TSTP Solution File: MGT020+1 by Zipperpin---2.1.9999
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- Process Solution
%------------------------------------------------------------------------------
% File : Zipperpin---2.1.9999
% Problem : MGT020+1 : TPTP v8.1.2. Released v2.0.0.
% Transfm : NO INFORMATION
% Format : NO INFORMATION
% Command : python3 /export/starexec/sandbox/solver/bin/portfolio.lams.parallel.py %s %d /export/starexec/sandbox/tmp/tmp.rxdMj26R6h true
% Computer : n032.cluster.edu
% Model : x86_64 x86_64
% CPU : Intel(R) Xeon(R) CPU E5-2620 v4 2.10GHz
% Memory : 8042.1875MB
% OS : Linux 3.10.0-693.el7.x86_64
% CPULimit : 300s
% WCLimit : 300s
% DateTime : Thu Aug 31 09:19:53 EDT 2023
% Result : Theorem 0.14s 0.62s
% Output : Refutation 0.14s
% Verified :
% SZS Type : Refutation
% Derivation depth : 20
% Number of leaves : 23
% Syntax : Number of formulae : 77 ( 20 unt; 14 typ; 0 def)
% Number of atoms : 156 ( 19 equ; 0 cnn)
% Maximal formula atoms : 7 ( 2 avg)
% Number of connectives : 608 ( 61 ~; 68 |; 12 &; 454 @)
% ( 0 <=>; 13 =>; 0 <=; 0 <~>)
% Maximal formula depth : 16 ( 6 avg)
% Number of types : 2 ( 0 usr)
% Number of type conns : 18 ( 18 >; 0 *; 0 +; 0 <<)
% Number of symbols : 16 ( 14 usr; 5 con; 0-4 aty)
% Number of variables : 52 ( 0 ^; 52 !; 0 ?; 52 :)
% Comments :
%------------------------------------------------------------------------------
thf(difference_type,type,
difference: $i > $i > $i ).
thf(greater_type,type,
greater: $i > $i > $o ).
thf(efficient_producers_type,type,
efficient_producers: $i ).
thf(environment_type,type,
environment: $i > $o ).
thf(decreases_type,type,
decreases: $i > $o ).
thf(sk__type,type,
sk_: $i ).
thf(start_time_type,type,
start_time: $i > $i ).
thf(initial_FM_EP_type,type,
initial_FM_EP: $i > $i ).
thf(sk__1_type,type,
sk__1: $i ).
thf(disbanding_rate_type,type,
disbanding_rate: $i > $i > $i ).
thf(greater_or_equal_type,type,
greater_or_equal: $i > $i > $o ).
thf(subpopulations_type,type,
subpopulations: $i > $i > $i > $i > $o ).
thf(in_environment_type,type,
in_environment: $i > $i > $o ).
thf(first_movers_type,type,
first_movers: $i ).
thf(prove_l2,conjecture,
! [E: $i,T: $i] :
( ( ( environment @ E )
& ( subpopulations @ first_movers @ efficient_producers @ E @ T ) )
=> ( greater @ ( disbanding_rate @ first_movers @ T ) @ ( disbanding_rate @ efficient_producers @ T ) ) ) ).
thf(zf_stmt_0,negated_conjecture,
~ ! [E: $i,T: $i] :
( ( ( environment @ E )
& ( subpopulations @ first_movers @ efficient_producers @ E @ T ) )
=> ( greater @ ( disbanding_rate @ first_movers @ T ) @ ( disbanding_rate @ efficient_producers @ T ) ) ),
inference('cnf.neg',[status(esa)],[prove_l2]) ).
thf(zip_derived_cl11,plain,
~ ( greater @ ( disbanding_rate @ first_movers @ sk__1 ) @ ( disbanding_rate @ efficient_producers @ sk__1 ) ),
inference(cnf,[status(esa)],[zf_stmt_0]) ).
