TSTP Solution File: KLE151-10 by Otter---3.3
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- Process Solution
%------------------------------------------------------------------------------
% File : Otter---3.3
% Problem : KLE151-10 : TPTP v8.1.0. Released v7.3.0.
% Transfm : none
% Format : tptp:raw
% Command : otter-tptp-script %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 : 300s
% DateTime : Wed Jul 27 13:00:52 EDT 2022
% Result : Unknown 2.24s 2.45s
% Output : None
% Verified :
% SZS Type : -
% Comments :
%------------------------------------------------------------------------------
%----No solution output by system
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.03/0.11 % Problem : KLE151-10 : TPTP v8.1.0. Released v7.3.0.
% 0.03/0.12 % Command : otter-tptp-script %s
% 0.12/0.33 % Computer : n025.cluster.edu
% 0.12/0.33 % Model : x86_64 x86_64
% 0.12/0.33 % CPU : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 0.12/0.33 % Memory : 8042.1875MB
% 0.12/0.33 % OS : Linux 3.10.0-693.el7.x86_64
% 0.12/0.33 % CPULimit : 300
% 0.12/0.33 % WCLimit : 300
% 0.12/0.33 % DateTime : Wed Jul 27 06:35:30 EDT 2022
% 0.12/0.33 % CPUTime :
% 1.91/2.10 ----- Otter 3.3f, August 2004 -----
% 1.91/2.10 The process was started by sandbox2 on n025.cluster.edu,
% 1.91/2.10 Wed Jul 27 06:35:30 2022
% 1.91/2.10 The command was "./otter". The process ID is 28454.
% 1.91/2.10
% 1.91/2.10 set(prolog_style_variables).
% 1.91/2.10 set(auto).
% 1.91/2.10 dependent: set(auto1).
% 1.91/2.10 dependent: set(process_input).
% 1.91/2.10 dependent: clear(print_kept).
% 1.91/2.10 dependent: clear(print_new_demod).
% 1.91/2.10 dependent: clear(print_back_demod).
% 1.91/2.10 dependent: clear(print_back_sub).
% 1.91/2.10 dependent: set(control_memory).
% 1.91/2.10 dependent: assign(max_mem, 12000).
% 1.91/2.10 dependent: assign(pick_given_ratio, 4).
% 1.91/2.10 dependent: assign(stats_level, 1).
% 1.91/2.10 dependent: assign(max_seconds, 10800).
% 1.91/2.10 clear(print_given).
% 1.91/2.10
% 1.91/2.10 list(usable).
% 1.91/2.10 0 [] A=A.
% 1.91/2.10 0 [] ife_q3(A,A,B,C)=B.
% 1.91/2.10 0 [] ife_q2(A,A,B,C)=B.
% 1.91/2.10 0 [] ife_q(A,A,B,C)=B.
% 1.91/2.10 0 [] addition(A,B)=addition(B,A).
% 1.91/2.10 0 [] addition(A,addition(B,C))=addition(addition(A,B),C).
% 1.91/2.10 0 [] addition(A,zero)=A.
% 1.91/2.10 0 [] addition(A,A)=A.
% 1.91/2.10 0 [] multiplication(A,multiplication(B,C))=multiplication(multiplication(A,B),C).
% 1.91/2.10 0 [] multiplication(A,one)=A.
% 1.91/2.10 0 [] multiplication(one,A)=A.
% 1.91/2.10 0 [] multiplication(A,addition(B,C))=addition(multiplication(A,B),multiplication(A,C)).
% 1.91/2.10 0 [] multiplication(addition(A,B),C)=addition(multiplication(A,C),multiplication(B,C)).
% 1.91/2.10 0 [] multiplication(zero,A)=zero.
% 1.91/2.10 0 [] addition(one,multiplication(A,star(A)))=star(A).
% 1.91/2.10 0 [] addition(one,multiplication(star(A),A))=star(A).
% 1.91/2.10 0 [] ife_q(le_q(addition(multiplication(A,C),B),C),true,le_q(multiplication(star(A),B),C),true)=true.
% 1.91/2.10 0 [] ife_q(le_q(addition(multiplication(C,A),B),C),true,le_q(multiplication(B,star(A)),C),true)=true.
