TSTP Solution File: RNG030-7 by EQP---0.9e
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- Process Solution
%------------------------------------------------------------------------------
% File : EQP---0.9e
% Problem : RNG030-7 : TPTP v8.1.0. Released v1.0.0.
% Transfm : none
% Format : tptp:raw
% Command : tptp2X_and_run_eqp %s
% Computer : n022.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 : Mon Jul 18 20:25:34 EDT 2022
% Result : Unknown 9.66s 10.01s
% Output : None
% Verified :
% SZS Type : -
% Comments :
%------------------------------------------------------------------------------
%----No solution output by system
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.06/0.12 % Problem : RNG030-7 : TPTP v8.1.0. Released v1.0.0.
% 0.06/0.12 % Command : tptp2X_and_run_eqp %s
% 0.12/0.33 % Computer : n022.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 : Mon May 30 06:38:22 EDT 2022
% 0.12/0.33 % CPUTime :
% 0.69/1.06 ----- EQP 0.9e, May 2009 -----
% 0.69/1.06 The job began on n022.cluster.edu, Mon May 30 06:38:23 2022
% 0.69/1.06 The command was "./eqp09e".
% 0.69/1.06
% 0.69/1.06 set(prolog_style_variables).
% 0.69/1.06 set(lrpo).
% 0.69/1.06 set(basic_paramod).
% 0.69/1.06 set(functional_subsume).
% 0.69/1.06 set(ordered_paramod).
% 0.69/1.06 set(prime_paramod).
% 0.69/1.06 set(para_pairs).
% 0.69/1.06 assign(pick_given_ratio,4).
% 0.69/1.06 clear(print_kept).
% 0.69/1.06 clear(print_new_demod).
% 0.69/1.06 clear(print_back_demod).
% 0.69/1.06 clear(print_given).
% 0.69/1.06 assign(max_mem,64000).
% 0.69/1.06 end_of_commands.
% 0.69/1.06
% 0.69/1.06 Usable:
% 0.69/1.06 end_of_list.
% 0.69/1.06
% 0.69/1.06 Sos:
% 0.69/1.06 0 (wt=-1) [] multiply(additive_inverse(A),additive_inverse(B)) = multiply(A,B).
% 0.69/1.06 0 (wt=-1) [] multiply(additive_inverse(A),B) = additive_inverse(multiply(A,B)).
% 0.69/1.06 0 (wt=-1) [] multiply(A,additive_inverse(B)) = additive_inverse(multiply(A,B)).
% 0.69/1.06 0 (wt=-1) [] multiply(A,add(B,additive_inverse(C))) = add(multiply(A,B),additive_inverse(multiply(A,C))).
% 0.69/1.06 0 (wt=-1) [] multiply(add(A,additive_inverse(B)),C) = add(multiply(A,C),additive_inverse(multiply(B,C))).
% 0.69/1.06 0 (wt=-1) [] multiply(additive_inverse(A),add(B,C)) = add(additive_inverse(multiply(A,B)),additive_inverse(multiply(A,C))).
% 0.69/1.06 0 (wt=-1) [] multiply(add(A,B),additive_inverse(C)) = add(additive_inverse(multiply(A,C)),additive_inverse(multiply(B,C))).
% 0.69/1.06 0 (wt=-1) [] add(A,B) = add(B,A).
% 0.69/1.06 0 (wt=-1) [] add(A,add(B,C)) = add(add(A,B),C).
% 0.69/1.06 0 (wt=-1) [] add(additive_identity,A) = A.
% 0.69/1.06 0 (wt=-1) [] add(A,additive_identity) = A.
% 0.69/1.06 0 (wt=-1) [] multiply(additive_identity,A) = additive_identity.
% 0.69/1.06 0 (wt=-1) [] multiply(A,additive_identity) = additive_identity.
% 0.69/1.06 0 (wt=-1) [] add(additive_inverse(A),A) = additive_identity.
% 0.69/1.06 0 (wt=-1) [] add(A,additive_inverse(A)) = additive_identity.
% 0.69/1.06 0 (wt=-1) [] multiply(A,add(B,C)) = add(multiply(A,B),multiply(A,C)).
