TSTP Solution File: GRP101-1 by E---3.1
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%------------------------------------------------------------------------------
% File : E---3.1
% Problem : GRP101-1 : TPTP v8.1.2. Bugfixed v2.7.0.
% Transfm : none
% Format : tptp:raw
% Command : run_E %s %d THM
% Computer : n017.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 : 2400s
% WCLimit : 300s
% DateTime : Tue Oct 10 17:37:58 EDT 2023
% Result : Unsatisfiable 0.48s 0.53s
% Output : CNFRefutation 0.48s
% Verified :
% SZS Type : Refutation
% Derivation depth : 35
% Number of leaves : 5
% Syntax : Number of clauses : 60 ( 54 unt; 0 nHn; 13 RR)
% Number of literals : 74 ( 73 equ; 24 neg)
% Maximal clause size : 4 ( 1 avg)
% Maximal term depth : 7 ( 2 avg)
% Number of predicates : 2 ( 0 usr; 1 prp; 0-2 aty)
% Number of functors : 11 ( 11 usr; 8 con; 0-2 aty)
% Number of variables : 91 ( 0 sgn)
% Comments :
%------------------------------------------------------------------------------
cnf(identity,axiom,
identity = double_divide(X1,inverse(X1)),
file('/export/starexec/sandbox/tmp/tmp.GMq5fascnC/E---3.1_24084.p',identity) ).
cnf(inverse,axiom,
inverse(X1) = double_divide(X1,identity),
file('/export/starexec/sandbox/tmp/tmp.GMq5fascnC/E---3.1_24084.p',inverse) ).
cnf(single_axiom,axiom,
double_divide(double_divide(X1,double_divide(double_divide(X2,double_divide(X3,X1)),double_divide(X3,identity))),double_divide(identity,identity)) = X2,
file('/export/starexec/sandbox/tmp/tmp.GMq5fascnC/E---3.1_24084.p',single_axiom) ).
cnf(prove_these_axioms,negated_conjecture,
( multiply(inverse(a1),a1) != identity
| multiply(identity,a2) != a2
| multiply(multiply(a3,b3),c3) != multiply(a3,multiply(b3,c3))
| multiply(a4,b4) != multiply(b4,a4) ),
file('/export/starexec/sandbox/tmp/tmp.GMq5fascnC/E---3.1_24084.p',prove_these_axioms) ).
cnf(multiply,axiom,
multiply(X1,X2) = double_divide(double_divide(X2,X1),identity),
file('/export/starexec/sandbox/tmp/tmp.GMq5fascnC/E---3.1_24084.p',multiply) ).
cnf(c_0_5,axiom,
identity = double_divide(X1,inverse(X1)),
identity ).
cnf(c_0_6,axiom,
inverse(X1) = double_divide(X1,identity),
inverse ).
cnf(c_0_7,axiom,
double_divide(double_divide(X1,double_divide(double_divide(X2,double_divide(X3,X1)),double_divide(X3,identity))),double_divide(identity,identity)) = X2,
single_axiom ).
cnf(c_0_8,plain,
double_divide(X1,double_divide(X1,identity)) = identity,
inference(rw,[status(thm)],[c_0_5,c_0_6]) ).
cnf(c_0_9,plain,
double_divide(double_divide(identity,double_divide(identity,double_divide(X1,identity))),double_divide(identity,identity)) = X1,
inference(spm,[status(thm)],[c_0_7,c_0_8]) ).
cnf(c_0_10,plain,
double_divide(double_divide(identity,identity),double_divide(identity,identity)) = identity,
inference(spm,[status(thm)],[c_0_9,c_0_8]) ).
cnf(c_0_11,plain,
double_divide(identity,identity) = identity,
inference(rw,[status(thm)],[inference(rw,[status(thm)],[inference(spm,[status(thm)],[c_0_7,c_0_10]),c_0_8]),c_0_10]) ).
