TSTP Solution File: KLE122+1 by Prover9---1109a
View Problem
- Process Solution
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% File : Prover9---1109a
% Problem : KLE122+1 : TPTP v8.1.0. Released v4.0.0.
% Transfm : none
% Format : tptp:raw
% Command : tptp2X_and_run_prover9 %d %s
% Computer : n011.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 : 600s
% DateTime : Sun Jul 17 02:22:20 EDT 2022
% Result : Timeout 300.02s 300.32s
% Output : None
% Verified :
% SZS Type : -
% Comments :
%------------------------------------------------------------------------------
%----No solution output by system
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%----ORIGINAL SYSTEM OUTPUT
% 0.06/0.11 % Problem : KLE122+1 : TPTP v8.1.0. Released v4.0.0.
% 0.06/0.12 % Command : tptp2X_and_run_prover9 %d %s
% 0.12/0.33 % Computer : n011.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 : 600
% 0.12/0.33 % DateTime : Thu Jun 16 11:31:21 EDT 2022
% 0.12/0.33 % CPUTime :
% 0.68/1.00 ============================== Prover9 ===============================
% 0.68/1.00 Prover9 (32) version 2009-11A, November 2009.
% 0.68/1.00 Process 6491 was started by sandbox on n011.cluster.edu,
% 0.68/1.00 Thu Jun 16 11:31:21 2022
% 0.68/1.00 The command was "/export/starexec/sandbox/solver/bin/prover9 -t 300 -f /tmp/Prover9_6338_n011.cluster.edu".
% 0.68/1.00 ============================== end of head ===========================
% 0.68/1.00
% 0.68/1.00 ============================== INPUT =================================
% 0.68/1.00
% 0.68/1.00 % Reading from file /tmp/Prover9_6338_n011.cluster.edu
% 0.68/1.00
% 0.68/1.00 set(prolog_style_variables).
% 0.68/1.00 set(auto2).
% 0.68/1.00 % set(auto2) -> set(auto).
% 0.68/1.00 % set(auto) -> set(auto_inference).
% 0.68/1.00 % set(auto) -> set(auto_setup).
% 0.68/1.00 % set(auto_setup) -> set(predicate_elim).
% 0.68/1.00 % set(auto_setup) -> assign(eq_defs, unfold).
% 0.68/1.00 % set(auto) -> set(auto_limits).
% 0.68/1.00 % set(auto_limits) -> assign(max_weight, "100.000").
% 0.68/1.00 % set(auto_limits) -> assign(sos_limit, 20000).
% 0.68/1.00 % set(auto) -> set(auto_denials).
% 0.68/1.00 % set(auto) -> set(auto_process).
% 0.68/1.00 % set(auto2) -> assign(new_constants, 1).
% 0.68/1.00 % set(auto2) -> assign(fold_denial_max, 3).
% 0.68/1.00 % set(auto2) -> assign(max_weight, "200.000").
% 0.68/1.00 % set(auto2) -> assign(max_hours, 1).
% 0.68/1.00 % assign(max_hours, 1) -> assign(max_seconds, 3600).
% 0.68/1.00 % set(auto2) -> assign(max_seconds, 0).
% 0.68/1.00 % set(auto2) -> assign(max_minutes, 5).
% 0.68/1.00 % assign(max_minutes, 5) -> assign(max_seconds, 300).
% 0.68/1.00 % set(auto2) -> set(sort_initial_sos).
% 0.68/1.00 % set(auto2) -> assign(sos_limit, -1).
% 0.68/1.00 % set(auto2) -> assign(lrs_ticks, 3000).
% 0.68/1.00 % set(auto2) -> assign(max_megs, 400).
% 0.68/1.00 % set(auto2) -> assign(stats, some).
% 0.68/1.00 % set(auto2) -> clear(echo_input).
% 0.68/1.00 % set(auto2) -> set(quiet).
% 0.68/1.00 % set(auto2) -> clear(print_initial_clauses).
% 0.68/1.00 % set(auto2) -> clear(print_given).
% 0.68/1.00 assign(lrs_ticks,-1).
% 0.68/1.00 assign(sos_limit,10000).
% 0.68/1.00 assign(order,kbo).
% 0.68/1.00 set(lex_order_vars).
% 0.68/1.00 clear(print_given).
% 0.68/1.00
% 0.68/1.00 % formulas(sos). % not echoed (28 formulas)
% 0.68/1.00
% 0.68/1.00 ============================== end of input ==========================
% 0.68/1.00
% 0.68/1.00 % From the command line: assign(max_seconds, 300).