% 0.69/1.06 0 (wt=-1) [] multiply(add(A,B),C) = add(multiply(A,C),multiply(B,C)).
% 0.69/1.06 0 (wt=-1) [] additive_inverse(additive_inverse(A)) = A.
% 0.69/1.06 0 (wt=-1) [] multiply(multiply(A,B),B) = multiply(A,multiply(B,B)).
% 0.69/1.06 0 (wt=-1) [] associator(A,B,C) = add(multiply(multiply(A,B),C),additive_inverse(multiply(A,multiply(B,C)))).
% 0.69/1.06 0 (wt=-1) [] commutator(A,B) = add(multiply(B,A),additive_inverse(multiply(A,B))).
% 0.69/1.06 0 (wt=-1) [] -(add(multiply(associator(x,x,y),multiply(associator(x,x,y),associator(x,x,y))),multiply(associator(x,x,y),multiply(associator(x,x,y),associator(x,x,y)))) = additive_identity).
% 0.69/1.06 end_of_list.
% 0.69/1.06
% 0.69/1.06 Demodulators:
% 0.69/1.06 end_of_list.
% 0.69/1.06
% 0.69/1.06 Passive:
% 0.69/1.06 end_of_list.
% 0.69/1.06
% 0.69/1.06 Starting to process input.
% 0.69/1.06
% 0.69/1.06 ** KEPT: 1 (wt=9) [] multiply(additive_inverse(A),additive_inverse(B)) = multiply(A,B).
% 0.69/1.06 1 is a new demodulator.
% 0.69/1.06
% 0.69/1.06 ** KEPT: 2 (wt=9) [flip(1)] additive_inverse(multiply(A,B)) = multiply(additive_inverse(A),B).
% 0.69/1.06 2 is a new demodulator.
% 0.69/1.06
% 0.69/1.06 ** KEPT: 3 (wt=9) [demod([2])] multiply(A,additive_inverse(B)) = multiply(additive_inverse(A),B).
% 0.69/1.06
% 0.69/1.06 ** KEPT: 4 (wt=9) [flip(3)] multiply(additive_inverse(A),B) = multiply(A,additive_inverse(B)).
% 0.69/1.06 clause forward subsumed: 0 (wt=9) [flip(4)] multiply(A,additive_inverse(B)) = multiply(additive_inverse(A),B).
% 0.69/1.06
% 0.69/1.06 ** KEPT: 5 (wt=15) [demod([2])] multiply(A,add(B,additive_inverse(C))) = add(multiply(A,B),multiply(additive_inverse(A),C)).
% 0.69/1.06
% 0.69/1.06 ** KEPT: 6 (wt=15) [flip(5)] add(multiply(A,B),multiply(additive_inverse(A),C)) = multiply(A,add(B,additive_inverse(C))).
% 0.69/1.06 clause forward subsumed: 0 (wt=15) [flip(6)] multiply(A,add(B,additive_inverse(C))) = add(multiply(A,B),multiply(additive_inverse(A),C)).
% 0.69/1.06
% 0.69/1.06 ** KEPT: 7 (wt=15) [demod([2])] multiply(add(A,additive_inverse(B)),C) = add(multiply(A,C),multiply(additive_inverse(B),C)).
% 0.69/1.06 7 is a new demodulator.
% 0.69/1.06
% 0.69/1.06 ** KEPT: 8 (wt=16) [demod([2,2])] multiply(additive_inverse(A),add(B,C)) = add(multiply(additive_inverse(A),B),multiply(additive_inverse(A),C)).
% 0.69/1.06 8 is a new demodulator.
% 0.69/1.06
% 0.69/1.06 ** KEPT: 9 (wt=16) [demod([2,2])] multiply(add(A,B),additive_inverse(C)) = add(multiply(additive_inverse(A),C),multiply(additive_inverse(B),C)).
% 0.69/1.06
% 0.69/1.06 ** KEPT: 10 (wt=16) [flip(9)] add(multiply(additive_inverse(A),B),multiply(additive_inverse(C),B)) = multiply(add(A,C),additive_inverse(B)).