cnf(c_0_12,plain,
double_divide(double_divide(identity,double_divide(identity,double_divide(X1,identity))),identity) = X1,
inference(rw,[status(thm)],[c_0_9,c_0_11]) ).
cnf(c_0_13,plain,
double_divide(double_divide(X1,double_divide(double_divide(X2,double_divide(X3,X1)),double_divide(X3,identity))),identity) = X2,
inference(rw,[status(thm)],[c_0_7,c_0_11]) ).
cnf(c_0_14,plain,
double_divide(double_divide(identity,double_divide(identity,X1)),identity) = double_divide(identity,double_divide(identity,double_divide(X1,identity))),
inference(spm,[status(thm)],[c_0_12,c_0_12]) ).
cnf(c_0_15,plain,
double_divide(double_divide(identity,double_divide(double_divide(X1,X2),X2)),identity) = X1,
inference(rw,[status(thm)],[inference(spm,[status(thm)],[c_0_13,c_0_13]),c_0_13]) ).
cnf(c_0_16,plain,
double_divide(identity,double_divide(identity,double_divide(double_divide(X1,identity),identity))) = X1,
inference(rw,[status(thm)],[c_0_12,c_0_14]) ).
cnf(c_0_17,plain,
double_divide(double_divide(identity,X1),identity) = double_divide(identity,double_divide(identity,X1)),
inference(rw,[status(thm)],[inference(rw,[status(thm)],[inference(spm,[status(thm)],[c_0_15,c_0_14]),c_0_14]),c_0_16]) ).
cnf(c_0_18,plain,
double_divide(X1,identity) = double_divide(identity,X1),
inference(spm,[status(thm)],[c_0_17,c_0_16]) ).
cnf(c_0_19,plain,
double_divide(X1,double_divide(identity,X1)) = identity,
inference(spm,[status(thm)],[c_0_8,c_0_18]) ).
cnf(c_0_20,plain,
double_divide(identity,double_divide(identity,double_divide(double_divide(X1,X2),X2))) = X1,
inference(rw,[status(thm)],[c_0_15,c_0_17]) ).
cnf(c_0_21,plain,
double_divide(double_divide(identity,double_divide(double_divide(X1,X2),X2)),X1) = identity,
inference(spm,[status(thm)],[c_0_19,c_0_20]) ).
cnf(c_0_22,plain,
double_divide(identity,double_divide(double_divide(X1,X2),X2)) = double_divide(identity,double_divide(identity,double_divide(identity,X1))),
inference(spm,[status(thm)],[c_0_20,c_0_21]) ).
cnf(c_0_23,plain,
double_divide(identity,double_divide(identity,double_divide(identity,double_divide(identity,X1)))) = X1,
inference(rw,[status(thm)],[c_0_20,c_0_22]) ).
cnf(c_0_24,plain,
double_divide(identity,double_divide(double_divide(X1,identity),X1)) = identity,
inference(rw,[status(thm)],[inference(rw,[status(thm)],[inference(spm,[status(thm)],[c_0_22,c_0_18]),c_0_8]),c_0_11]) ).
cnf(c_0_25,plain,
double_divide(double_divide(X1,identity),X1) = identity,
inference(rw,[status(thm)],[inference(rw,[status(thm)],[inference(spm,[status(thm)],[c_0_23,c_0_24]),c_0_8]),c_0_11]) ).
cnf(c_0_26,plain,
double_divide(double_divide(identity,X1),X1) = identity,
inference(spm,[status(thm)],[c_0_25,c_0_18]) ).
cnf(c_0_27,plain,
double_divide(identity,double_divide(identity,X1)) = X1,
inference(rw,[status(thm)],[inference(spm,[status(thm)],[c_0_22,c_0_26]),c_0_23]) ).
cnf(c_0_28,plain,
double_divide(identity,double_divide(double_divide(X1,X2),X2)) = double_divide(identity,X1),
inference(rw,[status(thm)],[c_0_22,c_0_27]) ).
