( 'cardinality_at_time'( 'first_movers', sk2 ) ),
% 0.73/1.23 increases( 'cardinality_at_time'( 'first_movers', sk2 ) ), increases(
% 0.73/1.23 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.73/1.23 , clause( 1210, [ constant( 'cardinality_at_time'( 'first_movers', sk2 ) )
% 0.73/1.23 , increases( 'cardinality_at_time'( 'first_movers', sk2 ) ), increases(
% 0.73/1.23 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.73/1.23 , substitution( 0, [] ), permutation( 0, [ ==>( 0, 0 ), ==>( 1, 1 ), ==>( 2
% 0.73/1.23 , 2 )] ) ).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 paramod(
% 0.73/1.23 clause( 1212, [ ~( constant( 'number_of_organizations'( sk1, sk2 ) ) ),
% 0.73/1.23 constant( 'cardinality_at_time'( 'first_movers', sk2 ) ), decreases(
% 0.73/1.23 'cardinality_at_time'( 'efficient_producers', sk2 ) ), decreases(
% 0.73/1.23 'cardinality_at_time'( 'first_movers', sk2 ) ) ] )
% 0.73/1.23 , clause( 67, [ =( sum( 'cardinality_at_time'( 'first_movers', sk2 ),
% 0.73/1.23 'cardinality_at_time'( 'efficient_producers', sk2 ) ),
% 0.73/1.23 'number_of_organizations'( sk1, sk2 ) ) ] )
% 0.73/1.23 , 0, clause( 33, [ ~( constant( sum( X, Y ) ) ), constant( X ), decreases(
% 0.73/1.23 Y ), decreases( X ) ] )
% 0.73/1.23 , 0, 2, substitution( 0, [] ), substitution( 1, [ :=( X,
% 0.73/1.23 'cardinality_at_time'( 'first_movers', sk2 ) ), :=( Y,
% 0.73/1.23 'cardinality_at_time'( 'efficient_producers', sk2 ) )] )).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 resolution(
% 0.73/1.23 clause( 1213, [ constant( 'cardinality_at_time'( 'first_movers', sk2 ) ),
% 0.73/1.23 decreases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ),
% 0.73/1.23 decreases( 'cardinality_at_time'( 'first_movers', sk2 ) ) ] )
% 0.73/1.23 , clause( 1212, [ ~( constant( 'number_of_organizations'( sk1, sk2 ) ) ),
% 0.73/1.23 constant( 'cardinality_at_time'( 'first_movers', sk2 ) ), decreases(
% 0.73/1.23 'cardinality_at_time'( 'efficient_producers', sk2 ) ), decreases(
% 0.73/1.23 'cardinality_at_time'( 'first_movers', sk2 ) ) ] )
% 0.73/1.23 , 0, clause( 22, [ constant( 'number_of_organizations'( sk1, sk2 ) ) ] )
% 0.73/1.23 , 0, substitution( 0, [] ), substitution( 1, [] )).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 subsumption(
% 0.73/1.23 clause( 145, [ constant( 'cardinality_at_time'( 'first_movers', sk2 ) ),
% 0.73/1.23 decreases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ),
% 0.73/1.23 decreases( 'cardinality_at_time'( 'first_movers', sk2 ) ) ] )
% 0.73/1.23 , clause( 1213, [ constant( 'cardinality_at_time'( 'first_movers', sk2 ) )
% 0.73/1.23 , decreases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ),
% 0.73/1.23 decreases( 'cardinality_at_time'( 'first_movers', sk2 ) ) ] )
% 0.73/1.23 , substitution( 0, [] ), permutation( 0, [ ==>( 0, 0 ), ==>( 1, 1 ), ==>( 2
% 0.73/1.23 , 2 )] ) ).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 paramod(
% 0.73/1.23 clause( 1215, [ ~( constant( 'number_of_organizations'( sk1, sk2 ) ) ),
% 0.73/1.23 constant( 'cardinality_at_time'( 'first_movers', sk2 ) ), decreases(
% 0.73/1.23 'cardinality_at_time'( 'efficient_producers', sk2 ) ), increases(
% 0.73/1.23 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.73/1.23 , clause( 67, [ =( sum( 'cardinality_at_time'( 'first_movers', sk2 ),
% 0.73/1.23 'cardinality_at_time'( 'efficient_producers', sk2 ) ),
% 0.73/1.23 'number_of_organizations'( sk1, sk2 ) ) ] )
% 0.73/1.23 , 0, clause( 35, [ ~( constant( sum( X, Y ) ) ), constant( X ), decreases(
% 0.73/1.23 Y ), increases( Y ) ] )
% 0.73/1.23 , 0, 2, substitution( 0, [] ), substitution( 1, [ :=( X,
% 0.73/1.23 'cardinality_at_time'( 'first_movers', sk2 ) ), :=( Y,
% 0.73/1.23 'cardinality_at_time'( 'efficient_producers', sk2 ) )] )).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 resolution(
% 0.73/1.23 clause( 1216, [ constant( 'cardinality_at_time'( 'first_movers', sk2 ) ),
% 0.73/1.23 decreases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ),
% 0.73/1.23 increases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.73/1.23 , clause( 1215, [ ~( constant( 'number_of_organizations'( sk1, sk2 ) ) ),
% 0.73/1.23 constant( 'cardinality_at_time'( 'first_movers', sk2 ) ), decreases(
% 0.73/1.23 'cardinality_at_time'( 'efficient_producers', sk2 ) ), increases(
% 0.73/1.23 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.73/1.23 , 0, clause( 22, [ constant( 'number_of_organizations'( sk1, sk2 ) ) ] )
% 0.73/1.23 , 0, substitution( 0, [] ), substitution( 1, [] )).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 subsumption(
% 0.73/1.23 clause( 146, [ constant( 'cardinality_at_time'( 'first_movers', sk2 ) ),
% 0.73/1.23 decreases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ),
% 0.73/1.23 increases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.73/1.23 , clause( 1216, [ constant( 'cardinality_at_time'( 'first_movers', sk2 ) )
% 0.73/1.23 , decreases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ),
% 0.73/1.23 increases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.73/1.23 , substitution( 0, [] ), permutation( 0, [ ==>( 0, 0 ), ==>( 1, 1 ), ==>( 2
% 0.73/1.23 , 2 )] ) ).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 paramod(
% 0.73/1.23 clause( 1218, [ ~( constant( 'number_of_organizations'( sk1, sk2 ) ) ),
% 0.73/1.23 constant( 'cardinality_at_time'( 'efficient_producers', sk2 ) ),
% 0.73/1.23 increases( 'cardinality_at_time'( 'first_movers', sk2 ) ), decreases(
% 0.73/1.23 'cardinality_at_time'( 'first_movers', sk2 ) ) ] )
% 0.73/1.23 , clause( 67, [ =( sum( 'cardinality_at_time'( 'first_movers', sk2 ),
% 0.73/1.23 'cardinality_at_time'( 'efficient_producers', sk2 ) ),
% 0.73/1.23 'number_of_organizations'( sk1, sk2 ) ) ] )
% 0.73/1.23 , 0, clause( 36, [ ~( constant( sum( X, Y ) ) ), constant( Y ), increases(
% 0.73/1.23 X ), decreases( X ) ] )
% 0.73/1.23 , 0, 2, substitution( 0, [] ), substitution( 1, [ :=( X,
% 0.73/1.23 'cardinality_at_time'( 'first_movers', sk2 ) ), :=( Y,
% 0.73/1.23 'cardinality_at_time'( 'efficient_producers', sk2 ) )] )).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 resolution(
% 0.73/1.23 clause( 1219, [ constant( 'cardinality_at_time'( 'efficient_producers', sk2
% 0.73/1.23 ) ), increases( 'cardinality_at_time'( 'first_movers', sk2 ) ),
% 0.73/1.23 decreases( 'cardinality_at_time'( 'first_movers', sk2 ) ) ] )
% 0.73/1.23 , clause( 1218, [ ~( constant( 'number_of_organizations'( sk1, sk2 ) ) ),
% 0.73/1.23 constant( 'cardinality_at_time'( 'efficient_producers', sk2 ) ),
% 0.73/1.23 increases( 'cardinality_at_time'( 'first_movers', sk2 ) ), decreases(
% 0.73/1.23 'cardinality_at_time'( 'first_movers', sk2 ) ) ] )
% 0.73/1.23 , 0, clause( 22, [ constant( 'number_of_organizations'( sk1, sk2 ) ) ] )
% 0.73/1.23 , 0, substitution( 0, [] ), substitution( 1, [] )).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 subsumption(
% 0.73/1.23 clause( 147, [ constant( 'cardinality_at_time'( 'efficient_producers', sk2
% 0.73/1.23 ) ), increases( 'cardinality_at_time'( 'first_movers', sk2 ) ),
% 0.73/1.23 decreases( 'cardinality_at_time'( 'first_movers', sk2 ) ) ] )
% 0.73/1.23 , clause( 1219, [ constant( 'cardinality_at_time'( 'efficient_producers',
% 0.73/1.23 sk2 ) ), increases( 'cardinality_at_time'( 'first_movers', sk2 ) ),
% 0.73/1.23 decreases( 'cardinality_at_time'( 'first_movers', sk2 ) ) ] )
% 0.73/1.23 , substitution( 0, [] ), permutation( 0, [ ==>( 0, 0 ), ==>( 1, 1 ), ==>( 2
% 0.73/1.23 , 2 )] ) ).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 paramod(
% 0.73/1.23 clause( 1221, [ ~( constant( 'number_of_organizations'( sk1, sk2 ) ) ),
% 0.73/1.23 constant( 'cardinality_at_time'( 'efficient_producers', sk2 ) ),
% 0.73/1.23 increases( 'cardinality_at_time'( 'first_movers', sk2 ) ), increases(
% 0.73/1.23 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.73/1.23 , clause( 67, [ =( sum( 'cardinality_at_time'( 'first_movers', sk2 ),
% 0.73/1.23 'cardinality_at_time'( 'efficient_producers', sk2 ) ),
% 0.73/1.23 'number_of_organizations'( sk1, sk2 ) ) ] )
% 0.73/1.23 , 0, clause( 37, [ ~( constant( sum( X, Y ) ) ), constant( Y ), increases(
% 0.73/1.23 X ), increases( Y ) ] )
% 0.73/1.23 , 0, 2, substitution( 0, [] ), substitution( 1, [ :=( X,
% 0.73/1.23 'cardinality_at_time'( 'first_movers', sk2 ) ), :=( Y,
% 0.73/1.23 'cardinality_at_time'( 'efficient_producers', sk2 ) )] )).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 resolution(
% 0.73/1.23 clause( 1222, [ constant( 'cardinality_at_time'( 'efficient_producers', sk2
% 0.73/1.23 ) ), increases( 'cardinality_at_time'( 'first_movers', sk2 ) ),
% 0.73/1.23 increases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.73/1.23 , clause( 1221, [ ~( constant( 'number_of_organizations'( sk1, sk2 ) ) ),
% 0.73/1.23 constant( 'cardinality_at_time'( 'efficient_producers', sk2 ) ),
% 0.73/1.23 increases( 'cardinality_at_time'( 'first_movers', sk2 ) ), increases(
% 0.73/1.23 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.73/1.23 , 0, clause( 22, [ constant( 'number_of_organizations'( sk1, sk2 ) ) ] )
% 0.73/1.23 , 0, substitution( 0, [] ), substitution( 1, [] )).
