0.08/0.13 % Problem : theBenchmark.p : TPTP v0.0.0. Released v0.0.0. 0.08/0.16 % Command : python3 /export/starexec/sandbox2/solver/bin/portfolio.lams.parallel.py %s %d /export/starexec/sandbox2/tmp/tmp.8Dxt10ke9a true 0.16/0.38 % Computer : n015.cluster.edu 0.16/0.38 % Model : x86_64 x86_64 0.16/0.38 % CPU : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz 0.16/0.38 % Memory : 8042.1875MB 0.16/0.38 % OS : Linux 3.10.0-693.el7.x86_64 0.16/0.38 % CPULimit : 1440 0.16/0.38 % WCLimit : 180 0.16/0.38 % DateTime : Mon Jul 3 09:30:40 EDT 2023 0.16/0.38 % CPUTime : 0.16/0.38 % Running portfolio for 1440 s 0.16/0.38 % File : /export/starexec/sandbox2/benchmark/theBenchmark.p 0.16/0.38 % Number of cores: 8 0.16/0.38 % Python version: Python 3.6.8 0.16/0.38 % Running in HO mode 0.56/0.66 % Total configuration time : 828 0.56/0.66 % Estimated wc time : 1656 0.56/0.66 % Estimated cpu time (8 cpus) : 207.0 0.59/0.75 % /export/starexec/sandbox2/solver/bin/lams/40_c.s.sh running for 80s 0.59/0.76 % /export/starexec/sandbox2/solver/bin/lams/35_full_unif4.sh running for 80s 0.59/0.76 % /export/starexec/sandbox2/solver/bin/lams/40_c_ic.sh running for 80s 0.59/0.76 % /export/starexec/sandbox2/solver/bin/lams/15_e_short1.sh running for 30s 0.60/0.78 % /export/starexec/sandbox2/solver/bin/lams/40_noforms.sh running for 90s 0.60/0.78 % /export/starexec/sandbox2/solver/bin/lams/40_b.comb.sh running for 70s 0.60/0.81 % /export/starexec/sandbox2/solver/bin/lams/20_acsne_simpl.sh running for 40s 0.60/0.81 % /export/starexec/sandbox2/solver/bin/lams/30_sp5.sh running for 60s 0.60/0.85 % /export/starexec/sandbox2/solver/bin/lams/30_b.l.sh running for 90s 84.48/11.42 % Solved by lams/15_e_short1.sh. 84.48/11.42 % done 220 iterations in 10.623s 84.48/11.42 % SZS status Theorem for '/export/starexec/sandbox2/benchmark/theBenchmark.p' 84.48/11.42 % SZS output start Refutation 84.48/11.42 thf(a_type, type, a: $tType). 84.48/11.42 thf(modula17988509_aux_a_type, type, modula17988509_aux_a: (a > a > a) > 84.48/11.42 (a > a > a) > a > 84.48/11.42 a > a > a). 84.48/11.42 thf(a2_type, type, a2: a). 84.48/11.42 thf(modula1936294176_aux_a_type, type, modula1936294176_aux_a: (a > a > a) > 84.48/11.42 (a > a > a) > 84.48/11.42 a > a > a > a). 84.48/11.42 thf(b_type, type, b: a). 84.48/11.42 thf(less_eq_type, type, less_eq: a > a > $o). 84.48/11.42 thf(sup_type, type, sup: a > a > a). 84.48/11.42 thf(c_type, type, c: a). 84.48/11.42 thf(modula1144073633_aux_a_type, type, modula1144073633_aux_a: (a > a > a) > 84.48/11.42 (a > a > a) > 84.48/11.42 a > a > a > a). 84.48/11.42 thf(inf_type, type, inf: a > a > a). 