% 1.91/2.10 0 [] strong_iteration(A)=addition(multiplication(A,strong_iteration(A)),one).
% 1.91/2.10 0 [] ife_q(le_q(C,addition(multiplication(A,C),B)),true,le_q(C,multiplication(strong_iteration(A),B)),true)=true.
% 1.91/2.10 0 [] strong_iteration(A)=addition(star(A),multiplication(strong_iteration(A),zero)).
% 1.91/2.10 0 [] ife_q2(le_q(A,B),true,addition(A,B),B)=B.
% 1.91/2.10 0 [] ife_q3(addition(A,B),B,le_q(A,B),true)=true.
% 1.91/2.10 0 [] le_q(multiplication(sK2_goals_X0,strong_iteration(multiplication(sK1_goals_X1,sK2_goals_X0))),multiplication(strong_iteration(multiplication(sK2_goals_X0,sK1_goals_X1)),sK2_goals_X0))!=true.
% 1.91/2.10 end_of_list.
% 1.91/2.10
% 1.91/2.10 SCAN INPUT: prop=0, horn=1, equality=1, symmetry=0, max_lits=1.
% 1.91/2.10
% 1.91/2.10 All clauses are units, and equality is present; the
% 1.91/2.10 strategy will be Knuth-Bendix with positive clauses in sos.
% 1.91/2.10
% 1.91/2.10 dependent: set(knuth_bendix).
% 1.91/2.10 dependent: set(anl_eq).
% 1.91/2.10 dependent: set(para_from).
% 1.91/2.10 dependent: set(para_into).
% 1.91/2.10 dependent: clear(para_from_right).
% 1.91/2.10 dependent: clear(para_into_right).
% 1.91/2.10 dependent: set(para_from_vars).
% 1.91/2.10 dependent: set(eq_units_both_ways).
% 1.91/2.10 dependent: set(dynamic_demod_all).
% 1.91/2.10 dependent: set(dynamic_demod).
% 1.91/2.10 dependent: set(order_eq).
% 1.91/2.10 dependent: set(back_demod).
% 1.91/2.10 dependent: set(lrpo).
% 1.91/2.10
% 1.91/2.10 ------------> process usable:
% 1.91/2.10 ** KEPT (pick-wt=15): 1 [] le_q(multiplication(sK2_goals_X0,strong_iteration(multiplication(sK1_goals_X1,sK2_goals_X0))),multiplication(strong_iteration(multiplication(sK2_goals_X0,sK1_goals_X1)),sK2_goals_X0))!=true.
% 1.91/2.10
% 1.91/2.10 ------------> process sos:
% 1.91/2.10 ** KEPT (pick-wt=3): 2 [] A=A.
% 1.91/2.10 ** KEPT (pick-wt=7): 3 [] ife_q3(A,A,B,C)=B.
% 1.91/2.10 ---> New Demodulator: 4 [new_demod,3] ife_q3(A,A,B,C)=B.
% 1.91/2.10 ** KEPT (pick-wt=7): 5 [] ife_q2(A,A,B,C)=B.
% 1.91/2.10 ---> New Demodulator: 6 [new_demod,5] ife_q2(A,A,B,C)=B.
% 1.91/2.10 ** KEPT (pick-wt=7): 7 [] ife_q(A,A,B,C)=B.
% 1.91/2.10 ---> New Demodulator: 8 [new_demod,7] ife_q(A,A,B,C)=B.
% 1.91/2.10 ** KEPT (pick-wt=7): 9 [] addition(A,B)=addition(B,A).
% 1.91/2.10 ** KEPT (pick-wt=11): 11 [copy,10,flip.1] addition(addition(A,B),C)=addition(A,addition(B,C)).
% 1.91/2.10 ---> New Demodulator: 12 [new_demod,11] addition(addition(A,B),C)=addition(A,addition(B,C)).
% 1.91/2.10 ** KEPT (pick-wt=5): 13 [] addition(A,zero)=A.
% 1.91/2.10 ---> New Demodulator: 14 [new_demod,13] addition(A,zero)=A.
% 1.91/2.10 ** KEPT (pick-wt=5): 15 [] addition(A,A)=A.
% 1.91/2.10 ---> New Demodulator: 16 [new_demod,15] addition(A,A)=A.