% 0.73/1.23
% 0.73/1.23
% 0.73/1.23 subsumption(
% 0.73/1.23 clause( 148, [ constant( 'cardinality_at_time'( 'efficient_producers', sk2
% 0.73/1.23 ) ), increases( 'cardinality_at_time'( 'first_movers', sk2 ) ),
% 0.73/1.23 increases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.73/1.23 , clause( 1222, [ constant( 'cardinality_at_time'( 'efficient_producers',
% 0.88/1.23 sk2 ) ), increases( 'cardinality_at_time'( 'first_movers', sk2 ) ),
% 0.88/1.23 increases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.88/1.23 , substitution( 0, [] ), permutation( 0, [ ==>( 0, 0 ), ==>( 1, 1 ), ==>( 2
% 0.88/1.23 , 2 )] ) ).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 paramod(
% 0.88/1.23 clause( 1224, [ ~( constant( 'number_of_organizations'( sk1, sk2 ) ) ),
% 0.88/1.23 constant( 'cardinality_at_time'( 'efficient_producers', sk2 ) ),
% 0.88/1.23 decreases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ),
% 0.88/1.23 decreases( 'cardinality_at_time'( 'first_movers', sk2 ) ) ] )
% 0.88/1.23 , clause( 67, [ =( sum( 'cardinality_at_time'( 'first_movers', sk2 ),
% 0.88/1.23 'cardinality_at_time'( 'efficient_producers', sk2 ) ),
% 0.88/1.23 'number_of_organizations'( sk1, sk2 ) ) ] )
% 0.88/1.23 , 0, clause( 38, [ ~( constant( sum( X, Y ) ) ), constant( Y ), decreases(
% 0.88/1.23 Y ), decreases( X ) ] )
% 0.88/1.23 , 0, 2, substitution( 0, [] ), substitution( 1, [ :=( X,
% 0.88/1.23 'cardinality_at_time'( 'first_movers', sk2 ) ), :=( Y,
% 0.88/1.23 'cardinality_at_time'( 'efficient_producers', sk2 ) )] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 resolution(
% 0.88/1.23 clause( 1225, [ constant( 'cardinality_at_time'( 'efficient_producers', sk2
% 0.88/1.23 ) ), decreases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ),
% 0.88/1.23 decreases( 'cardinality_at_time'( 'first_movers', sk2 ) ) ] )
% 0.88/1.23 , clause( 1224, [ ~( constant( 'number_of_organizations'( sk1, sk2 ) ) ),
% 0.88/1.23 constant( 'cardinality_at_time'( 'efficient_producers', sk2 ) ),
% 0.88/1.23 decreases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ),
% 0.88/1.23 decreases( 'cardinality_at_time'( 'first_movers', sk2 ) ) ] )
% 0.88/1.23 , 0, clause( 22, [ constant( 'number_of_organizations'( sk1, sk2 ) ) ] )
% 0.88/1.23 , 0, substitution( 0, [] ), substitution( 1, [] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 subsumption(
% 0.88/1.23 clause( 149, [ constant( 'cardinality_at_time'( 'efficient_producers', sk2
% 0.88/1.23 ) ), decreases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ),
% 0.88/1.23 decreases( 'cardinality_at_time'( 'first_movers', sk2 ) ) ] )
% 0.88/1.23 , clause( 1225, [ constant( 'cardinality_at_time'( 'efficient_producers',
% 0.88/1.23 sk2 ) ), decreases( 'cardinality_at_time'( 'efficient_producers', sk2 ) )
% 0.88/1.23 , decreases( 'cardinality_at_time'( 'first_movers', sk2 ) ) ] )
% 0.88/1.23 , substitution( 0, [] ), permutation( 0, [ ==>( 0, 0 ), ==>( 1, 1 ), ==>( 2
% 0.88/1.23 , 2 )] ) ).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 paramod(
% 0.88/1.23 clause( 1227, [ ~( constant( 'number_of_organizations'( sk1, sk2 ) ) ),
% 0.88/1.23 constant( 'cardinality_at_time'( 'efficient_producers', sk2 ) ),
% 0.88/1.23 decreases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ),
% 0.88/1.23 increases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.88/1.23 , clause( 67, [ =( sum( 'cardinality_at_time'( 'first_movers', sk2 ),
% 0.88/1.23 'cardinality_at_time'( 'efficient_producers', sk2 ) ),
% 0.88/1.23 'number_of_organizations'( sk1, sk2 ) ) ] )
% 0.88/1.23 , 0, clause( 39, [ ~( constant( sum( X, Y ) ) ), constant( Y ), decreases(
% 0.88/1.23 Y ), increases( Y ) ] )
% 0.88/1.23 , 0, 2, substitution( 0, [] ), substitution( 1, [ :=( X,
% 0.88/1.23 'cardinality_at_time'( 'first_movers', sk2 ) ), :=( Y,
% 0.88/1.23 'cardinality_at_time'( 'efficient_producers', sk2 ) )] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 resolution(
% 0.88/1.23 clause( 1228, [ constant( 'cardinality_at_time'( 'efficient_producers', sk2
% 0.88/1.23 ) ), decreases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ),
% 0.88/1.23 increases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.88/1.23 , clause( 1227, [ ~( constant( 'number_of_organizations'( sk1, sk2 ) ) ),
% 0.88/1.23 constant( 'cardinality_at_time'( 'efficient_producers', sk2 ) ),
% 0.88/1.23 decreases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ),
% 0.88/1.23 increases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.88/1.23 , 0, clause( 22, [ constant( 'number_of_organizations'( sk1, sk2 ) ) ] )
% 0.88/1.23 , 0, substitution( 0, [] ), substitution( 1, [] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 subsumption(
% 0.88/1.23 clause( 150, [ constant( 'cardinality_at_time'( 'efficient_producers', sk2
% 0.88/1.23 ) ), decreases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ),
% 0.88/1.23 increases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.88/1.23 , clause( 1228, [ constant( 'cardinality_at_time'( 'efficient_producers',
% 0.88/1.23 sk2 ) ), decreases( 'cardinality_at_time'( 'efficient_producers', sk2 ) )
% 0.88/1.23 , increases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.88/1.23 , substitution( 0, [] ), permutation( 0, [ ==>( 0, 0 ), ==>( 1, 1 ), ==>( 2
% 0.88/1.23 , 2 )] ) ).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 resolution(
% 0.88/1.23 clause( 1229, [ ~( environment( sk1 ) ), greater( 'cardinality_at_time'(
% 0.88/1.23 'efficient_producers', sk2 ), zero ) ] )
% 0.88/1.23 , clause( 17, [ ~( environment( X ) ), ~( subpopulations( 'first_movers',
% 0.88/1.23 'efficient_producers', X, Y ) ), greater( 'cardinality_at_time'(
% 0.88/1.23 'efficient_producers', Y ), zero ) ] )
% 0.88/1.23 , 1, clause( 21, [ subpopulations( 'first_movers', 'efficient_producers',
% 0.88/1.23 sk1, sk2 ) ] )
% 0.88/1.23 , 0, substitution( 0, [ :=( X, sk1 ), :=( Y, sk2 )] ), substitution( 1, [] )
% 0.88/1.23 ).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 resolution(
% 0.88/1.23 clause( 1230, [ greater( 'cardinality_at_time'( 'efficient_producers', sk2
% 0.88/1.23 ), zero ) ] )
% 0.88/1.23 , clause( 1229, [ ~( environment( sk1 ) ), greater( 'cardinality_at_time'(
% 0.88/1.23 'efficient_producers', sk2 ), zero ) ] )
% 0.88/1.23 , 0, clause( 20, [ environment( sk1 ) ] )
% 0.88/1.23 , 0, substitution( 0, [] ), substitution( 1, [] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 subsumption(
% 0.88/1.23 clause( 151, [ greater( 'cardinality_at_time'( 'efficient_producers', sk2 )
% 0.88/1.23 , zero ) ] )
% 0.88/1.23 , clause( 1230, [ greater( 'cardinality_at_time'( 'efficient_producers',
% 0.88/1.23 sk2 ), zero ) ] )
% 0.88/1.23 , substitution( 0, [] ), permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 resolution(
% 0.88/1.23 clause( 1231, [ ~( environment( sk1 ) ), greater( 'cardinality_at_time'(
% 0.88/1.23 'first_movers', sk2 ), zero ) ] )
% 0.88/1.23 , clause( 16, [ ~( environment( X ) ), ~( subpopulations( 'first_movers',
% 0.88/1.23 'efficient_producers', X, Y ) ), greater( 'cardinality_at_time'(
% 0.88/1.23 'first_movers', Y ), zero ) ] )
% 0.88/1.23 , 1, clause( 21, [ subpopulations( 'first_movers', 'efficient_producers',
% 0.88/1.23 sk1, sk2 ) ] )
% 0.88/1.23 , 0, substitution( 0, [ :=( X, sk1 ), :=( Y, sk2 )] ), substitution( 1, [] )
% 0.88/1.23 ).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 resolution(
% 0.88/1.23 clause( 1232, [ greater( 'cardinality_at_time'( 'first_movers', sk2 ), zero
% 0.88/1.23 ) ] )
% 0.88/1.23 , clause( 1231, [ ~( environment( sk1 ) ), greater( 'cardinality_at_time'(
% 0.88/1.23 'first_movers', sk2 ), zero ) ] )
% 0.88/1.23 , 0, clause( 20, [ environment( sk1 ) ] )
% 0.88/1.23 , 0, substitution( 0, [] ), substitution( 1, [] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 subsumption(
% 0.88/1.23 clause( 171, [ greater( 'cardinality_at_time'( 'first_movers', sk2 ), zero
% 0.88/1.23 ) ] )
% 0.88/1.23 , clause( 1232, [ greater( 'cardinality_at_time'( 'first_movers', sk2 ),
% 0.88/1.23 zero ) ] )
% 0.88/1.23 , substitution( 0, [] ), permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 eqswap(
% 0.88/1.23 clause( 1233, [ =( zero, 'growth_rate'( X, Y ) ), ~( environment( Z ) ),
% 0.88/1.23 ~( 'in_environment'( Z, Y ) ), ~( subpopulation( X, Z, Y ) ), ~( greater(
% 0.88/1.23 'cardinality_at_time'( X, Y ), zero ) ), ~( constant(
% 0.88/1.23 'cardinality_at_time'( X, Y ) ) ) ] )
% 0.88/1.23 , clause( 13, [ ~( environment( X ) ), ~( 'in_environment'( X, Y ) ), ~(
% 0.88/1.23 subpopulation( Z, X, Y ) ), ~( greater( 'cardinality_at_time'( Z, Y ),
% 0.88/1.23 zero ) ), ~( constant( 'cardinality_at_time'( Z, Y ) ) ), =(
% 0.88/1.23 'growth_rate'( Z, Y ), zero ) ] )
% 0.88/1.23 , 5, substitution( 0, [ :=( X, Z ), :=( Y, Y ), :=( Z, X )] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 resolution(
% 0.88/1.23 clause( 1234, [ =( zero, 'growth_rate'( 'first_movers', sk2 ) ), ~(
% 0.88/1.23 environment( X ) ), ~( 'in_environment'( X, sk2 ) ), ~( subpopulation(
% 0.88/1.23 'first_movers', X, sk2 ) ), ~( constant( 'cardinality_at_time'(
% 0.88/1.23 'first_movers', sk2 ) ) ) ] )
% 0.88/1.23 , clause( 1233, [ =( zero, 'growth_rate'( X, Y ) ), ~( environment( Z ) ),
% 0.88/1.23 ~( 'in_environment'( Z, Y ) ), ~( subpopulation( X, Z, Y ) ), ~( greater(
% 0.88/1.23 'cardinality_at_time'( X, Y ), zero ) ), ~( constant(
% 0.88/1.23 'cardinality_at_time'( X, Y ) ) ) ] )
% 0.88/1.23 , 4, clause( 171, [ greater( 'cardinality_at_time'( 'first_movers', sk2 ),
% 0.88/1.23 zero ) ] )
% 0.88/1.23 , 0, substitution( 0, [ :=( X, 'first_movers' ), :=( Y, sk2 ), :=( Z, X )] )
% 0.88/1.23 , substitution( 1, [] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 resolution(
% 0.88/1.23 clause( 1235, [ =( zero, 'growth_rate'( 'first_movers', sk2 ) ), ~(
% 0.88/1.23 environment( X ) ), ~( 'in_environment'( X, sk2 ) ), ~( constant(
% 0.88/1.23 'cardinality_at_time'( 'first_movers', sk2 ) ) ), ~( environment( X ) ),
% 0.88/1.23 ~( 'in_environment'( X, sk2 ) ) ] )
% 0.88/1.23 , clause( 1234, [ =( zero, 'growth_rate'( 'first_movers', sk2 ) ), ~(
% 0.88/1.23 environment( X ) ), ~( 'in_environment'( X, sk2 ) ), ~( subpopulation(
% 0.88/1.23 'first_movers', X, sk2 ) ), ~( constant( 'cardinality_at_time'(
% 0.88/1.23 'first_movers', sk2 ) ) ) ] )
% 0.88/1.23 , 3, clause( 3, [ ~( environment( X ) ), ~( 'in_environment'( X, Y ) ),
% 0.88/1.23 subpopulation( 'first_movers', X, Y ) ] )
% 0.88/1.23 , 2, substitution( 0, [ :=( X, X )] ), substitution( 1, [ :=( X, X ), :=( Y
% 0.88/1.23 , sk2 )] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 eqswap(
% 0.88/1.23 clause( 1236, [ =( 'growth_rate'( 'first_movers', sk2 ), zero ), ~(
% 0.88/1.23 environment( X ) ), ~( 'in_environment'( X, sk2 ) ), ~( constant(
% 0.88/1.23 'cardinality_at_time'( 'first_movers', sk2 ) ) ), ~( environment( X ) ),
% 0.88/1.23 ~( 'in_environment'( X, sk2 ) ) ] )
% 0.88/1.23 , clause( 1235, [ =( zero, 'growth_rate'( 'first_movers', sk2 ) ), ~(
% 0.88/1.23 environment( X ) ), ~( 'in_environment'( X, sk2 ) ), ~( constant(
% 0.88/1.23 'cardinality_at_time'( 'first_movers', sk2 ) ) ), ~( environment( X ) ),
% 0.88/1.23 ~( 'in_environment'( X, sk2 ) ) ] )
% 0.88/1.23 , 0, substitution( 0, [ :=( X, X )] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 factor(