84.48/11.42 thf(modula1373251614_aux_a_type, type, modula1373251614_aux_a: (a > a > a) > 84.48/11.42 (a > a > a) > 84.48/11.42 a > a > a > a). 84.48/11.42 thf(fact_50_d__less__e, axiom, 84.48/11.42 (less_eq @ 84.48/11.42 ( modula1936294176_aux_a @ inf @ sup @ a2 @ b @ c ) @ 84.48/11.42 ( modula1144073633_aux_a @ inf @ sup @ a2 @ b @ c ))). 84.48/11.42 thf(zip_derived_cl85, plain, 84.48/11.42 ( (less_eq @ (modula1936294176_aux_a @ inf @ sup @ a2 @ b @ c) @ 84.48/11.42 (modula1144073633_aux_a @ inf @ sup @ a2 @ b @ c))), 84.48/11.42 inference('cnf', [status(esa)], [fact_50_d__less__e])). 84.48/11.42 thf(fact_82_local_Oinf__le2, axiom, 84.48/11.42 (![X:a,Y:a]: ( less_eq @ ( inf @ X @ Y ) @ Y ))). 84.48/11.42 thf(zip_derived_cl215, plain, 84.48/11.42 ( (((!!) @ (^[Y0 : a]: 84.48/11.42 (((!!) @ (^[Y1 : a]: (less_eq @ (inf @ Y0 @ Y1) @ Y1)))))))), 84.48/11.42 inference('cnf', [status(esa)], [fact_82_local_Oinf__le2])). 84.48/11.42 thf(fact_126_local_Omodular, axiom, 84.48/11.42 (![X:a,Y:a,Z:a]: 84.48/11.42 ( ( less_eq @ X @ Y ) => 84.48/11.42 ( ( sup @ X @ ( inf @ Y @ Z ) ) = ( inf @ Y @ ( sup @ X @ Z ) ) ) ))). 84.48/11.42 thf(zip_derived_cl223, plain, 84.48/11.42 ( (((!!) @ (^[Y0 : a]: 84.48/11.42 (((!!) @ (^[Y1 : a]: 84.48/11.42 (((!!) @ (^[Y2 : a]: 84.48/11.42 (((less_eq @ Y0 @ Y1) => 84.48/11.42 (((sup @ Y0 @ (inf @ Y1 @ Y2)) = 84.48/11.42 (inf @ Y1 @ (sup @ Y0 @ Y2)))))))))))))))), 84.48/11.42 inference('cnf', [status(esa)], [fact_126_local_Omodular])). 84.48/11.42 thf(fact_9_local_Osup__assoc, axiom, 84.48/11.42 (![X:a,Y:a,Z:a]: 84.48/11.42 ( ( sup @ ( sup @ X @ Y ) @ Z ) = ( sup @ X @ ( sup @ Y @ Z ) ) ))). 84.48/11.42 thf(zip_derived_cl208, plain, 84.48/11.42 ( (((!!) @ (^[Y0 : a]: 84.48/11.42 (((!!) @ (^[Y1 : a]: 84.48/11.42 (((!!) @ (^[Y2 : a]: 84.48/11.42 (((sup @ (sup @ Y0 @ Y1) @ Y2) = 84.48/11.42 (sup @ Y0 @ (sup @ Y1 @ Y2)))))))))))))), 84.48/11.42 inference('cnf', [status(esa)], [fact_9_local_Osup__assoc])). 84.48/11.42 thf(fact_10_local_Osup__commute, axiom, 84.48/11.42 (![X:a,Y:a]: ( ( sup @ X @ Y ) = ( sup @ Y @ X ) ))). 84.48/11.42 thf(zip_derived_cl175, plain, 84.48/11.42 ( (((!!) @ (^[Y0 : a]: 84.48/11.42 (((!!) @ (^[Y1 : a]: (((sup @ Y0 @ Y1) = (sup @ Y1 @ Y0)))))))))), 84.48/11.42 inference('cnf', [status(esa)], [fact_10_local_Osup__commute])). 