TSTP Solution File: PUZ056-10.020 by Bliksem---1.12
View Problem
- Process Solution
%------------------------------------------------------------------------------
% File : Bliksem---1.12
% Problem : PUZ056-10.020 : TPTP v8.1.0. Released v7.3.0.
% Transfm : none
% Format : tptp:raw
% Command : bliksem %s
% Computer : n025.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 : Mon Jul 18 17:58:21 EDT 2022
% Result : Timeout 300.01s 300.42s
% Output : None
% Verified :
% SZS Type : -
% Comments :
%------------------------------------------------------------------------------
%----No solution output by system
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.06/0.12 % Problem : PUZ056-10.020 : TPTP v8.1.0. Released v7.3.0.
% 0.06/0.12 % Command : bliksem %s
% 0.11/0.33 % Computer : n025.cluster.edu
% 0.11/0.33 % Model : x86_64 x86_64
% 0.11/0.33 % CPU : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 0.11/0.33 % Memory : 8042.1875MB
% 0.11/0.33 % OS : Linux 3.10.0-693.el7.x86_64
% 0.11/0.33 % CPULimit : 300
% 0.11/0.33 % DateTime : Sun May 29 01:00:56 EDT 2022
% 0.11/0.33 % CPUTime :
% 0.76/1.12 *** allocated 10000 integers for termspace/termends
% 0.76/1.12 *** allocated 10000 integers for clauses
% 0.76/1.12 *** allocated 10000 integers for justifications
% 0.76/1.12 Bliksem 1.12
% 0.76/1.12
% 0.76/1.12
% 0.76/1.12 Automatic Strategy Selection
% 0.76/1.12
% 0.76/1.12 Clauses:
% 0.76/1.12 [
% 0.76/1.12 [ =( ifeq2( X, X, Y, Z ), Y ) ],
% 0.76/1.12 [ =( ifeq( X, X, Y, Z ), Y ) ],
% 0.76/1.12 [ =( ifeq2( p( X, Y, Z, T, U, W, V0, V1, V2, V3, V4, V5, V6, V7, V8, V9
% 0.76/1.12 , V10, V11, V12, V13 ), true, p( V14, Y, Z, T, U, W, V0, V1, V2, V3, V4,
% 0.76/1.12 V5, V6, V7, V8, V9, V10, V11, V12, V13 ), true ), true ) ],
% 0.76/1.12 [ =( ifeq2( neq( X, Y ), true, ifeq2( neq( X, Z ), true, ifeq2( p( X, Z
% 0.76/1.12 , T, U, W, V0, V1, V2, V3, V4, V5, V6, V7, V8, V9, V10, V11, V12, V13,
% 0.76/1.12 V14 ), true, p( X, Y, T, U, W, V0, V1, V2, V3, V4, V5, V6, V7, V8, V9,
% 0.76/1.12 V10, V11, V12, V13, V14 ), true ), true ), true ), true ) ],
% 0.76/1.12 [ =( ifeq2( neq( X, Y ), true, ifeq2( neq( X, Z ), true, ifeq2( neq( T,
% 0.76/1.12 Y ), true, ifeq2( neq( T, Z ), true, ifeq2( p( T, X, Z, U, W, V0, V1, V2
% 0.76/1.12 , V3, V4, V5, V6, V7, V8, V9, V10, V11, V12, V13, V14 ), true, p( T, X, Y
% 0.76/1.12 , U, W, V0, V1, V2, V3, V4, V5, V6, V7, V8, V9, V10, V11, V12, V13, V14 )
% 0.76/1.12 , true ), true ), true ), true ), true ), true ) ],