% 0.88/1.23 clause( 1238, [ =( 'growth_rate'( 'first_movers', sk2 ), zero ), ~(
% 0.88/1.23 environment( X ) ), ~( 'in_environment'( X, sk2 ) ), ~( constant(
% 0.88/1.23 'cardinality_at_time'( 'first_movers', sk2 ) ) ), ~( environment( X ) ) ]
% 0.88/1.23 )
% 0.88/1.23 , clause( 1236, [ =( 'growth_rate'( 'first_movers', sk2 ), zero ), ~(
% 0.88/1.23 environment( X ) ), ~( 'in_environment'( X, sk2 ) ), ~( constant(
% 0.88/1.23 'cardinality_at_time'( 'first_movers', sk2 ) ) ), ~( environment( X ) ),
% 0.88/1.23 ~( 'in_environment'( X, sk2 ) ) ] )
% 0.88/1.23 , 2, 5, substitution( 0, [ :=( X, X )] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 factor(
% 0.88/1.23 clause( 1239, [ =( 'growth_rate'( 'first_movers', sk2 ), zero ), ~(
% 0.88/1.23 environment( X ) ), ~( 'in_environment'( X, sk2 ) ), ~( constant(
% 0.88/1.23 'cardinality_at_time'( 'first_movers', sk2 ) ) ) ] )
% 0.88/1.23 , clause( 1238, [ =( 'growth_rate'( 'first_movers', sk2 ), zero ), ~(
% 0.88/1.23 environment( X ) ), ~( 'in_environment'( X, sk2 ) ), ~( constant(
% 0.88/1.23 'cardinality_at_time'( 'first_movers', sk2 ) ) ), ~( environment( X ) ) ]
% 0.88/1.23 )
% 0.88/1.23 , 1, 4, substitution( 0, [ :=( X, X )] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 subsumption(
% 0.88/1.23 clause( 217, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ), ~(
% 0.88/1.23 constant( 'cardinality_at_time'( 'first_movers', sk2 ) ) ), =(
% 0.88/1.23 'growth_rate'( 'first_movers', sk2 ), zero ) ] )
% 0.88/1.23 , clause( 1239, [ =( 'growth_rate'( 'first_movers', sk2 ), zero ), ~(
% 0.88/1.23 environment( X ) ), ~( 'in_environment'( X, sk2 ) ), ~( constant(
% 0.88/1.23 'cardinality_at_time'( 'first_movers', sk2 ) ) ) ] )
% 0.88/1.23 , substitution( 0, [ :=( X, X )] ), permutation( 0, [ ==>( 0, 3 ), ==>( 1,
% 0.88/1.23 0 ), ==>( 2, 1 ), ==>( 3, 2 )] ) ).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 resolution(
% 0.88/1.23 clause( 1243, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ), ~(
% 0.88/1.23 subpopulation( 'first_movers', X, sk2 ) ), ~( increases(
% 0.88/1.23 'cardinality_at_time'( 'first_movers', sk2 ) ) ), greater( 'growth_rate'(
% 0.88/1.23 'first_movers', sk2 ), zero ) ] )
% 0.88/1.23 , clause( 14, [ ~( environment( X ) ), ~( 'in_environment'( X, Y ) ), ~(
% 0.88/1.23 subpopulation( Z, X, Y ) ), ~( greater( 'cardinality_at_time'( Z, Y ),
% 0.88/1.23 zero ) ), ~( increases( 'cardinality_at_time'( Z, Y ) ) ), greater(
% 0.88/1.23 'growth_rate'( Z, Y ), zero ) ] )
% 0.88/1.23 , 3, clause( 171, [ greater( 'cardinality_at_time'( 'first_movers', sk2 ),
% 0.88/1.23 zero ) ] )
% 0.88/1.23 , 0, substitution( 0, [ :=( X, X ), :=( Y, sk2 ), :=( Z, 'first_movers' )] )
% 0.88/1.23 , substitution( 1, [] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 resolution(
% 0.88/1.23 clause( 1244, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ), ~(
% 0.88/1.23 increases( 'cardinality_at_time'( 'first_movers', sk2 ) ) ), greater(
% 0.88/1.23 'growth_rate'( 'first_movers', sk2 ), zero ), ~( environment( X ) ), ~(
% 0.88/1.23 'in_environment'( X, sk2 ) ) ] )
% 0.88/1.23 , clause( 1243, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ),
% 0.88/1.23 ~( subpopulation( 'first_movers', X, sk2 ) ), ~( increases(
% 0.88/1.23 'cardinality_at_time'( 'first_movers', sk2 ) ) ), greater( 'growth_rate'(
% 0.88/1.23 'first_movers', sk2 ), zero ) ] )
% 0.88/1.23 , 2, clause( 3, [ ~( environment( X ) ), ~( 'in_environment'( X, Y ) ),
% 0.88/1.23 subpopulation( 'first_movers', X, Y ) ] )
% 0.88/1.23 , 2, substitution( 0, [ :=( X, X )] ), substitution( 1, [ :=( X, X ), :=( Y
% 0.88/1.23 , sk2 )] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 factor(
% 0.88/1.23 clause( 1246, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ), ~(
% 0.88/1.23 increases( 'cardinality_at_time'( 'first_movers', sk2 ) ) ), greater(
% 0.88/1.23 'growth_rate'( 'first_movers', sk2 ), zero ), ~( environment( X ) ) ] )
% 0.88/1.23 , clause( 1244, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ),
% 0.88/1.23 ~( increases( 'cardinality_at_time'( 'first_movers', sk2 ) ) ), greater(
% 0.88/1.23 'growth_rate'( 'first_movers', sk2 ), zero ), ~( environment( X ) ), ~(
% 0.88/1.23 'in_environment'( X, sk2 ) ) ] )
% 0.88/1.23 , 1, 5, substitution( 0, [ :=( X, X )] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 factor(
% 0.88/1.23 clause( 1247, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ), ~(
% 0.88/1.23 increases( 'cardinality_at_time'( 'first_movers', sk2 ) ) ), greater(
% 0.88/1.23 'growth_rate'( 'first_movers', sk2 ), zero ) ] )
% 0.88/1.23 , clause( 1246, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ),
% 0.88/1.23 ~( increases( 'cardinality_at_time'( 'first_movers', sk2 ) ) ), greater(
% 0.88/1.23 'growth_rate'( 'first_movers', sk2 ), zero ), ~( environment( X ) ) ] )
% 0.88/1.23 , 0, 4, substitution( 0, [ :=( X, X )] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 subsumption(
% 0.88/1.23 clause( 239, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ), ~(
% 0.88/1.23 increases( 'cardinality_at_time'( 'first_movers', sk2 ) ) ), greater(
% 0.88/1.23 'growth_rate'( 'first_movers', sk2 ), zero ) ] )
% 0.88/1.23 , clause( 1247, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ),
% 0.88/1.23 ~( increases( 'cardinality_at_time'( 'first_movers', sk2 ) ) ), greater(
% 0.88/1.23 'growth_rate'( 'first_movers', sk2 ), zero ) ] )
% 0.88/1.23 , substitution( 0, [ :=( X, X )] ), permutation( 0, [ ==>( 0, 0 ), ==>( 1,
% 0.88/1.23 1 ), ==>( 2, 2 ), ==>( 3, 3 )] ) ).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 resolution(
% 0.88/1.23 clause( 1248, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ), ~(
% 0.88/1.23 subpopulation( 'efficient_producers', X, sk2 ) ), ~( increases(
% 0.88/1.23 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ), greater(
% 0.88/1.23 'growth_rate'( 'efficient_producers', sk2 ), zero ) ] )
% 0.88/1.23 , clause( 14, [ ~( environment( X ) ), ~( 'in_environment'( X, Y ) ), ~(
% 0.88/1.23 subpopulation( Z, X, Y ) ), ~( greater( 'cardinality_at_time'( Z, Y ),
% 0.88/1.23 zero ) ), ~( increases( 'cardinality_at_time'( Z, Y ) ) ), greater(
% 0.88/1.23 'growth_rate'( Z, Y ), zero ) ] )
% 0.88/1.23 , 3, clause( 151, [ greater( 'cardinality_at_time'( 'efficient_producers',
% 0.88/1.23 sk2 ), zero ) ] )
% 0.88/1.23 , 0, substitution( 0, [ :=( X, X ), :=( Y, sk2 ), :=( Z,
% 0.88/1.23 'efficient_producers' )] ), substitution( 1, [] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 resolution(
% 0.88/1.23 clause( 1249, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ), ~(
% 0.88/1.23 increases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ),
% 0.88/1.23 greater( 'growth_rate'( 'efficient_producers', sk2 ), zero ), ~(
% 0.88/1.23 environment( X ) ), ~( 'in_environment'( X, sk2 ) ) ] )
% 0.88/1.23 , clause( 1248, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ),
% 0.88/1.23 ~( subpopulation( 'efficient_producers', X, sk2 ) ), ~( increases(
% 0.88/1.23 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ), greater(
% 0.88/1.23 'growth_rate'( 'efficient_producers', sk2 ), zero ) ] )
% 0.88/1.23 , 2, clause( 4, [ ~( environment( X ) ), ~( 'in_environment'( X, Y ) ),
% 0.88/1.23 subpopulation( 'efficient_producers', X, Y ) ] )
% 0.88/1.23 , 2, substitution( 0, [ :=( X, X )] ), substitution( 1, [ :=( X, X ), :=( Y
% 0.88/1.23 , sk2 )] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 factor(
% 0.88/1.23 clause( 1251, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ), ~(
% 0.88/1.23 increases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ),
% 0.88/1.23 greater( 'growth_rate'( 'efficient_producers', sk2 ), zero ), ~(
% 0.88/1.23 environment( X ) ) ] )
% 0.88/1.23 , clause( 1249, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ),
% 0.88/1.23 ~( increases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ),
% 0.88/1.23 greater( 'growth_rate'( 'efficient_producers', sk2 ), zero ), ~(
% 0.88/1.23 environment( X ) ), ~( 'in_environment'( X, sk2 ) ) ] )
% 0.88/1.23 , 1, 5, substitution( 0, [ :=( X, X )] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 factor(
% 0.88/1.23 clause( 1252, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ), ~(
% 0.88/1.23 increases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ),
% 0.88/1.23 greater( 'growth_rate'( 'efficient_producers', sk2 ), zero ) ] )
% 0.88/1.23 , clause( 1251, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ),
% 0.88/1.23 ~( increases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ),
% 0.88/1.23 greater( 'growth_rate'( 'efficient_producers', sk2 ), zero ), ~(
% 0.88/1.23 environment( X ) ) ] )
% 0.88/1.23 , 0, 4, substitution( 0, [ :=( X, X )] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 subsumption(
% 0.88/1.23 clause( 243, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ), ~(
% 0.88/1.23 increases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ),
% 0.88/1.23 greater( 'growth_rate'( 'efficient_producers', sk2 ), zero ) ] )
% 0.88/1.23 , clause( 1252, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ),
% 0.88/1.23 ~( increases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ),
% 0.88/1.23 greater( 'growth_rate'( 'efficient_producers', sk2 ), zero ) ] )
% 0.88/1.23 , substitution( 0, [ :=( X, X )] ), permutation( 0, [ ==>( 0, 0 ), ==>( 1,
% 0.88/1.23 1 ), ==>( 2, 2 ), ==>( 3, 3 )] ) ).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 resolution(
% 0.88/1.23 clause( 1253, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ), ~(
% 0.88/1.23 subpopulation( 'first_movers', X, sk2 ) ), ~( decreases(
% 0.88/1.23 'cardinality_at_time'( 'first_movers', sk2 ) ) ), greater( zero,
% 0.88/1.23 'growth_rate'( 'first_movers', sk2 ) ) ] )
% 0.88/1.23 , clause( 15, [ ~( environment( X ) ), ~( 'in_environment'( X, Y ) ), ~(
% 0.88/1.23 subpopulation( Z, X, Y ) ), ~( greater( 'cardinality_at_time'( Z, Y ),
% 0.88/1.23 zero ) ), ~( decreases( 'cardinality_at_time'( Z, Y ) ) ), greater( zero
% 0.88/1.23 , 'growth_rate'( Z, Y ) ) ] )
% 0.88/1.23 , 3, clause( 171, [ greater( 'cardinality_at_time'( 'first_movers', sk2 ),
% 0.88/1.23 zero ) ] )
% 0.88/1.23 , 0, substitution( 0, [ :=( X, X ), :=( Y, sk2 ), :=( Z, 'first_movers' )] )
% 0.88/1.23 , substitution( 1, [] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 resolution(
% 0.88/1.23 clause( 1254, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ), ~(
% 0.88/1.23 decreases( 'cardinality_at_time'( 'first_movers', sk2 ) ) ), greater(
% 0.88/1.23 zero, 'growth_rate'( 'first_movers', sk2 ) ), ~( environment( X ) ), ~(
% 0.88/1.23 'in_environment'( X, sk2 ) ) ] )
% 0.88/1.23 , clause( 1253, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ),
% 0.88/1.23 ~( subpopulation( 'first_movers', X, sk2 ) ), ~( decreases(
% 0.88/1.23 'cardinality_at_time'( 'first_movers', sk2 ) ) ), greater( zero,
% 0.88/1.23 'growth_rate'( 'first_movers', sk2 ) ) ] )
% 0.88/1.23 , 2, clause( 3, [ ~( environment( X ) ), ~( 'in_environment'( X, Y ) ),
% 0.88/1.23 subpopulation( 'first_movers', X, Y ) ] )
% 0.88/1.23 , 2, substitution( 0, [ :=( X, X )] ), substitution( 1, [ :=( X, X ), :=( Y
% 0.88/1.23 , sk2 )] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 factor(
% 0.88/1.23 clause( 1256, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ), ~(
% 0.88/1.23 decreases( 'cardinality_at_time'( 'first_movers', sk2 ) ) ), greater(
