TSTP Solution File: GRP123-3.004 by Bliksem---1.12
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%------------------------------------------------------------------------------
% File : Bliksem---1.12
% Problem : GRP123-3.004 : TPTP v8.1.0. Released v1.2.0.
% 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 : Sat Jul 16 07:35:00 EDT 2022
% Result : Satisfiable 0.46s 1.16s
% Output : Saturation 0.46s
% Verified :
% SZS Type : -
% Comments :
%------------------------------------------------------------------------------
%----WARNING: Could not form TPTP format derivation
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.12/0.12 % Problem : GRP123-3.004 : TPTP v8.1.0. Released v1.2.0.
% 0.12/0.13 % Command : bliksem %s
% 0.14/0.34 % Computer : n021.cluster.edu
% 0.14/0.34 % Model : x86_64 x86_64
% 0.14/0.34 % CPU : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 0.14/0.34 % Memory : 8042.1875MB
% 0.14/0.34 % OS : Linux 3.10.0-693.el7.x86_64
% 0.14/0.34 % CPULimit : 300
% 0.14/0.34 % DateTime : Tue Jun 14 10:48:58 EDT 2022
% 0.14/0.35 % CPUTime :
% 0.46/1.16 *** allocated 10000 integers for termspace/termends
% 0.46/1.16 *** allocated 10000 integers for clauses
% 0.46/1.16 *** allocated 10000 integers for justifications
% 0.46/1.16 Bliksem 1.12
% 0.46/1.16
% 0.46/1.16
% 0.46/1.16 Automatic Strategy Selection
% 0.46/1.16
% 0.46/1.16 Clauses:
% 0.46/1.16 [
% 0.46/1.16 [ next( 'e_0', 'e_1' ) ],
% 0.46/1.16 [ next( 'e_1', 'e_2' ) ],
% 0.46/1.16 [ next( 'e_2', 'e_3' ) ],
% 0.46/1.16 [ next( 'e_3', 'e_4' ) ],
% 0.46/1.16 [ greater( 'e_1', 'e_0' ) ],
% 0.46/1.16 [ greater( 'e_2', 'e_0' ) ],
% 0.46/1.16 [ greater( 'e_3', 'e_0' ) ],
% 0.46/1.16 [ greater( 'e_4', 'e_0' ) ],
% 0.46/1.16 [ greater( 'e_2', 'e_1' ) ],
% 0.46/1.16 [ greater( 'e_3', 'e_1' ) ],
% 0.46/1.16 [ greater( 'e_4', 'e_1' ) ],
% 0.46/1.16 [ greater( 'e_3', 'e_2' ) ],
% 0.46/1.16 [ greater( 'e_4', 'e_2' ) ],
% 0.46/1.16 [ greater( 'e_4', 'e_3' ) ],
% 0.46/1.16 [ ~( cycle( X, Y ) ), ~( cycle( X, Z ) ), equalish( Y, Z ) ],
% 0.46/1.16 [ ~( 'group_element'( X ) ), cycle( X, 'e_0' ), cycle( X, 'e_1' ), cycle(
% 0.46/1.16 X, 'e_2' ), cycle( X, 'e_3' ) ],
% 0.46/1.16 [ cycle( 'e_4', 'e_0' ) ],
% 0.46/1.16 [ ~( cycle( X, Y ) ), ~( cycle( Z, T ) ), ~( next( X, Z ) ), ~( greater(
% 0.46/1.16 Y, 'e_0' ) ), ~( next( T, U ) ), equalish( Y, U ) ],
% 0.46/1.16 [ ~( cycle( X, Y ) ), ~( cycle( Z, 'e_0' ) ), ~( cycle( T, U ) ), ~(
% 0.46/1.16 next( Z, T ) ), ~( greater( Z, X ) ), ~( greater( Y, U ) ) ],
% 0.46/1.16 [ ~( cycle( X, 'e_0' ) ), ~( product( X, 'e_1', Y ) ), ~( greater( Y, X
% 0.46/1.16 ) ) ],
% 0.46/1.16 [ ~( cycle( X, Y ) ), ~( product( X, 'e_1', Z ) ), ~( greater( Y, 'e_0'
% 0.46/1.16 ) ), ~( next( X, T ) ), equalish( Z, T ) ],
% 0.46/1.16 [ 'group_element'( 'e_1' ) ],
% 0.46/1.16 [ 'group_element'( 'e_2' ) ],
% 0.46/1.16 [ 'group_element'( 'e_3' ) ],
% 0.46/1.16 [ 'group_element'( 'e_4' ) ],
% 0.46/1.16 [ ~( equalish( 'e_1', 'e_2' ) ) ],
% 0.46/1.16 [ ~( equalish( 'e_1', 'e_3' ) ) ],
% 0.46/1.16 [ ~( equalish( 'e_1', 'e_4' ) ) ],
% 0.46/1.16 [ ~( equalish( 'e_2', 'e_1' ) ) ],
% 0.46/1.16 [ ~( equalish( 'e_2', 'e_3' ) ) ],
% 0.46/1.16 [ ~( equalish( 'e_2', 'e_4' ) ) ],
% 0.46/1.16 [ ~( equalish( 'e_3', 'e_1' ) ) ],
% 0.46/1.16 [ ~( equalish( 'e_3', 'e_2' ) ) ],
% 0.46/1.16 [ ~( equalish( 'e_3', 'e_4' ) ) ],
% 0.46/1.16 [ ~( equalish( 'e_4', 'e_1' ) ) ],
% 0.46/1.16 [ ~( equalish( 'e_4', 'e_2' ) ) ],
% 0.46/1.16 [ ~( equalish( 'e_4', 'e_3' ) ) ],
% 0.46/1.16 [ ~( 'group_element'( X ) ), ~( 'group_element'( Y ) ), product( X, Y,
% 0.46/1.16 'e_1' ), product( X, Y, 'e_2' ), product( X, Y, 'e_3' ), product( X, Y,
% 0.46/1.16 'e_4' ) ],
% 0.46/1.16 [ ~( product( X, Y, Z ) ), ~( product( X, Y, T ) ), equalish( Z, T ) ]
% 0.46/1.16 ,
% 0.46/1.16 [ ~( product( X, Y, Z ) ), ~( product( X, T, Z ) ), equalish( Y, T ) ]
% 0.46/1.16 ,
% 0.46/1.16 [ ~( product( X, Y, Z ) ), ~( product( T, Y, Z ) ), equalish( X, T ) ]
% 0.46/1.16 ,
% 0.46/1.16 [ product( X, X, X ) ],
% 0.46/1.16 [ ~( product( X, Y, Z ) ), ~( product( T, U, Z ) ), ~( product( W, Y, X
% 0.46/1.16 ) ), ~( product( W, U, T ) ), equalish( X, T ) ],
% 0.46/1.16 [ ~( product( X, Y, Z ) ), ~( product( T, U, Z ) ), ~( product( W, Y, X
% 0.46/1.16 ) ), ~( product( W, U, T ) ), equalish( Y, U ) ]
% 0.46/1.16 ] .