% 0.76/1.12 [ =( ifeq2( neq( X, Y ), true, ifeq2( neq( X, Z ), true, ifeq2( neq( T,
% 0.76/1.12 Y ), true, ifeq2( neq( T, Z ), true, ifeq2( neq( U, Y ), true, ifeq2( neq(
% 0.76/1.12 U, Z ), true, ifeq2( p( U, T, X, Z, W, V0, V1, V2, V3, V4, V5, V6, V7, V8
% 0.76/1.12 , V9, V10, V11, V12, V13, V14 ), true, p( U, T, X, Y, W, V0, V1, V2, V3,
% 0.76/1.12 V4, V5, V6, V7, V8, V9, V10, V11, V12, V13, V14 ), true ), true ), true )
% 0.76/1.12 , true ), true ), true ), true ), true ) ],
% 0.76/1.12 [ =( ifeq2( neq( X, Y ), true, ifeq2( neq( X, Z ), true, ifeq2( neq( T,
% 0.76/1.12 Y ), true, ifeq2( neq( T, Z ), true, ifeq2( neq( U, Y ), true, ifeq2( neq(
% 0.76/1.12 U, Z ), true, ifeq2( neq( W, Y ), true, ifeq2( neq( W, Z ), true, ifeq2(
% 0.76/1.12 p( W, U, T, X, Z, V0, V1, V2, V3, V4, V5, V6, V7, V8, V9, V10, V11, V12,
% 0.76/1.12 V13, V14 ), true, p( W, U, T, X, Y, V0, V1, V2, V3, V4, V5, V6, V7, V8,
% 0.76/1.12 V9, V10, V11, V12, V13, V14 ), true ), true ), true ), true ), true ),
% 0.76/1.12 true ), true ), true ), true ), true ) ],
% 0.76/1.12 [ =( ifeq2( neq( X, Y ), true, ifeq2( neq( X, Z ), true, ifeq2( neq( T,
% 0.76/1.12 Y ), true, ifeq2( neq( T, Z ), true, ifeq2( neq( U, Y ), true, ifeq2( neq(
% 0.76/1.12 U, Z ), true, ifeq2( neq( W, Y ), true, ifeq2( neq( W, Z ), true, ifeq2(
% 0.76/1.12 neq( V0, Y ), true, ifeq2( neq( V0, Z ), true, ifeq2( p( V0, W, U, T, X,
% 0.76/1.12 Z, V1, V2, V3, V4, V5, V6, V7, V8, V9, V10, V11, V12, V13, V14 ), true, p(
% 0.76/1.12 V0, W, U, T, X, Y, V1, V2, V3, V4, V5, V6, V7, V8, V9, V10, V11, V12, V13
% 0.76/1.12 , V14 ), true ), true ), true ), true ), true ), true ), true ), true ),
% 0.76/1.12 true ), true ), true ), true ) ],
% 0.76/1.12 [ =( ifeq2( neq( X, Y ), true, ifeq2( neq( X, Z ), true, ifeq2( neq( T,
% 0.76/1.12 Y ), true, ifeq2( neq( T, Z ), true, ifeq2( neq( U, Y ), true, ifeq2( neq(
% 0.76/1.12 U, Z ), true, ifeq2( neq( W, Y ), true, ifeq2( neq( W, Z ), true, ifeq2(
% 0.76/1.12 neq( V0, Y ), true, ifeq2( neq( V0, Z ), true, ifeq2( neq( V1, Y ), true
% 0.76/1.12 , ifeq2( neq( V1, Z ), true, ifeq2( p( V1, V0, W, U, T, X, Z, V2, V3, V4
% 0.76/1.12 , V5, V6, V7, V8, V9, V10, V11, V12, V13, V14 ), true, p( V1, V0, W, U, T
% 0.76/1.12 , X, Y, V2, V3, V4, V5, V6, V7, V8, V9, V10, V11, V12, V13, V14 ), true )
% 0.76/1.12 , true ), true ), true ), true ), true ), true ), true ), true ), true )
% 0.76/1.12 , true ), true ), true ), true ) ],
% 0.76/1.12 [ =( ifeq2( neq( X, Y ), true, ifeq2( neq( X, Z ), true, ifeq2( neq( T,