% 0.88/1.23 zero, 'growth_rate'( 'first_movers', sk2 ) ), ~( environment( X ) ) ] )
% 0.88/1.23 , clause( 1254, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ),
% 0.88/1.23 ~( decreases( 'cardinality_at_time'( 'first_movers', sk2 ) ) ), greater(
% 0.88/1.23 zero, 'growth_rate'( 'first_movers', sk2 ) ), ~( environment( X ) ), ~(
% 0.88/1.23 'in_environment'( X, sk2 ) ) ] )
% 0.88/1.23 , 1, 5, substitution( 0, [ :=( X, X )] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 factor(
% 0.88/1.23 clause( 1257, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ), ~(
% 0.88/1.23 decreases( 'cardinality_at_time'( 'first_movers', sk2 ) ) ), greater(
% 0.88/1.23 zero, 'growth_rate'( 'first_movers', sk2 ) ) ] )
% 0.88/1.23 , clause( 1256, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ),
% 0.88/1.23 ~( decreases( 'cardinality_at_time'( 'first_movers', sk2 ) ) ), greater(
% 0.88/1.23 zero, 'growth_rate'( 'first_movers', sk2 ) ), ~( environment( X ) ) ] )
% 0.88/1.23 , 0, 4, substitution( 0, [ :=( X, X )] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 subsumption(
% 0.88/1.23 clause( 261, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ), ~(
% 0.88/1.23 decreases( 'cardinality_at_time'( 'first_movers', sk2 ) ) ), greater(
% 0.88/1.23 zero, 'growth_rate'( 'first_movers', sk2 ) ) ] )
% 0.88/1.23 , clause( 1257, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ),
% 0.88/1.23 ~( decreases( 'cardinality_at_time'( 'first_movers', sk2 ) ) ), greater(
% 0.88/1.23 zero, 'growth_rate'( 'first_movers', sk2 ) ) ] )
% 0.88/1.23 , substitution( 0, [ :=( X, X )] ), permutation( 0, [ ==>( 0, 0 ), ==>( 1,
% 0.88/1.23 1 ), ==>( 2, 2 ), ==>( 3, 3 )] ) ).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 resolution(
% 0.88/1.23 clause( 1258, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ), ~(
% 0.88/1.23 subpopulation( 'efficient_producers', X, sk2 ) ), ~( decreases(
% 0.88/1.23 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ), greater( zero,
% 0.88/1.23 'growth_rate'( 'efficient_producers', sk2 ) ) ] )
% 0.88/1.23 , clause( 15, [ ~( environment( X ) ), ~( 'in_environment'( X, Y ) ), ~(
% 0.88/1.23 subpopulation( Z, X, Y ) ), ~( greater( 'cardinality_at_time'( Z, Y ),
% 0.88/1.23 zero ) ), ~( decreases( 'cardinality_at_time'( Z, Y ) ) ), greater( zero
% 0.88/1.23 , 'growth_rate'( Z, Y ) ) ] )
% 0.88/1.23 , 3, clause( 151, [ greater( 'cardinality_at_time'( 'efficient_producers',
% 0.88/1.23 sk2 ), zero ) ] )
% 0.88/1.23 , 0, substitution( 0, [ :=( X, X ), :=( Y, sk2 ), :=( Z,
% 0.88/1.23 'efficient_producers' )] ), substitution( 1, [] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 resolution(
% 0.88/1.23 clause( 1259, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ), ~(
% 0.88/1.23 decreases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ),
% 0.88/1.23 greater( zero, 'growth_rate'( 'efficient_producers', sk2 ) ), ~(
% 0.88/1.23 environment( X ) ), ~( 'in_environment'( X, sk2 ) ) ] )
% 0.88/1.23 , clause( 1258, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ),
% 0.88/1.23 ~( subpopulation( 'efficient_producers', X, sk2 ) ), ~( decreases(
% 0.88/1.23 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ), greater( zero,
% 0.88/1.23 'growth_rate'( 'efficient_producers', sk2 ) ) ] )
% 0.88/1.23 , 2, clause( 4, [ ~( environment( X ) ), ~( 'in_environment'( X, Y ) ),
% 0.88/1.23 subpopulation( 'efficient_producers', X, Y ) ] )
% 0.88/1.23 , 2, substitution( 0, [ :=( X, X )] ), substitution( 1, [ :=( X, X ), :=( Y
% 0.88/1.23 , sk2 )] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 factor(
% 0.88/1.23 clause( 1261, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ), ~(
% 0.88/1.23 decreases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ),
% 0.88/1.23 greater( zero, 'growth_rate'( 'efficient_producers', sk2 ) ), ~(
% 0.88/1.23 environment( X ) ) ] )
% 0.88/1.23 , clause( 1259, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ),
% 0.88/1.23 ~( decreases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ),
% 0.88/1.23 greater( zero, 'growth_rate'( 'efficient_producers', sk2 ) ), ~(
% 0.88/1.23 environment( X ) ), ~( 'in_environment'( X, sk2 ) ) ] )
% 0.88/1.23 , 1, 5, substitution( 0, [ :=( X, X )] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 factor(
% 0.88/1.23 clause( 1262, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ), ~(
% 0.88/1.23 decreases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ),
% 0.88/1.23 greater( zero, 'growth_rate'( 'efficient_producers', sk2 ) ) ] )
% 0.88/1.23 , clause( 1261, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ),
% 0.88/1.23 ~( decreases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ),
% 0.88/1.23 greater( zero, 'growth_rate'( 'efficient_producers', sk2 ) ), ~(
% 0.88/1.23 environment( X ) ) ] )
% 0.88/1.23 , 0, 4, substitution( 0, [ :=( X, X )] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 subsumption(
% 0.88/1.23 clause( 263, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ), ~(
% 0.88/1.23 decreases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ),
% 0.88/1.23 greater( zero, 'growth_rate'( 'efficient_producers', sk2 ) ) ] )
% 0.88/1.23 , clause( 1262, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ),
% 0.88/1.23 ~( decreases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ),
% 0.88/1.23 greater( zero, 'growth_rate'( 'efficient_producers', sk2 ) ) ] )
% 0.88/1.23 , substitution( 0, [ :=( X, X )] ), permutation( 0, [ ==>( 0, 0 ), ==>( 1,
% 0.88/1.23 1 ), ==>( 2, 2 ), ==>( 3, 3 )] ) ).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 resolution(
% 0.88/1.23 clause( 1263, [ ~( environment( sk1 ) ), ~( decreases(
% 0.88/1.23 'cardinality_at_time'( 'first_movers', sk2 ) ) ), greater( zero,
% 0.88/1.23 'growth_rate'( 'first_movers', sk2 ) ) ] )
% 0.88/1.23 , clause( 261, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ),
% 0.88/1.23 ~( decreases( 'cardinality_at_time'( 'first_movers', sk2 ) ) ), greater(
% 0.88/1.23 zero, 'growth_rate'( 'first_movers', sk2 ) ) ] )
% 0.88/1.23 , 1, clause( 62, [ 'in_environment'( sk1, sk2 ) ] )
% 0.88/1.23 , 0, substitution( 0, [ :=( X, sk1 )] ), substitution( 1, [] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 resolution(
% 0.88/1.23 clause( 1264, [ ~( decreases( 'cardinality_at_time'( 'first_movers', sk2 )
% 0.88/1.23 ) ), greater( zero, 'growth_rate'( 'first_movers', sk2 ) ) ] )
% 0.88/1.23 , clause( 1263, [ ~( environment( sk1 ) ), ~( decreases(
% 0.88/1.23 'cardinality_at_time'( 'first_movers', sk2 ) ) ), greater( zero,
% 0.88/1.23 'growth_rate'( 'first_movers', sk2 ) ) ] )
% 0.88/1.23 , 0, clause( 20, [ environment( sk1 ) ] )
% 0.88/1.23 , 0, substitution( 0, [] ), substitution( 1, [] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 subsumption(
% 0.88/1.23 clause( 280, [ ~( decreases( 'cardinality_at_time'( 'first_movers', sk2 ) )
% 0.88/1.23 ), greater( zero, 'growth_rate'( 'first_movers', sk2 ) ) ] )
% 0.88/1.23 , clause( 1264, [ ~( decreases( 'cardinality_at_time'( 'first_movers', sk2
% 0.88/1.23 ) ) ), greater( zero, 'growth_rate'( 'first_movers', sk2 ) ) ] )
% 0.88/1.23 , substitution( 0, [] ), permutation( 0, [ ==>( 0, 0 ), ==>( 1, 1 )] )
% 0.88/1.23 ).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 resolution(
% 0.88/1.23 clause( 1265, [ ~( greater( 'growth_rate'( 'efficient_producers', sk2 ),
% 0.88/1.23 zero ) ), ~( decreases( 'cardinality_at_time'( 'first_movers', sk2 ) ) )
% 0.88/1.23 ] )
% 0.88/1.23 , clause( 25, [ ~( greater( 'growth_rate'( 'efficient_producers', sk2 ),
% 0.88/1.23 zero ) ), ~( greater( zero, 'growth_rate'( 'first_movers', sk2 ) ) ) ] )
% 0.88/1.23 , 1, clause( 280, [ ~( decreases( 'cardinality_at_time'( 'first_movers',
% 0.88/1.23 sk2 ) ) ), greater( zero, 'growth_rate'( 'first_movers', sk2 ) ) ] )
% 0.88/1.23 , 1, substitution( 0, [] ), substitution( 1, [] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 subsumption(
% 0.88/1.23 clause( 287, [ ~( decreases( 'cardinality_at_time'( 'first_movers', sk2 ) )
% 0.88/1.23 ), ~( greater( 'growth_rate'( 'efficient_producers', sk2 ), zero ) ) ]
% 0.88/1.23 )
% 0.88/1.23 , clause( 1265, [ ~( greater( 'growth_rate'( 'efficient_producers', sk2 ),
% 0.88/1.23 zero ) ), ~( decreases( 'cardinality_at_time'( 'first_movers', sk2 ) ) )
% 0.88/1.23 ] )
% 0.88/1.23 , substitution( 0, [] ), permutation( 0, [ ==>( 0, 1 ), ==>( 1, 0 )] )
% 0.88/1.23 ).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 resolution(
% 0.88/1.23 clause( 1266, [ ~( greater( 'growth_rate'( 'efficient_producers', sk2 ),
% 0.88/1.23 zero ) ), constant( 'cardinality_at_time'( 'efficient_producers', sk2 ) )
% 0.88/1.23 , decreases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.88/1.23 , clause( 287, [ ~( decreases( 'cardinality_at_time'( 'first_movers', sk2 )
% 0.88/1.23 ) ), ~( greater( 'growth_rate'( 'efficient_producers', sk2 ), zero ) ) ]
% 0.88/1.23 )
% 0.88/1.23 , 0, clause( 149, [ constant( 'cardinality_at_time'( 'efficient_producers'
% 0.88/1.23 , sk2 ) ), decreases( 'cardinality_at_time'( 'efficient_producers', sk2 )
% 0.88/1.23 ), decreases( 'cardinality_at_time'( 'first_movers', sk2 ) ) ] )
% 0.88/1.23 , 2, substitution( 0, [] ), substitution( 1, [] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 subsumption(
% 0.88/1.23 clause( 288, [ ~( greater( 'growth_rate'( 'efficient_producers', sk2 ),
% 0.88/1.23 zero ) ), constant( 'cardinality_at_time'( 'efficient_producers', sk2 ) )
% 0.88/1.23 , decreases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.88/1.23 , clause( 1266, [ ~( greater( 'growth_rate'( 'efficient_producers', sk2 ),
% 0.88/1.23 zero ) ), constant( 'cardinality_at_time'( 'efficient_producers', sk2 ) )
% 0.88/1.23 , decreases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.88/1.23 , substitution( 0, [] ), permutation( 0, [ ==>( 0, 0 ), ==>( 1, 1 ), ==>( 2
% 0.88/1.23 , 2 )] ) ).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 resolution(
% 0.88/1.23 clause( 1267, [ ~( greater( 'growth_rate'( 'efficient_producers', sk2 ),
% 0.88/1.23 zero ) ), constant( 'cardinality_at_time'( 'efficient_producers', sk2 ) )
% 0.88/1.23 , increases( 'cardinality_at_time'( 'first_movers', sk2 ) ) ] )
% 0.88/1.23 , clause( 287, [ ~( decreases( 'cardinality_at_time'( 'first_movers', sk2 )
% 0.88/1.23 ) ), ~( greater( 'growth_rate'( 'efficient_producers', sk2 ), zero ) ) ]
% 0.88/1.23 )
% 0.88/1.23 , 0, clause( 147, [ constant( 'cardinality_at_time'( 'efficient_producers'
% 0.88/1.23 , sk2 ) ), increases( 'cardinality_at_time'( 'first_movers', sk2 ) ),
% 0.88/1.23 decreases( 'cardinality_at_time'( 'first_movers', sk2 ) ) ] )
% 0.88/1.23 , 2, substitution( 0, [] ), substitution( 1, [] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 subsumption(
% 0.88/1.23 clause( 289, [ ~( greater( 'growth_rate'( 'efficient_producers', sk2 ),
% 0.88/1.23 zero ) ), constant( 'cardinality_at_time'( 'efficient_producers', sk2 ) )
% 0.88/1.23 , increases( 'cardinality_at_time'( 'first_movers', sk2 ) ) ] )
% 0.88/1.23 , clause( 1267, [ ~( greater( 'growth_rate'( 'efficient_producers', sk2 ),
% 0.88/1.23 zero ) ), constant( 'cardinality_at_time'( 'efficient_producers', sk2 ) )
% 0.88/1.23 , increases( 'cardinality_at_time'( 'first_movers', sk2 ) ) ] )
% 0.88/1.23 , substitution( 0, [] ), permutation( 0, [ ==>( 0, 0 ), ==>( 1, 1 ), ==>( 2