thf(a8,axiom,
! [E: $i] :
( ( environment @ E )
=> ( greater @ ( disbanding_rate @ first_movers @ ( initial_FM_EP @ E ) ) @ ( disbanding_rate @ efficient_producers @ ( initial_FM_EP @ E ) ) ) ) ).
thf(zip_derived_cl9,plain,
! [X0: $i] :
( ( greater @ ( disbanding_rate @ first_movers @ ( initial_FM_EP @ X0 ) ) @ ( disbanding_rate @ efficient_producers @ ( initial_FM_EP @ X0 ) ) )
| ~ ( environment @ X0 ) ),
inference(cnf,[status(esa)],[a8]) ).
thf(zip_derived_cl12,plain,
subpopulations @ first_movers @ efficient_producers @ sk_ @ sk__1,
inference(cnf,[status(esa)],[zf_stmt_0]) ).
thf(mp_earliest_time_point,axiom,
! [E: $i,T: $i] :
( ( environment @ E )
=> ( ( ( in_environment @ E @ ( initial_FM_EP @ E ) )
=> ( subpopulations @ first_movers @ efficient_producers @ E @ ( initial_FM_EP @ E ) ) )
& ( ( subpopulations @ first_movers @ efficient_producers @ E @ T )
=> ( greater_or_equal @ T @ ( initial_FM_EP @ E ) ) ) ) ) ).
thf(zip_derived_cl2,plain,
! [X0: $i,X1: $i] :
( ~ ( environment @ X0 )
| ( greater_or_equal @ X1 @ ( initial_FM_EP @ X0 ) )
| ~ ( subpopulations @ first_movers @ efficient_producers @ X0 @ X1 ) ),
inference(cnf,[status(esa)],[mp_earliest_time_point]) ).
thf(zip_derived_cl20,plain,
( ~ ( environment @ sk_ )
| ( greater_or_equal @ sk__1 @ ( initial_FM_EP @ sk_ ) ) ),
inference('s_sup-',[status(thm)],[zip_derived_cl12,zip_derived_cl2]) ).
thf(zip_derived_cl13,plain,
environment @ sk_,
inference(cnf,[status(esa)],[zf_stmt_0]) ).
thf(zip_derived_cl21,plain,
greater_or_equal @ sk__1 @ ( initial_FM_EP @ sk_ ),
inference(demod,[status(thm)],[zip_derived_cl20,zip_derived_cl13]) ).
thf(mp_greater_or_equal,axiom,
! [X: $i,Y: $i] :
( ( greater_or_equal @ X @ Y )
=> ( ( greater @ X @ Y )
| ( X = Y ) ) ) ).
thf(zip_derived_cl8,plain,
! [X0: $i,X1: $i] :
( ( X1 = X0 )
| ( greater @ X1 @ X0 )
| ~ ( greater_or_equal @ X1 @ X0 ) ),
inference(cnf,[status(esa)],[mp_greater_or_equal]) ).
thf(zip_derived_cl22,plain,
( ( sk__1
= ( initial_FM_EP @ sk_ ) )
| ( greater @ sk__1 @ ( initial_FM_EP @ sk_ ) ) ),
inference('s_sup-',[status(thm)],[zip_derived_cl21,zip_derived_cl8]) ).
thf(mp_initial_time,axiom,
! [E: $i] :
( ( environment @ E )
=> ( greater_or_equal @ ( initial_FM_EP @ E ) @ ( start_time @ E ) ) ) ).
thf(zip_derived_cl5,plain,
! [X0: $i] :
( ( greater_or_equal @ ( initial_FM_EP @ X0 ) @ ( start_time @ X0 ) )
| ~ ( environment @ X0 ) ),
inference(cnf,[status(esa)],[mp_initial_time]) ).
