TSTP Solution File: SEV398^5 by Zipperpin---2.1.9999
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- Process Solution
%------------------------------------------------------------------------------
% File : Zipperpin---2.1.9999
% Problem : SEV398^5 : TPTP v8.1.2. Released v4.0.0.
% Transfm : NO INFORMATION
% Format : NO INFORMATION
% Command : python3 /export/starexec/sandbox2/solver/bin/portfolio.lams.parallel.py %s %d /export/starexec/sandbox2/tmp/tmp.aBrfRlVMxw true
% Computer : n020.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 20:00:39 EDT 2023
% Result : Theorem 1.50s 1.02s
% Output : Refutation 1.50s
% Verified :
% SZS Type : Refutation
% Derivation depth : 18
% Number of leaves : 7
% Syntax : Number of formulae : 55 ( 4 unt; 6 typ; 0 def)
% Number of atoms : 354 ( 3 equ; 0 cnn)
% Maximal formula atoms : 19 ( 7 avg)
% Number of connectives : 620 ( 27 ~; 22 |; 12 &; 434 @)
% ( 6 <=>; 65 =>; 0 <=; 0 <~>)
% Maximal formula depth : 14 ( 7 avg)
% Number of types : 2 ( 1 usr)
% Number of type conns : 45 ( 45 >; 0 *; 0 +; 0 <<)
% Number of symbols : 8 ( 5 usr; 3 con; 0-2 aty)
% ( 54 !!; 0 ??; 0 @@+; 0 @@-)
% Number of variables : 95 ( 54 ^; 41 !; 0 ?; 95 :)
% Comments :
%------------------------------------------------------------------------------
thf(a_type,type,
a: $tType ).
thf('#sk1_type',type,
'#sk1': a > $o ).
thf(cG_type,type,
cG: ( a > $o ) > a > $o ).
thf(cF_type,type,
cF: ( a > $o ) > a > $o ).
thf('#sk23_type',type,
'#sk23': ( a > $o ) > ( a > $o ) > a ).
thf('#sk2_type',type,
'#sk2': a ).
thf(cTHM67A_pme,conjecture,
( ( ! [S: a > $o] :
( ! [Xx: a] :
( ( S @ Xx )
=> ( cF @ ( cG @ S ) @ Xx ) )
& ! [Xx: a] :
( ( S @ Xx )
=> ( cG @ ( cF @ S ) @ Xx ) ) )
& ! [S: a > $o,T: a > $o] :
( ! [Xx: a] :
( ( S @ Xx )
=> ( T @ Xx ) )
=> ! [Xx: a] :
( ( cF @ T @ Xx )
=> ( cF @ S @ Xx ) ) ) )
=> ! [S: a > $o,Xx: a] :
( ( cF @ ( cG @ ( cF @ S ) ) @ Xx )
<=> ( cF @ S @ Xx ) ) ) ).
thf(zf_stmt_0,negated_conjecture,
~ ( ( ! [S: a > $o] :
( ! [Xx: a] :
( ( S @ Xx )
=> ( cF @ ( cG @ S ) @ Xx ) )
& ! [Xx: a] :
( ( S @ Xx )
=> ( cG @ ( cF @ S ) @ Xx ) ) )
& ! [S: a > $o,T: a > $o] :
( ! [Xx: a] :
( ( S @ Xx )
=> ( T @ Xx ) )
=> ! [Xx: a] :
( ( cF @ T @ Xx )
=> ( cF @ S @ Xx ) ) ) )
=> ! [S: a > $o,Xx: a] :
( ( cF @ ( cG @ ( cF @ S ) ) @ Xx )
<=> ( cF @ S @ Xx ) ) ),
inference('cnf.neg',[status(esa)],[cTHM67A_pme]) ).
thf(zip_derived_cl0,plain,
~ ( ( ( !!
@ ^ [Y0: a > $o] :
( ( !!
@ ^ [Y1: a] :
( ( Y0 @ Y1 )
=> ( cF @ ( cG @ Y0 ) @ Y1 ) ) )
& ( !!
@ ^ [Y1: a] :
( ( Y0 @ Y1 )
=> ( cG @ ( cF @ Y0 ) @ Y1 ) ) ) ) )
& ( !!
@ ^ [Y0: a > $o] :
( !!
@ ^ [Y1: a > $o] :
( ( !!