% 0.88/1.23 , 2 )] ) ).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 resolution(
% 0.88/1.23 clause( 1268, [ ~( greater( 'growth_rate'( 'efficient_producers', sk2 ),
% 0.88/1.23 zero ) ), constant( 'cardinality_at_time'( 'first_movers', sk2 ) ),
% 0.88/1.23 decreases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.88/1.23 , clause( 287, [ ~( decreases( 'cardinality_at_time'( 'first_movers', sk2 )
% 0.88/1.23 ) ), ~( greater( 'growth_rate'( 'efficient_producers', sk2 ), zero ) ) ]
% 0.88/1.23 )
% 0.88/1.23 , 0, clause( 145, [ constant( 'cardinality_at_time'( 'first_movers', sk2 )
% 0.88/1.23 ), decreases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ),
% 0.88/1.23 decreases( 'cardinality_at_time'( 'first_movers', sk2 ) ) ] )
% 0.88/1.23 , 2, substitution( 0, [] ), substitution( 1, [] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 subsumption(
% 0.88/1.23 clause( 290, [ ~( greater( 'growth_rate'( 'efficient_producers', sk2 ),
% 0.88/1.23 zero ) ), constant( 'cardinality_at_time'( 'first_movers', sk2 ) ),
% 0.88/1.23 decreases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.88/1.23 , clause( 1268, [ ~( greater( 'growth_rate'( 'efficient_producers', sk2 ),
% 0.88/1.23 zero ) ), constant( 'cardinality_at_time'( 'first_movers', sk2 ) ),
% 0.88/1.23 decreases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.88/1.23 , substitution( 0, [] ), permutation( 0, [ ==>( 0, 0 ), ==>( 1, 1 ), ==>( 2
% 0.88/1.23 , 2 )] ) ).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 resolution(
% 0.88/1.23 clause( 1269, [ ~( greater( 'growth_rate'( 'efficient_producers', sk2 ),
% 0.88/1.23 zero ) ), constant( 'cardinality_at_time'( 'first_movers', sk2 ) ),
% 0.88/1.23 increases( 'cardinality_at_time'( 'first_movers', sk2 ) ) ] )
% 0.88/1.23 , clause( 287, [ ~( decreases( 'cardinality_at_time'( 'first_movers', sk2 )
% 0.88/1.23 ) ), ~( greater( 'growth_rate'( 'efficient_producers', sk2 ), zero ) ) ]
% 0.88/1.23 )
% 0.88/1.23 , 0, clause( 143, [ constant( 'cardinality_at_time'( 'first_movers', sk2 )
% 0.88/1.23 ), increases( 'cardinality_at_time'( 'first_movers', sk2 ) ), decreases(
% 0.88/1.23 'cardinality_at_time'( 'first_movers', sk2 ) ) ] )
% 0.88/1.23 , 2, substitution( 0, [] ), substitution( 1, [] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 subsumption(
% 0.88/1.23 clause( 291, [ ~( greater( 'growth_rate'( 'efficient_producers', sk2 ),
% 0.88/1.23 zero ) ), constant( 'cardinality_at_time'( 'first_movers', sk2 ) ),
% 0.88/1.23 increases( 'cardinality_at_time'( 'first_movers', sk2 ) ) ] )
% 0.88/1.23 , clause( 1269, [ ~( greater( 'growth_rate'( 'efficient_producers', sk2 ),
% 0.88/1.23 zero ) ), constant( 'cardinality_at_time'( 'first_movers', sk2 ) ),
% 0.88/1.23 increases( 'cardinality_at_time'( 'first_movers', sk2 ) ) ] )
% 0.88/1.23 , substitution( 0, [] ), permutation( 0, [ ==>( 0, 0 ), ==>( 1, 1 ), ==>( 2
% 0.88/1.23 , 2 )] ) ).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 resolution(
% 0.88/1.23 clause( 1270, [ ~( environment( sk1 ) ), ~( decreases(
% 0.88/1.23 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ), greater( zero,
% 0.88/1.23 'growth_rate'( 'efficient_producers', sk2 ) ) ] )
% 0.88/1.23 , clause( 263, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ),
% 0.88/1.23 ~( decreases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ),
% 0.88/1.23 greater( zero, 'growth_rate'( 'efficient_producers', sk2 ) ) ] )
% 0.88/1.23 , 1, clause( 62, [ 'in_environment'( sk1, sk2 ) ] )
% 0.88/1.23 , 0, substitution( 0, [ :=( X, sk1 )] ), substitution( 1, [] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 resolution(
% 0.88/1.23 clause( 1271, [ ~( decreases( 'cardinality_at_time'( 'efficient_producers'
% 0.88/1.23 , sk2 ) ) ), greater( zero, 'growth_rate'( 'efficient_producers', sk2 ) )
% 0.88/1.23 ] )
% 0.88/1.23 , clause( 1270, [ ~( environment( sk1 ) ), ~( decreases(
% 0.88/1.23 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ), greater( zero,
% 0.88/1.23 'growth_rate'( 'efficient_producers', sk2 ) ) ] )
% 0.88/1.23 , 0, clause( 20, [ environment( sk1 ) ] )
% 0.88/1.23 , 0, substitution( 0, [] ), substitution( 1, [] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 subsumption(
% 0.88/1.23 clause( 461, [ ~( decreases( 'cardinality_at_time'( 'efficient_producers',
% 0.88/1.23 sk2 ) ) ), greater( zero, 'growth_rate'( 'efficient_producers', sk2 ) ) ]
% 0.88/1.23 )
% 0.88/1.23 , clause( 1271, [ ~( decreases( 'cardinality_at_time'(
% 0.88/1.23 'efficient_producers', sk2 ) ) ), greater( zero, 'growth_rate'(
% 0.88/1.23 'efficient_producers', sk2 ) ) ] )
% 0.88/1.23 , substitution( 0, [] ), permutation( 0, [ ==>( 0, 0 ), ==>( 1, 1 )] )
% 0.88/1.23 ).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 resolution(
% 0.88/1.23 clause( 1272, [ ~( greater( 'growth_rate'( 'first_movers', sk2 ), zero ) )
% 0.88/1.23 , ~( decreases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ) ]
% 0.88/1.23 )
% 0.88/1.23 , clause( 24, [ ~( greater( 'growth_rate'( 'first_movers', sk2 ), zero ) )
% 0.88/1.23 , ~( greater( zero, 'growth_rate'( 'efficient_producers', sk2 ) ) ) ] )
% 0.88/1.23 , 1, clause( 461, [ ~( decreases( 'cardinality_at_time'(
% 0.88/1.23 'efficient_producers', sk2 ) ) ), greater( zero, 'growth_rate'(
% 0.88/1.23 'efficient_producers', sk2 ) ) ] )
% 0.88/1.23 , 1, substitution( 0, [] ), substitution( 1, [] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 subsumption(
% 0.88/1.23 clause( 472, [ ~( decreases( 'cardinality_at_time'( 'efficient_producers',
% 0.88/1.23 sk2 ) ) ), ~( greater( 'growth_rate'( 'first_movers', sk2 ), zero ) ) ]
% 0.88/1.23 )
% 0.88/1.23 , clause( 1272, [ ~( greater( 'growth_rate'( 'first_movers', sk2 ), zero )
% 0.88/1.23 ), ~( decreases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) )
% 0.88/1.23 ] )
% 0.88/1.23 , substitution( 0, [] ), permutation( 0, [ ==>( 0, 1 ), ==>( 1, 0 )] )
% 0.88/1.23 ).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 resolution(
% 0.88/1.23 clause( 1273, [ ~( greater( 'growth_rate'( 'first_movers', sk2 ), zero ) )
% 0.88/1.23 , ~( greater( 'growth_rate'( 'efficient_producers', sk2 ), zero ) ),
% 0.88/1.23 constant( 'cardinality_at_time'( 'first_movers', sk2 ) ) ] )
% 0.88/1.23 , clause( 472, [ ~( decreases( 'cardinality_at_time'( 'efficient_producers'
% 0.88/1.23 , sk2 ) ) ), ~( greater( 'growth_rate'( 'first_movers', sk2 ), zero ) ) ]
% 0.88/1.23 )
% 0.88/1.23 , 0, clause( 290, [ ~( greater( 'growth_rate'( 'efficient_producers', sk2 )
% 0.88/1.23 , zero ) ), constant( 'cardinality_at_time'( 'first_movers', sk2 ) ),
% 0.88/1.23 decreases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.88/1.23 , 2, substitution( 0, [] ), substitution( 1, [] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 subsumption(
% 0.88/1.23 clause( 475, [ ~( greater( 'growth_rate'( 'first_movers', sk2 ), zero ) ),
% 0.88/1.23 ~( greater( 'growth_rate'( 'efficient_producers', sk2 ), zero ) ),
% 0.88/1.23 constant( 'cardinality_at_time'( 'first_movers', sk2 ) ) ] )
% 0.88/1.23 , clause( 1273, [ ~( greater( 'growth_rate'( 'first_movers', sk2 ), zero )
% 0.88/1.23 ), ~( greater( 'growth_rate'( 'efficient_producers', sk2 ), zero ) ),
% 0.88/1.23 constant( 'cardinality_at_time'( 'first_movers', sk2 ) ) ] )
% 0.88/1.23 , substitution( 0, [] ), permutation( 0, [ ==>( 0, 0 ), ==>( 1, 1 ), ==>( 2
% 0.88/1.23 , 2 )] ) ).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 resolution(
% 0.88/1.23 clause( 1274, [ ~( greater( 'growth_rate'( 'first_movers', sk2 ), zero ) )
% 0.88/1.23 , ~( greater( 'growth_rate'( 'efficient_producers', sk2 ), zero ) ),
% 0.88/1.23 constant( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.88/1.23 , clause( 472, [ ~( decreases( 'cardinality_at_time'( 'efficient_producers'
% 0.88/1.23 , sk2 ) ) ), ~( greater( 'growth_rate'( 'first_movers', sk2 ), zero ) ) ]
% 0.88/1.23 )
% 0.88/1.23 , 0, clause( 288, [ ~( greater( 'growth_rate'( 'efficient_producers', sk2 )
% 0.88/1.23 , zero ) ), constant( 'cardinality_at_time'( 'efficient_producers', sk2 )
% 0.88/1.23 ), decreases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.88/1.23 , 2, substitution( 0, [] ), substitution( 1, [] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 subsumption(
% 0.88/1.23 clause( 476, [ ~( greater( 'growth_rate'( 'first_movers', sk2 ), zero ) ),
% 0.88/1.23 ~( greater( 'growth_rate'( 'efficient_producers', sk2 ), zero ) ),
% 0.88/1.23 constant( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.88/1.23 , clause( 1274, [ ~( greater( 'growth_rate'( 'first_movers', sk2 ), zero )
% 0.88/1.23 ), ~( greater( 'growth_rate'( 'efficient_producers', sk2 ), zero ) ),
% 0.88/1.23 constant( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.88/1.23 , substitution( 0, [] ), permutation( 0, [ ==>( 0, 0 ), ==>( 1, 1 ), ==>( 2
% 0.88/1.23 , 2 )] ) ).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 resolution(
% 0.88/1.23 clause( 1275, [ ~( greater( 'growth_rate'( 'first_movers', sk2 ), zero ) )
% 0.88/1.23 , constant( 'cardinality_at_time'( 'efficient_producers', sk2 ) ),
% 0.88/1.23 increases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.88/1.23 , clause( 472, [ ~( decreases( 'cardinality_at_time'( 'efficient_producers'
% 0.88/1.23 , sk2 ) ) ), ~( greater( 'growth_rate'( 'first_movers', sk2 ), zero ) ) ]
% 0.88/1.23 )
% 0.88/1.23 , 0, clause( 150, [ constant( 'cardinality_at_time'( 'efficient_producers'
% 0.88/1.23 , sk2 ) ), decreases( 'cardinality_at_time'( 'efficient_producers', sk2 )
% 0.88/1.23 ), increases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.88/1.23 , 1, substitution( 0, [] ), substitution( 1, [] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 subsumption(
% 0.88/1.23 clause( 477, [ ~( greater( 'growth_rate'( 'first_movers', sk2 ), zero ) ),
% 0.88/1.23 constant( 'cardinality_at_time'( 'efficient_producers', sk2 ) ),
% 0.88/1.23 increases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.88/1.23 , clause( 1275, [ ~( greater( 'growth_rate'( 'first_movers', sk2 ), zero )
% 0.88/1.23 ), constant( 'cardinality_at_time'( 'efficient_producers', sk2 ) ),
% 0.88/1.23 increases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.88/1.23 , substitution( 0, [] ), permutation( 0, [ ==>( 0, 0 ), ==>( 1, 1 ), ==>( 2
% 0.88/1.23 , 2 )] ) ).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 resolution(
% 0.88/1.23 clause( 1276, [ ~( greater( 'growth_rate'( 'first_movers', sk2 ), zero ) )
% 0.88/1.23 , constant( 'cardinality_at_time'( 'first_movers', sk2 ) ), increases(
% 0.88/1.23 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.88/1.23 , clause( 472, [ ~( decreases( 'cardinality_at_time'( 'efficient_producers'
% 0.88/1.23 , sk2 ) ) ), ~( greater( 'growth_rate'( 'first_movers', sk2 ), zero ) ) ]
% 0.88/1.23 )
% 0.88/1.23 , 0, clause( 146, [ constant( 'cardinality_at_time'( 'first_movers', sk2 )
% 0.88/1.23 ), decreases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ),
% 0.88/1.23 increases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.88/1.23 , 1, substitution( 0, [] ), substitution( 1, [] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 subsumption(
% 0.88/1.23 clause( 479, [ ~( greater( 'growth_rate'( 'first_movers', sk2 ), zero ) ),
% 0.88/1.23 constant( 'cardinality_at_time'( 'first_movers', sk2 ) ), increases(