% 0.68/1.00
% 0.68/1.00 ============================== PROCESS NON-CLAUSAL FORMULAS ==========
% 0.68/1.00
% 0.68/1.00 % Formulas that are not ordinary clauses:
% 0.68/1.00 1 (all A all B addition(A,B) = addition(B,A)) # label(additive_commutativity) # label(axiom) # label(non_clause). [assumption].
% 0.68/1.00 2 (all C all B all A addition(A,addition(B,C)) = addition(addition(A,B),C)) # label(additive_associativity) # label(axiom) # label(non_clause). [assumption].
% 0.68/1.00 3 (all A addition(A,zero) = A) # label(additive_identity) # label(axiom) # label(non_clause). [assumption].
% 0.68/1.00 4 (all A addition(A,A) = A) # label(additive_idempotence) # label(axiom) # label(non_clause). [assumption].
% 0.68/1.00 5 (all A all B all C multiplication(A,multiplication(B,C)) = multiplication(multiplication(A,B),C)) # label(multiplicative_associativity) # label(axiom) # label(non_clause). [assumption].
% 0.68/1.00 6 (all A multiplication(A,one) = A) # label(multiplicative_right_identity) # label(axiom) # label(non_clause). [assumption].
% 0.68/1.00 7 (all A multiplication(one,A) = A) # label(multiplicative_left_identity) # label(axiom) # label(non_clause). [assumption].
% 0.68/1.00 8 (all A all B all C multiplication(A,addition(B,C)) = addition(multiplication(A,B),multiplication(A,C))) # label(right_distributivity) # label(axiom) # label(non_clause). [assumption].
% 0.68/1.00 9 (all A all B all C multiplication(addition(A,B),C) = addition(multiplication(A,C),multiplication(B,C))) # label(left_distributivity) # label(axiom) # label(non_clause). [assumption].
% 0.68/1.00 10 (all A multiplication(A,zero) = zero) # label(right_annihilation) # label(axiom) # label(non_clause). [assumption].
% 0.68/1.00 11 (all A multiplication(zero,A) = zero) # label(left_annihilation) # label(axiom) # label(non_clause). [assumption].
% 0.68/1.00 12 (all A all B (leq(A,B) <-> addition(A,B) = B)) # label(order) # label(axiom) # label(non_clause). [assumption].
% 0.68/1.00 13 (all X0 multiplication(antidomain(X0),X0) = zero) # label(domain1) # label(axiom) # label(non_clause). [assumption].
% 0.68/1.00 14 (all X0 all X1 addition(antidomain(multiplication(X0,X1)),antidomain(multiplication(X0,antidomain(antidomain(X1))))) = antidomain(multiplication(X0,antidomain(antidomain(X1))))) # label(domain2) # label(axiom) # label(non_clause). [assumption].
% 2.13/2.40 15 (all X0 addition(antidomain(antidomain(X0)),antidomain(X0)) = one) # label(domain3) # label(axiom) # label(non_clause). [assumption].
% 2.13/2.40 16 (all X0 domain(X0) = antidomain(antidomain(X0))) # label(domain4) # label(axiom) # label(non_clause). [assumption].
% 2.13/2.40 17 (all X0 multiplication(X0,coantidomain(X0)) = zero) # label(codomain1) # label(axiom) # label(non_clause). [assumption].
% 2.13/2.40 18 (all X0 all X1 addition(coantidomain(multiplication(X0,X1)),coantidomain(multiplication(coantidomain(coantidomain(X0)),X1))) = coantidomain(multiplication(coantidomain(coantidomain(X0)),X1))) # label(codomain2) # label(axiom) # label(non_clause). [assumption].
% 2.13/2.40 19 (all X0 addition(coantidomain(coantidomain(X0)),coantidomain(X0)) = one) # label(codomain3) # label(axiom) # label(non_clause). [assumption].
% 2.13/2.40 20 (all X0 codomain(X0) = coantidomain(coantidomain(X0))) # label(codomain4) # label(axiom) # label(non_clause). [assumption].
% 2.13/2.40 21 (all X0 c(X0) = antidomain(domain(X0))) # label(complement) # label(axiom) # label(non_clause). [assumption].
% 2.13/2.40 22 (all X0 all X1 domain_difference(X0,X1) = multiplication(domain(X0),antidomain(X1))) # label(domain_difference) # label(axiom) # label(non_clause). [assumption].