% 0.76/1.12 Y ), true, ifeq2( neq( T, Z ), true, ifeq2( neq( U, Y ), true, ifeq2( neq(
% 0.76/1.12 U, Z ), true, ifeq2( neq( W, Y ), true, ifeq2( neq( W, Z ), true, ifeq2(
% 0.76/1.12 neq( V0, Y ), true, ifeq2( neq( V0, Z ), true, ifeq2( neq( V1, Y ), true
% 0.76/1.12 , ifeq2( neq( V1, Z ), true, ifeq2( neq( V2, Y ), true, ifeq2( neq( V2, Z
% 0.76/1.12 ), true, ifeq2( p( V2, V1, V0, W, U, T, X, Z, V3, V4, V5, V6, V7, V8, V9
% 0.76/1.12 , V10, V11, V12, V13, V14 ), true, p( V2, V1, V0, W, U, T, X, Y, V3, V4,
% 0.76/1.12 V5, V6, V7, V8, V9, V10, V11, V12, V13, V14 ), true ), true ), true ),
% 0.76/1.12 true ), true ), true ), true ), true ), true ), true ), true ), true ),
% 0.76/1.12 true ), true ), true ), true ) ],
% 0.76/1.12 [ =( ifeq2( neq( X, Y ), true, ifeq2( neq( X, Z ), true, ifeq2( neq( T,
% 0.76/1.12 Y ), true, ifeq2( neq( T, Z ), true, ifeq2( neq( U, Y ), true, ifeq2( neq(
% 0.76/1.12 U, Z ), true, ifeq2( neq( W, Y ), true, ifeq2( neq( W, Z ), true, ifeq2(
% 0.76/1.12 neq( V0, Y ), true, ifeq2( neq( V0, Z ), true, ifeq2( neq( V1, Y ), true
% 0.76/1.12 , ifeq2( neq( V1, Z ), true, ifeq2( neq( V2, Y ), true, ifeq2( neq( V2, Z
% 0.76/1.12 ), true, ifeq2( neq( V3, Y ), true, ifeq2( neq( V3, Z ), true, ifeq2( p(
% 0.76/1.12 V3, V2, V1, V0, W, U, T, X, Z, V4, V5, V6, V7, V8, V9, V10, V11, V12, V13
% 0.76/1.12 , V14 ), true, p( V3, V2, V1, V0, W, U, T, X, Y, V4, V5, V6, V7, V8, V9,
% 0.76/1.12 V10, V11, V12, V13, V14 ), true ), true ), true ), true ), true ), true )
% 0.76/1.12 , true ), true ), true ), true ), true ), true ), true ), true ), true )
% 0.76/1.12 , true ), true ), true ) ],
% 0.76/1.12 [ =( ifeq2( neq( X, Y ), true, ifeq2( neq( X, Z ), true, ifeq2( neq( T,
% 0.76/1.12 Y ), true, ifeq2( neq( T, Z ), true, ifeq2( neq( U, Y ), true, ifeq2( neq(
% 0.76/1.12 U, Z ), true, ifeq2( neq( W, Y ), true, ifeq2( neq( W, Z ), true, ifeq2(
% 0.76/1.12 neq( V0, Y ), true, ifeq2( neq( V0, Z ), true, ifeq2( neq( V1, Y ), true
% 0.76/1.12 , ifeq2( neq( V1, Z ), true, ifeq2( neq( V2, Y ), true, ifeq2( neq( V2, Z
% 0.76/1.12 ), true, ifeq2( neq( V3, Y ), true, ifeq2( neq( V3, Z ), true, ifeq2(
% 0.76/1.12 neq( V4, Y ), true, ifeq2( neq( V4, Z ), true, ifeq2( p( V4, V3, V2, V1,
% 0.76/1.12 V0, W, U, T, X, Z, V5, V6, V7, V8, V9, V10, V11, V12, V13, V14 ), true, p(
% 0.76/1.12 V4, V3, V2, V1, V0, W, U, T, X, Y, V5, V6, V7, V8, V9, V10, V11, V12, V13
% 0.76/1.12 , V14 ), true ), true ), true ), true ), true ), true ), true ), true ),