% 0.69/1.06 clause forward subsumed: 0 (wt=16) [flip(10)] multiply(add(A,C),additive_inverse(B)) = add(multiply(additive_inverse(A),B),multiply(additive_inverse(C),B)).
% 0.69/1.06
% 0.69/1.06 ** KEPT: 11 (wt=7) [] add(A,B) = add(B,A).
% 0.69/1.06 clause forward subsumed: 0 (wt=7) [flip(11)] add(B,A) = add(A,B).
% 9.61/10.00
% 9.61/10.00 ** KEPT: 12 (wt=11) [flip(1)] add(add(A,B),C) = add(A,add(B,C)).
% 9.61/10.00 12 is a new demodulator.
% 9.61/10.00
% 9.61/10.00 ** KEPT: 13 (wt=5) [] add(additive_identity,A) = A.
% 9.61/10.00 13 is a new demodulator.
% 9.61/10.00
% 9.61/10.00 ** KEPT: 14 (wt=5) [] add(A,additive_identity) = A.
% 9.61/10.00 14 is a new demodulator.
% 9.61/10.00
% 9.61/10.00 ** KEPT: 15 (wt=5) [] multiply(additive_identity,A) = additive_identity.
% 9.61/10.00 15 is a new demodulator.
% 9.61/10.00
% 9.61/10.00 ** KEPT: 16 (wt=5) [] multiply(A,additive_identity) = additive_identity.
% 9.61/10.00 16 is a new demodulator.
% 9.61/10.00
% 9.61/10.00 ** KEPT: 17 (wt=6) [] add(additive_inverse(A),A) = additive_identity.
% 9.61/10.00 17 is a new demodulator.
% 9.61/10.00
% 9.61/10.00 ** KEPT: 18 (wt=6) [] add(A,additive_inverse(A)) = additive_identity.
% 9.61/10.00 18 is a new demodulator.
% 9.61/10.00
% 9.61/10.00 ** KEPT: 19 (wt=13) [] multiply(A,add(B,C)) = add(multiply(A,B),multiply(A,C)).
% 9.61/10.00 19 is a new demodulator.
% 9.61/10.00 -> 19 back demodulating 8.
% 9.61/10.00 clause forward subsumed: 0 (wt=19) [back_demod(8),demod([19])] add(multiply(additive_inverse(A),B),multiply(additive_inverse(A),C)) = add(multiply(additive_inverse(A),B),multiply(additive_inverse(A),C)).
% 9.61/10.00 -> 19 back demodulating 6.
% 9.61/10.00 clause forward subsumed: 0 (wt=17) [back_demod(6),demod([19])] add(multiply(A,B),multiply(additive_inverse(A),C)) = add(multiply(A,B),multiply(A,additive_inverse(C))).
% 9.61/10.00 -> 19 back demodulating 5.
% 9.61/10.00 clause forward subsumed: 0 (wt=17) [back_demod(5),demod([19])] add(multiply(A,B),multiply(A,additive_inverse(C))) = add(multiply(A,B),multiply(additive_inverse(A),C)).
% 9.61/10.00
% 9.61/10.00 ** KEPT: 20 (wt=13) [] multiply(add(A,B),C) = add(multiply(A,C),multiply(B,C)).
% 9.61/10.00 20 is a new demodulator.
% 9.61/10.00 -> 20 back demodulating 10.
% 9.61/10.00
% 9.61/10.00 ** KEPT: 21 (wt=19) [back_demod(10),demod([20])] add(multiply(additive_inverse(A),B),multiply(additive_inverse(C),B)) = add(multiply(A,additive_inverse(B)),multiply(C,additive_inverse(B))).
% 9.61/10.00
% 9.61/10.00 ** KEPT: 22 (wt=19) [flip(21)] add(multiply(A,additive_inverse(B)),multiply(C,additive_inverse(B))) = add(multiply(additive_inverse(A),B),multiply(additive_inverse(C),B)).
% 9.61/10.00 clause forward subsumed: 0 (wt=19) [flip(22)] add(multiply(additive_inverse(A),B),multiply(additive_inverse(C),B)) = add(multiply(A,additive_inverse(B)),multiply(C,additive_inverse(B))).
% 9.61/10.00 -> 20 back demodulating 9.