% 0.46/1.16
% 0.46/1.16
% 0.46/1.16 percentage equality = 0.000000, percentage horn = 0.954545
% 0.46/1.16 This is a near-Horn, non-equality problem
% 0.46/1.16
% 0.46/1.16
% 0.46/1.16 Options Used:
% 0.46/1.16
% 0.46/1.16 useres = 1
% 0.46/1.16 useparamod = 0
% 0.46/1.16 useeqrefl = 0
% 0.46/1.16 useeqfact = 0
% 0.46/1.16 usefactor = 1
% 0.46/1.16 usesimpsplitting = 0
% 0.46/1.16 usesimpdemod = 0
% 0.46/1.16 usesimpres = 4
% 0.46/1.16
% 0.46/1.16 resimpinuse = 1000
% 0.46/1.16 resimpclauses = 20000
% 0.46/1.16 substype = standard
% 0.46/1.16 backwardsubs = 1
% 0.46/1.16 selectoldest = 5
% 0.46/1.16
% 0.46/1.16 litorderings [0] = split
% 0.46/1.16 litorderings [1] = liftord
% 0.46/1.16
% 0.46/1.16 termordering = none
% 0.46/1.16
% 0.46/1.16 litapriori = 1
% 0.46/1.16 termapriori = 0
% 0.46/1.16 litaposteriori = 0
% 0.46/1.16 termaposteriori = 0
% 0.46/1.16 demodaposteriori = 0
% 0.46/1.16 ordereqreflfact = 0
% 0.46/1.16
% 0.46/1.16 litselect = negative
% 0.46/1.16
% 0.46/1.16 maxweight = 30000
% 0.46/1.16 maxdepth = 30000
% 0.46/1.16 maxlength = 115
% 0.46/1.16 maxnrvars = 195
% 0.46/1.16 excuselevel = 0
% 0.46/1.16 increasemaxweight = 0
% 0.46/1.16
% 0.46/1.16 maxselected = 10000000
% 0.46/1.16 maxnrclauses = 10000000
% 0.46/1.16
% 0.46/1.16 showgenerated = 0
% 0.46/1.16 showkept = 0
% 0.46/1.16 showselected = 0
% 0.46/1.16 showdeleted = 0
% 0.46/1.16 showresimp = 1
% 0.46/1.16 showstatus = 2000
% 0.46/1.16
% 0.46/1.16 prologoutput = 1
% 0.46/1.16 nrgoals = 5000000
% 0.46/1.16 totalproof = 1
% 0.46/1.16
% 0.46/1.16 Symbols occurring in the translation:
% 0.46/1.16
% 0.46/1.16 {} [0, 0] (w:1, o:2, a:1, s:1, b:0),
% 0.46/1.16 . [1, 2] (w:1, o:30, a:1, s:1, b:0),
% 0.46/1.16 ! [4, 1] (w:1, o:24, a:1, s:1, b:0),
% 0.46/1.16 = [13, 2] (w:1, o:0, a:0, s:1, b:0),
% 0.46/1.16 ==> [14, 2] (w:1, o:0, a:0, s:1, b:0),
% 0.46/1.16 'e_0' [39, 0] (w:1, o:9, a:1, s:1, b:0),
% 0.46/1.16 'e_1' [40, 0] (w:1, o:10, a:1, s:1, b:0),
% 0.46/1.16 next [41, 2] (w:1, o:55, a:1, s:1, b:0),
% 0.46/1.16 'e_2' [42, 0] (w:1, o:11, a:1, s:1, b:0),
% 0.46/1.16 'e_3' [43, 0] (w:1, o:12, a:1, s:1, b:0),
% 0.46/1.16 'e_4' [44, 0] (w:1, o:13, a:1, s:1, b:0),
% 0.46/1.16 greater [45, 2] (w:1, o:56, a:1, s:1, b:0),
% 0.46/1.16 cycle [48, 2] (w:1, o:57, a:1, s:1, b:0),
% 0.46/1.16 equalish [50, 2] (w:1, o:58, a:1, s:1, b:0),
% 0.46/1.16 'group_element' [51, 1] (w:1, o:29, a:1, s:1, b:0),
% 0.46/1.16 product [55, 3] (w:1, o:59, a:1, s:1, b:0).
% 0.46/1.16
% 0.46/1.16
% 0.46/1.16 Starting Search:
% 0.46/1.16
% 0.46/1.16 Resimplifying inuse:
% 0.46/1.16 Done
% 0.46/1.16
% 0.46/1.16 Resimplifying inuse:
% 0.46/1.16 Done
% 0.46/1.16
% 0.46/1.16 Resimplifying inuse:
% 0.46/1.16 Done
% 0.46/1.16
% 0.46/1.16
% 0.46/1.16
% 0.46/1.16 found a saturation!
% 0.46/1.16 % SZS status Satisfiable
% 0.46/1.16 % SZS output start Saturation
% 0.46/1.16
% 0.46/1.16 clause( 986, [ equalish( X, 'e_2' ), ~( product( 'e_3', 'e_2', Z ) ),
% 0.46/1.16 product( 'e_1', 'e_2', 'e_2' ), ~( product( 'e_4', X, Y ) ), ~( product(
% 0.46/1.16 Y, X, Z ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 985, [ equalish( X, 'e_3' ), ~( product( 'e_3', 'e_2', Z ) ),
% 0.46/1.16 product( 'e_1', 'e_2', 'e_2' ), ~( product( 'e_4', Y, X ) ), ~( product(
% 0.46/1.16 X, Y, Z ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 988, [ equalish( 'e_2', X ), product( 'e_1', 'e_2', 'e_2' ), ~(
% 0.46/1.16 product( X, 'e_2', 'e_4' ) ), ~( product( X, X, 'e_3' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 987, [ product( 'e_1', 'e_2', 'e_2' ), ~( product( 'e_4', 'e_4', X
% 0.46/1.16 ) ), ~( product( 'e_3', 'e_2', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 992, [ equalish( X, 'e_4' ), product( 'e_1', 'e_2', 'e_2' ), ~(
% 0.46/1.16 product( X, 'e_2', 'e_3' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 984, [ equalish( X, 'e_3' ), product( 'e_1', 'e_2', 'e_2' ), ~(
% 0.46/1.16 product( 'e_4', X, X ) ), ~( product( 'e_3', 'e_2', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 991, [ equalish( X, 'e_2' ), product( 'e_1', 'e_2', 'e_2' ), ~(
% 0.46/1.16 product( 'e_4', X, 'e_3' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 990, [ equalish( X, 'e_3' ), product( 'e_1', 'e_2', 'e_2' ), ~(
% 0.46/1.16 product( 'e_4', 'e_2', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 989, [ product( 'e_1', 'e_2', 'e_2' ), ~( product( 'e_2', 'e_2',
% 0.46/1.16 'e_4' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 983, [ product( 'e_1', 'e_2', 'e_2' ), ~( product( 'e_4', 'e_1',
% 0.46/1.16 'e_1' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 982, [ equalish( X, 'e_2' ), product( 'e_1', 'e_2', 'e_2' ), ~(
% 0.46/1.16 product( 'e_4', X, X ) ), ~( product( 'e_3', 'e_2', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 993, [ product( 'e_1', 'e_2', 'e_2' ), product( 'e_4', 'e_2', 'e_3'
% 0.46/1.16 ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 995, [ ~( product( 'e_3', 'e_4', 'e_3' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 994, [ ~( product( 'e_1', 'e_4', 'e_1' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 981, [ equalish( X, 'e_4' ), ~( product( 'e_4', 'e_2', X ) ),
% 0.46/1.16 product( 'e_1', 'e_2', 'e_2' ), ~( product( 'e_1', X, X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 967, [ equalish( X, 'e_4' ), ~( product( 'e_1', Y, X ) ), ~(
% 0.46/1.16 product( 'e_4', 'e_2', Z ) ), product( 'e_1', 'e_2', 'e_2' ), ~( product(
% 0.46/1.16 X, Y, Z ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 980, [ equalish( X, 'e_2' ), ~( product( 'e_4', 'e_2', X ) ),
% 0.46/1.16 product( 'e_1', 'e_2', 'e_2' ), ~( product( 'e_1', X, X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 966, [ equalish( X, 'e_2' ), ~( product( 'e_1', X, Y ) ), ~(
% 0.46/1.16 product( 'e_4', 'e_2', Z ) ), product( 'e_1', 'e_2', 'e_2' ), ~( product(
% 0.46/1.16 Y, X, Z ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 942, [ equalish( 'e_1', X ), product( 'e_3', 'e_1', 'e_2' ),
% 0.46/1.16 product( 'e_3', 'e_1', 'e_3' ), ~( product( X, 'e_1', 'e_3' ) ), ~(
% 0.46/1.16 product( X, X, 'e_4' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 979, [ product( 'e_1', 'e_2', 'e_2' ), ~( product( 'e_4', 'e_2',
% 0.46/1.16 'e_4' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 941, [ product( 'e_3', 'e_1', 'e_2' ), ~( product( 'e_4', 'e_1', X
% 0.46/1.16 ) ), product( 'e_3', 'e_1', 'e_3' ), ~( product( 'e_3', 'e_3', X ) ) ]
% 0.46/1.16 )
% 0.46/1.16 .
