0.08/0.13 % Problem : theBenchmark.p : TPTP v0.0.0. Released v0.0.0. 0.08/0.14 % Command : do_CVC4 %s 0.15/0.36 % Computer : n004.cluster.edu 0.15/0.36 % Model : x86_64 x86_64 0.15/0.36 % CPU : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz 0.15/0.36 % Memory : 8042.1875MB 0.15/0.36 % OS : Linux 3.10.0-693.el7.x86_64 0.15/0.36 % CPULimit : 180 0.15/0.36 % DateTime : Thu Aug 29 10:46:08 EDT 2019 0.15/0.36 % CPUTime : 0.22/0.51 %----Proving TF0_ARI 0.22/0.51 ------- cvc4-tfa casc 27 : /export/starexec/sandbox/benchmark/theBenchmark.p at 180... 0.22/0.52 --- Run --finite-model-find --decision=internal at 15... 15.35/15.55 --- Run --decision=internal --simplification=none --no-inst-no-entail --no-quant-cf --full-saturate-quant at 15... 30.34/30.59 --- Run --no-e-matching --full-saturate-quant at 15... 45.62/45.85 --- Run --cbqi-all --purify-triggers --full-saturate-quant at 15... 60.70/60.94 --- Run --macros-quant --macros-quant-mode=all --nl-ext-tplanes --full-saturate-quant... 60.77/61.06 % SZS status Theorem for theBenchmark 60.77/61.06 % SZS output start Proof for theBenchmark 60.77/61.06 (skolem (forall ((Right Int) (A0 Int) (A01 map_int_int) (A Int) (A1 map_int_int) (BOUND_VARIABLE_2756 Int)) (let ((_let_0 (t2tb1 A1))) (let ((_let_1 (power1 2 BOUND_VARIABLE_2756))) (let ((_let_2 (* (- 1) _let_1))) (let ((_let_3 (+ Right _let_2))) (let ((_let_4 (+ 1 Right (* (- 2) _let_1)))) (or (not (>= _let_3 0)) (not (>= _let_1 1)) (>= (+ Right (* (- 1) A)) 0) (not (>= (+ Right (* (- 2) _let_1)) (- 1))) (not (phase11 _let_3 Right (tb2t2 (mk_array1 int A0 (t2tb1 A01))) (tb2t2 (mk_array1 int A _let_0)))) (not (= (tb2t (get int int _let_0 (t2tb Right))) (sum2 A01 0 _let_4))) (not (>= A 0)) (not (>= A0 0)) (not (>= Right 0)) (= (tb2t (get int int _let_0 (t2tb _let_3))) (sum2 A01 _let_4 (+ 1 Right _let_2))) (not (>= BOUND_VARIABLE_2756 0)))))))) ) 60.77/61.06 ( skv_24 skv_25 skv_26 skv_27 skv_28 skv_29 ) 60.77/61.06 ) 60.77/61.06 (instantiation (forall ((A ty) (B ty) (X uni) (X1 uni)) (sort1 B (get B A X X1)) ) 60.77/61.06 ( int, int, (t2tb1 skv_26), (t2tb 0) ) 60.77/61.06 ( int, int, (t2tb1 skv_26), (t2tb (+ 1 skv_24 (* (- 2) (power1 2 skv_29)))) ) 60.77/61.06 ( int, int, (t2tb1 skv_26), (t2tb (+ skv_24 (* (- 2) (power1 2 skv_29)))) ) 60.77/61.06 ( int, int, (t2tb1 skv_28), (t2tb skv_24) ) 60.77/61.06 ( int, int, (t2tb1 skv_28), (t2tb (+ skv_24 (* (- 1) (power1 2 skv_29)))) ) 60.77/61.06 ) 60.77/61.06 (instantiation (forall ((X map_int_int)) (sort1 (map int int) (t2tb1 X)) ) 60.77/61.06 ( skv_26 ) 60.77/61.06 ( skv_28 ) 60.77/61.06 ) 60.77/61.06 (instantiation (forall ((J uni)) (= J (t2tb (tb2t J))) ) 60.77/61.06 ( (get int int (t2tb1 skv_28) (t2tb skv_24)) ) 