% 0.76/1.12 true ), true ), true ), true ), true ), true ), true ), true ), true ),
% 0.76/1.12 true ), true ), true ) ],
% 0.76/1.12 [ =( ifeq2( neq( X, Y ), true, ifeq2( neq( X, Z ), true, ifeq2( neq( T,
% 0.76/1.12 Y ), true, ifeq2( neq( T, Z ), true, ifeq2( neq( U, Y ), true, ifeq2( neq(
% 0.76/1.12 U, Z ), true, ifeq2( neq( W, Y ), true, ifeq2( neq( W, Z ), true, ifeq2(
% 0.76/1.12 neq( V0, Y ), true, ifeq2( neq( V0, Z ), true, ifeq2( neq( V1, Y ), true
% 0.76/1.12 , ifeq2( neq( V1, Z ), true, ifeq2( neq( V2, Y ), true, ifeq2( neq( V2, Z
% 0.76/1.12 ), true, ifeq2( neq( V3, Y ), true, ifeq2( neq( V3, Z ), true, ifeq2(
% 0.76/1.12 neq( V4, Y ), true, ifeq2( neq( V4, Z ), true, ifeq2( neq( V5, Y ), true
% 0.76/1.12 , ifeq2( neq( V5, Z ), true, ifeq2( p( V5, V4, V3, V2, V1, V0, W, U, T, X
% 0.76/1.12 , Z, V6, V7, V8, V9, V10, V11, V12, V13, V14 ), true, p( V5, V4, V3, V2,
% 0.76/1.12 V1, V0, W, U, T, X, Y, V6, V7, V8, V9, V10, V11, V12, V13, V14 ), true )
% 0.76/1.12 , true ), true ), true ), true ), true ), true ), true ), true ), true )
% 0.76/1.12 , true ), true ), true ), true ), true ), true ), true ), true ), true )
% 0.76/1.12 , true ), true ), true ) ],
% 0.76/1.12 [ =( ifeq2( neq( X, Y ), true, ifeq2( neq( X, Z ), true, ifeq2( neq( T,
% 0.76/1.12 Y ), true, ifeq2( neq( T, Z ), true, ifeq2( neq( U, Y ), true, ifeq2( neq(
% 0.76/1.12 U, Z ), true, ifeq2( neq( W, Y ), true, ifeq2( neq( W, Z ), true, ifeq2(
% 0.76/1.12 neq( V0, Y ), true, ifeq2( neq( V0, Z ), true, ifeq2( neq( V1, Y ), true
% 0.76/1.12 , ifeq2( neq( V1, Z ), true, ifeq2( neq( V2, Y ), true, ifeq2( neq( V2, Z
% 0.76/1.12 ), true, ifeq2( neq( V3, Y ), true, ifeq2( neq( V3, Z ), true, ifeq2(
% 0.76/1.12 neq( V4, Y ), true, ifeq2( neq( V4, Z ), true, ifeq2( neq( V5, Y ), true
% 0.76/1.12 , ifeq2( neq( V5, Z ), true, ifeq2( neq( V6, Y ), true, ifeq2( neq( V6, Z
% 0.76/1.12 ), true, ifeq2( p( V6, V5, V4, V3, V2, V1, V0, W, U, T, X, Z, V7, V8, V9
% 0.76/1.12 , V10, V11, V12, V13, V14 ), true, p( V6, V5, V4, V3, V2, V1, V0, W, U, T
% 0.76/1.12 , X, Y, V7, V8, V9, V10, V11, V12, V13, V14 ), true ), true ), true ),
% 0.76/1.12 true ), true ), true ), true ), true ), true ), true ), true ), true ),
% 0.76/1.12 true ), true ), true ), true ), true ), true ), true ), true ), true ),
% 0.76/1.12 true ), true ), true ) ],
% 0.76/1.12 [ =( ifeq2( neq( X, Y ), true, ifeq2( neq( X, Z ), true, ifeq2( neq( T,
% 0.76/1.12 Y ), true, ifeq2( neq( T, Z ), true, ifeq2( neq( U, Y ), true, ifeq2( neq(