@ ^ [Y2: a] :
( ( Y0 @ Y2 )
=> ( Y1 @ Y2 ) ) )
=> ( !!
@ ^ [Y2: a] :
( ( cF @ Y1 @ Y2 )
=> ( cF @ Y0 @ Y2 ) ) ) ) ) ) )
=> ( !!
@ ^ [Y0: a > $o] :
( !!
@ ^ [Y1: a] :
( ( cF @ ( cG @ ( cF @ Y0 ) ) @ Y1 )
<=> ( cF @ Y0 @ Y1 ) ) ) ) ),
inference(cnf,[status(esa)],[zf_stmt_0]) ).
thf(zip_derived_cl1,plain,
( ( !!
@ ^ [Y0: a > $o] :
( ( !!
@ ^ [Y1: a] :
( ( Y0 @ Y1 )
=> ( cF @ ( cG @ Y0 ) @ Y1 ) ) )
& ( !!
@ ^ [Y1: a] :
( ( Y0 @ Y1 )
=> ( cG @ ( cF @ Y0 ) @ Y1 ) ) ) ) )
& ( !!
@ ^ [Y0: a > $o] :
( !!
@ ^ [Y1: a > $o] :
( ( !!
@ ^ [Y2: a] :
( ( Y0 @ Y2 )
=> ( Y1 @ Y2 ) ) )
=> ( !!
@ ^ [Y2: a] :
( ( cF @ Y1 @ Y2 )
=> ( cF @ Y0 @ Y2 ) ) ) ) ) ) ),
inference(lazy_cnf_imply,[status(thm)],[zip_derived_cl0]) ).
thf(zip_derived_cl3,plain,
( !!
@ ^ [Y0: a > $o] :
( ( !!
@ ^ [Y1: a] :
( ( Y0 @ Y1 )
=> ( cF @ ( cG @ Y0 ) @ Y1 ) ) )
& ( !!
@ ^ [Y1: a] :
( ( Y0 @ Y1 )
=> ( cG @ ( cF @ Y0 ) @ Y1 ) ) ) ) ),
inference(lazy_cnf_and,[status(thm)],[zip_derived_cl1]) ).
thf(zip_derived_cl6,plain,
! [X2: a > $o] :
( ( !!
@ ^ [Y0: a] :
( ( X2 @ Y0 )
=> ( cF @ ( cG @ X2 ) @ Y0 ) ) )
& ( !!
@ ^ [Y0: a] :
( ( X2 @ Y0 )
=> ( cG @ ( cF @ X2 ) @ Y0 ) ) ) ),
inference(lazy_cnf_forall,[status(thm)],[zip_derived_cl3]) ).
thf(zip_derived_cl33,plain,
( ( !!
@ ^ [Y0: a] :
( ( cF @ '#sk1' @ Y0 )
=> ( cF @ ( cG @ ( cF @ '#sk1' ) ) @ Y0 ) ) )
& ( !!
@ ^ [Y0: a] :
( ( cF @ '#sk1' @ Y0 )
=> ( cG @ ( cF @ ( cF @ '#sk1' ) ) @ Y0 ) ) ) ),
inference(triggered_bool_instantiation,[status(thm)],[zip_derived_cl6]) ).
thf(zip_derived_cl174,plain,
( !!
@ ^ [Y0: a] :
( ( cF @ '#sk1' @ Y0 )
=> ( cF @ ( cG @ ( cF @ '#sk1' ) ) @ Y0 ) ) ),
inference(lazy_cnf_and,[status(thm)],[zip_derived_cl33]) ).
thf(zip_derived_cl176,plain,
! [X2: a] :
( ( cF @ '#sk1' @ X2 )
=> ( cF @ ( cG @ ( cF @ '#sk1' ) ) @ X2 ) ),
inference(lazy_cnf_forall,[status(thm)],[zip_derived_cl174]) ).
thf(zip_derived_cl178,plain,
! [X2: a] :
( ~ ( cF @ '#sk1' @ X2 )
| ( cF @ ( cG @ ( cF @ '#sk1' ) ) @ X2 ) ),
inference(lazy_cnf_imply,[status(thm)],[zip_derived_cl176]) ).
thf(zip_derived_cl2,plain,
~ ( !!
@ ^ [Y0: a > $o] :
( !!