% 0.46/1.16 clause( 978, [ product( 'e_2', 'e_1', 'e_1' ), ~( product( 'e_3', 'e_1',
% 0.46/1.16 'e_4' ) ), ~( product( 'e_2', 'e_2', 'e_1' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 937, [ equalish( X, 'e_1' ), product( 'e_3', 'e_1', 'e_2' ), ~(
% 0.46/1.16 product( 'e_4', 'e_1', Z ) ), product( 'e_3', 'e_1', 'e_3' ), ~( product(
% 0.46/1.16 'e_3', X, Y ) ), ~( product( Y, X, Z ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 977, [ product( 'e_3', 'e_1', 'e_2' ), ~( product( 'e_2', 'e_1',
% 0.46/1.16 'e_3' ) ), ~( product( 'e_1', 'e_4', 'e_4' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 976, [ ~( product( 'e_4', 'e_3', 'e_4' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 936, [ equalish( X, 'e_4' ), product( 'e_3', 'e_1', 'e_2' ), ~(
% 0.46/1.16 product( 'e_4', 'e_1', Z ) ), product( 'e_3', 'e_1', 'e_3' ), ~( product(
% 0.46/1.16 'e_3', Y, X ) ), ~( product( X, Y, Z ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 964, [ equalish( 'e_2', X ), product( 'e_1', 'e_2', 'e_2' ), ~(
% 0.46/1.16 product( X, 'e_2', 'e_1' ) ), ~( product( X, X, 'e_4' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 962, [ product( 'e_1', 'e_2', 'e_2' ), ~( product( 'e_2', 'e_2',
% 0.46/1.16 'e_1' ) ), ~( product( 'e_1', 'e_4', 'e_4' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 935, [ equalish( X, 'e_3' ), product( 'e_3', 'e_1', 'e_2' ),
% 0.46/1.16 product( 'e_3', 'e_1', 'e_3' ), ~( product( X, 'e_1', 'e_4' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 965, [ product( 'e_1', 'e_2', 'e_2' ), ~( product( 'e_4', 'e_2', X
% 0.46/1.16 ) ), ~( product( 'e_1', 'e_1', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 973, [ ~( product( 'e_1', 'e_3', 'e_3' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 934, [ equalish( X, 'e_1' ), product( 'e_3', 'e_1', 'e_2' ),
% 0.46/1.16 product( 'e_3', 'e_1', 'e_3' ), ~( product( 'e_3', X, 'e_4' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 972, [ ~( product( 'e_2', 'e_4', 'e_4' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 947, [ product( 'e_3', 'e_1', 'e_2' ), product( 'e_3', 'e_1', 'e_3'
% 0.46/1.16 ), product( 'e_3', 'e_1', 'e_4' ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 933, [ equalish( X, 'e_4' ), product( 'e_3', 'e_1', 'e_2' ),
% 0.46/1.16 product( 'e_3', 'e_1', 'e_3' ), ~( product( 'e_3', 'e_1', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 940, [ equalish( X, 'e_2' ), product( 'e_2', 'e_1', 'e_1' ), ~(
% 0.46/1.16 product( X, 'e_1', 'e_3' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 939, [ equalish( X, 'e_1' ), product( 'e_2', 'e_1', 'e_1' ), ~(
% 0.46/1.16 product( 'e_2', X, 'e_3' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 938, [ equalish( X, 'e_3' ), product( 'e_2', 'e_1', 'e_1' ), ~(
% 0.46/1.16 product( 'e_2', 'e_1', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 931, [ equalish( X, 'e_1' ), product( 'e_1', 'e_2', 'e_2' ), ~(
% 0.46/1.16 product( X, 'e_2', 'e_4' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 969, [ equalish( X, 'e_4' ), product( 'e_1', 'e_2', 'e_2' ), ~(
% 0.46/1.16 product( 'e_1', 'e_2', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 968, [ equalish( X, 'e_2' ), product( 'e_1', 'e_2', 'e_2' ), ~(
% 0.46/1.16 product( 'e_1', X, 'e_4' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 946, [ ~( product( 'e_3', 'e_4', X ) ), ~( product( 'e_1', 'e_1', X
% 0.46/1.16 ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 932, [ product( 'e_1', 'e_2', 'e_2' ), ~( product( 'e_4', 'e_2',
% 0.46/1.16 'e_1' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 952, [ ~( cycle( 'e_0', 'e_0' ) ), ~( greater( 'e_0', 'e_0' ) ) ]
% 0.46/1.16 )
% 0.46/1.16 .
% 0.46/1.16 clause( 958, [ ~( product( 'e_3', 'e_3', 'e_2' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 945, [ product( 'e_1', 'e_2', 'e_2' ), product( 'e_1', 'e_2', 'e_4'
% 0.46/1.16 ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 943, [ product( 'e_2', 'e_1', 'e_1' ), product( 'e_2', 'e_1', 'e_3'
% 0.46/1.16 ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 950, [ equalish( X, 'e_1' ), ~( product( X, 'e_4', 'e_3' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 949, [ equalish( X, 'e_4' ), ~( product( 'e_1', X, 'e_3' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 948, [ equalish( X, 'e_3' ), ~( product( 'e_1', 'e_4', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 930, [ ~( product( 'e_1', 'e_2', 'e_1' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 929, [ ~( product( 'e_1', 'e_3', 'e_1' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 951, [ product( 'e_1', 'e_4', 'e_3' ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 944, [ product( 'e_2', 'e_3', 'e_4' ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 923, [ product( 'e_1', 'e_2', 'e_2' ), ~( product( 'e_3', 'e_2',
% 0.46/1.16 'e_4' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 921, [ product( 'e_1', 'e_2', 'e_2' ), ~( product( 'e_3', 'e_2',
% 0.46/1.16 'e_2' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 885, [ equalish( X, 'e_1' ), product( 'e_3', 'e_1', 'e_2' ),
% 0.46/1.16 product( 'e_3', 'e_1', 'e_3' ), ~( product( 'e_4', 'e_1', X ) ), ~(
% 0.46/1.16 product( 'e_3', X, X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 884, [ equalish( X, 'e_3' ), ~( product( 'e_3', 'e_1', X ) ),
% 0.46/1.16 product( 'e_2', 'e_1', 'e_1' ), ~( product( 'e_2', X, X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 882, [ equalish( X, 'e_3' ), ~( product( 'e_2', Y, X ) ), ~(
% 0.46/1.16 product( 'e_3', 'e_1', Z ) ), product( 'e_2', 'e_1', 'e_1' ), ~( product(
% 0.46/1.16 X, Y, Z ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 883, [ product( 'e_2', 'e_1', 'e_1' ), ~( product( 'e_3', 'e_1',
% 0.46/1.16 'e_3' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 881, [ equalish( X, 'e_1' ), ~( product( 'e_3', 'e_1', X ) ),
% 0.46/1.16 product( 'e_2', 'e_1', 'e_1' ), ~( product( 'e_2', X, X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 877, [ equalish( X, 'e_1' ), ~( product( 'e_2', X, Y ) ), ~(
% 0.46/1.16 product( 'e_3', 'e_1', Z ) ), product( 'e_2', 'e_1', 'e_1' ), ~( product(
% 0.46/1.16 Y, X, Z ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 878, [ product( 'e_3', 'e_1', 'e_2' ), product( 'e_3', 'e_1', 'e_3'
% 0.46/1.16 ), ~( product( 'e_4', 'e_1', 'e_3' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 876, [ equalish( X, 'e_4' ), product( 'e_3', 'e_1', 'e_2' ),
% 0.46/1.16 product( 'e_3', 'e_1', 'e_3' ), ~( product( 'e_4', 'e_1', X ) ), ~(
% 0.46/1.16 product( 'e_3', X, X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 875, [ product( 'e_3', 'e_1', 'e_3' ), product( 'e_3', 'e_1', 'e_2'
% 0.46/1.16 ), ~( product( 'e_4', 'e_1', 'e_1' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 870, [ equalish( X, 'e_2' ), ~( product( 'e_3', 'e_4', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 869, [ equalish( X, 'e_4' ), ~( product( 'e_3', X, 'e_2' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 868, [ equalish( X, 'e_3' ), ~( product( X, 'e_4', 'e_2' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 866, [ product( 'e_3', 'e_4', 'e_2' ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 860, [ ~( product( 'e_3', 'e_4', 'e_4' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 854, [ equalish( X, 'e_4' ), ~( product( 'e_4', 'e_3', X ) ), ~(
% 0.46/1.16 product( 'e_2', X, X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 852, [ equalish( X, 'e_4' ), ~( product( 'e_4', 'e_3', Z ) ), ~(
% 0.46/1.16 product( 'e_2', Y, X ) ), ~( product( X, Y, Z ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 853, [ ~( product( 'e_4', 'e_3', 'e_3' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 850, [ equalish( X, 'e_3' ), ~( product( 'e_4', 'e_3', X ) ), ~(
% 0.46/1.16 product( 'e_2', X, X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 851, [ ~( product( 'e_2', 'e_4', 'e_2' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 845, [ equalish( X, 'e_3' ), ~( product( 'e_4', 'e_3', Z ) ), ~(
% 0.46/1.16 product( 'e_2', X, Y ) ), ~( product( Y, X, Z ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 834, [ equalish( 'e_3', X ), ~( product( X, 'e_3', 'e_2' ) ), ~(
% 0.46/1.16 product( X, X, 'e_4' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 832, [ ~( product( 'e_4', 'e_3', 'e_2' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 831, [ ~( product( 'e_4', 'e_3', X ) ), ~( product( 'e_2', 'e_2', X