thf(mp_times_in_order,axiom,
! [E: $i,T1: $i,T2: $i] :
( ( ( environment @ E )
& ( greater_or_equal @ T1 @ ( start_time @ E ) )
& ( greater @ T2 @ T1 )
& ( in_environment @ E @ T2 ) )
=> ( in_environment @ E @ T1 ) ) ).
thf(zip_derived_cl6,plain,
! [X0: $i,X1: $i,X2: $i] :
( ( in_environment @ X0 @ X1 )
| ~ ( greater_or_equal @ X1 @ ( start_time @ X0 ) )
| ~ ( environment @ X0 )
| ~ ( greater @ X2 @ X1 )
| ~ ( in_environment @ X0 @ X2 ) ),
inference(cnf,[status(esa)],[mp_times_in_order]) ).
thf(zip_derived_cl24,plain,
! [X0: $i,X1: $i] :
( ~ ( environment @ X0 )
| ( in_environment @ X0 @ ( initial_FM_EP @ X0 ) )
| ~ ( environment @ X0 )
| ~ ( greater @ X1 @ ( initial_FM_EP @ X0 ) )
| ~ ( in_environment @ X0 @ X1 ) ),
inference('s_sup-',[status(thm)],[zip_derived_cl5,zip_derived_cl6]) ).
thf(zip_derived_cl25,plain,
! [X0: $i,X1: $i] :
( ~ ( in_environment @ X0 @ X1 )
| ~ ( greater @ X1 @ ( initial_FM_EP @ X0 ) )
| ( in_environment @ X0 @ ( initial_FM_EP @ X0 ) )
| ~ ( environment @ X0 ) ),
inference(simplify,[status(thm)],[zip_derived_cl24]) ).
thf(zip_derived_cl38,plain,
( ( sk__1
= ( initial_FM_EP @ sk_ ) )
| ~ ( in_environment @ sk_ @ sk__1 )
| ( in_environment @ sk_ @ ( initial_FM_EP @ sk_ ) )
| ~ ( environment @ sk_ ) ),
inference('s_sup-',[status(thm)],[zip_derived_cl22,zip_derived_cl25]) ).
thf(zip_derived_cl12_001,plain,
subpopulations @ first_movers @ efficient_producers @ sk_ @ sk__1,
inference(cnf,[status(esa)],[zf_stmt_0]) ).
thf(mp_time_point_occurs,axiom,
! [E: $i,T: $i] :
( ( ( environment @ E )
& ( subpopulations @ first_movers @ efficient_producers @ E @ T ) )
=> ( in_environment @ E @ T ) ) ).
thf(zip_derived_cl4,plain,
! [X0: $i,X1: $i] :
( ~ ( environment @ X0 )
| ~ ( subpopulations @ first_movers @ efficient_producers @ X0 @ X1 )
| ( in_environment @ X0 @ X1 ) ),
inference(cnf,[status(esa)],[mp_time_point_occurs]) ).
thf(zip_derived_cl16,plain,
( ~ ( environment @ sk_ )
| ( in_environment @ sk_ @ sk__1 ) ),
inference('s_sup-',[status(thm)],[zip_derived_cl12,zip_derived_cl4]) ).
thf(zip_derived_cl13_002,plain,
environment @ sk_,
inference(cnf,[status(esa)],[zf_stmt_0]) ).
thf(zip_derived_cl17,plain,
in_environment @ sk_ @ sk__1,
inference(demod,[status(thm)],[zip_derived_cl16,zip_derived_cl13]) ).
thf(zip_derived_cl13_003,plain,
environment @ sk_,
inference(cnf,[status(esa)],[zf_stmt_0]) ).
thf(zip_derived_cl39,plain,
( ( sk__1
= ( initial_FM_EP @ sk_ ) )
| ( in_environment @ sk_ @ ( initial_FM_EP @ sk_ ) ) ),
inference(demod,[status(thm)],[zip_derived_cl38,zip_derived_cl17,zip_derived_cl13]) ).