60.77/61.06 ( (t2tb (+ skv_24 (* (- 1) (power1 2 skv_29)))) ) 60.77/61.06 ( (get int int (t2tb1 skv_28) (t2tb (+ skv_24 (* (- 1) (power1 2 skv_29))))) ) 60.77/61.06 ( (get int int (t2tb1 skv_26) (t2tb 0)) ) 60.77/61.06 ( (get int int (t2tb1 skv_26) (t2tb (+ 1 skv_24 (* (- 2) (power1 2 skv_29))))) ) 60.77/61.06 ( (get int int (elts int (t2tb2 (tb2t2 (mk_array1 int skv_25 (t2tb1 skv_26))))) (t2tb (+ skv_24 (* (- 1) (power1 2 skv_29))))) ) 60.77/61.06 ( (get int int (t2tb1 skv_26) (t2tb (+ skv_24 (* (- 2) (power1 2 skv_29))))) ) 60.77/61.06 ) 60.77/61.06 (instantiation (forall ((A ty) (X Int) (X1 uni)) (sort1 (array A) (mk_array1 A X X1)) ) 60.77/61.06 ( int, skv_25, (t2tb1 skv_26) ) 60.77/61.06 ( int, skv_27, (t2tb1 skv_28) ) 60.77/61.06 ) 60.77/61.06 (instantiation (forall ((X Int)) (= (power1 X 0) 1) ) 60.77/61.06 ( 4 ) 60.77/61.06 ) 60.77/61.06 (instantiation (forall ((X Int)) (sort1 int (t2tb X)) ) 60.77/61.06 ( 0 ) 60.77/61.06 ( skv_24 ) 60.77/61.06 ( (+ skv_24 (* (- 1) (power1 2 skv_29))) ) 60.77/61.06 ( (+ skv_24 (* (- 2) (power1 2 skv_29))) ) 60.77/61.06 ( (+ 1 skv_24 (* (- 2) (power1 2 skv_29))) ) 60.77/61.06 ) 60.77/61.06 (instantiation (forall ((J uni)) (= J (t2tb2 (tb2t2 J))) ) 60.77/61.06 ( (mk_array1 int skv_25 (t2tb1 skv_26)) ) 60.77/61.06 ( (mk_array1 int skv_27 (t2tb1 skv_28)) ) 60.77/61.06 ) 60.77/61.06 (instantiation (forall ((I Int)) (= I (tb2t (t2tb I))) ) 60.77/61.06 ( 0 ) 60.77/61.06 ( skv_24 ) 60.77/61.06 ( (+ skv_24 (* (- 1) (power1 2 skv_29))) ) 60.77/61.06 ( (+ skv_24 (* (- 2) (power1 2 skv_29))) ) 60.77/61.06 ( (+ 1 skv_24 (* (- 2) (power1 2 skv_29))) ) 60.77/61.06 ) 60.77/61.06 (instantiation (forall ((C map_int_int) (I Int) (K Int) (J Int)) (or (>= (+ I (* (- 1) K)) 1) (>= (+ K (* (- 1) J)) 1) (= (sum2 C I K) (+ (* (- 1) (sum2 C K J)) (sum2 C I J)))) ) 60.77/61.06 ( skv_26, 0, (+ 1 skv_24 (* (- 2) (power1 2 skv_29))), (+ skv_24 (* (- 1) (power1 2 skv_29))) ) 60.77/61.06 ( skv_26, 0, (+ 1 skv_24 (* (- 2) (power1 2 skv_29))), (+ 1 skv_24 (* (- 1) (power1 2 skv_29))) ) 60.77/61.06 ( skv_26, 1, (+ 1 skv_24 (* (- 2) (power1 2 skv_29))), (+ 1 skv_24 (* (- 1) (power1 2 skv_29))) ) 60.77/61.06 ) 60.77/61.06 (instantiation (forall ((X Int) (N Int)) (or (not (>= N 1)) (= (power1 X N) (* X (power1 X (+ (- 1) N))))) ) 60.77/61.06 ( 2, skv_29 ) 60.77/61.06 ( 2, (+ (- 1) skv_29) ) 60.77/61.06 ( 2, (* 2 skv_29) ) 60.77/61.06 ( 2, (+ 1 skv_29) ) 60.77/61.06 ( 4, skv_29 ) 60.77/61.06 ) 60.77/61.06 (instantiation (forall ((X Int) (Y Int)) (or (= Y 0) (>= (+ (abs1 X) (* (- 1) (abs1 (* Y (div1 X Y))))) 0)) ) 60.77/61.06 ( (power1 2 skv_29), 2 ) 60.77/61.06 ) 60.77/61.06 (instantiation (forall ((X Int) (N Int) (M Int)) (or (not (>= N 0)) (not (>= M 