% 9.61/10.00 clause forward subsumed: 0 (wt=19) [back_demod(9),demod([20])] add(multiply(A,additive_inverse(C)),multiply(B,additive_inverse(C))) = add(multiply(additive_inverse(A),C),multiply(additive_inverse(B),C)).
% 9.61/10.00 -> 20 back demodulating 7.
% 9.61/10.00 clause forward subsumed: 0 (wt=17) [back_demod(7),demod([20])] add(multiply(A,C),multiply(additive_inverse(B),C)) = add(multiply(A,C),multiply(additive_inverse(B),C)).
% 9.61/10.00
% 9.61/10.00 ** KEPT: 23 (wt=5) [] additive_inverse(additive_inverse(A)) = A.
% 9.61/10.00 23 is a new demodulator.
% 9.61/10.00
% 9.61/10.00 ** KEPT: 24 (wt=11) [] multiply(multiply(A,B),B) = multiply(A,multiply(B,B)).
% 9.61/10.00 24 is a new demodulator.
% 9.61/10.00
% 9.61/10.00 ** KEPT: 25 (wt=17) [demod([2]),flip(1)] add(multiply(multiply(A,B),C),multiply(additive_inverse(A),multiply(B,C))) = associator(A,B,C).
% 9.61/10.00 25 is a new demodulator.
% 9.61/10.00
% 9.61/10.00 ** KEPT: 26 (wt=12) [demod([2]),flip(1)] add(multiply(A,B),multiply(additive_inverse(B),A)) = commutator(B,A).
% 9.61/10.00 26 is a new demodulator.
% 9.61/10.00
% 9.61/10.00 ** KEPT: 27 (wt=31) [] -(add(multiply(associator(x,x,y),multiply(associator(x,x,y),associator(x,x,y))),multiply(associator(x,x,y),multiply(associator(x,x,y),associator(x,x,y)))) = additive_identity).
% 9.61/10.00
% 9.61/10.00 After processing input:
% 9.61/10.00
% 9.61/10.00 Usable:
% 9.61/10.00 end_of_list.
% 9.61/10.00
% 9.61/10.00 Sos:
% 9.61/10.00 13 (wt=5) [] add(additive_identity,A) = A.
% 9.61/10.00 14 (wt=5) [] add(A,additive_identity) = A.
% 9.61/10.00 15 (wt=5) [] multiply(additive_identity,A) = additive_identity.
% 9.61/10.00 16 (wt=5) [] multiply(A,additive_identity) = additive_identity.
% 9.61/10.00 23 (wt=5) [] additive_inverse(additive_inverse(A)) = A.
% 9.61/10.00 17 (wt=6) [] add(additive_inverse(A),A) = additive_identity.
% 9.61/10.00 18 (wt=6) [] add(A,additive_inverse(A)) = additive_identity.
% 9.61/10.00 11 (wt=7) [] add(A,B) = add(B,A).
% 9.61/10.00 1 (wt=9) [] multiply(additive_inverse(A),additive_inverse(B)) = multiply(A,B).
% 9.61/10.00 2 (wt=9) [flip(1)] additive_inverse(multiply(A,B)) = multiply(additive_inverse(A),B).
% 9.61/10.00 3 (wt=9) [demod([2])] multiply(A,additive_inverse(B)) = multiply(additive_inverse(A),B).
% 9.61/10.00 4 (wt=9) [flip(3)] multiply(additive_inverse(A),B) = multiply(A,additive_inverse(B)).
% 9.61/10.00 12 (wt=11) [flip(1)] add(add(A,B),C) = add(A,add(B,C)).
% 9.61/10.00 24 (wt=11) [] multiply(multiply(A,B),B) = multiply(A,multiply(B,B)).
% 9.61/10.00 26 (wt=12) [demod([2]),flip(1)] add(multiply(A,B),multiply(additive_inverse(B),A)) = commutator(B,A).
% 9.61/10.00 19 (wt=13) [] multiply(A,add(B,C)) = add(multiply(A,B),multiply(A,C)).
% 9.61/10.00 20 (wt=13) [] multiply(add(A,B),C) = add(multiply(A,C),multiply(B,C)).