% 0.46/1.16 ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 829, [ equalish( X, 'e_2' ), ~( product( 'e_3', X, X ) ), ~(
% 0.46/1.16 product( 'e_2', 'e_4', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 827, [ equalish( X, 'e_2' ), ~( product( 'e_2', 'e_4', Z ) ), ~(
% 0.46/1.16 product( 'e_3', Y, X ) ), ~( product( X, Y, Z ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 826, [ ~( product( 'e_3', 'e_1', 'e_1' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 823, [ equalish( X, 'e_4' ), ~( product( 'e_3', X, X ) ), ~(
% 0.46/1.16 product( 'e_2', 'e_4', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 825, [ ~( product( 'e_3', 'e_3', 'e_4' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 824, [ ~( product( 'e_3', 'e_2', 'e_3' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 817, [ equalish( X, 'e_4' ), ~( product( 'e_2', 'e_4', Z ) ), ~(
% 0.46/1.16 product( 'e_3', X, Y ) ), ~( product( Y, X, Z ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 811, [ equalish( X, 'e_2' ), ~( product( 'e_4', X, X ) ), product(
% 0.46/1.16 'e_4', 'e_2', 'e_1' ), ~( product( 'e_3', 'e_2', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 816, [ product( 'e_4', 'e_2', 'e_1' ), ~( product( 'e_4', 'e_1',
% 0.46/1.16 'e_1' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 815, [ equalish( X, 'e_3' ), ~( product( 'e_4', X, X ) ), product(
% 0.46/1.16 'e_4', 'e_2', 'e_1' ), ~( product( 'e_3', 'e_2', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 422, [ equalish( X, 'e_3' ), ~( product( 'e_4', Y, X ) ), ~(
% 0.46/1.16 product( 'e_3', 'e_2', Z ) ), product( 'e_4', 'e_2', 'e_1' ), ~( product(
% 0.46/1.16 X, Y, Z ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 812, [ product( 'e_4', 'e_2', 'e_1' ), ~( product( 'e_3', 'e_2',
% 0.46/1.16 'e_2' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 421, [ equalish( X, 'e_2' ), ~( product( 'e_4', X, Y ) ), ~(
% 0.46/1.16 product( 'e_3', 'e_2', Z ) ), product( 'e_4', 'e_2', 'e_1' ), ~( product(
% 0.46/1.16 Y, X, Z ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 806, [ equalish( 'e_1', X ), product( 'e_2', 'e_1', 'e_1' ), ~(
% 0.46/1.16 product( X, 'e_1', 'e_2' ) ), ~( product( X, X, 'e_3' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 805, [ equalish( X, 'e_4' ), ~( product( 'e_2', 'e_3', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 804, [ equalish( X, 'e_3' ), ~( product( 'e_2', X, 'e_4' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 803, [ equalish( X, 'e_2' ), ~( product( X, 'e_3', 'e_4' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 801, [ product( 'e_2', 'e_1', 'e_1' ), ~( product( 'e_3', 'e_1',
% 0.46/1.16 'e_2' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 800, [ ~( product( 'e_3', 'e_1', X ) ), product( 'e_2', 'e_1',
% 0.46/1.16 'e_1' ), ~( product( 'e_2', 'e_2', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 799, [ equalish( X, 'e_1' ), ~( product( 'e_2', X, X ) ), ~(
% 0.46/1.16 product( 'e_1', 'e_4', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 588, [ equalish( X, 'e_1' ), ~( product( 'e_1', 'e_4', Z ) ), ~(
% 0.46/1.16 product( 'e_2', Y, X ) ), ~( product( X, Y, Z ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 797, [ product( 'e_4', 'e_2', 'e_1' ), ~( product( 'e_2', 'e_2',
% 0.46/1.16 'e_4' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 796, [ ~( product( 'e_2', 'e_3', 'e_3' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 794, [ equalish( X, 'e_4' ), ~( product( 'e_2', X, X ) ), ~(
% 0.46/1.16 product( 'e_1', 'e_4', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 587, [ equalish( X, 'e_4' ), ~( product( 'e_1', 'e_4', Z ) ), ~(
% 0.46/1.16 product( 'e_2', X, Y ) ), ~( product( Y, X, Z ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 789, [ equalish( X, 'e_1' ), ~( product( 'e_4', X, X ) ), ~(
% 0.46/1.16 product( 'e_1', 'e_3', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 617, [ equalish( X, 'e_1' ), ~( product( 'e_1', 'e_3', Z ) ), ~(
% 0.46/1.16 product( 'e_4', Y, X ) ), ~( product( X, Y, Z ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 787, [ ~( product( 'e_4', 'e_4', 'e_3' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 786, [ ~( product( 'e_4', 'e_2', 'e_2' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 784, [ equalish( X, 'e_3' ), ~( product( 'e_4', X, X ) ), ~(
% 0.46/1.16 product( 'e_1', 'e_3', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 785, [ ~( product( 'e_4', 'e_1', 'e_4' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 616, [ equalish( X, 'e_3' ), ~( product( 'e_1', 'e_3', Z ) ), ~(
% 0.46/1.16 product( 'e_4', X, Y ) ), ~( product( Y, X, Z ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 777, [ equalish( X, 'e_4' ), ~( product( 'e_3', 'e_4', X ) ), ~(
% 0.46/1.16 product( 'e_1', X, X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 621, [ equalish( X, 'e_4' ), ~( product( 'e_3', 'e_4', Z ) ), ~(
% 0.46/1.16 product( 'e_1', X, Y ) ), ~( product( Y, X, Z ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 773, [ equalish( X, 'e_3' ), ~( product( 'e_3', 'e_4', X ) ), ~(
% 0.46/1.16 product( 'e_1', X, X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 624, [ equalish( X, 'e_3' ), ~( product( 'e_3', 'e_4', Z ) ), ~(
% 0.46/1.16 product( 'e_1', Y, X ) ), ~( product( X, Y, Z ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 768, [ equalish( X, 'e_2' ), ~( product( 'e_2', 'e_3', X ) ), ~(
% 0.46/1.16 product( 'e_1', X, X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 646, [ equalish( X, 'e_2' ), ~( product( 'e_2', 'e_3', Z ) ), ~(
% 0.46/1.16 product( 'e_1', Y, X ) ), ~( product( X, Y, Z ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 764, [ ~( product( 'e_2', 'e_3', 'e_2' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 762, [ equalish( X, 'e_3' ), ~( product( 'e_2', 'e_3', X ) ), ~(
% 0.46/1.16 product( 'e_1', X, X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 645, [ equalish( X, 'e_3' ), ~( product( 'e_2', 'e_3', Z ) ), ~(
% 0.46/1.16 product( 'e_1', X, Y ) ), ~( product( Y, X, Z ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 757, [ equalish( X, 'e_1' ), ~( product( 'e_3', X, X ) ), ~(
% 0.46/1.16 product( 'e_1', 'e_2', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 675, [ equalish( X, 'e_1' ), ~( product( 'e_1', 'e_2', Z ) ), ~(
% 0.46/1.16 product( 'e_3', Y, X ) ), ~( product( X, Y, Z ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 741, [ equalish( X, 'e_2' ), ~( product( 'e_3', X, X ) ), ~(
% 0.46/1.16 product( 'e_1', 'e_2', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 736, [ ~( product( 'e_3', 'e_1', 'e_4' ) ), ~( product( 'e_1',
% 0.46/1.16 'e_2', 'e_2' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 674, [ equalish( X, 'e_2' ), ~( product( 'e_1', 'e_2', Z ) ), ~(
% 0.46/1.16 product( 'e_3', X, Y ) ), ~( product( Y, X, Z ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 734, [ equalish( X, 'e_2' ), ~( product( 'e_4', X, X ) ), ~(
% 0.46/1.16 product( 'e_2', 'e_1', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 711, [ equalish( X, 'e_2' ), ~( product( 'e_2', 'e_1', Z ) ), ~(
% 0.46/1.16 product( 'e_4', Y, X ) ), ~( product( X, Y, Z ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 733, [ ~( product( 'e_4', 'e_4', 'e_1' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 729, [ product( 'e_4', 'e_2', 'e_1' ), product( 'e_2', 'e_1', 'e_1'
% 0.46/1.16 ), ~( product( 'e_4', 'e_2', 'e_4' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 722, [ ~( product( 'e_4', 'e_2', 'e_4' ) ), product( 'e_4', 'e_2',
% 0.46/1.16 'e_1' ), ~( product( 'e_2', 'e_1', 'e_3' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 724, [ equalish( X, 'e_1' ), ~( product( 'e_4', X, X ) ), ~(
% 0.46/1.16 product( 'e_2', 'e_1', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 725, [ ~( product( 'e_2', 'e_1', 'e_2' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 718, [ ~( product( 'e_4', 'e_2', 'e_3' ) ), ~( product( 'e_2',
% 0.46/1.16 'e_1', 'e_1' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 710, [ equalish( X, 'e_1' ), ~( product( 'e_2', 'e_1', Z ) ), ~(
% 0.46/1.16 product( 'e_4', X, Y ) ), ~( product( Y, X, Z ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 705, [ equalish( 'e_1', X ), ~( product( X, 'e_1', 'e_4' ) ), ~(