cnf(c_0_29,plain,
double_divide(identity,double_divide(X1,double_divide(double_divide(X2,double_divide(X3,X1)),double_divide(X3,identity)))) = X2,
inference(rw,[status(thm)],[c_0_13,c_0_18]) ).
cnf(c_0_30,plain,
double_divide(double_divide(X1,X2),X2) = X1,
inference(rw,[status(thm)],[inference(spm,[status(thm)],[c_0_27,c_0_28]),c_0_27]) ).
cnf(c_0_31,plain,
double_divide(identity,double_divide(X1,double_divide(double_divide(X2,identity),X1))) = X2,
inference(rw,[status(thm)],[inference(spm,[status(thm)],[c_0_29,c_0_25]),c_0_30]) ).
cnf(c_0_32,plain,
double_divide(X1,double_divide(double_divide(X2,identity),X1)) = double_divide(identity,X2),
inference(spm,[status(thm)],[c_0_27,c_0_31]) ).
cnf(c_0_33,plain,
double_divide(identity,double_divide(X1,identity)) = X1,
inference(spm,[status(thm)],[c_0_27,c_0_18]) ).
cnf(c_0_34,plain,
double_divide(X1,double_divide(X2,X1)) = X2,
inference(rw,[status(thm)],[inference(spm,[status(thm)],[c_0_32,c_0_30]),c_0_33]) ).
cnf(c_0_35,plain,
double_divide(X1,double_divide(X1,X2)) = X2,
inference(spm,[status(thm)],[c_0_30,c_0_34]) ).
cnf(c_0_36,plain,
double_divide(X1,double_divide(double_divide(X2,double_divide(X3,X1)),double_divide(X3,identity))) = double_divide(identity,X2),
inference(spm,[status(thm)],[c_0_35,c_0_29]) ).
cnf(c_0_37,plain,
double_divide(double_divide(X1,double_divide(X2,X3)),double_divide(X2,identity)) = double_divide(X3,double_divide(identity,X1)),
inference(spm,[status(thm)],[c_0_35,c_0_36]) ).
cnf(c_0_38,plain,
double_divide(X1,X2) = double_divide(X2,X1),
inference(spm,[status(thm)],[c_0_34,c_0_30]) ).
cnf(c_0_39,negated_conjecture,
( multiply(inverse(a1),a1) != identity
| multiply(identity,a2) != a2
| multiply(multiply(a3,b3),c3) != multiply(a3,multiply(b3,c3))
| multiply(a4,b4) != multiply(b4,a4) ),
prove_these_axioms ).
cnf(c_0_40,axiom,
multiply(X1,X2) = double_divide(double_divide(X2,X1),identity),
multiply ).
cnf(c_0_41,plain,
double_divide(identity,double_divide(X1,double_divide(identity,X2))) = double_divide(X2,double_divide(identity,X1)),
inference(rw,[status(thm)],[inference(spm,[status(thm)],[c_0_37,c_0_11]),c_0_38]) ).
cnf(c_0_42,negated_conjecture,
( double_divide(double_divide(double_divide(double_divide(c3,b3),identity),a3),identity) != double_divide(double_divide(c3,double_divide(double_divide(b3,a3),identity)),identity)
| double_divide(double_divide(a4,b4),identity) != double_divide(double_divide(b4,a4),identity)
| double_divide(double_divide(a2,identity),identity) != a2
| double_divide(identity,identity) != identity ),
inference(rw,[status(thm)],[inference(rw,[status(thm)],[inference(rw,[status(thm)],[inference(rw,[status(thm)],[inference(rw,[status(thm)],[inference(rw,[status(thm)],[inference(rw,[status(thm)],[inference(rw,[status(thm)],[inference(rw,[status(thm)],[inference(rw,[status(thm)],[c_0_39,c_0_6]),c_0_40]),c_0_40]),c_0_40]),c_0_40]),c_0_40]),c_0_40]),c_0_40]),c_0_8]),c_0_40]) ).