% 2.13/2.40 23 (all X0 all X1 forward_diamond(X0,X1) = domain(multiplication(X0,domain(X1)))) # label(forward_diamond) # label(axiom) # label(non_clause). [assumption].
% 2.13/2.40 24 (all X0 all X1 backward_diamond(X0,X1) = codomain(multiplication(codomain(X1),X0))) # label(backward_diamond) # label(axiom) # label(non_clause). [assumption].
% 2.13/2.40 25 (all X0 all X1 forward_box(X0,X1) = c(forward_diamond(X0,c(X1)))) # label(forward_box) # label(axiom) # label(non_clause). [assumption].
% 2.13/2.40 26 (all X0 all X1 backward_box(X0,X1) = c(backward_diamond(X0,c(X1)))) # label(backward_box) # label(axiom) # label(non_clause). [assumption].
% 2.13/2.40 27 (all X0 all X1 all X2 if_then_else(X0,X1,X2) = addition(multiplication(domain(X0),X1),multiplication(antidomain(X0),X2))) # label(if_then_else_definition) # label(axiom) # label(non_clause). [assumption].
% 2.13/2.40 28 -(all X0 all X1 all X2 all X3 all X4 (addition(backward_diamond(X0,multiplication(domain(X2),domain(X3))),domain(X4)) = domain(X4) & addition(backward_diamond(X1,multiplication(antidomain(X2),domain(X3))),domain(X4)) = domain(X4) -> addition(backward_diamond(if_then_else(X2,X0,X1),domain(X3)),domain(X4)) = domain(X4))) # label(goals) # label(negated_conjecture) # label(non_clause). [assumption].
% 2.13/2.40
% 2.13/2.40 ============================== end of process non-clausal formulas ===
% 2.13/2.40
% 2.13/2.40 ============================== PROCESS INITIAL CLAUSES ===============
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% 2.13/2.40 ============================== PREDICATE ELIMINATION =================
% 2.13/2.40 29 leq(A,B) | addition(A,B) != B # label(order) # label(axiom). [clausify(12)].
% 2.13/2.40 30 -leq(A,B) | addition(A,B) = B # label(order) # label(axiom). [clausify(12)].
% 2.13/2.40
% 2.13/2.40 ============================== end predicate elimination =============
% 2.13/2.40
% 2.13/2.40 Auto_denials:
% 2.13/2.40 % copying label goals to answer in negative clause
% 2.13/2.40
% 2.13/2.40 Term ordering decisions:
% 2.13/2.40 Function symbol KB weights: zero=1. one=1. c1=1. c2=1. c3=1. c4=1. c5=1. multiplication=1. addition=1. backward_diamond=1. forward_diamond=1. backward_box=1. domain_difference=1. forward_box=1. antidomain=1. coantidomain=1. domain=1. c=1. codomain=1. if_then_else=1.
% 2.13/2.40
% 2.13/2.40 ============================== end of process initial clauses ========
% 2.13/2.40
% 2.13/2.40 ============================== CLAUSES FOR SEARCH ====================
% 2.13/2.40
% 2.13/2.40 ============================== end of clauses for search =============
% 2.13/2.40
% 2.13/2.40 ============================== SEARCH ================================
% 2.13/2.40
% 2.13/2.40 % Starting search at 0.02 seconds.
% 2.13/2.40
% 2.13/2.40 Low Water (keep): wt=39.000, iters=3334
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% 2.13/2.40 Low Water (keep): wt=36.000, iters=3385
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% 2.13/2.40 Low Water (keep): wt=33.000, iters=3347
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% 2.13/2.40 Low Water (keep): wt=32.000, iters=3376
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% 2.13/2.40 Low Water (keep): wt=31.000, iters=3375
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% 2.13/2.40 Low Water (keep): wt=30.000, iters=3336
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% 2.13/2.40 Low Water (keep): wt=29.000, iters=3413
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% 2.13/2.40 Low Water (keep): wt=28.000, iters=3347
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% 2.13/2.40 Low Water (keep): wt=27.000, iters=3366
% 2.13/2.40
% 2.13/2.40 Low Water (keep): wt=26.000, iters=3353
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% 2.13/2.40 Low Water (keep): wt=25.000, iters=3346
% 2.13/2.40
% 2.13/2.40 Low WateCputime limit exceeded (core dumped)
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