% 0.76/1.12 U, Z ), true, ifeq2( neq( W, Y ), true, ifeq2( neq( W, Z ), true, ifeq2(
% 0.76/1.12 neq( V0, Y ), true, ifeq2( neq( V0, Z ), true, ifeq2( neq( V1, Y ), true
% 0.76/1.12 , ifeq2( neq( V1, Z ), true, ifeq2( neq( V2, Y ), true, ifeq2( neq( V2, Z
% 0.76/1.12 ), true, ifeq2( neq( V3, Y ), true, ifeq2( neq( V3, Z ), true, ifeq2(
% 0.76/1.12 neq( V4, Y ), true, ifeq2( neq( V4, Z ), true, ifeq2( neq( V5, Y ), true
% 0.76/1.12 , ifeq2( neq( V5, Z ), true, ifeq2( neq( V6, Y ), true, ifeq2( neq( V6, Z
% 0.76/1.12 ), true, ifeq2( neq( V7, Y ), true, ifeq2( neq( V7, Z ), true, ifeq2( p(
% 0.76/1.12 V7, V6, V5, V4, V3, V2, V1, V0, W, U, T, X, Z, V8, V9, V10, V11, V12, V13
% 0.76/1.12 , V14 ), true, p( V7, V6, V5, V4, V3, V2, V1, V0, W, U, T, X, Y, V8, V9,
% 0.76/1.12 V10, V11, V12, V13, V14 ), true ), true ), true ), true ), true ), true )
% 0.76/1.12 , true ), true ), true ), true ), true ), true ), true ), true ), true )
% 0.76/1.12 , true ), true ), true ), true ), true ), true ), true ), true ), true )
% 0.76/1.12 , true ), true ) ],
% 0.76/1.12 [ =( ifeq2( neq( X, Y ), true, ifeq2( neq( X, Z ), true, ifeq2( neq( T,
% 0.76/1.12 Y ), true, ifeq2( neq( T, Z ), true, ifeq2( neq( U, Y ), true, ifeq2( neq(
% 0.76/1.12 U, Z ), true, ifeq2( neq( W, Y ), true, ifeq2( neq( W, Z ), true, ifeq2(
% 0.76/1.12 neq( V0, Y ), true, ifeq2( neq( V0, Z ), true, ifeq2( neq( V1, Y ), true
% 0.76/1.12 , ifeq2( neq( V1, Z ), true, ifeq2( neq( V2, Y ), true, ifeq2( neq( V2, Z
% 0.76/1.12 ), true, ifeq2( neq( V3, Y ), true, ifeq2( neq( V3, Z ), true, ifeq2(
% 0.76/1.12 neq( V4, Y ), true, ifeq2( neq( V4, Z ), true, ifeq2( neq( V5, Y ), true
% 0.76/1.12 , ifeq2( neq( V5, Z ), true, ifeq2( neq( V6, Y ), true, ifeq2( neq( V6, Z
% 0.76/1.12 ), true, ifeq2( neq( V7, Y ), true, ifeq2( neq( V7, Z ), true, ifeq2(
% 0.76/1.12 neq( V8, Y ), true, ifeq2( neq( V8, Z ), true, ifeq2( p( V8, V7, V6, V5,
% 0.76/1.12 V4, V3, V2, V1, V0, W, U, T, X, Z, V9, V10, V11, V12, V13, V14 ), true, p(
% 0.76/1.12 V8, V7, V6, V5, V4, V3, V2, V1, V0, W, U, T, X, Y, V9, V10, V11, V12, V13
% 0.76/1.12 , V14 ), true ), true ), true ), true ), true ), true ), true ), true ),
% 0.76/1.12 true ), true ), true ), true ), true ), true ), true ), true ), true ),
% 0.76/1.12 true ), true ), true ), true ), true ), true ), true ), true ), true ),
% 0.76/1.12 true ), true ) ],
% 0.76/1.12 [ =( ifeq2( neq( X, Y ), true, ifeq2( neq( X, Z ), true, ifeq2( neq( T,