cnf(c_0_43,plain,
double_divide(double_divide(identity,X1),X2) = double_divide(identity,double_divide(X1,double_divide(identity,X2))),
inference(spm,[status(thm)],[c_0_38,c_0_41]) ).
cnf(c_0_44,negated_conjecture,
( double_divide(double_divide(double_divide(double_divide(c3,b3),identity),a3),identity) != double_divide(double_divide(c3,double_divide(double_divide(b3,a3),identity)),identity)
| double_divide(double_divide(a4,b4),identity) != double_divide(double_divide(b4,a4),identity)
| double_divide(double_divide(a2,identity),identity) != a2 ),
inference(cn,[status(thm)],[inference(rw,[status(thm)],[c_0_42,c_0_11])]) ).
cnf(c_0_45,plain,
double_divide(double_divide(X1,identity),X2) = double_divide(identity,double_divide(X1,double_divide(identity,X2))),
inference(spm,[status(thm)],[c_0_43,c_0_38]) ).
cnf(c_0_46,negated_conjecture,
( double_divide(identity,double_divide(double_divide(identity,double_divide(c3,b3)),a3)) != double_divide(identity,double_divide(c3,double_divide(identity,double_divide(b3,a3))))
| double_divide(identity,double_divide(a4,b4)) != double_divide(identity,double_divide(b4,a4))
| double_divide(identity,double_divide(a2,identity)) != a2 ),
inference(rw,[status(thm)],[inference(rw,[status(thm)],[inference(rw,[status(thm)],[inference(rw,[status(thm)],[inference(rw,[status(thm)],[inference(rw,[status(thm)],[inference(rw,[status(thm)],[c_0_44,c_0_18]),c_0_18]),c_0_18]),c_0_18]),c_0_18]),c_0_18]),c_0_18]) ).
cnf(c_0_47,plain,
double_divide(identity,double_divide(X1,double_divide(identity,double_divide(X2,double_divide(identity,X3))))) = double_divide(X3,double_divide(X1,X2)),
inference(rw,[status(thm)],[inference(spm,[status(thm)],[c_0_34,c_0_37]),c_0_45]) ).
cnf(c_0_48,negated_conjecture,
( double_divide(identity,double_divide(double_divide(identity,double_divide(c3,b3)),a3)) != double_divide(identity,double_divide(c3,double_divide(identity,double_divide(b3,a3))))
| double_divide(identity,double_divide(a4,b4)) != double_divide(identity,double_divide(b4,a4)) ),
inference(cn,[status(thm)],[inference(rw,[status(thm)],[c_0_46,c_0_33])]) ).
cnf(c_0_49,plain,
double_divide(identity,double_divide(X1,double_divide(identity,double_divide(double_divide(X1,X2),X3)))) = double_divide(X2,double_divide(identity,X3)),
inference(rw,[status(thm)],[inference(rw,[status(thm)],[inference(spm,[status(thm)],[c_0_37,c_0_38]),c_0_38]),c_0_45]) ).
cnf(c_0_50,plain,
double_divide(double_divide(X1,X2),X3) = double_divide(identity,double_divide(X1,double_divide(identity,double_divide(X2,double_divide(identity,X3))))),
inference(spm,[status(thm)],[c_0_38,c_0_47]) ).
cnf(c_0_51,negated_conjecture,
double_divide(identity,double_divide(a3,double_divide(identity,double_divide(b3,c3)))) != double_divide(identity,double_divide(c3,double_divide(identity,double_divide(a3,b3)))),
inference(cn,[status(thm)],[inference(rw,[status(thm)],[inference(rw,[status(thm)],[inference(rw,[status(thm)],[inference(rw,[status(thm)],[c_0_48,c_0_38]),c_0_38]),c_0_38]),c_0_38])]) ).