% 1.91/2.10 ** KEPT (pick-wt=11): 18 [copy,17,flip.1] multiplication(multiplication(A,B),C)=multiplication(A,multiplication(B,C)).
% 1.91/2.10 ---> New Demodulator: 19 [new_demod,18] multiplication(multiplication(A,B),C)=multiplication(A,multiplication(B,C)).
% 1.91/2.10 ** KEPT (pick-wt=5): 20 [] multiplication(A,one)=A.
% 1.91/2.10 ---> New Demodulator: 21 [new_demod,20] multiplication(A,one)=A.
% 2.24/2.45 ** KEPT (pick-wt=5): 22 [] multiplication(one,A)=A.
% 2.24/2.45 ---> New Demodulator: 23 [new_demod,22] multiplication(one,A)=A.
% 2.24/2.45 ** KEPT (pick-wt=13): 24 [] multiplication(A,addition(B,C))=addition(multiplication(A,B),multiplication(A,C)).
% 2.24/2.45 ---> New Demodulator: 25 [new_demod,24] multiplication(A,addition(B,C))=addition(multiplication(A,B),multiplication(A,C)).
% 2.24/2.45 ** KEPT (pick-wt=13): 26 [] multiplication(addition(A,B),C)=addition(multiplication(A,C),multiplication(B,C)).
% 2.24/2.45 ---> New Demodulator: 27 [new_demod,26] multiplication(addition(A,B),C)=addition(multiplication(A,C),multiplication(B,C)).
% 2.24/2.45 ** KEPT (pick-wt=5): 28 [] multiplication(zero,A)=zero.
% 2.24/2.45 ---> New Demodulator: 29 [new_demod,28] multiplication(zero,A)=zero.
% 2.24/2.45 ** KEPT (pick-wt=9): 30 [] addition(one,multiplication(A,star(A)))=star(A).
% 2.24/2.45 ---> New Demodulator: 31 [new_demod,30] addition(one,multiplication(A,star(A)))=star(A).
% 2.24/2.45 ** KEPT (pick-wt=9): 32 [] addition(one,multiplication(star(A),A))=star(A).
% 2.24/2.45 ---> New Demodulator: 33 [new_demod,32] addition(one,multiplication(star(A),A))=star(A).
% 2.24/2.45 ** KEPT (pick-wt=18): 34 [] ife_q(le_q(addition(multiplication(A,B),C),B),true,le_q(multiplication(star(A),C),B),true)=true.
% 2.24/2.45 ---> New Demodulator: 35 [new_demod,34] ife_q(le_q(addition(multiplication(A,B),C),B),true,le_q(multiplication(star(A),C),B),true)=true.
% 2.24/2.45 ** KEPT (pick-wt=18): 36 [] ife_q(le_q(addition(multiplication(A,B),C),A),true,le_q(multiplication(C,star(B)),A),true)=true.
% 2.24/2.45 ---> New Demodulator: 37 [new_demod,36] ife_q(le_q(addition(multiplication(A,B),C),A),true,le_q(multiplication(C,star(B)),A),true)=true.
% 2.24/2.45 ** KEPT (pick-wt=9): 39 [copy,38,flip.1] addition(multiplication(A,strong_iteration(A)),one)=strong_iteration(A).
% 2.24/2.45 ---> New Demodulator: 40 [new_demod,39] addition(multiplication(A,strong_iteration(A)),one)=strong_iteration(A).
% 2.24/2.45 ** KEPT (pick-wt=18): 41 [] ife_q(le_q(A,addition(multiplication(B,A),C)),true,le_q(A,multiplication(strong_iteration(B),C)),true)=true.
% 2.24/2.45 ---> New Demodulator: 42 [new_demod,41] ife_q(le_q(A,addition(multiplication(B,A),C)),true,le_q(A,multiplication(strong_iteration(B),C)),true)=true.
% 2.24/2.45 ** KEPT (pick-wt=10): 44 [copy,43,flip.1] addition(star(A),multiplication(strong_iteration(A),zero))=strong_iteration(A).
% 2.24/2.45 ---> New Demodulator: 45 [new_demod,44] addition(star(A),multiplication(strong_iteration(A),zero))=strong_iteration(A).