% 0.88/1.23 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.88/1.23 , clause( 1276, [ ~( greater( 'growth_rate'( 'first_movers', sk2 ), zero )
% 0.88/1.23 ), constant( 'cardinality_at_time'( 'first_movers', sk2 ) ), increases(
% 0.88/1.23 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.88/1.23 , substitution( 0, [] ), permutation( 0, [ ==>( 0, 0 ), ==>( 1, 1 ), ==>( 2
% 0.88/1.23 , 2 )] ) ).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 resolution(
% 0.88/1.23 clause( 1277, [ ~( environment( sk1 ) ), ~( increases(
% 0.88/1.23 'cardinality_at_time'( 'first_movers', sk2 ) ) ), greater( 'growth_rate'(
% 0.88/1.23 'first_movers', sk2 ), zero ) ] )
% 0.88/1.23 , clause( 239, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ),
% 0.88/1.23 ~( increases( 'cardinality_at_time'( 'first_movers', sk2 ) ) ), greater(
% 0.88/1.23 'growth_rate'( 'first_movers', sk2 ), zero ) ] )
% 0.88/1.23 , 1, clause( 62, [ 'in_environment'( sk1, sk2 ) ] )
% 0.88/1.23 , 0, substitution( 0, [ :=( X, sk1 )] ), substitution( 1, [] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 resolution(
% 0.88/1.23 clause( 1278, [ ~( increases( 'cardinality_at_time'( 'first_movers', sk2 )
% 0.88/1.23 ) ), greater( 'growth_rate'( 'first_movers', sk2 ), zero ) ] )
% 0.88/1.23 , clause( 1277, [ ~( environment( sk1 ) ), ~( increases(
% 0.88/1.23 'cardinality_at_time'( 'first_movers', sk2 ) ) ), greater( 'growth_rate'(
% 0.88/1.23 'first_movers', sk2 ), zero ) ] )
% 0.88/1.23 , 0, clause( 20, [ environment( sk1 ) ] )
% 0.88/1.23 , 0, substitution( 0, [] ), substitution( 1, [] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 subsumption(
% 0.88/1.23 clause( 495, [ ~( increases( 'cardinality_at_time'( 'first_movers', sk2 ) )
% 0.88/1.23 ), greater( 'growth_rate'( 'first_movers', sk2 ), zero ) ] )
% 0.88/1.23 , clause( 1278, [ ~( increases( 'cardinality_at_time'( 'first_movers', sk2
% 0.88/1.23 ) ) ), greater( 'growth_rate'( 'first_movers', sk2 ), zero ) ] )
% 0.88/1.23 , substitution( 0, [] ), permutation( 0, [ ==>( 0, 0 ), ==>( 1, 1 )] )
% 0.88/1.23 ).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 resolution(
% 0.88/1.23 clause( 1279, [ ~( greater( 'growth_rate'( 'efficient_producers', sk2 ),
% 0.88/1.23 zero ) ), constant( 'cardinality_at_time'( 'efficient_producers', sk2 ) )
% 0.88/1.23 , ~( increases( 'cardinality_at_time'( 'first_movers', sk2 ) ) ) ] )
% 0.88/1.23 , clause( 476, [ ~( greater( 'growth_rate'( 'first_movers', sk2 ), zero ) )
% 0.88/1.23 , ~( greater( 'growth_rate'( 'efficient_producers', sk2 ), zero ) ),
% 0.88/1.23 constant( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.88/1.23 , 0, clause( 495, [ ~( increases( 'cardinality_at_time'( 'first_movers',
% 0.88/1.23 sk2 ) ) ), greater( 'growth_rate'( 'first_movers', sk2 ), zero ) ] )
% 0.88/1.23 , 1, substitution( 0, [] ), substitution( 1, [] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 resolution(
% 0.88/1.23 clause( 1280, [ ~( greater( 'growth_rate'( 'efficient_producers', sk2 ),
% 0.88/1.23 zero ) ), constant( 'cardinality_at_time'( 'efficient_producers', sk2 ) )
% 0.88/1.23 , ~( greater( 'growth_rate'( 'efficient_producers', sk2 ), zero ) ),
% 0.88/1.23 constant( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.88/1.23 , clause( 1279, [ ~( greater( 'growth_rate'( 'efficient_producers', sk2 ),
% 0.88/1.23 zero ) ), constant( 'cardinality_at_time'( 'efficient_producers', sk2 ) )
% 0.88/1.23 , ~( increases( 'cardinality_at_time'( 'first_movers', sk2 ) ) ) ] )
% 0.88/1.23 , 2, clause( 289, [ ~( greater( 'growth_rate'( 'efficient_producers', sk2 )
% 0.88/1.23 , zero ) ), constant( 'cardinality_at_time'( 'efficient_producers', sk2 )
% 0.88/1.23 ), increases( 'cardinality_at_time'( 'first_movers', sk2 ) ) ] )
% 0.88/1.23 , 2, substitution( 0, [] ), substitution( 1, [] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 factor(
% 0.88/1.23 clause( 1281, [ ~( greater( 'growth_rate'( 'efficient_producers', sk2 ),
% 0.88/1.23 zero ) ), constant( 'cardinality_at_time'( 'efficient_producers', sk2 ) )
% 0.88/1.23 , constant( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.88/1.23 , clause( 1280, [ ~( greater( 'growth_rate'( 'efficient_producers', sk2 ),
% 0.88/1.23 zero ) ), constant( 'cardinality_at_time'( 'efficient_producers', sk2 ) )
% 0.88/1.23 , ~( greater( 'growth_rate'( 'efficient_producers', sk2 ), zero ) ),
% 0.88/1.23 constant( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.88/1.23 , 0, 2, substitution( 0, [] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 factor(
% 0.88/1.23 clause( 1282, [ ~( greater( 'growth_rate'( 'efficient_producers', sk2 ),
% 0.88/1.23 zero ) ), constant( 'cardinality_at_time'( 'efficient_producers', sk2 ) )
% 0.88/1.23 ] )
% 0.88/1.23 , clause( 1281, [ ~( greater( 'growth_rate'( 'efficient_producers', sk2 ),
% 0.88/1.23 zero ) ), constant( 'cardinality_at_time'( 'efficient_producers', sk2 ) )
% 0.88/1.23 , constant( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.88/1.23 , 1, 2, substitution( 0, [] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 subsumption(
% 0.88/1.23 clause( 496, [ ~( greater( 'growth_rate'( 'efficient_producers', sk2 ),
% 0.88/1.23 zero ) ), constant( 'cardinality_at_time'( 'efficient_producers', sk2 ) )
% 0.88/1.23 ] )
% 0.88/1.23 , clause( 1282, [ ~( greater( 'growth_rate'( 'efficient_producers', sk2 ),
% 0.88/1.23 zero ) ), constant( 'cardinality_at_time'( 'efficient_producers', sk2 ) )
% 0.88/1.23 ] )
% 0.88/1.23 , substitution( 0, [] ), permutation( 0, [ ==>( 0, 0 ), ==>( 1, 1 )] )
% 0.88/1.23 ).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 resolution(
% 0.88/1.23 clause( 1283, [ ~( greater( 'growth_rate'( 'efficient_producers', sk2 ),
% 0.88/1.23 zero ) ), constant( 'cardinality_at_time'( 'first_movers', sk2 ) ), ~(
% 0.88/1.23 increases( 'cardinality_at_time'( 'first_movers', sk2 ) ) ) ] )
% 0.88/1.23 , clause( 475, [ ~( greater( 'growth_rate'( 'first_movers', sk2 ), zero ) )
% 0.88/1.23 , ~( greater( 'growth_rate'( 'efficient_producers', sk2 ), zero ) ),
% 0.88/1.23 constant( 'cardinality_at_time'( 'first_movers', sk2 ) ) ] )
% 0.88/1.23 , 0, clause( 495, [ ~( increases( 'cardinality_at_time'( 'first_movers',
% 0.88/1.23 sk2 ) ) ), greater( 'growth_rate'( 'first_movers', sk2 ), zero ) ] )
% 0.88/1.23 , 1, substitution( 0, [] ), substitution( 1, [] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 resolution(
% 0.88/1.23 clause( 1284, [ ~( greater( 'growth_rate'( 'efficient_producers', sk2 ),
% 0.88/1.23 zero ) ), constant( 'cardinality_at_time'( 'first_movers', sk2 ) ), ~(
% 0.88/1.23 greater( 'growth_rate'( 'efficient_producers', sk2 ), zero ) ), constant(
% 0.88/1.23 'cardinality_at_time'( 'first_movers', sk2 ) ) ] )
% 0.88/1.23 , clause( 1283, [ ~( greater( 'growth_rate'( 'efficient_producers', sk2 ),
% 0.88/1.23 zero ) ), constant( 'cardinality_at_time'( 'first_movers', sk2 ) ), ~(
% 0.88/1.23 increases( 'cardinality_at_time'( 'first_movers', sk2 ) ) ) ] )
% 0.88/1.23 , 2, clause( 291, [ ~( greater( 'growth_rate'( 'efficient_producers', sk2 )
% 0.88/1.23 , zero ) ), constant( 'cardinality_at_time'( 'first_movers', sk2 ) ),
% 0.88/1.23 increases( 'cardinality_at_time'( 'first_movers', sk2 ) ) ] )
% 0.88/1.23 , 2, substitution( 0, [] ), substitution( 1, [] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 factor(
% 0.88/1.23 clause( 1285, [ ~( greater( 'growth_rate'( 'efficient_producers', sk2 ),
% 0.88/1.23 zero ) ), constant( 'cardinality_at_time'( 'first_movers', sk2 ) ),
% 0.88/1.23 constant( 'cardinality_at_time'( 'first_movers', sk2 ) ) ] )
% 0.88/1.23 , clause( 1284, [ ~( greater( 'growth_rate'( 'efficient_producers', sk2 ),
% 0.88/1.23 zero ) ), constant( 'cardinality_at_time'( 'first_movers', sk2 ) ), ~(
% 0.88/1.23 greater( 'growth_rate'( 'efficient_producers', sk2 ), zero ) ), constant(
% 0.88/1.23 'cardinality_at_time'( 'first_movers', sk2 ) ) ] )
% 0.88/1.23 , 0, 2, substitution( 0, [] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 factor(
% 0.88/1.23 clause( 1286, [ ~( greater( 'growth_rate'( 'efficient_producers', sk2 ),
% 0.88/1.23 zero ) ), constant( 'cardinality_at_time'( 'first_movers', sk2 ) ) ] )
% 0.88/1.23 , clause( 1285, [ ~( greater( 'growth_rate'( 'efficient_producers', sk2 ),
% 0.88/1.23 zero ) ), constant( 'cardinality_at_time'( 'first_movers', sk2 ) ),
% 0.88/1.23 constant( 'cardinality_at_time'( 'first_movers', sk2 ) ) ] )
% 0.88/1.23 , 1, 2, substitution( 0, [] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 subsumption(
% 0.88/1.23 clause( 497, [ ~( greater( 'growth_rate'( 'efficient_producers', sk2 ),
% 0.88/1.23 zero ) ), constant( 'cardinality_at_time'( 'first_movers', sk2 ) ) ] )
% 0.88/1.23 , clause( 1286, [ ~( greater( 'growth_rate'( 'efficient_producers', sk2 ),
% 0.88/1.23 zero ) ), constant( 'cardinality_at_time'( 'first_movers', sk2 ) ) ] )
% 0.88/1.23 , substitution( 0, [] ), permutation( 0, [ ==>( 0, 0 ), ==>( 1, 1 )] )
% 0.88/1.23 ).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 resolution(
% 0.88/1.23 clause( 1287, [ constant( 'cardinality_at_time'( 'first_movers', sk2 ) ),
% 0.88/1.23 increases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ), ~(
% 0.88/1.23 increases( 'cardinality_at_time'( 'first_movers', sk2 ) ) ) ] )
% 0.88/1.23 , clause( 479, [ ~( greater( 'growth_rate'( 'first_movers', sk2 ), zero ) )
% 0.88/1.23 , constant( 'cardinality_at_time'( 'first_movers', sk2 ) ), increases(
% 0.88/1.23 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.88/1.23 , 0, clause( 495, [ ~( increases( 'cardinality_at_time'( 'first_movers',
% 0.88/1.23 sk2 ) ) ), greater( 'growth_rate'( 'first_movers', sk2 ), zero ) ] )
% 0.88/1.23 , 1, substitution( 0, [] ), substitution( 1, [] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 resolution(
% 0.88/1.23 clause( 1288, [ constant( 'cardinality_at_time'( 'first_movers', sk2 ) ),
% 0.88/1.23 increases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ),
% 0.88/1.23 constant( 'cardinality_at_time'( 'first_movers', sk2 ) ), increases(
% 0.88/1.23 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.88/1.23 , clause( 1287, [ constant( 'cardinality_at_time'( 'first_movers', sk2 ) )
% 0.88/1.23 , increases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ), ~(
% 0.88/1.23 increases( 'cardinality_at_time'( 'first_movers', sk2 ) ) ) ] )
% 0.88/1.23 , 2, clause( 144, [ constant( 'cardinality_at_time'( 'first_movers', sk2 )
% 0.88/1.23 ), increases( 'cardinality_at_time'( 'first_movers', sk2 ) ), increases(
% 0.88/1.23 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.88/1.23 , 1, substitution( 0, [] ), substitution( 1, [] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 factor(
% 0.88/1.23 clause( 1289, [ constant( 'cardinality_at_time'( 'first_movers', sk2 ) ),
% 0.88/1.23 increases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ),
% 0.88/1.23 increases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.88/1.23 , clause( 1288, [ constant( 'cardinality_at_time'( 'first_movers', sk2 ) )
% 0.88/1.23 , increases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ),
% 0.88/1.23 constant( 'cardinality_at_time'( 'first_movers', sk2 ) ), increases(
% 0.88/1.23 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.88/1.23 , 0, 2, substitution( 0, [] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 factor(