cnf(c_0_52,plain,
double_divide(identity,double_divide(X1,double_divide(identity,double_divide(X2,X3)))) = double_divide(identity,double_divide(X2,double_divide(identity,double_divide(X1,X3)))),
inference(rw,[status(thm)],[inference(rw,[status(thm)],[inference(spm,[status(thm)],[c_0_49,c_0_34]),c_0_50]),c_0_35]) ).
cnf(c_0_53,negated_conjecture,
double_divide(identity,double_divide(b3,double_divide(identity,double_divide(a3,c3)))) != double_divide(identity,double_divide(c3,double_divide(identity,double_divide(a3,b3)))),
inference(rw,[status(thm)],[c_0_51,c_0_52]) ).
cnf(c_0_54,plain,
double_divide(X1,double_divide(X2,double_divide(identity,double_divide(X1,double_divide(identity,X3))))) = double_divide(identity,double_divide(X2,double_divide(identity,X3))),
inference(rw,[status(thm)],[inference(rw,[status(thm)],[inference(spm,[status(thm)],[c_0_49,c_0_35]),c_0_50]),c_0_35]) ).
cnf(c_0_55,negated_conjecture,
double_divide(X1,double_divide(b3,double_divide(identity,double_divide(X1,double_divide(identity,double_divide(a3,c3)))))) != double_divide(identity,double_divide(c3,double_divide(identity,double_divide(a3,b3)))),
inference(spm,[status(thm)],[c_0_53,c_0_54]) ).
cnf(c_0_56,plain,
double_divide(double_divide(X1,double_divide(X2,X3)),double_divide(X3,identity)) = double_divide(X2,double_divide(identity,X1)),
inference(spm,[status(thm)],[c_0_37,c_0_38]) ).
cnf(c_0_57,negated_conjecture,
double_divide(X1,double_divide(b3,double_divide(identity,double_divide(c3,double_divide(identity,double_divide(a3,X1)))))) != double_divide(identity,double_divide(c3,double_divide(identity,double_divide(a3,b3)))),
inference(rw,[status(thm)],[inference(rw,[status(thm)],[inference(rw,[status(thm)],[inference(rw,[status(thm)],[inference(rw,[status(thm)],[inference(rw,[status(thm)],[inference(spm,[status(thm)],[c_0_55,c_0_38]),c_0_50]),c_0_50]),c_0_35]),c_0_35]),c_0_35]),c_0_52]) ).
cnf(c_0_58,plain,
double_divide(X1,double_divide(X2,double_divide(X3,double_divide(identity,X1)))) = double_divide(X3,double_divide(identity,X2)),
inference(rw,[status(thm)],[inference(rw,[status(thm)],[inference(rw,[status(thm)],[inference(spm,[status(thm)],[c_0_56,c_0_43]),c_0_11]),c_0_34]),c_0_38]) ).
cnf(c_0_59,negated_conjecture,
$false,
inference(cn,[status(thm)],[inference(rw,[status(thm)],[inference(rw,[status(thm)],[inference(rw,[status(thm)],[inference(rw,[status(thm)],[inference(rw,[status(thm)],[inference(spm,[status(thm)],[c_0_57,c_0_58]),c_0_11]),c_0_34]),c_0_38]),c_0_50]),c_0_35])]),
[proof] ).
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.06/0.12 % Problem : GRP101-1 : TPTP v8.1.2. Bugfixed v2.7.0.
