0.05/0.10 % Problem : theBenchmark.p : TPTP v0.0.0. Released v0.0.0. 0.05/0.11 % Command : python3 /export/starexec/sandbox/solver/bin/portfolio.lams.parallel.py %s %d /export/starexec/sandbox/tmp/tmp.zbQFmWpfKx true 0.11/0.31 % Computer : n023.cluster.edu 0.11/0.31 % Model : x86_64 x86_64 0.11/0.31 % CPU : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz 0.11/0.31 % Memory : 8042.1875MB 0.11/0.31 % OS : Linux 3.10.0-693.el7.x86_64 0.11/0.31 % CPULimit : 960 0.11/0.31 % WCLimit : 120 0.11/0.31 % DateTime : Tue Aug 9 06:29:13 EDT 2022 0.11/0.31 % CPUTime : 0.11/0.31 % Running portfolio for 960 s 0.11/0.31 % File : /export/starexec/sandbox/benchmark/theBenchmark.p 0.11/0.32 % Number of cores: 8 0.11/0.32 % Python version: Python 3.6.8 0.11/0.32 % Running in HO mode 0.44/0.60 % Total configuration time : 828 0.44/0.60 % Estimated wc time : 1656 0.44/0.60 % Estimated cpu time (8 cpus) : 207.0 0.47/0.68 % /export/starexec/sandbox/solver/bin/lams/40_c.s.sh running for 80s 0.47/0.68 % /export/starexec/sandbox/solver/bin/lams/40_c_ic.sh running for 80s 0.47/0.68 % /export/starexec/sandbox/solver/bin/lams/35_full_unif4.sh running for 80s 0.47/0.68 % /export/starexec/sandbox/solver/bin/lams/40_noforms.sh running for 90s 0.47/0.68 % /export/starexec/sandbox/solver/bin/lams/15_e_short1.sh running for 30s 0.47/0.69 % /export/starexec/sandbox/solver/bin/lams/40_b.comb.sh running for 70s 0.47/0.69 % /export/starexec/sandbox/solver/bin/lams/20_acsne_simpl.sh running for 40s 0.47/0.69 % /export/starexec/sandbox/solver/bin/lams/30_sp5.sh running for 60s 0.47/0.74 % /export/starexec/sandbox/solver/bin/lams/30_b.l.sh running for 90s 15.14/2.48 % /export/starexec/sandbox/solver/bin/lams/35_full_unif.sh running for 56s 82.20/10.93 % Solved by lams/15_e_short1.sh. 82.20/10.93 % running E: timeout 11 /export/starexec/sandbox/solver/bin/lams/eprover-ho --pos-ext=all --neg-ext=all /export/starexec/sandbox/tmp/tmp.zbQFmWpfKx/e_input1105d6 --cpu-limit=9 --auto-schedule -s -p 82.20/10.93 % done 340 iterations in 10.209s 82.20/10.93 % SZS status Theorem for '/export/starexec/sandbox/benchmark/theBenchmark.p' 82.20/10.93 % SZS output start Refutation 82.20/10.93 thf(mworld_type, type, mworld: $tType). 82.20/10.93 thf(mlocal_type, type, mlocal: (mworld > $o) > $o). 82.20/10.93 thf(mforall_di_type, type, mforall_di: ($i > mworld > $o) > mworld > $o). 82.20/10.93 thf(mimplies_type, type, mimplies: (mworld > $o) > (mworld > $o) > mworld > $o). 