% 0.88/1.23 clause( 1290, [ constant( 'cardinality_at_time'( 'first_movers', sk2 ) ),
% 0.88/1.23 increases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.88/1.23 , clause( 1289, [ constant( 'cardinality_at_time'( 'first_movers', sk2 ) )
% 0.88/1.23 , increases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ),
% 0.88/1.23 increases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.88/1.23 , 1, 2, substitution( 0, [] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 subsumption(
% 0.88/1.23 clause( 501, [ constant( 'cardinality_at_time'( 'first_movers', sk2 ) ),
% 0.88/1.23 increases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.88/1.23 , clause( 1290, [ constant( 'cardinality_at_time'( 'first_movers', sk2 ) )
% 0.88/1.23 , increases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.88/1.23 , substitution( 0, [] ), permutation( 0, [ ==>( 0, 0 ), ==>( 1, 1 )] )
% 0.88/1.23 ).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 resolution(
% 0.88/1.23 clause( 1291, [ constant( 'cardinality_at_time'( 'efficient_producers', sk2
% 0.88/1.23 ) ), increases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ),
% 0.88/1.23 ~( increases( 'cardinality_at_time'( 'first_movers', sk2 ) ) ) ] )
% 0.88/1.23 , clause( 477, [ ~( greater( 'growth_rate'( 'first_movers', sk2 ), zero ) )
% 0.88/1.23 , constant( 'cardinality_at_time'( 'efficient_producers', sk2 ) ),
% 0.88/1.23 increases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.88/1.23 , 0, clause( 495, [ ~( increases( 'cardinality_at_time'( 'first_movers',
% 0.88/1.23 sk2 ) ) ), greater( 'growth_rate'( 'first_movers', sk2 ), zero ) ] )
% 0.88/1.23 , 1, substitution( 0, [] ), substitution( 1, [] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 resolution(
% 0.88/1.23 clause( 1292, [ constant( 'cardinality_at_time'( 'efficient_producers', sk2
% 0.88/1.23 ) ), increases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ),
% 0.88/1.23 constant( 'cardinality_at_time'( 'efficient_producers', sk2 ) ),
% 0.88/1.23 increases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.88/1.23 , clause( 1291, [ constant( 'cardinality_at_time'( 'efficient_producers',
% 0.88/1.23 sk2 ) ), increases( 'cardinality_at_time'( 'efficient_producers', sk2 ) )
% 0.88/1.23 , ~( increases( 'cardinality_at_time'( 'first_movers', sk2 ) ) ) ] )
% 0.88/1.23 , 2, clause( 148, [ constant( 'cardinality_at_time'( 'efficient_producers'
% 0.88/1.23 , sk2 ) ), increases( 'cardinality_at_time'( 'first_movers', sk2 ) ),
% 0.88/1.23 increases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.88/1.23 , 1, substitution( 0, [] ), substitution( 1, [] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 factor(
% 0.88/1.23 clause( 1293, [ constant( 'cardinality_at_time'( 'efficient_producers', sk2
% 0.88/1.23 ) ), increases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ),
% 0.88/1.23 increases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.88/1.23 , clause( 1292, [ constant( 'cardinality_at_time'( 'efficient_producers',
% 0.88/1.23 sk2 ) ), increases( 'cardinality_at_time'( 'efficient_producers', sk2 ) )
% 0.88/1.23 , constant( 'cardinality_at_time'( 'efficient_producers', sk2 ) ),
% 0.88/1.23 increases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.88/1.23 , 0, 2, substitution( 0, [] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 factor(
% 0.88/1.23 clause( 1294, [ constant( 'cardinality_at_time'( 'efficient_producers', sk2
% 0.88/1.23 ) ), increases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ]
% 0.88/1.23 )
% 0.88/1.23 , clause( 1293, [ constant( 'cardinality_at_time'( 'efficient_producers',
% 0.88/1.23 sk2 ) ), increases( 'cardinality_at_time'( 'efficient_producers', sk2 ) )
% 0.88/1.23 , increases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.88/1.23 , 1, 2, substitution( 0, [] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 subsumption(
% 0.88/1.23 clause( 503, [ constant( 'cardinality_at_time'( 'efficient_producers', sk2
% 0.88/1.23 ) ), increases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ]
% 0.88/1.23 )
% 0.88/1.23 , clause( 1294, [ constant( 'cardinality_at_time'( 'efficient_producers',
% 0.88/1.23 sk2 ) ), increases( 'cardinality_at_time'( 'efficient_producers', sk2 ) )
% 0.88/1.23 ] )
% 0.88/1.23 , substitution( 0, [] ), permutation( 0, [ ==>( 0, 0 ), ==>( 1, 1 )] )
% 0.88/1.23 ).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 resolution(
% 0.88/1.23 clause( 1295, [ ~( environment( sk1 ) ), ~( increases(
% 0.88/1.23 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ), greater(
% 0.88/1.23 'growth_rate'( 'efficient_producers', sk2 ), zero ) ] )
% 0.88/1.23 , clause( 243, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ),
% 0.88/1.23 ~( increases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ),
% 0.88/1.23 greater( 'growth_rate'( 'efficient_producers', sk2 ), zero ) ] )
% 0.88/1.23 , 1, clause( 62, [ 'in_environment'( sk1, sk2 ) ] )
% 0.88/1.23 , 0, substitution( 0, [ :=( X, sk1 )] ), substitution( 1, [] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 resolution(
% 0.88/1.23 clause( 1296, [ ~( increases( 'cardinality_at_time'( 'efficient_producers'
% 0.88/1.23 , sk2 ) ) ), greater( 'growth_rate'( 'efficient_producers', sk2 ), zero )
% 0.88/1.23 ] )
% 0.88/1.23 , clause( 1295, [ ~( environment( sk1 ) ), ~( increases(
% 0.88/1.23 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ), greater(
% 0.88/1.23 'growth_rate'( 'efficient_producers', sk2 ), zero ) ] )
% 0.88/1.23 , 0, clause( 20, [ environment( sk1 ) ] )
% 0.88/1.23 , 0, substitution( 0, [] ), substitution( 1, [] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 subsumption(
% 0.88/1.23 clause( 527, [ ~( increases( 'cardinality_at_time'( 'efficient_producers',
% 0.88/1.23 sk2 ) ) ), greater( 'growth_rate'( 'efficient_producers', sk2 ), zero ) ]
% 0.88/1.23 )
% 0.88/1.23 , clause( 1296, [ ~( increases( 'cardinality_at_time'(
% 0.88/1.23 'efficient_producers', sk2 ) ) ), greater( 'growth_rate'(
% 0.88/1.23 'efficient_producers', sk2 ), zero ) ] )
% 0.88/1.23 , substitution( 0, [] ), permutation( 0, [ ==>( 0, 0 ), ==>( 1, 1 )] )
% 0.88/1.23 ).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 resolution(
% 0.88/1.23 clause( 1297, [ constant( 'cardinality_at_time'( 'first_movers', sk2 ) ),
% 0.88/1.23 ~( increases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ) ]
% 0.88/1.23 )
% 0.88/1.23 , clause( 497, [ ~( greater( 'growth_rate'( 'efficient_producers', sk2 ),
% 0.88/1.23 zero ) ), constant( 'cardinality_at_time'( 'first_movers', sk2 ) ) ] )
% 0.88/1.23 , 0, clause( 527, [ ~( increases( 'cardinality_at_time'(
% 0.88/1.23 'efficient_producers', sk2 ) ) ), greater( 'growth_rate'(
% 0.88/1.23 'efficient_producers', sk2 ), zero ) ] )
% 0.88/1.23 , 1, substitution( 0, [] ), substitution( 1, [] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 resolution(
% 0.88/1.23 clause( 1298, [ constant( 'cardinality_at_time'( 'first_movers', sk2 ) ),
% 0.88/1.23 constant( 'cardinality_at_time'( 'first_movers', sk2 ) ) ] )
% 0.88/1.23 , clause( 1297, [ constant( 'cardinality_at_time'( 'first_movers', sk2 ) )
% 0.88/1.23 , ~( increases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ) ]
% 0.88/1.23 )
% 0.88/1.23 , 1, clause( 501, [ constant( 'cardinality_at_time'( 'first_movers', sk2 )
% 0.88/1.23 ), increases( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ] )
% 0.88/1.23 , 1, substitution( 0, [] ), substitution( 1, [] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 factor(
% 0.88/1.23 clause( 1299, [ constant( 'cardinality_at_time'( 'first_movers', sk2 ) ) ]
% 0.88/1.23 )
% 0.88/1.23 , clause( 1298, [ constant( 'cardinality_at_time'( 'first_movers', sk2 ) )
% 0.88/1.23 , constant( 'cardinality_at_time'( 'first_movers', sk2 ) ) ] )
% 0.88/1.23 , 0, 1, substitution( 0, [] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 subsumption(
% 0.88/1.23 clause( 528, [ constant( 'cardinality_at_time'( 'first_movers', sk2 ) ) ]
% 0.88/1.23 )
% 0.88/1.23 , clause( 1299, [ constant( 'cardinality_at_time'( 'first_movers', sk2 ) )
% 0.88/1.23 ] )
% 0.88/1.23 , substitution( 0, [] ), permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 resolution(
% 0.88/1.23 clause( 1300, [ constant( 'cardinality_at_time'( 'efficient_producers', sk2
% 0.88/1.23 ) ), ~( increases( 'cardinality_at_time'( 'efficient_producers', sk2 ) )
% 0.88/1.23 ) ] )
% 0.88/1.23 , clause( 496, [ ~( greater( 'growth_rate'( 'efficient_producers', sk2 ),
% 0.88/1.23 zero ) ), constant( 'cardinality_at_time'( 'efficient_producers', sk2 ) )
% 0.88/1.23 ] )
% 0.88/1.23 , 0, clause( 527, [ ~( increases( 'cardinality_at_time'(
% 0.88/1.23 'efficient_producers', sk2 ) ) ), greater( 'growth_rate'(
% 0.88/1.23 'efficient_producers', sk2 ), zero ) ] )
% 0.88/1.23 , 1, substitution( 0, [] ), substitution( 1, [] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 resolution(
% 0.88/1.23 clause( 1301, [ constant( 'cardinality_at_time'( 'efficient_producers', sk2
% 0.88/1.23 ) ), constant( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ]
% 0.88/1.23 )
% 0.88/1.23 , clause( 1300, [ constant( 'cardinality_at_time'( 'efficient_producers',
% 0.88/1.23 sk2 ) ), ~( increases( 'cardinality_at_time'( 'efficient_producers', sk2
% 0.88/1.23 ) ) ) ] )
% 0.88/1.23 , 1, clause( 503, [ constant( 'cardinality_at_time'( 'efficient_producers'
% 0.88/1.23 , sk2 ) ), increases( 'cardinality_at_time'( 'efficient_producers', sk2 )
% 0.88/1.23 ) ] )
% 0.88/1.23 , 1, substitution( 0, [] ), substitution( 1, [] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 factor(
% 0.88/1.23 clause( 1302, [ constant( 'cardinality_at_time'( 'efficient_producers', sk2
% 0.88/1.23 ) ) ] )
% 0.88/1.23 , clause( 1301, [ constant( 'cardinality_at_time'( 'efficient_producers',
% 0.88/1.23 sk2 ) ), constant( 'cardinality_at_time'( 'efficient_producers', sk2 ) )
% 0.88/1.23 ] )
% 0.88/1.23 , 0, 1, substitution( 0, [] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 subsumption(
% 0.88/1.23 clause( 529, [ constant( 'cardinality_at_time'( 'efficient_producers', sk2
% 0.88/1.23 ) ) ] )
% 0.88/1.23 , clause( 1302, [ constant( 'cardinality_at_time'( 'efficient_producers',
% 0.88/1.23 sk2 ) ) ] )
% 0.88/1.23 , substitution( 0, [] ), permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 resolution(
% 0.88/1.23 clause( 1304, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ), =(
% 0.88/1.23 'growth_rate'( 'first_movers', sk2 ), zero ) ] )
% 0.88/1.23 , clause( 217, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ),
% 0.88/1.23 ~( constant( 'cardinality_at_time'( 'first_movers', sk2 ) ) ), =(
% 0.88/1.23 'growth_rate'( 'first_movers', sk2 ), zero ) ] )
% 0.88/1.23 , 2, clause( 528, [ constant( 'cardinality_at_time'( 'first_movers', sk2 )
% 0.88/1.23 ) ] )
% 0.88/1.23 , 0, substitution( 0, [ :=( X, X )] ), substitution( 1, [] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 subsumption(
% 0.88/1.23 clause( 562, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ), =(
% 0.88/1.23 'growth_rate'( 'first_movers', sk2 ), zero ) ] )
% 0.88/1.23 , clause( 1304, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ),
% 0.88/1.23 =( 'growth_rate'( 'first_movers', sk2 ), zero ) ] )
% 0.88/1.23 , substitution( 0, [ :=( X, X )] ), permutation( 0, [ ==>( 0, 0 ), ==>( 1,
% 0.88/1.23 1 ), ==>( 2, 2 )] ) ).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 eqswap(