thf(zip_derived_cl1,plain,
! [X0: $i] :
( ~ ( environment @ X0 )
| ( subpopulations @ first_movers @ efficient_producers @ X0 @ ( initial_FM_EP @ X0 ) )
| ~ ( in_environment @ X0 @ ( initial_FM_EP @ X0 ) ) ),
inference(cnf,[status(esa)],[mp_earliest_time_point]) ).
thf(zip_derived_cl40,plain,
( ( sk__1
= ( initial_FM_EP @ sk_ ) )
| ~ ( environment @ sk_ )
| ( subpopulations @ first_movers @ efficient_producers @ sk_ @ ( initial_FM_EP @ sk_ ) ) ),
inference('s_sup-',[status(thm)],[zip_derived_cl39,zip_derived_cl1]) ).
thf(zip_derived_cl13_004,plain,
environment @ sk_,
inference(cnf,[status(esa)],[zf_stmt_0]) ).
thf(zip_derived_cl41,plain,
( ( sk__1
= ( initial_FM_EP @ sk_ ) )
| ( subpopulations @ first_movers @ efficient_producers @ sk_ @ ( initial_FM_EP @ sk_ ) ) ),
inference(demod,[status(thm)],[zip_derived_cl40,zip_derived_cl13]) ).
thf(zip_derived_cl2_005,plain,
! [X0: $i,X1: $i] :
( ~ ( environment @ X0 )
| ( greater_or_equal @ X1 @ ( initial_FM_EP @ X0 ) )
| ~ ( subpopulations @ first_movers @ efficient_producers @ X0 @ X1 ) ),
inference(cnf,[status(esa)],[mp_earliest_time_point]) ).
thf(zip_derived_cl43,plain,
( ( sk__1
= ( initial_FM_EP @ sk_ ) )
| ~ ( environment @ sk_ )
| ( greater_or_equal @ ( initial_FM_EP @ sk_ ) @ ( initial_FM_EP @ sk_ ) ) ),
inference('s_sup-',[status(thm)],[zip_derived_cl41,zip_derived_cl2]) ).
thf(zip_derived_cl13_006,plain,
environment @ sk_,
inference(cnf,[status(esa)],[zf_stmt_0]) ).
thf(zip_derived_cl48,plain,
( ( sk__1
= ( initial_FM_EP @ sk_ ) )
| ( greater_or_equal @ ( initial_FM_EP @ sk_ ) @ ( initial_FM_EP @ sk_ ) ) ),
inference(demod,[status(thm)],[zip_derived_cl43,zip_derived_cl13]) ).
thf(zip_derived_cl41_007,plain,
( ( sk__1
= ( initial_FM_EP @ sk_ ) )
| ( subpopulations @ first_movers @ efficient_producers @ sk_ @ ( initial_FM_EP @ sk_ ) ) ),
inference(demod,[status(thm)],[zip_derived_cl40,zip_derived_cl13]) ).
thf(l3,axiom,
! [E: $i,T: $i] :
( ( ( environment @ E )
& ( subpopulations @ first_movers @ efficient_producers @ E @ T ) )
=> ~ ( decreases @ ( difference @ ( disbanding_rate @ first_movers @ T ) @ ( disbanding_rate @ efficient_producers @ T ) ) ) ) ).
thf(zip_derived_cl0,plain,
! [X0: $i,X1: $i] :
( ~ ( environment @ X0 )
| ~ ( subpopulations @ first_movers @ efficient_producers @ X0 @ X1 )
| ~ ( decreases @ ( difference @ ( disbanding_rate @ first_movers @ X1 ) @ ( disbanding_rate @ efficient_producers @ X1 ) ) ) ),
inference(cnf,[status(esa)],[l3]) ).