% 2.24/2.45 ** KEPT (pick-wt=11): 46 [] ife_q2(le_q(A,B),true,addition(A,B),B)=B.
% 2.24/2.45 ---> New Demodulator: 47 [new_demod,46] ife_q2(le_q(A,B),true,addition(A,B),B)=B.
% 2.24/2.45 ** KEPT (pick-wt=11): 48 [] ife_q3(addition(A,B),B,le_q(A,B),true)=true.
% 2.24/2.45 ---> New Demodulator: 49 [new_demod,48] ife_q3(addition(A,B),B,le_q(A,B),true)=true.
% 2.24/2.45 Following clause subsumed by 2 during input processing: 0 [copy,2,flip.1] A=A.
% 2.24/2.45 >>>> Starting back demodulation with 4.
% 2.24/2.45 >>>> Starting back demodulation with 6.
% 2.24/2.45 >>>> Starting back demodulation with 8.
% 2.24/2.45 Following clause subsumed by 9 during input processing: 0 [copy,9,flip.1] addition(A,B)=addition(B,A).
% 2.24/2.45 >>>> Starting back demodulation with 12.
% 2.24/2.45 >>>> Starting back demodulation with 14.
% 2.24/2.45 >>>> Starting back demodulation with 16.
% 2.24/2.45 >>>> Starting back demodulation with 19.
% 2.24/2.45 >>>> Starting back demodulation with 21.
% 2.24/2.45 >>>> Starting back demodulation with 23.
% 2.24/2.45 >>>> Starting back demodulation with 25.
% 2.24/2.45 >>>> Starting back demodulation with 27.
% 2.24/2.45 >>>> Starting back demodulation with 29.
% 2.24/2.45 >>>> Starting back demodulation with 31.
% 2.24/2.45 >>>> Starting back demodulation with 33.
% 2.24/2.45 >>>> Starting back demodulation with 35.
% 2.24/2.45 >>>> Starting back demodulation with 37.
% 2.24/2.45 >>>> Starting back demodulation with 40.
% 2.24/2.45 >>>> Starting back demodulation with 42.
% 2.24/2.45 >>>> Starting back demodulation with 45.
% 2.24/2.45 >>>> Starting back demodulation with 47.
% 2.24/2.45 >>>> Starting back demodulation with 49.
% 2.24/2.45
% 2.24/2.45 ======= end of input processing =======
% 2.24/2.45
% 2.24/2.45 =========== start of search ===========
% 2.24/2.45 �
% 2.24/2.45
% 2.24/2.45 Resetting weight limit to 10.
% 2.24/2.45
% 2.24/2.45
% 2.24/2.45 Resetting weight limit to 10.
% 2.24/2.45
% 2.24/2.45 sos_size=242
% 2.24/2.45 �
% 2.24/2.45
% 2.24/2.45 Resetting weight limit to 9.
% 2.24/2.45
% 2.24/2.45
% 2.24/2.45 Resetting weight limit to 9.
% 2.24/2.45
% 2.24/2.45 sos_size=251
% 2.24/2.45
% 2.24/2.45 �Search stopped because sos empty.
% 2.24/2.45
% 2.24/2.45
% 2.24/2.45 Search stopped because sos empty.
% 2.24/2.45
% 2.24/2.45 ============ end of search ============
% 2.24/2.45
% 2.24/2.45 -------------- statistics -------------
% 2.24/2.45 clauses given 517
% 2.24/2.45 clauses generated 49051
% 2.24/2.45 clauses kept 620
% 2.24/2.45 clauses forward subsumed 22642
% 2.24/2.45 clauses back subsumed 0
% 2.24/2.45 Kbytes malloced 7812
% 2.24/2.45
% 2.24/2.45 ----------- times (seconds) -----------
% 2.24/2.45 user CPU time 0.34 (0 hr, 0 min, 0 sec)
% 2.24/2.45 system CPU time 0.00 (0 hr, 0 min, 0 sec)
% 2.24/2.45 wall-clock time 2 (0 hr, 0 min, 2 sec)
% 2.24/2.45
% 2.24/2.45 Process 28454 finished Wed Jul 27 06:35:32 2022
% 2.24/2.45 Otter interrupted
% 2.24/2.45 PROOF NOT FOUND
%------------------------------------------------------------------------------