@ ^ [Y1: a] :
( ( cF @ ( cG @ ( cF @ Y0 ) ) @ Y1 )
<=> ( cF @ Y0 @ Y1 ) ) ) ),
inference(lazy_cnf_imply,[status(thm)],[zip_derived_cl0]) ).
thf(zip_derived_cl5,plain,
~ ( !!
@ ^ [Y0: a] :
( ( cF @ ( cG @ ( cF @ '#sk1' ) ) @ Y0 )
<=> ( cF @ '#sk1' @ Y0 ) ) ),
inference(lazy_cnf_exists,[status(thm)],[zip_derived_cl2]) ).
thf(zip_derived_cl10,plain,
~ ( ( cF @ ( cG @ ( cF @ '#sk1' ) ) @ '#sk2' )
<=> ( cF @ '#sk1' @ '#sk2' ) ),
inference(lazy_cnf_exists,[status(thm)],[zip_derived_cl5]) ).
thf(zip_derived_cl15,plain,
( ( cF @ ( cG @ ( cF @ '#sk1' ) ) @ '#sk2' )
!= ( cF @ '#sk1' @ '#sk2' ) ),
inference('simplify nested equalities',[status(thm)],[zip_derived_cl10]) ).
thf(zip_derived_cl181,plain,
( ~ ( cF @ '#sk1' @ '#sk2' )
| ~ ( cF @ '#sk1' @ '#sk2' ) ),
inference('sup-',[status(thm)],[zip_derived_cl178,zip_derived_cl15]) ).
thf(zip_derived_cl190,plain,
~ ( cF @ '#sk1' @ '#sk2' ),
inference(simplify,[status(thm)],[zip_derived_cl181]) ).
thf(zip_derived_cl6_001,plain,
! [X2: a > $o] :
( ( !!
@ ^ [Y0: a] :
( ( X2 @ Y0 )
=> ( cF @ ( cG @ X2 ) @ Y0 ) ) )
& ( !!
@ ^ [Y0: a] :
( ( X2 @ Y0 )
=> ( cG @ ( cF @ X2 ) @ Y0 ) ) ) ),
inference(lazy_cnf_forall,[status(thm)],[zip_derived_cl3]) ).
thf(zip_derived_cl12,plain,
! [X2: a > $o] :
( !!
@ ^ [Y0: a] :
( ( X2 @ Y0 )
=> ( cG @ ( cF @ X2 ) @ Y0 ) ) ),
inference(lazy_cnf_and,[status(thm)],[zip_derived_cl6]) ).
thf(zip_derived_cl17,plain,
! [X2: a > $o,X4: a] :
( ( X2 @ X4 )
=> ( cG @ ( cF @ X2 ) @ X4 ) ),
inference(lazy_cnf_forall,[status(thm)],[zip_derived_cl12]) ).
thf(zip_derived_cl20,plain,
! [X2: a > $o,X4: a] :
( ~ ( X2 @ X4 )
| ( cG @ ( cF @ X2 ) @ X4 ) ),
inference(lazy_cnf_imply,[status(thm)],[zip_derived_cl17]) ).
thf(zip_derived_cl4,plain,
( !!
@ ^ [Y0: a > $o] :
( !!
@ ^ [Y1: a > $o] :
( ( !!
@ ^ [Y2: a] :
( ( Y0 @ Y2 )
=> ( Y1 @ Y2 ) ) )
=> ( !!
@ ^ [Y2: a] :
( ( cF @ Y1 @ Y2 )
=> ( cF @ Y0 @ Y2 ) ) ) ) ) ),
inference(lazy_cnf_and,[status(thm)],[zip_derived_cl1]) ).
thf(zip_derived_cl8,plain,
! [X2: a > $o] :
( !!
@ ^ [Y0: a > $o] :
( ( !!
@ ^ [Y1: a] :
( ( X2 @ Y1 )
=> ( Y0 @ Y1 ) ) )
=> ( !!
@ ^ [Y1: a] :
( ( cF @ Y0 @ Y1 )
=> ( cF @ X2 @ Y1 ) ) ) ) ),
inference(lazy_cnf_forall,[status(thm)],[zip_derived_cl4]) ).
thf(zip_derived_cl9,plain,
( !!
@ ^ [Y0: a > $o] :
( ( !!
@ ^ [Y1: a] :
( ( '#sk1' @ Y1 )
=> ( Y0 @ Y1 ) ) )
=> ( !!