thf(zip_derived_cl42,plain,
( ( sk__1
= ( initial_FM_EP @ sk_ ) )
| ~ ( environment @ sk_ )
| ~ ( decreases @ ( difference @ ( disbanding_rate @ first_movers @ ( initial_FM_EP @ sk_ ) ) @ ( disbanding_rate @ efficient_producers @ ( initial_FM_EP @ sk_ ) ) ) ) ),
inference('s_sup-',[status(thm)],[zip_derived_cl41,zip_derived_cl0]) ).
thf(zip_derived_cl13_008,plain,
environment @ sk_,
inference(cnf,[status(esa)],[zf_stmt_0]) ).
thf(zip_derived_cl47,plain,
( ( sk__1
= ( initial_FM_EP @ sk_ ) )
| ~ ( decreases @ ( difference @ ( disbanding_rate @ first_movers @ ( initial_FM_EP @ sk_ ) ) @ ( disbanding_rate @ efficient_producers @ ( initial_FM_EP @ sk_ ) ) ) ) ),
inference(demod,[status(thm)],[zip_derived_cl42,zip_derived_cl13]) ).
thf(zip_derived_cl12_009,plain,
subpopulations @ first_movers @ efficient_producers @ sk_ @ sk__1,
inference(cnf,[status(esa)],[zf_stmt_0]) ).
thf(mp_positive_function_difference,axiom,
! [E: $i,T: $i,T1: $i,T2: $i] :
( ( ( environment @ E )
& ( greater_or_equal @ T @ T1 )
& ( greater_or_equal @ T2 @ T )
& ( subpopulations @ first_movers @ efficient_producers @ E @ T2 )
& ( greater @ ( disbanding_rate @ first_movers @ T1 ) @ ( disbanding_rate @ efficient_producers @ T1 ) ) )
=> ( ~ ( decreases @ ( difference @ ( disbanding_rate @ first_movers @ T ) @ ( disbanding_rate @ efficient_producers @ T ) ) )
=> ( greater @ ( disbanding_rate @ first_movers @ T2 ) @ ( disbanding_rate @ efficient_producers @ T2 ) ) ) ) ).
thf(zip_derived_cl3,plain,
! [X0: $i,X1: $i,X2: $i,X3: $i] :
( ( decreases @ ( difference @ ( disbanding_rate @ first_movers @ X0 ) @ ( disbanding_rate @ efficient_producers @ X0 ) ) )
| ~ ( greater @ ( disbanding_rate @ first_movers @ X1 ) @ ( disbanding_rate @ efficient_producers @ X1 ) )
| ~ ( greater_or_equal @ X0 @ X1 )
| ~ ( environment @ X2 )
| ~ ( greater_or_equal @ X3 @ X0 )
| ~ ( subpopulations @ first_movers @ efficient_producers @ X2 @ X3 )
| ( greater @ ( disbanding_rate @ first_movers @ X3 ) @ ( disbanding_rate @ efficient_producers @ X3 ) ) ),
inference(cnf,[status(esa)],[mp_positive_function_difference]) ).
thf(zip_derived_cl36,plain,
! [X0: $i,X1: $i] :
( ( decreases @ ( difference @ ( disbanding_rate @ first_movers @ X0 ) @ ( disbanding_rate @ efficient_producers @ X0 ) ) )
| ~ ( greater @ ( disbanding_rate @ first_movers @ X1 ) @ ( disbanding_rate @ efficient_producers @ X1 ) )
| ~ ( greater_or_equal @ X0 @ X1 )
| ~ ( environment @ sk_ )
| ~ ( greater_or_equal @ sk__1 @ X0 )
| ( greater @ ( disbanding_rate @ first_movers @ sk__1 ) @ ( disbanding_rate @ efficient_producers @ sk__1 ) ) ),
inference('s_sup-',[status(thm)],[zip_derived_cl12,zip_derived_cl3]) ).
thf(zip_derived_cl13_010,plain,
environment @ sk_,
inference(cnf,[status(esa)],[zf_stmt_0]) ).