% 0.06/0.13 % Command : run_E %s %d THM
% 0.13/0.34 % Computer : n017.cluster.edu
% 0.13/0.34 % Model : x86_64 x86_64
% 0.13/0.34 % CPU : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 0.13/0.34 % Memory : 8042.1875MB
% 0.13/0.34 % OS : Linux 3.10.0-693.el7.x86_64
% 0.13/0.35 % CPULimit : 2400
% 0.13/0.35 % WCLimit : 300
% 0.13/0.35 % DateTime : Tue Oct 3 02:08:41 EDT 2023
% 0.13/0.35 % CPUTime :
% 0.20/0.48 Running first-order theorem proving
% 0.20/0.48 Running: /export/starexec/sandbox/solver/bin/eprover --delete-bad-limit=2000000000 --definitional-cnf=24 -s --print-statistics -R --print-version --proof-object --auto-schedule=8 --cpu-limit=300 /export/starexec/sandbox/tmp/tmp.GMq5fascnC/E---3.1_24084.p
% 0.48/0.53 # Version: 3.1pre001
% 0.48/0.53 # Preprocessing class: FSSSSMSMSSSNFFN.
% 0.48/0.53 # Scheduled 4 strats onto 8 cores with 300 seconds (2400 total)
% 0.48/0.53 # Starting G----_0031_C18_F1_SE_CS_SP_S0Y with 1500s (5) cores
% 0.48/0.53 # Starting new_bool_3 with 300s (1) cores
% 0.48/0.53 # Starting new_bool_1 with 300s (1) cores
% 0.48/0.53 # Starting sh5l with 300s (1) cores
% 0.48/0.53 # sh5l with pid 24166 completed with status 0
% 0.48/0.53 # Result found by sh5l
% 0.48/0.53 # Preprocessing class: FSSSSMSMSSSNFFN.
% 0.48/0.53 # Scheduled 4 strats onto 8 cores with 300 seconds (2400 total)
% 0.48/0.53 # Starting G----_0031_C18_F1_SE_CS_SP_S0Y with 1500s (5) cores
% 0.48/0.53 # Starting new_bool_3 with 300s (1) cores
% 0.48/0.53 # Starting new_bool_1 with 300s (1) cores
% 0.48/0.53 # Starting sh5l with 300s (1) cores
% 0.48/0.53 # SinE strategy is gf500_gu_R04_F100_L20000
% 0.48/0.53 # Search class: FUHPM-FFSF21-MFFFFFNN
% 0.48/0.53 # Scheduled 6 strats onto 1 cores with 300 seconds (300 total)
% 0.48/0.53 # Starting H----_047_B31_F1_PI_AE_R4_CS_SP_S2S with 163s (1) cores
% 0.48/0.53 # H----_047_B31_F1_PI_AE_R4_CS_SP_S2S with pid 24169 completed with status 0
% 0.48/0.53 # Result found by H----_047_B31_F1_PI_AE_R4_CS_SP_S2S
% 0.48/0.53 # Preprocessing class: FSSSSMSMSSSNFFN.
% 0.48/0.53 # Scheduled 4 strats onto 8 cores with 300 seconds (2400 total)
% 0.48/0.53 # Starting G----_0031_C18_F1_SE_CS_SP_S0Y with 1500s (5) cores
% 0.48/0.53 # Starting new_bool_3 with 300s (1) cores
% 0.48/0.53 # Starting new_bool_1 with 300s (1) cores
% 0.48/0.53 # Starting sh5l with 300s (1) cores
% 0.48/0.53 # SinE strategy is gf500_gu_R04_F100_L20000
% 0.48/0.53 # Search class: FUHPM-FFSF21-MFFFFFNN
% 0.48/0.53 # Scheduled 6 strats onto 1 cores with 300 seconds (300 total)
% 0.48/0.53 # Starting H----_047_B31_F1_PI_AE_R4_CS_SP_S2S with 163s (1) cores
% 0.48/0.53 # Preprocessing time : 0.001 s
% 0.48/0.53
% 0.48/0.53 # Proof found!