@ ^ [Y1: a] :
( ( cF @ Y0 @ Y1 )
=> ( cF @ '#sk1' @ Y1 ) ) ) ) ),
inference(triggered_bool_instantiation,[status(thm)],[zip_derived_cl8]) ).
thf(zip_derived_cl104,plain,
! [X2: a > $o] :
( ( !!
@ ^ [Y0: a] :
( ( '#sk1' @ Y0 )
=> ( X2 @ Y0 ) ) )
=> ( !!
@ ^ [Y0: a] :
( ( cF @ X2 @ Y0 )
=> ( cF @ '#sk1' @ Y0 ) ) ) ),
inference(lazy_cnf_forall,[status(thm)],[zip_derived_cl9]) ).
thf(zip_derived_cl107,plain,
( ( !!
@ ^ [Y0: a] :
( ( '#sk1' @ Y0 )
=> ( cG @ ( cF @ '#sk1' ) @ Y0 ) ) )
=> ( !!
@ ^ [Y0: a] :
( ( cF @ ( cG @ ( cF @ '#sk1' ) ) @ Y0 )
=> ( cF @ '#sk1' @ Y0 ) ) ) ),
inference(triggered_bool_instantiation,[status(thm)],[zip_derived_cl104]) ).
thf(zip_derived_cl164,plain,
( ~ ( !!
@ ^ [Y0: a] :
( ( '#sk1' @ Y0 )
=> ( cG @ ( cF @ '#sk1' ) @ Y0 ) ) )
| ( !!
@ ^ [Y0: a] :
( ( cF @ ( cG @ ( cF @ '#sk1' ) ) @ Y0 )
=> ( cF @ '#sk1' @ Y0 ) ) ) ),
inference(lazy_cnf_imply,[status(thm)],[zip_derived_cl107]) ).
thf(zip_derived_cl165,plain,
( ~ ( ( '#sk1' @ ( '#sk23' @ '#sk1' @ ( cG @ ( cF @ '#sk1' ) ) ) )
=> ( cG @ ( cF @ '#sk1' ) @ ( '#sk23' @ '#sk1' @ ( cG @ ( cF @ '#sk1' ) ) ) ) )
| ( !!
@ ^ [Y0: a] :
( ( cF @ ( cG @ ( cF @ '#sk1' ) ) @ Y0 )
=> ( cF @ '#sk1' @ Y0 ) ) ) ),
inference(lazy_cnf_exists,[status(thm)],[zip_derived_cl164]) ).
thf(zip_derived_cl167,plain,
( ~ ( cG @ ( cF @ '#sk1' ) @ ( '#sk23' @ '#sk1' @ ( cG @ ( cF @ '#sk1' ) ) ) )
| ( !!
@ ^ [Y0: a] :
( ( cF @ ( cG @ ( cF @ '#sk1' ) ) @ Y0 )
=> ( cF @ '#sk1' @ Y0 ) ) ) ),
inference(lazy_cnf_imply,[status(thm)],[zip_derived_cl165]) ).
thf(zip_derived_cl169,plain,
! [X2: a] :
( ( ( cF @ ( cG @ ( cF @ '#sk1' ) ) @ X2 )
=> ( cF @ '#sk1' @ X2 ) )
| ~ ( cG @ ( cF @ '#sk1' ) @ ( '#sk23' @ '#sk1' @ ( cG @ ( cF @ '#sk1' ) ) ) ) ),
inference(lazy_cnf_forall,[status(thm)],[zip_derived_cl167]) ).
thf(zip_derived_cl171,plain,
! [X2: a] :
( ~ ( cF @ ( cG @ ( cF @ '#sk1' ) ) @ X2 )
| ( cF @ '#sk1' @ X2 )
| ~ ( cG @ ( cF @ '#sk1' ) @ ( '#sk23' @ '#sk1' @ ( cG @ ( cF @ '#sk1' ) ) ) ) ),
inference(lazy_cnf_imply,[status(thm)],[zip_derived_cl169]) ).
thf(zip_derived_cl273,plain,
! [X0: a] :
( ~ ( '#sk1' @ ( '#sk23' @ '#sk1' @ ( cG @ ( cF @ '#sk1' ) ) ) )
| ( cF @ '#sk1' @ X0 )
| ~ ( cF @ ( cG @ ( cF @ '#sk1' ) ) @ X0 ) ),
inference('sup-',[status(thm)],[zip_derived_cl20,zip_derived_cl171]) ).