% 0.46/1.16 product( X, X, 'e_2' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 706, [ ~( product( 'e_4', 'e_4', X ) ), ~( product( 'e_2', 'e_1', X
% 0.46/1.16 ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 714, [ equalish( X, 'e_2' ), ~( product( 'e_4', 'e_1', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 713, [ equalish( X, 'e_1' ), ~( product( 'e_4', X, 'e_2' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 712, [ equalish( X, 'e_4' ), ~( product( X, 'e_1', 'e_2' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 709, [ ~( product( 'e_2', 'e_1', 'e_4' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 704, [ product( 'e_4', 'e_1', 'e_2' ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 416, [ equalish( 'e_2', X ), product( 'e_4', 'e_2', 'e_1' ), ~(
% 0.46/1.16 product( X, 'e_2', 'e_4' ) ), ~( product( X, X, 'e_3' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 696, [ ~( product( 'e_2', 'e_4', 'e_3' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 695, [ equalish( 'e_4', X ), ~( product( X, 'e_4', 'e_3' ) ), ~(
% 0.46/1.16 product( X, X, 'e_2' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 669, [ equalish( 'e_2', X ), ~( product( X, 'e_2', 'e_3' ) ), ~(
% 0.46/1.16 product( X, X, 'e_1' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 670, [ ~( product( 'e_3', 'e_3', X ) ), ~( product( 'e_1', 'e_2', X
% 0.46/1.16 ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 678, [ equalish( X, 'e_1' ), ~( product( 'e_3', 'e_2', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 677, [ equalish( X, 'e_2' ), ~( product( 'e_3', X, 'e_1' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 676, [ equalish( X, 'e_3' ), ~( product( X, 'e_2', 'e_1' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 673, [ ~( product( 'e_1', 'e_2', 'e_3' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 666, [ product( 'e_3', 'e_2', 'e_1' ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 417, [ product( 'e_4', 'e_2', 'e_1' ), ~( product( 'e_4', 'e_4', X
% 0.46/1.16 ) ), ~( product( 'e_3', 'e_2', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 651, [ ~( product( 'e_3', 'e_3', 'e_1' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 650, [ ~( product( 'e_3', 'e_3', X ) ), ~( product( 'e_2', 'e_4', X
% 0.46/1.16 ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 582, [ equalish( 'e_4', X ), ~( product( X, 'e_4', 'e_2' ) ), ~(
% 0.46/1.16 product( X, X, 'e_1' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 592, [ equalish( 'e_4', X ), ~( product( X, 'e_4', 'e_1' ) ), ~(
% 0.46/1.16 product( X, X, 'e_3' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 611, [ equalish( 'e_3', X ), ~( product( X, 'e_3', 'e_4' ) ), ~(
% 0.46/1.16 product( X, X, 'e_1' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 640, [ equalish( 'e_3', X ), ~( product( X, 'e_3', 'e_1' ) ), ~(
% 0.46/1.16 product( X, X, 'e_2' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 641, [ ~( product( 'e_2', 'e_3', X ) ), ~( product( 'e_1', 'e_1', X
% 0.46/1.16 ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 649, [ equalish( X, 'e_2' ), ~( product( 'e_1', 'e_3', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 648, [ equalish( X, 'e_3' ), ~( product( 'e_1', X, 'e_2' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 647, [ equalish( X, 'e_1' ), ~( product( X, 'e_3', 'e_2' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 644, [ ~( product( 'e_2', 'e_3', 'e_1' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 639, [ ~( product( 'e_4', 'e_4', 'e_2' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 638, [ product( 'e_1', 'e_3', 'e_2' ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 612, [ ~( product( 'e_4', 'e_4', X ) ), ~( product( 'e_1', 'e_3', X
% 0.46/1.16 ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 626, [ ~( product( 'e_3', 'e_4', 'e_1' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 620, [ equalish( X, 'e_1' ), ~( product( 'e_4', 'e_3', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 619, [ equalish( X, 'e_3' ), ~( product( 'e_4', X, 'e_1' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 618, [ equalish( X, 'e_4' ), ~( product( X, 'e_3', 'e_1' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 615, [ ~( product( 'e_1', 'e_3', 'e_4' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 610, [ product( 'e_4', 'e_3', 'e_1' ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 593, [ ~( product( 'e_2', 'e_2', 'e_3' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 583, [ ~( product( 'e_2', 'e_2', X ) ), ~( product( 'e_1', 'e_4', X
% 0.46/1.16 ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 591, [ equalish( X, 'e_1' ), ~( product( 'e_2', 'e_4', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 590, [ equalish( X, 'e_4' ), ~( product( 'e_2', X, 'e_1' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 589, [ equalish( X, 'e_2' ), ~( product( X, 'e_4', 'e_1' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 586, [ ~( product( 'e_1', 'e_4', 'e_2' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 581, [ product( 'e_2', 'e_4', 'e_1' ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 425, [ equalish( X, 'e_3' ), product( 'e_4', 'e_2', 'e_1' ), ~(
% 0.46/1.16 product( 'e_4', 'e_2', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 424, [ equalish( X, 'e_2' ), product( 'e_4', 'e_2', 'e_1' ), ~(
% 0.46/1.16 product( 'e_4', X, 'e_3' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 423, [ equalish( X, 'e_4' ), product( 'e_4', 'e_2', 'e_1' ), ~(
% 0.46/1.16 product( X, 'e_2', 'e_3' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 420, [ product( 'e_4', 'e_2', 'e_1' ), ~( product( 'e_3', 'e_2',
% 0.46/1.16 'e_4' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 414, [ product( 'e_4', 'e_2', 'e_1' ), product( 'e_4', 'e_2', 'e_3'
% 0.46/1.16 ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 218, [ ~( cycle( X, 'e_4' ) ), ~( cycle( 'e_2', 'e_0' ) ), ~( cycle(
% 0.46/1.16 'e_3', 'e_1' ) ), ~( greater( 'e_2', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 217, [ ~( cycle( X, 'e_3' ) ), ~( cycle( 'e_2', 'e_0' ) ), ~( cycle(
% 0.46/1.16 'e_3', 'e_1' ) ), ~( greater( 'e_2', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 216, [ ~( cycle( X, 'e_2' ) ), ~( cycle( 'e_2', 'e_0' ) ), ~( cycle(
% 0.46/1.16 'e_3', 'e_1' ) ), ~( greater( 'e_2', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 285, [ ~( cycle( X, 'e_4' ) ), ~( cycle( 'e_2', 'e_3' ) ), ~(
% 0.46/1.16 greater( 'e_1', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 284, [ ~( cycle( X, 'e_4' ) ), ~( cycle( 'e_2', 'e_2' ) ), ~(
% 0.46/1.16 greater( 'e_1', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 288, [ ~( cycle( 'e_3', 'e_0' ) ), ~( cycle( X, 'e_4' ) ), ~(
% 0.46/1.16 greater( 'e_2', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 283, [ ~( cycle( X, 'e_3' ) ), ~( cycle( 'e_2', 'e_2' ) ), ~(
% 0.46/1.16 greater( 'e_1', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 282, [ ~( cycle( X, 'e_4' ) ), ~( cycle( 'e_2', 'e_1' ) ), ~(
% 0.46/1.16 greater( 'e_1', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 281, [ ~( cycle( X, 'e_3' ) ), ~( cycle( 'e_2', 'e_1' ) ), ~(
% 0.46/1.16 greater( 'e_1', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 287, [ ~( cycle( 'e_3', 'e_0' ) ), ~( cycle( X, 'e_3' ) ), ~(
% 0.46/1.16 greater( 'e_2', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 280, [ ~( cycle( X, 'e_2' ) ), ~( cycle( 'e_2', 'e_1' ) ), ~(
% 0.46/1.16 greater( 'e_1', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 279, [ ~( cycle( X, 'e_4' ) ), ~( cycle( 'e_2', 'e_0' ) ), ~(
% 0.46/1.16 greater( 'e_1', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 278, [ ~( cycle( X, 'e_3' ) ), ~( cycle( 'e_2', 'e_0' ) ), ~(
% 0.46/1.16 greater( 'e_1', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 286, [ ~( cycle( 'e_3', 'e_0' ) ), ~( cycle( X, 'e_2' ) ), ~(
% 0.46/1.16 greater( 'e_2', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 277, [ ~( cycle( X, 'e_2' ) ), ~( cycle( 'e_2', 'e_0' ) ), ~(
% 0.46/1.16 greater( 'e_1', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 276, [ ~( cycle( X, 'e_1' ) ), ~( cycle( 'e_2', 'e_0' ) ), ~(
% 0.46/1.16 greater( 'e_1', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 222, [ ~( greater( 'e_1', X ) ), ~( cycle( 'e_2', Z ) ), ~( cycle(