82.20/10.93 thf(mand_type, type, mand: (mworld > $o) > (mworld > $o) > mworld > $o). 82.20/10.93 thf(subset_type, type, subset: $i > $i > mworld > $o). 82.20/10.93 thf(mactual_type, type, mactual: mworld). 82.20/10.93 thf(intersection_type, type, intersection: $i > $i > $i). 82.20/10.93 thf(equal_set_type, type, equal_set: $i > $i > mworld > $o). 82.20/10.93 thf(mequiv_type, type, mequiv: (mworld > $o) > (mworld > $o) > mworld > $o). 82.20/10.93 thf(member_type, type, member: $i > $i > mworld > $o). 82.20/10.93 thf(mforall_di_def, axiom,(( mforall_di ) = 82.20/10.93 (^[A:( $i > mworld > $o ),W:mworld]: ( ![X:$i]: ( A @ X @ W ) )))). 82.20/10.93 thf('0', plain, 82.20/10.93 (( mforall_di ) = 82.20/10.93 ( ^[A:( $i > mworld > $o ),W:mworld]: ( ![X:$i]: ( A @ X @ W ) ) )), 82.20/10.93 inference('simplify_rw_rule', [status(thm)], [mforall_di_def])). 82.20/10.93 thf('1', plain, 82.20/10.93 (( mforall_di ) = 82.20/10.93 ( ^[V_1:( $i > mworld > $o ),V_2:mworld]: 82.20/10.93 ( ![X4:$i]: ( V_1 @ X4 @ V_2 ) ) )), 82.20/10.93 define([status(thm)])). 82.20/10.93 thf(mequiv_def, axiom,(( mequiv ) = 82.20/10.93 (^[A:( mworld > $o ),B:( mworld > $o ),W:mworld]: 82.20/10.93 ( ( A @ W ) <=> ( B @ W ) )))). 82.20/10.93 thf('2', plain, 82.20/10.93 (( mequiv ) = 82.20/10.93 ( ^[A:( mworld > $o ),B:( mworld > $o ),W:mworld]: 82.20/10.93 ( ( A @ W ) <=> ( B @ W ) ) )), 82.20/10.93 inference('simplify_rw_rule', [status(thm)], [mequiv_def])). 82.20/10.93 thf('3', plain, 82.20/10.93 (( mequiv ) = 82.20/10.93 ( ^[V_1:( mworld > $o ),V_2:( mworld > $o ),V_3:mworld]: 82.20/10.93 ( ( V_1 @ V_3 ) <=> ( V_2 @ V_3 ) ) )), 82.20/10.93 define([status(thm)])). 82.20/10.93 thf(mand_def, axiom,(( mand ) = 82.20/10.93 (^[A:( mworld > $o ),B:( mworld > $o ),W:mworld]: ( ( A @ W ) & ( B @ W ) )))). 82.20/10.93 thf('4', plain, 82.20/10.93 (( mand ) = 82.20/10.93 ( ^[A:( mworld > $o ),B:( mworld > $o ),W:mworld]: 82.20/10.93 ( ( A @ W ) & ( B @ W ) ) )), 82.20/10.93 inference('simplify_rw_rule', [status(thm)], [mand_def])). 82.20/10.93 thf('5', plain, 82.20/10.93 (( mand ) = 82.20/10.93 ( ^[V_1:( mworld > $o ),V_2:( mworld > $o ),V_3:mworld]: 82.20/10.93 ( ( V_1 @ V_3 ) & ( V_2 @ V_3 ) ) )), 82.20/10.93 define([status(thm)])). 82.20/10.93 thf(mlocal_def, axiom,(( mlocal ) = 82.20/10.93 (^[Phi:( mworld > $o )]: ( Phi @ mactual )))). 82.20/10.93 thf('6', plain, (( mlocal ) = ( ^[Phi:( mworld > $o )]: ( Phi @ mactual ) )), 82.20/10.93 inference('simplify_rw_rule', [status(thm)], [mlocal_def])). 