% 9.61/10.00 25 (wt=17) [demod([2]),flip(1)] add(multiply(multiply(A,B),C),multiply(additive_inverse(A),multiply(B,C))) = associator(A,B,C).
% 9.61/10.00 21 (wt=19) [back_demod(10),demod([20])] add(multiply(additive_inverse(A),B),multiply(additive_inverse(C),B)) = add(multiply(A,additive_inverse(B)),multiply(C,additive_inverse(B))).
% 9.61/10.00 22 (wt=19) [flip(21)] add(multiply(A,additive_inverse(B)),multiply(C,additive_inverse(B))) = add(multiply(additive_inverse(A),B),multiply(additive_inverse(C),B)).
% 9.61/10.00 27 (wt=31) [] -(add(multiply(associator(x,x,y),multiply(associator(x,x,y),associator(x,x,y))),multiply(associator(x,x,y),multiply(associator(x,x,y),associator(x,x,y)))) = additive_identity).
% 9.61/10.00 end_of_list.
% 9.61/10.00
% 9.61/10.00 Demodulators:
% 9.61/10.00 1 (wt=9) [] multiply(additive_inverse(A),additive_inverse(B)) = multiply(A,B).
% 9.61/10.00 2 (wt=9) [flip(1)] additive_inverse(multiply(A,B)) = multiply(additive_inverse(A),B).
% 9.61/10.00 12 (wt=11) [flip(1)] add(add(A,B),C) = add(A,add(B,C)).
% 9.61/10.00 13 (wt=5) [] add(additive_identity,A) = A.
% 9.61/10.00 14 (wt=5) [] add(A,additive_identity) = A.
% 9.61/10.00 15 (wt=5) [] multiply(additive_identity,A) = additive_identity.
% 9.61/10.00 16 (wt=5) [] multiply(A,additive_identity) = additive_identity.
% 9.61/10.00 17 (wt=6) [] add(additive_inverse(A),A) = additive_identity.
% 9.61/10.00 18 (wt=6) [] add(A,additive_inverse(A)) = additive_identity.
% 9.61/10.00 19 (wt=13) [] multiply(A,add(B,C)) = add(multiply(A,B),multiply(A,C)).
% 9.61/10.00 20 (wt=13) [] multiply(add(A,B),C) = add(multiply(A,C),multiply(B,C)).
% 9.61/10.00 23 (wt=5) [] additive_inverse(additive_inverse(A)) = A.
% 9.61/10.00 24 (wt=11) [] multiply(multiply(A,B),B) = multiply(A,multiply(B,B)).
% 9.61/10.00 25 (wt=17) [demod([2]),flip(1)] add(multiply(multiply(A,B),C),multiply(additive_inverse(A),multiply(B,C))) = associator(A,B,C).
% 9.61/10.00 26 (wt=12) [demod([2]),flip(1)] add(multiply(A,B),multiply(additive_inverse(B),A)) = commutator(B,A).
% 9.61/10.00 end_of_list.
% 9.61/10.00
% 9.61/10.00 Passive:
% 9.61/10.00 end_of_list.
% 9.61/10.00
% 9.61/10.00 ------------- memory usage ------------
% 9.61/10.00 Memory dynamically allocated (tp_alloc): 63964.
% 9.61/10.00 type (bytes each) gets frees in use avail bytes
% 9.61/10.00 sym_ent ( 96) 59 0 59 0 5.5 K
% 9.61/10.00 term ( 16) 4917570 3942775 974795 38 18935.7 K
% 9.61/10.00 gen_ptr ( 8) 5329796 638314 4691482 0 36652.2 K
% 9.61/10.00 context ( 808) 4228333 4228331 2 10 9.5 K
% 9.61/10.00 trail ( 12) 78192 78192 0 6 0.1 K
% 9.61/10.00 bt_node ( 68) 1606949 1606946 3 38 2.7 K
% 9.61/10.00 ac_position (285432) 0 0 0 0 0.0 K
% 9.61/10.00 ac_match_pos (14044) 0 0 0 0 0.0 K
% 9.61/10.00 ac_match_free_vars_pos (4020)
% 9.61/10.00 0 0 0 0 0.0 K
% 9.61/10.00 discrim ( 12) 472980 31783 441197 0 5170.3 K
% 9.61/10.00 flat ( 40) 11326428 11326428 0 195 7.6 K
% 9.61/10.00 discrim_pos ( 12) 294561 294561 0 1 0.0 K
% 9.61/10.00 fpa_head ( 12)
% 9.61/10.00
% 9.61/10.00 �********** ABNORMAL END **********
% 9.61/10.00 ********** in tp_alloc, max_mem parameter exceeded.