% 0.48/0.53 # SZS status Unsatisfiable
% 0.48/0.53 # SZS output start CNFRefutation
% See solution above
% 0.48/0.53 # Parsed axioms : 5
% 0.48/0.53 # Removed by relevancy pruning/SinE : 0
% 0.48/0.53 # Initial clauses : 5
% 0.48/0.53 # Removed in clause preprocessing : 0
% 0.48/0.53 # Initial clauses in saturation : 5
% 0.48/0.53 # Processed clauses : 241
% 0.48/0.53 # ...of these trivial : 62
% 0.48/0.53 # ...subsumed : 110
% 0.48/0.53 # ...remaining for further processing : 69
% 0.48/0.53 # Other redundant clauses eliminated : 0
% 0.48/0.53 # Clauses deleted for lack of memory : 0
% 0.48/0.53 # Backward-subsumed : 1
% 0.48/0.53 # Backward-rewritten : 44
% 0.48/0.53 # Generated clauses : 2331
% 0.48/0.53 # ...of the previous two non-redundant : 1711
% 0.48/0.53 # ...aggressively subsumed : 0
% 0.48/0.53 # Contextual simplify-reflections : 0
% 0.48/0.53 # Paramodulations : 2331
% 0.48/0.53 # Factorizations : 0
% 0.48/0.53 # NegExts : 0
% 0.48/0.53 # Equation resolutions : 0
% 0.48/0.53 # Total rewrite steps : 4963
% 0.48/0.53 # Propositional unsat checks : 0
% 0.48/0.53 # Propositional check models : 0
% 0.48/0.53 # Propositional check unsatisfiable : 0
% 0.48/0.53 # Propositional clauses : 0
% 0.48/0.53 # Propositional clauses after purity: 0
% 0.48/0.53 # Propositional unsat core size : 0
% 0.48/0.53 # Propositional preprocessing time : 0.000
% 0.48/0.53 # Propositional encoding time : 0.000
% 0.48/0.53 # Propositional solver time : 0.000
% 0.48/0.53 # Success case prop preproc time : 0.000
% 0.48/0.53 # Success case prop encoding time : 0.000
% 0.48/0.53 # Success case prop solver time : 0.000
% 0.48/0.53 # Current number of processed clauses : 24
% 0.48/0.53 # Positive orientable unit clauses : 10
% 0.48/0.53 # Positive unorientable unit clauses: 11
% 0.48/0.53 # Negative unit clauses : 3
% 0.48/0.53 # Non-unit-clauses : 0
% 0.48/0.53 # Current number of unprocessed clauses: 1238
% 0.48/0.53 # ...number of literals in the above : 1238
% 0.48/0.53 # Current number of archived formulas : 0
% 0.48/0.53 # Current number of archived clauses : 45
% 0.48/0.53 # Clause-clause subsumption calls (NU) : 0
% 0.48/0.53 # Rec. Clause-clause subsumption calls : 0
% 0.48/0.53 # Non-unit clause-clause subsumptions : 0
% 0.48/0.53 # Unit Clause-clause subsumption calls : 43
% 0.48/0.53 # Rewrite failures with RHS unbound : 320
% 0.48/0.53 # BW rewrite match attempts : 411
% 0.48/0.53 # BW rewrite match successes : 217
% 0.48/0.53 # Condensation attempts : 0
% 0.48/0.53 # Condensation successes : 0
% 0.48/0.53 # Termbank termtop insertions : 37791
% 0.48/0.53
% 0.48/0.53 # -------------------------------------------------
% 0.48/0.53 # User time : 0.022 s
% 0.48/0.53 # System time : 0.005 s
% 0.48/0.53 # Total time : 0.027 s
% 0.48/0.53 # Maximum resident set size: 1636 pages
% 0.48/0.53
% 0.48/0.53 # -------------------------------------------------
% 0.48/0.53 # User time : 0.022 s
% 0.48/0.53 # System time : 0.008 s
% 0.48/0.53 # Total time : 0.030 s
% 0.48/0.53 # Maximum resident set size: 1676 pages
% 0.48/0.53 % E---3.1 exiting
% 0.48/0.53 % E---3.1 exiting
%------------------------------------------------------------------------------