82.20/10.93 thf('7', plain, (( mlocal ) = ( ^[V_1:( mworld > $o )]: ( V_1 @ mactual ) )), 82.20/10.93 define([status(thm)])). 82.20/10.93 thf(intersection_0, axiom, 82.20/10.93 (mlocal @ 82.20/10.93 ( mforall_di @ 82.20/10.93 ( ^[X:$i]: 82.20/10.93 ( mforall_di @ 82.20/10.93 ( ^[A:$i]: 82.20/10.93 ( mforall_di @ 82.20/10.93 ( ^[B:$i]: 82.20/10.93 ( mequiv @ 82.20/10.93 ( member @ X @ ( intersection @ A @ B ) ) @ 82.20/10.93 ( mand @ ( member @ X @ A ) @ ( member @ X @ B ) ) ) ) ) ) ) ) ))). 82.20/10.93 thf(zf_stmt_0, axiom, 82.20/10.93 (![X4:$i,X6:$i,X8:$i]: 82.20/10.93 ( ( member @ X4 @ ( intersection @ X6 @ X8 ) @ mactual ) <=> 82.20/10.93 ( ( member @ X4 @ X8 @ mactual ) & ( member @ X4 @ X6 @ mactual ) ) ))). 82.20/10.93 thf(zip_derived_cl14, plain, 82.20/10.93 ( (((!!) @ (^[Y0 : $i]: 82.20/10.93 (((!!) @ (^[Y1 : $i]: 82.20/10.93 (((!!) @ (^[Y2 : $i]: 82.20/10.93 (((member @ Y0 @ 82.20/10.93 (intersection @ Y1 @ Y2) @ 82.20/10.93 mactual) <=> 82.20/10.93 (((member @ Y0 @ Y2 @ mactual) & 82.20/10.93 (member @ Y0 @ Y1 @ mactual))))))))))))))), 82.20/10.93 inference('cnf', [status(esa)], [zf_stmt_0])). 82.20/10.93 thf(mimplies_def, axiom,(( mimplies ) = 82.20/10.93 (^[A:( mworld > $o ),B:( mworld > $o ),W:mworld]: 82.20/10.93 ( ( A @ W ) => ( B @ W ) )))). 82.20/10.93 thf('8', plain, 82.20/10.93 (( mimplies ) = 82.20/10.93 ( ^[A:( mworld > $o ),B:( mworld > $o ),W:mworld]: 82.20/10.93 ( ( A @ W ) => ( B @ W ) ) )), 82.20/10.93 inference('simplify_rw_rule', [status(thm)], [mimplies_def])). 82.20/10.93 thf('9', plain, 82.20/10.93 (( mimplies ) = 82.20/10.93 ( ^[V_1:( mworld > $o ),V_2:( mworld > $o ),V_3:mworld]: 82.20/10.93 ( ( V_1 @ V_3 ) => ( V_2 @ V_3 ) ) )), 82.20/10.93 define([status(thm)])). 82.20/10.93 thf(subset_0, axiom, 82.20/10.93 (mlocal @ 82.20/10.93 ( mforall_di @ 82.20/10.93 ( ^[A:$i]: 82.20/10.93 ( mforall_di @ 82.20/10.93 ( ^[B:$i]: 82.20/10.93 ( mequiv @ 82.20/10.93 ( subset @ A @ B ) @ 82.20/10.93 ( mforall_di @ 82.20/10.93 ( ^[X:$i]: 82.20/10.93 ( mimplies @ ( member @ X @ A ) @ ( member @ X @ B ) ) ) ) ) ) ) ) ))). 82.20/10.93 thf(zf_stmt_1, axiom, 82.20/10.93 (![X4:$i,X6:$i]: 82.20/10.93 ( ( subset @ X4 @ X6 @ mactual ) <=> 82.20/10.93 ( ![X8:$i]: 82.20/10.93 ( ( member @ X8 @ X4 @ mactual ) => ( member @ X8 @ X6 @ mactual ) ) ) ))). 