% 0.46/1.16 X, Y ) ), ~( greater( Y, Z ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 275, [ ~( cycle( 'e_3', 'e_0' ) ), ~( cycle( X, 'e_1' ) ), ~(
% 0.46/1.16 greater( 'e_2', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 273, [ ~( cycle( 'e_2', 'e_3' ) ), ~( cycle( 'e_1', 'e_3' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 272, [ ~( cycle( 'e_2', 'e_3' ) ), ~( cycle( 'e_1', 'e_2' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 271, [ ~( cycle( 'e_2', 'e_3' ) ), ~( cycle( 'e_1', 'e_1' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 274, [ ~( cycle( 'e_1', 'e_3' ) ), ~( cycle( 'e_0', 'e_1' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 178, [ equalish( X, 'e_4' ), ~( cycle( 'e_1', 'e_3' ) ), ~( cycle(
% 0.46/1.16 'e_0', X ) ), ~( greater( X, 'e_0' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 177, [ equalish( X, 'e_4' ), ~( cycle( 'e_2', 'e_3' ) ), ~( cycle(
% 0.46/1.16 'e_1', X ) ), ~( greater( X, 'e_0' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 270, [ ~( cycle( 'e_1', 'e_2' ) ), ~( cycle( 'e_0', 'e_1' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 185, [ equalish( X, 'e_3' ), ~( cycle( 'e_1', 'e_2' ) ), ~( cycle(
% 0.46/1.16 'e_0', X ) ), ~( greater( X, 'e_0' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 269, [ ~( cycle( 'e_2', 'e_2' ) ), ~( cycle( 'e_1', 'e_4' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 268, [ ~( cycle( 'e_2', 'e_2' ) ), ~( cycle( 'e_1', 'e_2' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 267, [ ~( cycle( 'e_2', 'e_2' ) ), ~( cycle( 'e_1', 'e_1' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 184, [ equalish( X, 'e_3' ), ~( cycle( 'e_2', 'e_2' ) ), ~( cycle(
% 0.46/1.16 'e_1', X ) ), ~( greater( X, 'e_0' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 266, [ cycle( 'e_3', 'e_0' ), ~( cycle( 'e_4', 'e_2' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 265, [ ~( cycle( 'e_4', 'e_2' ) ), ~( cycle( 'e_3', 'e_1' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 183, [ equalish( X, 'e_3' ), ~( cycle( 'e_4', 'e_2' ) ), ~( cycle(
% 0.46/1.16 'e_3', X ) ), ~( greater( X, 'e_0' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 264, [ ~( cycle( 'e_1', 'e_1' ) ), ~( cycle( 'e_0', 'e_1' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 193, [ equalish( X, 'e_2' ), ~( cycle( 'e_1', 'e_1' ) ), ~( cycle(
% 0.46/1.16 'e_0', X ) ), ~( greater( X, 'e_0' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 262, [ cycle( 'e_2', 'e_0' ), equalish( X, 'e_3' ), ~( product(
% 0.46/1.16 'e_2', 'e_1', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 263, [ cycle( 'e_2', 'e_0' ), equalish( X, 'e_2' ), ~( cycle( 'e_2'
% 0.46/1.16 , X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 261, [ cycle( 'e_2', 'e_0' ), cycle( 'e_2', 'e_2' ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 259, [ ~( cycle( 'e_3', 'e_1' ) ), ~( cycle( 'e_2', 'e_4' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 258, [ ~( cycle( 'e_3', 'e_1' ) ), ~( cycle( 'e_2', 'e_3' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 257, [ ~( cycle( 'e_3', 'e_1' ) ), ~( cycle( 'e_2', 'e_1' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 192, [ equalish( X, 'e_2' ), ~( cycle( 'e_3', 'e_1' ) ), ~( cycle(
% 0.46/1.16 'e_2', X ) ), ~( greater( X, 'e_0' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 256, [ cycle( 'e_3', 'e_0' ), ~( cycle( 'e_4', 'e_1' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 255, [ ~( cycle( 'e_4', 'e_1' ) ), ~( cycle( 'e_3', 'e_1' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 191, [ equalish( X, 'e_2' ), ~( cycle( 'e_4', 'e_1' ) ), ~( cycle(
% 0.46/1.16 'e_3', X ) ), ~( greater( X, 'e_0' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 254, [ ~( cycle( 'e_2', 'e_0' ) ), ~( cycle( 'e_1', 'e_4' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 123, [ equalish( X, Y ), ~( product( Y, Y, T ) ), ~( product( Y, X
% 0.46/1.16 , Z ) ), ~( product( Z, X, T ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 253, [ ~( cycle( 'e_2', 'e_0' ) ), ~( cycle( 'e_1', 'e_3' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 252, [ ~( cycle( 'e_2', 'e_0' ) ), ~( cycle( 'e_1', 'e_2' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 196, [ equalish( X, 'e_1' ), ~( cycle( 'e_2', 'e_0' ) ), ~( cycle(
% 0.46/1.16 'e_1', X ) ), ~( greater( X, 'e_0' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 195, [ equalish( X, 'e_1' ), ~( cycle( 'e_3', 'e_0' ) ), ~( cycle(
% 0.46/1.16 'e_2', X ) ), ~( greater( X, 'e_0' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 119, [ equalish( X, Y ), ~( product( Y, Y, T ) ), ~( product( X, Z
% 0.46/1.16 , T ) ), ~( product( Y, Z, X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 251, [ ~( cycle( 'e_4', 'e_3' ) ), ~( cycle( 'e_2', 'e_4' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 250, [ ~( cycle( 'e_4', 'e_3' ) ), ~( cycle( 'e_1', 'e_4' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 206, [ ~( cycle( X, 'e_4' ) ), ~( cycle( 'e_4', 'e_3' ) ), ~(
% 0.46/1.16 greater( 'e_3', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 246, [ ~( cycle( 'e_3', 'e_0' ) ), ~( cycle( 'e_2', 'e_4' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 112, [ product( X, 'e_4', 'e_4' ), product( X, 'e_4', 'e_1' ),
% 0.46/1.16 product( X, 'e_4', 'e_2' ), product( X, 'e_4', 'e_3' ), ~(
% 0.46/1.16 'group_element'( X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 245, [ ~( cycle( 'e_3', 'e_0' ) ), ~( cycle( 'e_1', 'e_4' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 205, [ ~( cycle( X, 'e_4' ) ), ~( cycle( 'e_3', 'e_0' ) ), ~(
% 0.46/1.16 greater( 'e_3', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 244, [ cycle( 'e_2', 'e_0' ), ~( cycle( 'e_3', 'e_0' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 111, [ product( X, 'e_3', 'e_4' ), product( X, 'e_3', 'e_1' ),
% 0.46/1.16 product( X, 'e_3', 'e_2' ), product( X, 'e_3', 'e_3' ), ~(
% 0.46/1.16 'group_element'( X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 239, [ ~( cycle( 'e_3', 'e_0' ) ), ~( cycle( 'e_2', 'e_3' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 238, [ ~( cycle( 'e_3', 'e_0' ) ), ~( cycle( 'e_1', 'e_3' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 204, [ ~( cycle( X, 'e_3' ) ), ~( cycle( 'e_3', 'e_0' ) ), ~(
% 0.46/1.16 greater( 'e_3', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 234, [ ~( cycle( 'e_3', 'e_0' ) ), ~( cycle( 'e_2', 'e_2' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 110, [ product( X, 'e_2', 'e_4' ), product( X, 'e_2', 'e_1' ),
% 0.46/1.16 product( X, 'e_2', 'e_2' ), product( X, 'e_2', 'e_3' ), ~(
% 0.46/1.16 'group_element'( X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 233, [ ~( cycle( 'e_3', 'e_0' ) ), ~( cycle( 'e_1', 'e_2' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 203, [ ~( cycle( X, 'e_2' ) ), ~( cycle( 'e_3', 'e_0' ) ), ~(
% 0.46/1.16 greater( 'e_3', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 232, [ ~( cycle( 'e_2', 'e_0' ) ), ~( cycle( 'e_0', 'e_1' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 224, [ ~( cycle( 'e_2', X ) ), ~( cycle( X, 'e_1' ) ), ~( greater(
% 0.46/1.16 'e_1', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 109, [ product( X, 'e_1', 'e_4' ), product( X, 'e_1', 'e_1' ),
% 0.46/1.16 product( X, 'e_1', 'e_2' ), product( X, 'e_1', 'e_3' ), ~(
% 0.46/1.16 'group_element'( X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 228, [ ~( cycle( X, 'e_4' ) ), ~( cycle( 'e_0', 'e_0' ) ), ~(
% 0.46/1.16 greater( 'e_0', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 227, [ ~( cycle( X, 'e_3' ) ), ~( cycle( 'e_0', 'e_0' ) ), ~(
% 0.46/1.16 greater( 'e_0', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 226, [ ~( cycle( X, 'e_2' ) ), ~( cycle( 'e_0', 'e_0' ) ), ~(
% 0.46/1.16 greater( 'e_0', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 225, [ ~( cycle( X, 'e_1' ) ), ~( cycle( 'e_0', 'e_0' ) ), ~(
% 0.46/1.16 greater( 'e_0', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 79, [ ~( greater( 'e_0', X ) ), ~( cycle( X, Y ) ), ~( cycle( 'e_0'
% 0.46/1.16 , 'e_0' ) ), ~( cycle( 'e_1', Z ) ), ~( greater( Y, Z ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 223, [ ~( greater( 'e_1', 'e_2' ) ), ~( cycle( 'e_2', X ) ), ~(