% 0.76/1.12 Y ), true, ifeq2( neq( T, Z ), true, ifeq2( neq( U, Y ), true, ifeq2( neq(
% 0.76/1.12 U, Z ), true, ifeq2( neq( W, Y ), true, ifeq2( neq( W, Z ), true, ifeq2(
% 0.76/1.12 neq( V0, Y ), true, ifeq2( neq( V0, Z ), true, ifeq2( neq( V1, Y ), true
% 0.76/1.12 , ifeq2( neq( V1, Z ), true, ifeq2( neq( V2, Y ), true, ifeq2( neq( V2, Z
% 0.76/1.12 ), true, ifeq2( neq( V3, Y ), true, ifeq2( neq( V3, Z ), true, ifeq2(
% 0.76/1.12 neq( V4, Y ), true, ifeq2( neq( V4, Z ), true, ifeq2( neq( V5, Y ), true
% 0.76/1.12 , ifeq2( neq( V5, Z ), true, ifeq2( neq( V6, Y ), true, ifeq2( neq( V6, Z
% 0.76/1.12 ), true, ifeq2( neq( V7, Y ), true, ifeq2( neq( V7, Z ), true, ifeq2(
% 0.76/1.12 neq( V8, Y ), true, ifeq2( neq( V8, Z ), true, ifeq2( neq( V9, Y ), true
% 0.76/1.12 , ifeq2( neq( V9, Z ), true, ifeq2( p( V9, V8, V7, V6, V5, V4, V3, V2, V1
% 0.76/1.12 , V0, W, U, T, X, Z, V10, V11, V12, V13, V14 ), true, p( V9, V8, V7, V6,
% 0.76/1.12 V5, V4, V3, V2, V1, V0, W, U, T, X, Y, V10, V11, V12, V13, V14 ), true )
% 0.76/1.12 , true ), true ), true ), true ), true ), true ), true ), true ), true )
% 0.76/1.12 , true ), true ), true ), true ), true ), true ), true ), true ), true )
% 0.76/1.12 , true ), true ), true ), true ), true ), true ), true ), true ), true )
% 0.76/1.12 , true ), true ) ],
% 0.76/1.12 [ =( ifeq2( neq( X, Y ), true, ifeq2( neq( X, Z ), true, ifeq2( neq( T,
% 0.76/1.12 Y ), true, ifeq2( neq( T, Z ), true, ifeq2( neq( U, Y ), true, ifeq2( neq(
% 0.76/1.12 U, Z ), true, ifeq2( neq( W, Y ), true, ifeq2( neq( W, Z ), true, ifeq2(
% 0.76/1.12 neq( V0, Y ), true, ifeq2( neq( V0, Z ), true, ifeq2( neq( V1, Y ), true
% 0.76/1.12 , ifeq2( neq( V1, Z ), true, ifeq2( neq( V2, Y ), true, ifeq2( neq( V2, Z
% 0.76/1.12 ), true, ifeq2( neq( V3, Y ), true, ifeq2( neq( V3, Z ), true, ifeq2(
% 0.76/1.12 neq( V4, Y ), true, ifeq2( neq( V4, Z ), true, ifeq2( neq( V5, Y ), true
% 0.76/1.12 , ifeq2( neq( V5, Z ), true, ifeq2( neq( V6, Y ), true, ifeq2( neq( V6, Z
% 0.76/1.12 ), true, ifeq2( neq( V7, Y ), true, ifeq2( neq( V7, Z ), true, ifeq2(
% 0.76/1.12 neq( V8, Y ), true, ifeq2( neq( V8, Z ), true, ifeq2( neq( V9, Y ), true
% 0.76/1.12 , ifeq2( neq( V9, Z ), true, ifeq2( neq( V10, Y ), true, ifeq2( neq( V10
% 0.76/1.12 , Z ), true, ifeq2( p( V10, V9, V8, V7, V6, V5, V4, V3, V2, V1, V0, W, U
% 0.76/1.12 , T, X, Z, V11, V12, V13, V14 ), true, p( V10, V9, V8, V7, V6, V5, V4, V3
% 0.76/1.12 , V2, V1, V0, W, U, T, X, Y, V11, V12, V13, V14 ), true ), true ), true )