thf(zip_derived_cl15_002,plain,
( ( cF @ ( cG @ ( cF @ '#sk1' ) ) @ '#sk2' )
!= ( cF @ '#sk1' @ '#sk2' ) ),
inference('simplify nested equalities',[status(thm)],[zip_derived_cl10]) ).
thf(zip_derived_cl34,plain,
( ( cF @ ( cG @ ( cF @ '#sk1' ) ) @ '#sk2' )
| ( cF @ '#sk1' @ '#sk2' ) ),
inference(eq_elim,[status(thm)],[zip_derived_cl15]) ).
thf(zip_derived_cl104_003,plain,
! [X2: a > $o] :
( ( !!
@ ^ [Y0: a] :
( ( '#sk1' @ Y0 )
=> ( X2 @ Y0 ) ) )
=> ( !!
@ ^ [Y0: a] :
( ( cF @ X2 @ Y0 )
=> ( cF @ '#sk1' @ Y0 ) ) ) ),
inference(lazy_cnf_forall,[status(thm)],[zip_derived_cl9]) ).
thf(zip_derived_cl109,plain,
! [X2: a > $o] :
( ~ ( !!
@ ^ [Y0: a] :
( ( '#sk1' @ Y0 )
=> ( X2 @ Y0 ) ) )
| ( !!
@ ^ [Y0: a] :
( ( cF @ X2 @ Y0 )
=> ( cF @ '#sk1' @ Y0 ) ) ) ),
inference(lazy_cnf_imply,[status(thm)],[zip_derived_cl104]) ).
thf(zip_derived_cl110,plain,
! [X2: a > $o] :
( ~ ( ( '#sk1' @ ( '#sk23' @ '#sk1' @ X2 ) )
=> ( X2 @ ( '#sk23' @ '#sk1' @ X2 ) ) )
| ( !!
@ ^ [Y0: a] :
( ( cF @ X2 @ Y0 )
=> ( cF @ '#sk1' @ Y0 ) ) ) ),
inference(lazy_cnf_exists,[status(thm)],[zip_derived_cl109]) ).
thf(zip_derived_cl111,plain,
! [X2: a > $o] :
( ( '#sk1' @ ( '#sk23' @ '#sk1' @ X2 ) )
| ( !!
@ ^ [Y0: a] :
( ( cF @ X2 @ Y0 )
=> ( cF @ '#sk1' @ Y0 ) ) ) ),
inference(lazy_cnf_imply,[status(thm)],[zip_derived_cl110]) ).
thf(zip_derived_cl113,plain,
! [X2: a > $o,X4: a] :
( ( ( cF @ X2 @ X4 )
=> ( cF @ '#sk1' @ X4 ) )
| ( '#sk1' @ ( '#sk23' @ '#sk1' @ X2 ) ) ),
inference(lazy_cnf_forall,[status(thm)],[zip_derived_cl111]) ).
thf(zip_derived_cl115,plain,
! [X2: a > $o,X4: a] :
( ~ ( cF @ X2 @ X4 )
| ( cF @ '#sk1' @ X4 )
| ( '#sk1' @ ( '#sk23' @ '#sk1' @ X2 ) ) ),
inference(lazy_cnf_imply,[status(thm)],[zip_derived_cl113]) ).
thf(zip_derived_cl117,plain,
( ( cF @ '#sk1' @ '#sk2' )
| ( '#sk1' @ ( '#sk23' @ '#sk1' @ ( cG @ ( cF @ '#sk1' ) ) ) )
| ( cF @ '#sk1' @ '#sk2' ) ),
inference('sup-',[status(thm)],[zip_derived_cl34,zip_derived_cl115]) ).
thf(zip_derived_cl123,plain,
( ( '#sk1' @ ( '#sk23' @ '#sk1' @ ( cG @ ( cF @ '#sk1' ) ) ) )
| ( cF @ '#sk1' @ '#sk2' ) ),
inference(simplify,[status(thm)],[zip_derived_cl117]) ).
thf(zip_derived_cl190_004,plain,
~ ( cF @ '#sk1' @ '#sk2' ),
inference(simplify,[status(thm)],[zip_derived_cl181]) ).
thf(zip_derived_cl196,plain,
'#sk1' @ ( '#sk23' @ '#sk1' @ ( cG @ ( cF @ '#sk1' ) ) ),
inference(demod,[status(thm)],[zip_derived_cl123,zip_derived_cl190]) ).