82.20/10.93 thf(zip_derived_cl28, plain, 82.20/10.93 ( (((!!) @ (^[Y0 : $i]: 82.20/10.93 (((!!) @ (^[Y1 : $i]: 82.20/10.93 (((subset @ Y0 @ Y1 @ mactual) <=> 82.20/10.93 (((!!) @ (^[Y2 : $i]: 82.20/10.93 (((member @ Y2 @ Y0 @ mactual) => 82.20/10.93 (member @ Y2 @ Y1 @ mactual))))))))))))))), 82.20/10.93 inference('cnf', [status(esa)], [zf_stmt_1])). 82.20/10.93 thf(equal_set_0, axiom, 82.20/10.93 (mlocal @ 82.20/10.93 ( mforall_di @ 82.20/10.93 ( ^[A:$i]: 82.20/10.93 ( mforall_di @ 82.20/10.93 ( ^[B:$i]: 82.20/10.93 ( mequiv @ 82.20/10.93 ( equal_set @ A @ B ) @ 82.20/10.93 ( mand @ ( subset @ A @ B ) @ ( subset @ B @ A ) ) ) ) ) ) ))). 82.20/10.93 thf(zf_stmt_2, axiom, 82.20/10.93 (![X4:$i,X6:$i]: 82.20/10.93 ( ( equal_set @ X4 @ X6 @ mactual ) <=> 82.20/10.93 ( ( subset @ X6 @ X4 @ mactual ) & ( subset @ X4 @ X6 @ mactual ) ) ))). 82.20/10.93 thf(zip_derived_cl13, plain, 82.20/10.93 ( (((!!) @ (^[Y0 : $i]: 82.20/10.93 (((!!) @ (^[Y1 : $i]: 82.20/10.93 (((equal_set @ Y0 @ Y1 @ mactual) <=> 82.20/10.93 (((subset @ Y1 @ Y0 @ mactual) & (subset @ 82.20/10.93 Y0 @ Y1 @ mactual)))))))))))), 82.20/10.93 inference('cnf', [status(esa)], [zf_stmt_2])). 82.20/10.93 thf(thI06, conjecture, 82.20/10.93 (mlocal @ 82.20/10.93 ( mforall_di @ 82.20/10.93 ( ^[A:$i]: 82.20/10.93 ( mforall_di @ 82.20/10.93 ( ^[B:$i]: 82.20/10.93 ( equal_set @ ( intersection @ A @ B ) @ ( intersection @ B @ A ) ) ) ) ) ))). 82.20/10.93 thf(zf_stmt_3, conjecture, 82.20/10.93 (![X4:$i,X6:$i]: 82.20/10.93 ( equal_set @ 82.20/10.93 ( intersection @ X4 @ X6 ) @ ( intersection @ X6 @ X4 ) @ mactual ))). 82.20/10.93 thf(zf_stmt_4, negated_conjecture, 82.20/10.93 (~( ![X4:$i,X6:$i]: 82.20/10.93 ( equal_set @ 82.20/10.93 ( intersection @ X4 @ X6 ) @ ( intersection @ X6 @ X4 ) @ mactual ) )), 82.20/10.93 inference('cnf.neg', [status(esa)], [zf_stmt_3])). 82.20/10.93 thf(zip_derived_cl22, plain, 82.20/10.93 (~ (((!!) @ (^[Y0 : $i]: 82.20/10.93 (((!!) @ (^[Y1 : $i]: 82.20/10.93 (equal_set @ (intersection @ Y0 @ Y1) @ 82.20/10.93 (intersection @ Y1 @ Y0) @ mactual)))))))), 82.20/10.93 inference('cnf', [status(esa)], [zf_stmt_4])). 82.20/10.93 thf(zip_derived_cl1684, plain, ($false), 82.20/10.93 inference('eprover', [status(thm)], 82.20/10.93 [zip_derived_cl14, zip_derived_cl28, zip_derived_cl13, 82.20/10.93 zip_derived_cl22])). 82.20/10.93 82.20/10.93 % SZS output end Refutation 82.20/10.93 82.20/10.93 82.20/10.93 % Terminating... 82.20/11.06 % Runner terminated. 82.20/11.07 % Zipperpin 1.5 exiting 82.20/11.07 EOF