thf(zip_derived_cl11_011,plain,
~ ( greater @ ( disbanding_rate @ first_movers @ sk__1 ) @ ( disbanding_rate @ efficient_producers @ sk__1 ) ),
inference(cnf,[status(esa)],[zf_stmt_0]) ).
thf(zip_derived_cl37,plain,
! [X0: $i,X1: $i] :
( ( decreases @ ( difference @ ( disbanding_rate @ first_movers @ X0 ) @ ( disbanding_rate @ efficient_producers @ X0 ) ) )
| ~ ( greater @ ( disbanding_rate @ first_movers @ X1 ) @ ( disbanding_rate @ efficient_producers @ X1 ) )
| ~ ( greater_or_equal @ X0 @ X1 )
| ~ ( greater_or_equal @ sk__1 @ X0 ) ),
inference(demod,[status(thm)],[zip_derived_cl36,zip_derived_cl13,zip_derived_cl11]) ).
thf(zip_derived_cl55,plain,
! [X0: $i] :
( ( sk__1
= ( initial_FM_EP @ sk_ ) )
| ~ ( greater @ ( disbanding_rate @ first_movers @ X0 ) @ ( disbanding_rate @ efficient_producers @ X0 ) )
| ~ ( greater_or_equal @ ( initial_FM_EP @ sk_ ) @ X0 )
| ~ ( greater_or_equal @ sk__1 @ ( initial_FM_EP @ sk_ ) ) ),
inference('s_sup+',[status(thm)],[zip_derived_cl47,zip_derived_cl37]) ).
thf(zip_derived_cl21_012,plain,
greater_or_equal @ sk__1 @ ( initial_FM_EP @ sk_ ),
inference(demod,[status(thm)],[zip_derived_cl20,zip_derived_cl13]) ).
thf(zip_derived_cl57,plain,
! [X0: $i] :
( ( sk__1
= ( initial_FM_EP @ sk_ ) )
| ~ ( greater @ ( disbanding_rate @ first_movers @ X0 ) @ ( disbanding_rate @ efficient_producers @ X0 ) )
| ~ ( greater_or_equal @ ( initial_FM_EP @ sk_ ) @ X0 ) ),
inference(demod,[status(thm)],[zip_derived_cl55,zip_derived_cl21]) ).
thf(zip_derived_cl58,plain,
( ( sk__1
= ( initial_FM_EP @ sk_ ) )
| ( sk__1
= ( initial_FM_EP @ sk_ ) )
| ~ ( greater @ ( disbanding_rate @ first_movers @ ( initial_FM_EP @ sk_ ) ) @ ( disbanding_rate @ efficient_producers @ ( initial_FM_EP @ sk_ ) ) ) ),
inference('s_sup-',[status(thm)],[zip_derived_cl48,zip_derived_cl57]) ).
thf(zip_derived_cl60,plain,
( ~ ( greater @ ( disbanding_rate @ first_movers @ ( initial_FM_EP @ sk_ ) ) @ ( disbanding_rate @ efficient_producers @ ( initial_FM_EP @ sk_ ) ) )
| ( sk__1
= ( initial_FM_EP @ sk_ ) ) ),
inference(simplify,[status(thm)],[zip_derived_cl58]) ).
thf(zip_derived_cl66,plain,
( ~ ( environment @ sk_ )
| ( sk__1
= ( initial_FM_EP @ sk_ ) ) ),
inference('s_sup-',[status(thm)],[zip_derived_cl9,zip_derived_cl60]) ).
thf(zip_derived_cl13_013,plain,
environment @ sk_,
inference(cnf,[status(esa)],[zf_stmt_0]) ).
thf(zip_derived_cl67,plain,
( sk__1
= ( initial_FM_EP @ sk_ ) ),
inference(demod,[status(thm)],[zip_derived_cl66,zip_derived_cl13]) ).