% 0.46/1.16 greater( X, X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 221, [ ~( cycle( 'e_3', 'e_0' ) ), ~( cycle( 'e_2', 'e_1' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 220, [ ~( cycle( 'e_3', 'e_0' ) ), ~( cycle( 'e_1', 'e_1' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 219, [ ~( cycle( 'e_3', 'e_0' ) ), ~( cycle( 'e_0', 'e_1' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 202, [ ~( cycle( X, 'e_1' ) ), ~( cycle( 'e_3', 'e_0' ) ), ~(
% 0.46/1.16 greater( 'e_3', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 211, [ ~( cycle( 'e_0', 'e_4' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 210, [ ~( cycle( 'e_0', 'e_3' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 209, [ ~( cycle( 'e_0', 'e_2' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 77, [ ~( greater( 'e_2', X ) ), ~( cycle( X, Y ) ), ~( cycle( 'e_2'
% 0.46/1.16 , 'e_0' ) ), ~( cycle( 'e_3', Z ) ), ~( greater( Y, Z ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 197, [ equalish( X, 'e_1' ), ~( cycle( 'e_0', X ) ), ~( greater( X
% 0.46/1.16 , 'e_0' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 207, [ cycle( 'e_3', 'e_0' ), equalish( X, 'e_4' ), ~( product(
% 0.46/1.16 'e_3', 'e_1', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 208, [ cycle( 'e_3', 'e_0' ), equalish( X, 'e_1' ), ~( cycle( 'e_3'
% 0.46/1.16 , X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 201, [ cycle( 'e_3', 'e_0' ), cycle( 'e_3', 'e_1' ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 76, [ ~( greater( 'e_3', X ) ), ~( cycle( X, Y ) ), ~( cycle( 'e_3'
% 0.46/1.16 , 'e_0' ) ), ~( cycle( 'e_4', Z ) ), ~( greater( Y, Z ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 200, [ ~( cycle( 'e_3', 'e_4' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 199, [ ~( cycle( 'e_3', 'e_3' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 198, [ ~( cycle( 'e_3', 'e_2' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 194, [ equalish( X, 'e_1' ), ~( cycle( 'e_3', X ) ), ~( greater( X
% 0.46/1.16 , 'e_0' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 71, [ equalish( Z, 'e_1' ), ~( greater( Z, 'e_0' ) ), ~( cycle( Y,
% 0.46/1.16 'e_0' ) ), ~( cycle( X, Z ) ), ~( next( X, Y ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 190, [ equalish( X, 'e_0' ), ~( cycle( 'e_1', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 189, [ ~( product( 'e_1', 'e_1', 'e_2' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 188, [ ~( product( 'e_1', 'e_1', 'e_3' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 70, [ equalish( Z, 'e_2' ), ~( greater( Z, 'e_0' ) ), ~( cycle( Y,
% 0.46/1.16 'e_1' ) ), ~( cycle( X, Z ) ), ~( next( X, Y ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 187, [ ~( product( 'e_1', 'e_1', 'e_4' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 186, [ cycle( 'e_1', 'e_0' ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 69, [ equalish( Z, 'e_3' ), ~( greater( Z, 'e_0' ) ), ~( cycle( Y,
% 0.46/1.16 'e_2' ) ), ~( cycle( X, Z ) ), ~( next( X, Y ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 68, [ equalish( Z, 'e_4' ), ~( greater( Z, 'e_0' ) ), ~( cycle( Y,
% 0.46/1.16 'e_3' ) ), ~( cycle( X, Z ) ), ~( next( X, Y ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 171, [ equalish( X, Y ), ~( product( X, Y, X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 63, [ equalish( X, Y ), ~( product( Z, Y, Z ) ), ~( product( Z, X,
% 0.46/1.16 T ) ), ~( product( T, X, Z ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 82, [ ~( cycle( X, 'e_0' ) ), ~( cycle( 'e_0', 'e_0' ) ), ~( cycle(
% 0.46/1.16 'e_1', X ) ), ~( greater( 'e_0', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 81, [ ~( greater( 'e_0', 'e_1' ) ), ~( cycle( 'e_0', 'e_0' ) ), ~(
% 0.46/1.16 cycle( 'e_1', X ) ), ~( greater( X, X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 62, [ equalish( X, Y ), ~( product( Z, X, Z ) ), ~( product( Z, Y,
% 0.46/1.16 T ) ), ~( product( T, Y, Z ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 169, [ equalish( X, Y ), ~( product( X, Z, Y ) ), ~( product( Y, Z
% 0.46/1.16 , X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 89, [ ~( cycle( X, 'e_2' ) ), ~( cycle( 'e_2', 'e_0' ) ), ~( cycle(
% 0.46/1.16 'e_3', X ) ), ~( greater( 'e_2', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 88, [ ~( greater( 'e_2', 'e_3' ) ), ~( cycle( 'e_2', 'e_0' ) ), ~(
% 0.46/1.16 cycle( 'e_3', X ) ), ~( greater( X, X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 87, [ ~( greater( 'e_2', 'e_2' ) ), ~( cycle( 'e_3', X ) ), ~(
% 0.46/1.16 cycle( 'e_2', 'e_0' ) ), ~( greater( 'e_0', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 56, [ product( X, X, 'e_4' ), product( X, X, 'e_1' ), product( X, X
% 0.46/1.16 , 'e_2' ), product( X, X, 'e_3' ), ~( 'group_element'( X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 91, [ ~( greater( 'e_3', 'e_4' ) ), ~( cycle( 'e_3', 'e_0' ) ), ~(
% 0.46/1.16 cycle( 'e_4', X ) ), ~( greater( X, X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 90, [ ~( greater( 'e_3', 'e_3' ) ), ~( cycle( 'e_4', X ) ), ~(
% 0.46/1.16 cycle( 'e_3', 'e_0' ) ), ~( greater( 'e_0', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 54, [ ~( greater( X, X ) ), ~( cycle( X, X ) ), ~( cycle( X, 'e_0'
% 0.46/1.16 ) ), ~( next( X, X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 158, [ ~( product( 'e_0', 'e_1', X ) ), equalish( X, 'e_1' ), ~(
% 0.46/1.16 cycle( 'e_0', 'e_1' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 108, [ ~( product( 'e_0', 'e_1', Y ) ), ~( cycle( 'e_0', X ) ),
% 0.46/1.16 equalish( Y, 'e_1' ), ~( greater( X, 'e_0' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 156, [ ~( product( 'e_1', 'e_1', X ) ), equalish( X, 'e_2' ), ~(
% 0.46/1.16 cycle( 'e_1', 'e_4' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 155, [ ~( product( 'e_1', 'e_1', X ) ), equalish( X, 'e_2' ), ~(
% 0.46/1.16 cycle( 'e_1', 'e_3' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 52, [ ~( greater( X, X ) ), ~( greater( 'e_0', 'e_0' ) ), ~( cycle(
% 0.46/1.16 X, 'e_0' ) ), ~( next( X, X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 154, [ ~( product( 'e_1', 'e_1', X ) ), equalish( X, 'e_2' ), ~(
% 0.46/1.16 cycle( 'e_1', 'e_2' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 153, [ ~( product( 'e_1', 'e_1', X ) ), equalish( X, 'e_2' ), ~(
% 0.46/1.16 cycle( 'e_1', 'e_1' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 107, [ ~( product( 'e_1', 'e_1', Y ) ), ~( cycle( 'e_1', X ) ),
% 0.46/1.16 equalish( Y, 'e_2' ), ~( greater( X, 'e_0' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 51, [ ~( greater( X, 'e_0' ) ), ~( cycle( 'e_0', X ) ), ~( cycle( X
% 0.46/1.16 , 'e_0' ) ), ~( next( X, X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 50, [ ~( greater( Z, X ) ), ~( greater( Y, 'e_0' ) ), ~( cycle( Z,
% 0.46/1.16 'e_0' ) ), ~( cycle( X, Y ) ), ~( next( Z, Z ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 148, [ ~( cycle( 'e_2', 'e_1' ) ), ~( cycle( 'e_1', 'e_4' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 147, [ ~( cycle( 'e_2', 'e_1' ) ), ~( cycle( 'e_1', 'e_3' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 146, [ ~( cycle( 'e_2', 'e_1' ) ), ~( cycle( 'e_1', 'e_1' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 135, [ equalish( X, 'e_2' ), ~( cycle( 'e_2', 'e_1' ) ), ~( cycle(
% 0.46/1.16 'e_1', X ) ), ~( greater( X, 'e_0' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 49, [ ~( greater( Z, X ) ), ~( greater( Y, Y ) ), ~( cycle( Z,
% 0.46/1.16 'e_0' ) ), ~( cycle( X, Y ) ), ~( next( Z, X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 48, [ ~( greater( X, X ) ), ~( greater( 'e_0', Y ) ), ~( cycle( Z,
% 0.46/1.16 Y ) ), ~( cycle( X, 'e_0' ) ), ~( next( X, Z ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 142, [ cycle( 'e_3', 'e_0' ), ~( cycle( 'e_4', 'e_3' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 47, [ ~( greater( Y, X ) ), ~( cycle( Y, 'e_0' ) ), ~( cycle( Z, X
% 0.46/1.16 ) ), ~( cycle( X, Y ) ), ~( next( Y, Z ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 138, [ ~( cycle( 'e_4', 'e_3' ) ), ~( cycle( 'e_3', 'e_1' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 133, [ equalish( X, 'e_4' ), ~( cycle( 'e_4', 'e_3' ) ), ~( cycle(
% 0.46/1.16 'e_3', X ) ), ~( greater( X, 'e_0' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 132, [ ~( product( 'e_2', 'e_1', X ) ), equalish( X, 'e_3' ), ~(