% 9.61/10.00 13847 0 13847 0 162.3 K
% 9.61/10.00 fpa_tree ( 28) 32325 32325 0 49 1.3 K
% 9.61/10.00 fpa_pos ( 36) 30652 30652 0 1 0.0 K
% 9.61/10.00 literal ( 12) 178512 151878 26634 1 312.1 K
% 9.61/10.00 clause ( 24) 178512 151878 26634 1 624.3 K
% 9.61/10.00 list ( 12) 4077 4021 56 4 0.7 K
% 9.61/10.00 list_pos ( 20) 87038 6762 80276 0 1567.9 K
% 9.61/10.00 pair_index ( 40) 2 0 2 0 0.1 K
% 9.61/10.00
% 9.61/10.00 -------------- statistics -------------
% 9.61/10.00 Clauses input 22
% 9.61/10.00 Usable input 0
% 9.61/10.00 Sos input 22
% 9.61/10.00 Demodulators input 0
% 9.61/10.00 Passive input 0
% 9.61/10.00
% 9.61/10.00 Processed BS (before search) 37
% 9.61/10.00 Forward subsumed BS 10
% 9.61/10.00 Kept BS 27
% 9.61/10.00 New demodulators BS 17
% 9.61/10.00 Back demodulated BS 6
% 9.61/10.00
% 9.61/10.00 Clauses or pairs given 215980
% 9.61/10.00 Clauses generated 108601
% 9.61/10.00 Forward subsumed 81994
% 9.61/10.00 Deleted by weight 0
% 9.61/10.00 Deleted by variable count 0
% 9.61/10.00 Kept 26607
% 9.61/10.00 New demodulators 4001
% 9.61/10.00 Back demodulated 1519
% 9.61/10.00 Ordered paramod prunes 0
% 9.61/10.00 Basic paramod prunes 620444
% 9.61/10.00 Prime paramod prunes 13713
% 9.61/10.00 Semantic prunes 0
% 9.61/10.00
% 9.61/10.00 Rewrite attmepts 1914978
% 9.61/10.00 Rewrites 242452
% 9.61/10.00
% 9.61/10.00 FPA overloads 0
% 9.61/10.00 FPA underloads 0
% 9.61/10.00
% 9.61/10.00 Usable size 0
% 9.61/10.00 Sos size 25109
% 9.61/10.00 Demodulators size 3424
% 9.61/10.00 Passive size 0
% 9.61/10.00 Disabled size 1525
% 9.61/10.00
% 9.61/10.00 Proofs found 0
% 9.61/10.00
% 9.61/10.00 ----------- times (seconds) ----------- Mon May 30 06:38:32 2022
% 9.61/10.00
% 9.61/10.00 user CPU time 7.33 (0 hr, 0 min, 7 sec)
% 9.61/10.00 system CPU time 1.61 (0 hr, 0 min, 1 sec)
% 9.61/10.00 wall-clock time 9 (0 hr, 0 min, 9 sec)
% 9.61/10.00 input time 0.00
% 9.61/10.00 paramodulation time 0.54
% 9.61/10.00 demodulation time 0.42
% 9.61/10.00 orient time 0.25
% 9.61/10.00 weigh time 0.05
% 9.61/10.00 forward subsume time 0.23
% 9.61/10.00 back demod find time 0.09
% 9.61/10.00 conflict time 0.02
% 9.61/10.00 LRPO time 0.12
% 9.61/10.00 store clause time 5.07
% 9.61/10.00 disable clause time 0.16
% 9.61/10.00 prime paramod time 0.13
% 9.61/10.00 semantics time 0.00
% 9.61/10.00
% 9.61/10.00 EQP interrupted
%------------------------------------------------------------------------------