thf(zip_derived_cl9_014,plain,
! [X0: $i] :
( ( greater @ ( disbanding_rate @ first_movers @ ( initial_FM_EP @ X0 ) ) @ ( disbanding_rate @ efficient_producers @ ( initial_FM_EP @ X0 ) ) )
| ~ ( environment @ X0 ) ),
inference(cnf,[status(esa)],[a8]) ).
thf(zip_derived_cl77,plain,
( ( greater @ ( disbanding_rate @ first_movers @ sk__1 ) @ ( disbanding_rate @ efficient_producers @ sk__1 ) )
| ~ ( environment @ sk_ ) ),
inference('s_sup+',[status(thm)],[zip_derived_cl67,zip_derived_cl9]) ).
thf(zip_derived_cl13_015,plain,
environment @ sk_,
inference(cnf,[status(esa)],[zf_stmt_0]) ).
thf(zip_derived_cl89,plain,
greater @ ( disbanding_rate @ first_movers @ sk__1 ) @ ( disbanding_rate @ efficient_producers @ sk__1 ),
inference(demod,[status(thm)],[zip_derived_cl77,zip_derived_cl13]) ).
thf(zip_derived_cl105,plain,
$false,
inference(demod,[status(thm)],[zip_derived_cl11,zip_derived_cl89]) ).
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.00/0.09 % Problem : MGT020+1 : TPTP v8.1.2. Released v2.0.0.
% 0.00/0.09 % Command : python3 /export/starexec/sandbox/solver/bin/portfolio.lams.parallel.py %s %d /export/starexec/sandbox/tmp/tmp.rxdMj26R6h true
% 0.12/0.29 % Computer : n032.cluster.edu
% 0.12/0.29 % Model : x86_64 x86_64
% 0.12/0.29 % CPU : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 0.12/0.29 % Memory : 8042.1875MB
% 0.12/0.29 % OS : Linux 3.10.0-693.el7.x86_64
% 0.12/0.29 % CPULimit : 300
% 0.12/0.29 % WCLimit : 300
% 0.12/0.29 % DateTime : Mon Aug 28 06:40:00 EDT 2023
% 0.12/0.29 % CPUTime :
% 0.12/0.29 % Running portfolio for 300 s
% 0.12/0.29 % File : /export/starexec/sandbox/benchmark/theBenchmark.p
% 0.12/0.29 % Number of cores: 8
% 0.12/0.29 % Python version: Python 3.6.8
% 0.12/0.29 % Running in FO mode
% 0.14/0.49 % Total configuration time : 435
% 0.14/0.49 % Estimated wc time : 1092
% 0.14/0.49 % Estimated cpu time (7 cpus) : 156.0
% 0.14/0.56 % /export/starexec/sandbox/solver/bin/fo/fo3_bce.sh running for 75s
% 0.14/0.56 % /export/starexec/sandbox/solver/bin/fo/fo6_bce.sh running for 75s
% 0.14/0.56 % /export/starexec/sandbox/solver/bin/fo/fo1_av.sh running for 75s
% 0.14/0.56 % /export/starexec/sandbox/solver/bin/fo/fo7.sh running for 63s
% 0.14/0.57 % /export/starexec/sandbox/solver/bin/fo/fo13.sh running for 50s
% 0.14/0.58 % /export/starexec/sandbox/solver/bin/fo/fo4.sh running for 50s
% 0.14/0.58 % /export/starexec/sandbox/solver/bin/fo/fo5.sh running for 50s
% 0.14/0.62 % Solved by fo/fo13.sh.
% 0.14/0.62 % done 42 iterations in 0.027s
% 0.14/0.62 % SZS status Theorem for '/export/starexec/sandbox/benchmark/theBenchmark.p'
% 0.14/0.62 % SZS output start Refutation
% See solution above
% 0.14/0.62
% 0.14/0.62
% 0.14/0.62 % Terminating...
% 0.14/0.70 % Runner terminated.
% 0.14/0.71 % Zipperpin 1.5 exiting
%------------------------------------------------------------------------------