84.48/11.42 thf(conj_0, conjecture, 84.48/11.42 (( sup @ 84.48/11.42 ( inf @ 84.48/11.42 ( sup @ b @ ( modula1936294176_aux_a @ inf @ sup @ a2 @ b @ c ) ) @ 84.48/11.42 ( modula1144073633_aux_a @ inf @ sup @ a2 @ b @ c ) ) @ 84.48/11.42 ( inf @ 84.48/11.42 ( modula1144073633_aux_a @ inf @ sup @ a2 @ b @ c ) @ 84.48/11.42 ( sup @ a2 @ ( modula1936294176_aux_a @ inf @ sup @ a2 @ b @ c ) ) ) ) = 84.48/11.42 ( inf @ 84.48/11.42 ( modula1144073633_aux_a @ inf @ sup @ a2 @ b @ c ) @ 84.48/11.42 ( sup @ 84.48/11.42 ( inf @ 84.48/11.42 ( sup @ b @ ( modula1936294176_aux_a @ inf @ sup @ a2 @ b @ c ) ) @ 84.48/11.42 ( modula1144073633_aux_a @ inf @ sup @ a2 @ b @ c ) ) @ 84.48/11.42 ( sup @ a2 @ ( modula1936294176_aux_a @ inf @ sup @ a2 @ b @ c ) ) ) ))). 84.48/11.42 thf(zf_stmt_0, negated_conjecture, 84.48/11.42 (( sup @ 84.48/11.42 ( inf @ 84.48/11.42 ( sup @ b @ ( modula1936294176_aux_a @ inf @ sup @ a2 @ b @ c ) ) @ 84.48/11.42 ( modula1144073633_aux_a @ inf @ sup @ a2 @ b @ c ) ) @ 84.48/11.42 ( inf @ 84.48/11.42 ( modula1144073633_aux_a @ inf @ sup @ a2 @ b @ c ) @ 84.48/11.42 ( sup @ a2 @ ( modula1936294176_aux_a @ inf @ sup @ a2 @ b @ c ) ) ) ) != 84.48/11.42 ( inf @ 84.48/11.42 ( modula1144073633_aux_a @ inf @ sup @ a2 @ b @ c ) @ 84.48/11.42 ( sup @ 84.48/11.42 ( inf @ 84.48/11.42 ( sup @ b @ ( modula1936294176_aux_a @ inf @ sup @ a2 @ b @ c ) ) @ 84.48/11.42 ( modula1144073633_aux_a @ inf @ sup @ a2 @ b @ c ) ) @ 84.48/11.42 ( sup @ a2 @ ( modula1936294176_aux_a @ inf @ sup @ a2 @ b @ c ) ) ) )), 84.48/11.42 inference('cnf.neg', [status(esa)], [conj_0])). 84.48/11.42 thf(zip_derived_cl202, plain, 84.48/11.42 (((sup @ 84.48/11.42 (inf @ 84.48/11.42 (sup @ b @ (modula1936294176_aux_a @ inf @ sup @ a2 @ b @ c)) @ 84.48/11.42 (modula1144073633_aux_a @ inf @ sup @ a2 @ b @ c)) @ 84.48/11.42 (inf @ (modula1144073633_aux_a @ inf @ sup @ a2 @ b @ c) @ 84.48/11.42 (sup @ a2 @ (modula1936294176_aux_a @ inf @ sup @ a2 @ b @ c)))) 84.48/11.42 != (inf @ (modula1144073633_aux_a @ inf @ sup @ a2 @ b @ c) @ 84.48/11.42 (sup @ 84.48/11.42 (inf @ 84.48/11.42 (sup @ b @ (modula1936294176_aux_a @ inf @ sup @ a2 @ b @ c)) @ 84.48/11.42 (modula1144073633_aux_a @ inf @ sup @ a2 @ b @ c)) @ 84.48/11.42 (sup @ a2 @ (modula1936294176_aux_a @ inf @ sup @ a2 @ b @ c)))))), 84.48/11.42 inference('cnf', [status(esa)], [zf_stmt_0])). 84.48/11.42 thf(fact_61_local_Ob__a, axiom, 84.48/11.42 (![A:a,B:a,C:a]: 84.48/11.42 ( ( modula1373251614_aux_a @ inf @ sup @ A @ B @ C ) = 84.48/11.42 ( modula17988509_aux_a @ inf @ sup @ B @ C @ A ) ))). 84.48/11.42 thf(zip_derived_cl194, plain, 84.48/11.42 ( (((!!) @ (^[Y0 : a]: 84.48/11.42 (((!!) @ (^[Y1 : a]: 84.48/11.42 (((!!) @ (^[Y2 : a]: 84.48/11.42 (((modula1373251614_aux_a @ inf @ 84.48/11.42 sup @ Y0 @ Y1 @ Y2) = 84.48/11.42 (modula17988509_aux_a @ inf @ 84.48/11.42 sup @ Y1 @ Y2 @ Y0))))))))))))), 84.48/11.42 inference('cnf', [status(esa)], [fact_61_local_Ob__a])). 