% 0.76/1.12 , true ), true ), true ), true ), true ), true ), true ), true ), true )
% 0.76/1.12 , true ), true ), true ), true ), true ), true ), true ), true ), true )
% 0.76/1.12 , true ), true ), true ), true ), true ), true ), true ), true ), true )
% 0.76/1.12 , true ), true ) ],
% 0.76/1.12 [ =( ifeq2( neq( X, Y ), true, ifeq2( neq( X, Z ), true, ifeq2( neq( T,
% 0.76/1.12 Y ), true, ifeq2( neq( T, Z ), true, ifeq2( neq( U, Y ), true, ifeq2( neq(
% 0.76/1.12 U, Z ), true, ifeq2( neq( W, Y ), true, ifeq2( neq( W, Z ), true, ifeq2(
% 0.76/1.12 neq( V0, Y ), true, ifeq2( neq( V0, Z ), true, ifeq2( neq( V1, Y ), true
% 0.76/1.12 , ifeq2( neq( V1, Z ), true, ifeq2( neq( V2, Y ), true, ifeq2( neq( V2, Z
% 0.76/1.12 ), true, ifeq2( neq( V3, Y ), true, ifeq2( neq( V3, Z ), true, ifeq2(
% 0.76/1.12 neq( V4, Y ), true, ifeq2( neq( V4, Z ), true, ifeq2( neq( V5, Y ), true
% 0.76/1.12 , ifeq2( neq( V5, Z ), true, ifeq2( neq( V6, Y ), true, ifeq2( neq( V6, Z
% 0.76/1.12 ), true, ifeq2( neq( V7, Y ), true, ifeq2( neq( V7, Z ), true, ifeq2(
% 0.76/1.12 neq( V8, Y ), true, ifeq2( neq( V8, Z ), true, ifeq2( neq( V9, Y ), true
% 0.76/1.12 , ifeq2( neq( V9, Z ), true, ifeq2( neq( V10, Y ), true, ifeq2( neq( V10
% 0.76/1.12 , Z ), true, ifeq2( neq( V11, Y ), true, ifeq2( neq( V11, Z ), true,
% 0.76/1.12 ifeq2( p( V11, V10, V9, V8, V7, V6, V5, V4, V3, V2, V1, V0, W, U, T, X, Z
% 0.76/1.12 , V12, V13, V14 ), true, p( V11, V10, V9, V8, V7, V6, V5, V4, V3, V2, V1
% 0.76/1.12 , V0, W, U, T, X, Y, V12, V13, V14 ), true ), true ), true ), true ),
% 0.76/1.12 true ), true ), true ), true ), true ), true ), true ), true ), true ),
% 0.76/1.12 true ), true ), true ), true ), true ), true ), true ), true ), true ),
% 0.76/1.12 true ), true ), true ), true ), true ), true ), true ), true ), true ),
% 0.76/1.12 true ), true ), true ) ],
% 0.76/1.12 [ =( ifeq2( neq( X, Y ), true, ifeq2( neq( X, Z ), true, ifeq2( neq( T,
% 0.76/1.12 Y ), true, ifeq2( neq( T, Z ), true, ifeq2( neq( U, Y ), true, ifeq2( neq(
% 0.76/1.12 U, Z ), true, ifeq2( neq( W, Y ), true, ifeq2( neq( W, Z ), true, ifeq2(
% 0.76/1.12 neq( V0, Y ), true, ifeq2( neq( V0, Z ), true, ifeq2( neq( V1, Y ), true
% 0.76/1.12 , ifeq2( neq( V1, Z ), true, ifeq2( neq( V2, Y ), true, ifeq2( neq( V2, Z
% 0.76/1.12 ), true, ifeq2( neq( V3, Y ), true, ifeq2( neq( V3, Z ), true, ifeq2(
% 0.76/1.12 neq( V4, Y ), true, ifeq2( neq( V4, Z ), true, ifeq2( neq( V5, Y ), true