% 0.88/1.23 clause( 1306, [ =( zero, 'growth_rate'( 'first_movers', sk2 ) ), ~(
% 0.88/1.23 environment( X ) ), ~( 'in_environment'( X, sk2 ) ) ] )
% 0.88/1.23 , clause( 562, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ),
% 0.88/1.23 =( 'growth_rate'( 'first_movers', sk2 ), zero ) ] )
% 0.88/1.23 , 2, substitution( 0, [ :=( X, X )] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 resolution(
% 0.88/1.23 clause( 1307, [ =( zero, 'growth_rate'( 'first_movers', sk2 ) ), ~(
% 0.88/1.23 environment( sk1 ) ) ] )
% 0.88/1.23 , clause( 1306, [ =( zero, 'growth_rate'( 'first_movers', sk2 ) ), ~(
% 0.88/1.23 environment( X ) ), ~( 'in_environment'( X, sk2 ) ) ] )
% 0.88/1.23 , 2, clause( 62, [ 'in_environment'( sk1, sk2 ) ] )
% 0.88/1.23 , 0, substitution( 0, [ :=( X, sk1 )] ), substitution( 1, [] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 resolution(
% 0.88/1.23 clause( 1308, [ =( zero, 'growth_rate'( 'first_movers', sk2 ) ) ] )
% 0.88/1.23 , clause( 1307, [ =( zero, 'growth_rate'( 'first_movers', sk2 ) ), ~(
% 0.88/1.23 environment( sk1 ) ) ] )
% 0.88/1.23 , 1, clause( 20, [ environment( sk1 ) ] )
% 0.88/1.23 , 0, substitution( 0, [] ), substitution( 1, [] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 eqswap(
% 0.88/1.23 clause( 1309, [ =( 'growth_rate'( 'first_movers', sk2 ), zero ) ] )
% 0.88/1.23 , clause( 1308, [ =( zero, 'growth_rate'( 'first_movers', sk2 ) ) ] )
% 0.88/1.23 , 0, substitution( 0, [] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 subsumption(
% 0.88/1.23 clause( 565, [ =( 'growth_rate'( 'first_movers', sk2 ), zero ) ] )
% 0.88/1.23 , clause( 1309, [ =( 'growth_rate'( 'first_movers', sk2 ), zero ) ] )
% 0.88/1.23 , substitution( 0, [] ), permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 eqswap(
% 0.88/1.23 clause( 1310, [ =( zero, 'growth_rate'( 'first_movers', sk2 ) ) ] )
% 0.88/1.23 , clause( 565, [ =( 'growth_rate'( 'first_movers', sk2 ), zero ) ] )
% 0.88/1.23 , 0, substitution( 0, [] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 eqswap(
% 0.88/1.23 clause( 1311, [ ~( =( zero, 'growth_rate'( 'first_movers', sk2 ) ) ), ~(
% 0.88/1.23 =( 'growth_rate'( 'efficient_producers', sk2 ), zero ) ) ] )
% 0.88/1.23 , clause( 23, [ ~( =( 'growth_rate'( 'first_movers', sk2 ), zero ) ), ~(
% 0.88/1.23 =( 'growth_rate'( 'efficient_producers', sk2 ), zero ) ) ] )
% 0.88/1.23 , 0, substitution( 0, [] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 resolution(
% 0.88/1.23 clause( 1314, [ ~( =( 'growth_rate'( 'efficient_producers', sk2 ), zero ) )
% 0.88/1.23 ] )
% 0.88/1.23 , clause( 1311, [ ~( =( zero, 'growth_rate'( 'first_movers', sk2 ) ) ), ~(
% 0.88/1.23 =( 'growth_rate'( 'efficient_producers', sk2 ), zero ) ) ] )
% 0.88/1.23 , 0, clause( 1310, [ =( zero, 'growth_rate'( 'first_movers', sk2 ) ) ] )
% 0.88/1.23 , 0, substitution( 0, [] ), substitution( 1, [] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 subsumption(
% 0.88/1.23 clause( 575, [ ~( =( 'growth_rate'( 'efficient_producers', sk2 ), zero ) )
% 0.88/1.23 ] )
% 0.88/1.23 , clause( 1314, [ ~( =( 'growth_rate'( 'efficient_producers', sk2 ), zero )
% 0.88/1.23 ) ] )
% 0.88/1.23 , substitution( 0, [] ), permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 eqswap(
% 0.88/1.23 clause( 1316, [ ~( =( zero, 'growth_rate'( 'efficient_producers', sk2 ) ) )
% 0.88/1.23 ] )
% 0.88/1.23 , clause( 575, [ ~( =( 'growth_rate'( 'efficient_producers', sk2 ), zero )
% 0.88/1.23 ) ] )
% 0.88/1.23 , 0, substitution( 0, [] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 eqswap(
% 0.88/1.23 clause( 1317, [ =( zero, 'growth_rate'( X, Y ) ), ~( environment( Z ) ),
% 0.88/1.23 ~( 'in_environment'( Z, Y ) ), ~( subpopulation( X, Z, Y ) ), ~( greater(
% 0.88/1.23 'cardinality_at_time'( X, Y ), zero ) ), ~( constant(
% 0.88/1.23 'cardinality_at_time'( X, Y ) ) ) ] )
% 0.88/1.23 , clause( 13, [ ~( environment( X ) ), ~( 'in_environment'( X, Y ) ), ~(
% 0.88/1.23 subpopulation( Z, X, Y ) ), ~( greater( 'cardinality_at_time'( Z, Y ),
% 0.88/1.23 zero ) ), ~( constant( 'cardinality_at_time'( Z, Y ) ) ), =(
% 0.88/1.23 'growth_rate'( Z, Y ), zero ) ] )
% 0.88/1.23 , 5, substitution( 0, [ :=( X, Z ), :=( Y, Y ), :=( Z, X )] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 resolution(
% 0.88/1.23 clause( 1318, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ), ~(
% 0.88/1.23 subpopulation( 'efficient_producers', X, sk2 ) ), ~( greater(
% 0.88/1.23 'cardinality_at_time'( 'efficient_producers', sk2 ), zero ) ), ~(
% 0.88/1.23 constant( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ) ] )
% 0.88/1.23 , clause( 1316, [ ~( =( zero, 'growth_rate'( 'efficient_producers', sk2 ) )
% 0.88/1.23 ) ] )
% 0.88/1.23 , 0, clause( 1317, [ =( zero, 'growth_rate'( X, Y ) ), ~( environment( Z )
% 0.88/1.23 ), ~( 'in_environment'( Z, Y ) ), ~( subpopulation( X, Z, Y ) ), ~(
% 0.88/1.23 greater( 'cardinality_at_time'( X, Y ), zero ) ), ~( constant(
% 0.88/1.23 'cardinality_at_time'( X, Y ) ) ) ] )
% 0.88/1.23 , 0, substitution( 0, [] ), substitution( 1, [ :=( X, 'efficient_producers'
% 0.88/1.23 ), :=( Y, sk2 ), :=( Z, X )] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 resolution(
% 0.88/1.23 clause( 1319, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ), ~(
% 0.88/1.23 greater( 'cardinality_at_time'( 'efficient_producers', sk2 ), zero ) ),
% 0.88/1.23 ~( constant( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ), ~(
% 0.88/1.23 environment( X ) ), ~( 'in_environment'( X, sk2 ) ) ] )
% 0.88/1.23 , clause( 1318, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ),
% 0.88/1.23 ~( subpopulation( 'efficient_producers', X, sk2 ) ), ~( greater(
% 0.88/1.23 'cardinality_at_time'( 'efficient_producers', sk2 ), zero ) ), ~(
% 0.88/1.23 constant( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ) ] )
% 0.88/1.23 , 2, clause( 4, [ ~( environment( X ) ), ~( 'in_environment'( X, Y ) ),
% 0.88/1.23 subpopulation( 'efficient_producers', X, Y ) ] )
% 0.88/1.23 , 2, substitution( 0, [ :=( X, X )] ), substitution( 1, [ :=( X, X ), :=( Y
% 0.88/1.23 , sk2 )] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 factor(
% 0.88/1.23 clause( 1321, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ), ~(
% 0.88/1.23 greater( 'cardinality_at_time'( 'efficient_producers', sk2 ), zero ) ),
% 0.88/1.23 ~( constant( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ), ~(
% 0.88/1.23 environment( X ) ) ] )
% 0.88/1.23 , clause( 1319, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ),
% 0.88/1.23 ~( greater( 'cardinality_at_time'( 'efficient_producers', sk2 ), zero ) )
% 0.88/1.23 , ~( constant( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ),
% 0.88/1.23 ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ) ] )
% 0.88/1.23 , 1, 5, substitution( 0, [ :=( X, X )] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 factor(
% 0.88/1.23 clause( 1322, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ), ~(
% 0.88/1.23 greater( 'cardinality_at_time'( 'efficient_producers', sk2 ), zero ) ),
% 0.88/1.23 ~( constant( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ) ] )
% 0.88/1.23 , clause( 1321, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ),
% 0.88/1.23 ~( greater( 'cardinality_at_time'( 'efficient_producers', sk2 ), zero ) )
% 0.88/1.23 , ~( constant( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ),
% 0.88/1.23 ~( environment( X ) ) ] )
% 0.88/1.23 , 0, 4, substitution( 0, [ :=( X, X )] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 subsumption(
% 0.88/1.23 clause( 587, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ), ~(
% 0.88/1.23 greater( 'cardinality_at_time'( 'efficient_producers', sk2 ), zero ) ),
% 0.88/1.23 ~( constant( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ) ] )
% 0.88/1.23 , clause( 1322, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ),
% 0.88/1.23 ~( greater( 'cardinality_at_time'( 'efficient_producers', sk2 ), zero ) )
% 0.88/1.23 , ~( constant( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ) ]
% 0.88/1.23 )
% 0.88/1.23 , substitution( 0, [ :=( X, X )] ), permutation( 0, [ ==>( 0, 0 ), ==>( 1,
% 0.88/1.23 1 ), ==>( 2, 2 ), ==>( 3, 3 )] ) ).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 resolution(
% 0.88/1.23 clause( 1323, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ), ~(
% 0.88/1.23 constant( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ) ] )
% 0.88/1.23 , clause( 587, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ),
% 0.88/1.23 ~( greater( 'cardinality_at_time'( 'efficient_producers', sk2 ), zero ) )
% 0.88/1.23 , ~( constant( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ) ]
% 0.88/1.23 )
% 0.88/1.23 , 2, clause( 151, [ greater( 'cardinality_at_time'( 'efficient_producers',
% 0.88/1.23 sk2 ), zero ) ] )
% 0.88/1.23 , 0, substitution( 0, [ :=( X, X )] ), substitution( 1, [] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 resolution(
% 0.88/1.23 clause( 1324, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ) ] )
% 0.88/1.23 , clause( 1323, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ),
% 0.88/1.23 ~( constant( 'cardinality_at_time'( 'efficient_producers', sk2 ) ) ) ] )
% 0.88/1.23 , 2, clause( 529, [ constant( 'cardinality_at_time'( 'efficient_producers'
% 0.88/1.23 , sk2 ) ) ] )
% 0.88/1.23 , 0, substitution( 0, [ :=( X, X )] ), substitution( 1, [] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 subsumption(
% 0.88/1.23 clause( 683, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ) ] )
% 0.88/1.23 , clause( 1324, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ) ]
% 0.88/1.23 )
% 0.88/1.23 , substitution( 0, [ :=( X, X )] ), permutation( 0, [ ==>( 0, 0 ), ==>( 1,
% 0.88/1.23 1 )] ) ).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 resolution(
% 0.88/1.23 clause( 1325, [ ~( environment( sk1 ) ) ] )
% 0.88/1.23 , clause( 683, [ ~( environment( X ) ), ~( 'in_environment'( X, sk2 ) ) ]
% 0.88/1.23 )
% 0.88/1.23 , 1, clause( 62, [ 'in_environment'( sk1, sk2 ) ] )
% 0.88/1.23 , 0, substitution( 0, [ :=( X, sk1 )] ), substitution( 1, [] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 resolution(
% 0.88/1.23 clause( 1326, [] )
% 0.88/1.23 , clause( 1325, [ ~( environment( sk1 ) ) ] )
% 0.88/1.23 , 0, clause( 20, [ environment( sk1 ) ] )
% 0.88/1.23 , 0, substitution( 0, [] ), substitution( 1, [] )).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 subsumption(
% 0.88/1.23 clause( 685, [] )
% 0.88/1.23 , clause( 1326, [] )
% 0.88/1.23 , substitution( 0, [] ), permutation( 0, [] ) ).
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 end.
% 0.88/1.23
% 0.88/1.23 % ABCDEFGHIJKLMNOPQRSTUVWXYZ
% 0.88/1.23
% 0.88/1.23 Memory use:
% 0.88/1.23
% 0.88/1.23 space for terms: 16640
% 0.88/1.23 space for clauses: 29176
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 clauses generated: 18806
% 0.88/1.23 clauses kept: 686
% 0.88/1.23 clauses selected: 221
% 0.88/1.23 clauses deleted: 56
% 0.88/1.23 clauses inuse deleted: 0
% 0.88/1.23
% 0.88/1.23 subsentry: 11133
% 0.88/1.23 literals s-matched: 8184
% 0.88/1.23 literals matched: 8184
% 0.88/1.23 full subsumption: 5582
% 0.88/1.23
% 0.88/1.23 checksum: -1100163488
% 0.88/1.23
% 0.88/1.23
% 0.88/1.23 Bliksem ended
%------------------------------------------------------------------------------