thf(zip_derived_cl288,plain,
! [X0: a] :
( ( cF @ '#sk1' @ X0 )
| ~ ( cF @ ( cG @ ( cF @ '#sk1' ) ) @ X0 ) ),
inference(demod,[status(thm)],[zip_derived_cl273,zip_derived_cl196]) ).
thf(zip_derived_cl15_005,plain,
( ( cF @ ( cG @ ( cF @ '#sk1' ) ) @ '#sk2' )
!= ( cF @ '#sk1' @ '#sk2' ) ),
inference('simplify nested equalities',[status(thm)],[zip_derived_cl10]) ).
thf(zip_derived_cl190_006,plain,
~ ( cF @ '#sk1' @ '#sk2' ),
inference(simplify,[status(thm)],[zip_derived_cl181]) ).
thf(zip_derived_cl194,plain,
cF @ ( cG @ ( cF @ '#sk1' ) ) @ '#sk2',
inference(demod,[status(thm)],[zip_derived_cl15,zip_derived_cl190]) ).
thf(zip_derived_cl304,plain,
cF @ '#sk1' @ '#sk2',
inference('sup+',[status(thm)],[zip_derived_cl288,zip_derived_cl194]) ).
thf(zip_derived_cl308,plain,
$false,
inference(demod,[status(thm)],[zip_derived_cl190,zip_derived_cl304]) ).
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.00/0.13 % Problem : SEV398^5 : TPTP v8.1.2. Released v4.0.0.
% 0.00/0.14 % Command : python3 /export/starexec/sandbox2/solver/bin/portfolio.lams.parallel.py %s %d /export/starexec/sandbox2/tmp/tmp.aBrfRlVMxw true
% 0.14/0.35 % Computer : n020.cluster.edu
% 0.14/0.35 % Model : x86_64 x86_64
% 0.14/0.35 % CPU : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 0.14/0.35 % Memory : 8042.1875MB
% 0.14/0.35 % OS : Linux 3.10.0-693.el7.x86_64
% 0.14/0.35 % CPULimit : 300
% 0.14/0.35 % WCLimit : 300
% 0.14/0.35 % DateTime : Thu Aug 24 04:01:00 EDT 2023
% 0.14/0.36 % CPUTime :
% 0.14/0.36 % Running portfolio for 300 s
% 0.14/0.36 % File : /export/starexec/sandbox2/benchmark/theBenchmark.p
% 0.14/0.36 % Number of cores: 8
% 0.14/0.36 % Python version: Python 3.6.8
% 0.14/0.36 % Running in HO mode
% 0.21/0.69 % Total configuration time : 828
% 0.21/0.69 % Estimated wc time : 1656
% 0.21/0.69 % Estimated cpu time (8 cpus) : 207.0
% 0.21/0.76 % /export/starexec/sandbox2/solver/bin/lams/40_c.s.sh running for 80s
% 0.21/0.77 % /export/starexec/sandbox2/solver/bin/lams/35_full_unif4.sh running for 80s
% 0.21/0.77 % /export/starexec/sandbox2/solver/bin/lams/15_e_short1.sh running for 30s
% 0.21/0.77 % /export/starexec/sandbox2/solver/bin/lams/40_c_ic.sh running for 80s
% 0.21/0.79 % /export/starexec/sandbox2/solver/bin/lams/40_noforms.sh running for 90s
% 0.21/0.79 % /export/starexec/sandbox2/solver/bin/lams/20_acsne_simpl.sh running for 40s
% 0.21/0.79 % /export/starexec/sandbox2/solver/bin/lams/40_b.comb.sh running for 70s
% 0.21/0.79 % /export/starexec/sandbox2/solver/bin/lams/30_sp5.sh running for 60s
% 1.50/1.02 % Solved by lams/35_full_unif4.sh.
% 1.50/1.02 % done 53 iterations in 0.225s
% 1.50/1.02 % SZS status Theorem for '/export/starexec/sandbox2/benchmark/theBenchmark.p'
% 1.50/1.02 % SZS output start Refutation
% See solution above
% 1.50/1.02
% 1.50/1.02
% 1.50/1.02 % Terminating...
% 1.50/1.09 % Runner terminated.
% 1.87/1.10 % Zipperpin 1.5 exiting
%------------------------------------------------------------------------------