% 0.76/1.12 , ifeq2( neq( V5, Z ), true, ifeq2( neq( V6, Y ), true, ifeq2( neq( V6, Z
% 0.76/1.12 ), true, ifeq2( neq( V7, Y ), true, ifeq2( neq( V7, Z ), true, ifeq2(
% 0.76/1.12 neq( V8, Y ), true, ifeq2( neq( V8, Z ), true, ifeq2( neq( V9, Y ), true
% 0.76/1.12 , ifeq2( neq( V9, Z ), true, ifeq2( neq( V10, Y ), true, ifeq2( neq( V10
% 0.76/1.12 , Z ), true, ifeq2( neq( V11, Y ), true, ifeq2( neq( V11, Z ), true,
% 0.76/1.12 ifeq2( neq( V12, Y ), true, ifeq2( neq( V12, Z ), true, ifeq2( p( V12,
% 0.76/1.12 V11, V10, V9, V8, V7, V6, V5, V4, V3, V2, V1, V0, W, U, T, X, Z, V13, V14
% 0.76/1.12 ), true, p( V12, V11, V10, V9, V8, V7, V6, V5, V4, V3, V2, V1, V0, W, U
% 0.76/1.12 , T, X, Y, V13, V14 ), true ), true ), true ), true ), true ), true ),
% 0.76/1.12 true ), true ), true ), true ), true ), true ), true ), true ), true ),
% 0.76/1.12 true ), true ), true ), true ), true ), true ), true ), true ), true ),
% 0.76/1.12 true ), true ), true ), true ), true ), true ), true ), true ), true ),
% 0.76/1.12 true ), true ), true ) ],
% 0.76/1.12 [ =( ifeq2( neq( X, Y ), true, ifeq2( neq( X, Z ), true, ifeq2( neq( T,
% 0.76/1.12 Y ), true, ifeq2( neq( T, Z ), true, ifeq2( neq( U, Y ), true, ifeq2( neq(
% 0.76/1.12 U, Z ), true, ifeq2( neq( W, Y ), true, ifeq2( neq( W, Z ), true, ifeq2(
% 0.76/1.12 neq( V0, Y ), true, ifeq2( neq( V0, Z ), true, ifeq2( neq( V1, Y ), true
% 0.76/1.12 , ifeq2( neq( V1, Z ), true, ifeq2( neq( V2, Y ), true, ifeq2( neq( V2, Z
% 0.76/1.12 ), true, ifeq2( neq( V3, Y ), true, ifeq2( neq( V3, Z ), true, ifeq2(
% 0.76/1.12 neq( V4, Y ), true, ifeq2( neq( V4, Z ), true, ifeq2( neq( V5, Y ), true
% 0.76/1.12 , ifeq2( neq( V5, Z ), true, ifeq2( neq( V6, Y ), true, ifeq2( neq( V6, Z
% 0.76/1.12 ), true, ifeq2( neq( V7, Y ), true, ifeq2( neq( V7, Z ), true, ifeq2(
% 0.76/1.12 neq( V8, Y ), true, ifeq2( neq( V8, Z ), true, ifeq2( neq( V9, Y ), true
% 0.76/1.12 , ifeq2( neq( V9, Z ), true, ifeq2( neq( V10, Y ), true, ifeq2( neq( V10
% 0.76/1.12 , Z ), true, ifeq2( neq( V11, Y ), true, ifeq2( neq( V11, Z ), true,
% 0.76/1.12 ifeq2( neq( V12, Y ), true, ifeq2( neq( V12, Z ), true, ifeq2( neq( V13,
% 0.76/1.12 Y ), true, ifeq2( neq( V13, Z ), true, ifeq2( p( V13, V12, V11, V10, V9,
% 0.76/1.12 V8, V7, V6, V5, V4, V3, V2, V1, V0, W, U, T, X, Z, V14 ), true, p( V13,
% 0.76/1.12 V12, V11, V10, V9, V8, V7, V6, V5, V4, V3, V2, V1, V0, W, U,Cputime limit exceeded (core dumped)
%------------------------------------------------------------------------------