84.48/11.42 thf(fact_16_local_Ob__join__d, axiom, 84.48/11.42 (![B:a,A:a,C:a]: 84.48/11.42 ( ( sup @ B @ ( modula1936294176_aux_a @ inf @ sup @ A @ B @ C ) ) = 84.48/11.42 ( sup @ B @ ( inf @ C @ A ) ) ))). 84.48/11.42 thf(zip_derived_cl239, plain, 84.48/11.42 ( (((!!) @ (^[Y0 : a]: 84.48/11.42 (((!!) @ (^[Y1 : a]: 84.48/11.42 (((!!) @ (^[Y2 : a]: 84.48/11.42 (((sup @ Y0 @ 84.48/11.42 (modula1936294176_aux_a @ inf @ 84.48/11.42 sup @ Y1 @ Y0 @ Y2)) = 84.48/11.42 (sup @ Y0 @ (inf @ Y2 @ Y1)))))))))))))), 84.48/11.42 inference('cnf', [status(esa)], [fact_16_local_Ob__join__d])). 84.48/11.42 thf(fact_139_b__def__equiv, axiom, 84.48/11.42 (![A:a,B:a,C:a]: 84.48/11.42 ( ( less_eq @ 84.48/11.42 ( modula1936294176_aux_a @ inf @ sup @ A @ B @ C ) @ 84.48/11.42 ( modula1144073633_aux_a @ inf @ sup @ A @ B @ C ) ) => 84.48/11.42 ( ( modula1373251614_aux_a @ inf @ sup @ A @ B @ C ) = 84.48/11.42 ( inf @ 84.48/11.42 ( sup @ B @ ( modula1936294176_aux_a @ inf @ sup @ A @ B @ C ) ) @ 84.48/11.42 ( modula1144073633_aux_a @ inf @ sup @ A @ B @ C ) ) ) ))). 84.48/11.42 thf(zip_derived_cl199, plain, 84.48/11.42 ( (((!!) @ (^[Y0 : a]: 84.48/11.42 (((!!) @ (^[Y1 : a]: 84.48/11.42 (((!!) @ (^[Y2 : a]: 84.48/11.42 (((less_eq @ 84.48/11.42 (modula1936294176_aux_a @ inf @ 84.48/11.42 sup @ Y0 @ Y1 @ Y2) @ 84.48/11.42 (modula1144073633_aux_a @ inf @ 84.48/11.42 sup @ Y0 @ Y1 @ Y2)) => 84.48/11.42 (((modula1373251614_aux_a @ 84.48/11.42 inf @ sup @ Y0 @ Y1 @ Y2) = 84.48/11.42 (inf @ 84.48/11.42 (sup @ Y1 @ 84.48/11.42 (modula1936294176_aux_a @ 84.48/11.42 inf @ sup @ Y0 @ Y1 @ Y2)) @ 84.48/11.42 (modula1144073633_aux_a @ 84.48/11.42 inf @ sup @ Y0 @ Y1 @ Y2)))))))))))))))), 84.48/11.42 inference('cnf', [status(esa)], [fact_139_b__def__equiv])). 84.48/11.42 thf(fact_4_local_Oinf__commute, axiom, 84.48/11.42 (![X:a,Y:a]: ( ( inf @ X @ Y ) = ( inf @ Y @ X ) ))). 84.48/11.42 thf(zip_derived_cl52, plain, 84.48/11.42 ( (((!!) @ (^[Y0 : a]: 84.48/11.42 (((!!) @ (^[Y1 : a]: (((inf @ Y0 @ Y1) = (inf @ Y1 @ Y0)))))))))), 84.48/11.42 inference('cnf', [status(esa)], [fact_4_local_Oinf__commute])). 84.48/11.42 thf(zip_derived_cl3098, plain, ($false), 84.48/11.42 inference('eprover', [status(thm)], 84.48/11.42 [zip_derived_cl85, zip_derived_cl215, zip_derived_cl223, 84.48/11.42 zip_derived_cl208, zip_derived_cl175, zip_derived_cl202, 84.48/11.42 zip_derived_cl194, zip_derived_cl239, zip_derived_cl199, 84.48/11.42 zip_derived_cl52])). 84.48/11.42 84.48/11.42 % SZS output end Refutation 84.48/11.42 84.48/11.42 84.48/11.42 % Terminating... 84.62/11.53 % Runner terminated. 84.63/11.54 % Zipperpin 1.5 exiting 84.63/11.55 EOF