% 0.46/1.16 cycle( 'e_2', 'e_4' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 131, [ ~( product( 'e_2', 'e_1', X ) ), equalish( X, 'e_3' ), ~(
% 0.46/1.16 cycle( 'e_2', 'e_3' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 46, [ equalish( Z, Y ), ~( greater( Z, 'e_0' ) ), ~( cycle( Y, X )
% 0.46/1.16 ), ~( cycle( X, Z ) ), ~( next( X, Y ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 130, [ ~( product( 'e_2', 'e_1', X ) ), equalish( X, 'e_3' ), ~(
% 0.46/1.16 cycle( 'e_2', 'e_2' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 129, [ ~( product( 'e_2', 'e_1', X ) ), equalish( X, 'e_3' ), ~(
% 0.46/1.16 cycle( 'e_2', 'e_1' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 106, [ ~( product( 'e_2', 'e_1', Y ) ), ~( cycle( 'e_2', X ) ),
% 0.46/1.16 equalish( Y, 'e_3' ), ~( greater( X, 'e_0' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 45, [ ~( next( X, X ) ), ~( greater( Y, 'e_0' ) ), ~( cycle( X, Y )
% 0.46/1.16 ), equalish( Y, Z ), ~( next( Y, Z ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 124, [ ~( product( 'e_3', 'e_1', X ) ), equalish( X, 'e_4' ), ~(
% 0.46/1.16 cycle( 'e_3', 'e_1' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 105, [ ~( product( 'e_3', 'e_1', Y ) ), ~( cycle( 'e_3', X ) ),
% 0.46/1.16 equalish( Y, 'e_4' ), ~( greater( X, 'e_0' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 43, [ equalish( Y, U ), ~( product( W, Y, X ) ), ~( product( T, U,
% 0.46/1.16 Z ) ), ~( product( X, Y, Z ) ), ~( product( W, U, T ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 72, [ ~( greater( 'e_0', 'e_0' ) ), ~( cycle( X, 'e_0' ) ),
% 0.46/1.16 equalish( 'e_0', 'e_1' ), ~( next( X, X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 42, [ equalish( X, T ), ~( product( W, Y, X ) ), ~( product( T, U,
% 0.46/1.16 Z ) ), ~( product( X, Y, Z ) ), ~( product( W, U, T ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 117, [ ~( cycle( X, 'e_1' ) ), ~( next( X, X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 118, [ equalish( X, Y ), ~( product( X, Y, Y ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 40, [ equalish( X, T ), ~( product( X, Y, Z ) ), ~( product( T, Y,
% 0.46/1.16 Z ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 116, [ ~( cycle( X, 'e_2' ) ), ~( next( X, X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 115, [ equalish( X, Y ), ~( product( Y, X, Y ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 39, [ equalish( Y, T ), ~( product( X, Y, Z ) ), ~( product( X, T,
% 0.46/1.16 Z ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 114, [ ~( cycle( X, 'e_3' ) ), ~( next( X, X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 104, [ ~( product( 'e_3', 'e_1', 'e_4' ) ), ~( cycle( 'e_3', 'e_0'
% 0.46/1.16 ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 113, [ equalish( X, Y ), ~( product( Y, Y, X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 38, [ equalish( Z, T ), ~( product( X, Y, Z ) ), ~( product( X, Y,
% 0.46/1.16 T ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 102, [ ~( product( 'e_2', 'e_1', 'e_3' ) ), ~( cycle( 'e_2', 'e_0'
% 0.46/1.16 ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 37, [ ~( 'group_element'( X ) ), product( X, Y, 'e_4' ), product( X
% 0.46/1.16 , Y, 'e_1' ), product( X, Y, 'e_2' ), product( X, Y, 'e_3' ), ~(
% 0.46/1.16 'group_element'( Y ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 98, [ ~( product( 'e_0', 'e_1', 'e_4' ) ), ~( cycle( 'e_0', 'e_0' )
% 0.46/1.16 ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 97, [ ~( product( 'e_0', 'e_1', 'e_3' ) ), ~( cycle( 'e_0', 'e_0' )
% 0.46/1.16 ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 96, [ ~( product( 'e_0', 'e_1', 'e_2' ) ), ~( cycle( 'e_0', 'e_0' )
% 0.46/1.16 ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 20, [ ~( cycle( X, Y ) ), ~( greater( Y, 'e_0' ) ), ~( product( X,
% 0.46/1.16 'e_1', Z ) ), equalish( Z, T ), ~( next( X, T ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 95, [ ~( product( 'e_0', 'e_1', 'e_1' ) ), ~( cycle( 'e_0', 'e_0' )
% 0.46/1.16 ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 94, [ equalish( X, X ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 19, [ ~( cycle( X, 'e_0' ) ), ~( product( X, 'e_1', Y ) ), ~(
% 0.46/1.16 greater( Y, X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 64, [ equalish( X, 'e_0' ), ~( cycle( 'e_4', X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 18, [ ~( cycle( X, Y ) ), ~( greater( Z, X ) ), ~( greater( Y, U )
% 0.46/1.16 ), ~( cycle( Z, 'e_0' ) ), ~( cycle( T, U ) ), ~( next( Z, T ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 25, [ ~( equalish( 'e_1', 'e_2' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 26, [ ~( equalish( 'e_1', 'e_3' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 27, [ ~( equalish( 'e_1', 'e_4' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 28, [ ~( equalish( 'e_2', 'e_1' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 17, [ ~( next( X, Z ) ), ~( greater( Y, 'e_0' ) ), equalish( Y, U )
% 0.46/1.16 , ~( cycle( Z, T ) ), ~( cycle( X, Y ) ), ~( next( T, U ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 29, [ ~( equalish( 'e_2', 'e_3' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 30, [ ~( equalish( 'e_2', 'e_4' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 31, [ ~( equalish( 'e_3', 'e_1' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 32, [ ~( equalish( 'e_3', 'e_2' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 15, [ cycle( X, 'e_3' ), cycle( X, 'e_0' ), cycle( X, 'e_1' ),
% 0.46/1.16 cycle( X, 'e_2' ), ~( 'group_element'( X ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 33, [ ~( equalish( 'e_3', 'e_4' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 34, [ ~( equalish( 'e_4', 'e_1' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 35, [ ~( equalish( 'e_4', 'e_2' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 36, [ ~( equalish( 'e_4', 'e_3' ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 14, [ ~( cycle( X, Y ) ), equalish( Y, Z ), ~( cycle( X, Z ) ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 41, [ product( X, X, X ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 3, [ next( 'e_3', 'e_4' ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 4, [ greater( 'e_1', 'e_0' ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 5, [ greater( 'e_2', 'e_0' ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 2, [ next( 'e_2', 'e_3' ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 6, [ greater( 'e_3', 'e_0' ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 7, [ greater( 'e_4', 'e_0' ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 8, [ greater( 'e_2', 'e_1' ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 9, [ greater( 'e_3', 'e_1' ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 1, [ next( 'e_1', 'e_2' ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 10, [ greater( 'e_4', 'e_1' ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 11, [ greater( 'e_3', 'e_2' ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 12, [ greater( 'e_4', 'e_2' ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 13, [ greater( 'e_4', 'e_3' ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 0, [ next( 'e_0', 'e_1' ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 16, [ cycle( 'e_4', 'e_0' ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 21, [ 'group_element'( 'e_1' ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 22, [ 'group_element'( 'e_2' ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 23, [ 'group_element'( 'e_3' ) ] )
% 0.46/1.16 .
% 0.46/1.16 clause( 24, [ 'group_element'( 'e_4' ) ] )
% 0.46/1.16 .
% 0.46/1.16
% 0.46/1.16
% 0.46/1.16 % SZS output end Saturation
% 0.46/1.16 end of saturation!
% 0.46/1.16
% 0.46/1.16 Memory use:
% 0.46/1.16
% 0.46/1.16 space for terms: 16030
% 0.46/1.16 space for clauses: 43819
% 0.46/1.16
% 0.46/1.16
% 0.46/1.16 clauses generated: 3576
% 0.46/1.16 clauses kept: 996
% 0.46/1.16 clauses selected: 640
% 0.46/1.16 clauses deleted: 608
% 0.46/1.16 clauses inuse deleted: 252
% 0.46/1.16
% 0.46/1.16 subsentry: 24443
% 0.46/1.16 literals s-matched: 16673
% 0.46/1.16 literals matched: 14460
% 0.46/1.16 full subsumption: 9581
% 0.46/1.16
% 0.46/1.16 checksum: -1932375475
% 0.46/1.16
% 0.46/1.16
% 0.46/1.16 Bliksem ended
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