0)) (= (power1 X (+ N M)) (* (power1 X N) (power1 X M)))) ) 60.77/61.06 ( 2, skv_29, skv_29 ) 60.77/61.06 ( 2, skv_29, (+ (- 1) skv_29) ) 60.77/61.06 ( 2, (+ (- 1) skv_29), skv_29 ) 60.77/61.06 ( 2, (* 2 skv_29), (* 2 skv_29) ) 60.77/61.06 ( 2, (+ 1 skv_29), (+ 1 skv_29) ) 60.77/61.06 ( 4, skv_29, skv_29 ) 60.77/61.06 ) 60.77/61.06 (instantiation (forall ((C map_int_int) (I Int) (J Int)) (or (not (>= (+ I (* (- 1) J)) 0)) (= (sum2 C I J) 0)) ) 60.77/61.06 ( skv_26, 0, (+ skv_24 (* (- 2) (power1 2 skv_29))) ) 60.77/61.06 ( skv_26, 0, (+ 1 skv_24 (* (- 2) (power1 2 skv_29))) ) 60.77/61.06 ( skv_26, 0, (+ 1 skv_24 (* (- 1) (power1 2 skv_29))) ) 60.77/61.06 ( skv_26, 1, (+ 1 skv_24 (* (- 2) (power1 2 skv_29))) ) 60.77/61.06 ( skv_26, (+ 1 skv_24 (* (- 2) (power1 2 skv_29))), (+ skv_24 (* (- 1) (power1 2 skv_29))) ) 60.77/61.06 ( skv_26, (+ 1 skv_24 (* (- 2) (power1 2 skv_29))), (+ 1 skv_24 (* (- 1) (power1 2 skv_29))) ) 60.77/61.06 ( skv_26, (+ 2 skv_24 (* (- 2) (power1 2 skv_29))), (+ 1 skv_24 (* (- 1) (power1 2 skv_29))) ) 60.77/61.06 ) 60.77/61.06 (instantiation (forall ((X Int) (Y Int)) (or (= Y 0) (= X (+ (mod1 X Y) (* Y (div1 X Y))))) ) 60.77/61.06 ( (power1 2 skv_29), 2 ) 60.77/61.06 ) 60.77/61.06 (instantiation (forall ((A ty) (U Int) (U1 uni)) (= U (length1 A (mk_array1 A U U1))) ) 60.77/61.06 ( int, skv_25, (t2tb1 skv_26) ) 60.77/61.06 ( int, skv_27, (t2tb1 skv_28) ) 60.77/61.06 ) 60.77/61.06 (instantiation (forall ((X Int) (Y Int)) (or (not (>= X 0)) (>= (+ X (* (- 1) Y)) 0) (= (div1 X Y) 0)) ) 60.77/61.06 ( (power1 2 skv_29), 2 ) 60.77/61.06 ) 60.77/61.06 (instantiation (forall ((X Int) (Y Int) (Z Int)) (or (>= (+ X (* (- 1) Y)) 1) (not (>= Z 0)) (not (>= (+ (* X Z) (* (- 1) (* Y Z))) 1))) ) 60.77/61.06 ( 0, 0, 0 ) 60.77/61.06 ) 60.77/61.06 (instantiation (forall ((X Int) (Y Int)) (or (>= X 1) (not (>= Y 1)) (not (>= (div1 X Y) 1))) ) 60.77/61.06 ( (power1 2 skv_29), 2 ) 60.77/61.06 ) 60.77/61.06 (instantiation (forall ((X Int) (Y Int)) (or (not (>= X 0)) (not (>= Y 1)) (>= (div1 X Y) 0)) ) 60.77/61.06 ( (power1 2 skv_29), 2 ) 60.77/61.06 ) 60.77/61.06 (instantiation (forall ((C map_int_int) (I Int) (J Int)) (or (>= (+ I (* (- 1) J)) 0) (= (tb2t (get int int (t2tb1 C) (t2tb I))) (+ (sum2 C I J) (* (- 1) (sum2 C (+ 1 I) J))))) ) 60.77/61.06 ( skv_26, 0, (+ skv_24 (* (- 2) (power1 2 skv_29))) ) 60.77/61.06 ( skv_26, 0, (+ 1 skv_24 (* (- 2) (power1 2 skv_29))) ) 60.77/61.06 ( skv_26, 0, (+ 1 skv_24 (* (- 1) (power1 2 skv_29))) ) 60.77/61.06 ( skv_26, 1, (+ 1 skv_24 (* (- 2) (power1 2 skv_29))) ) 60.77/61.06 ( skv_26, (+ 1 skv_24 (* (- 2) (power1 2 skv_29))), (+ skv_24 (* (- 1) (power1 2 skv_29))) ) 60.77/61.06 ( skv_26, (+ 1 skv_24 (* (- 2) (power1 2 skv_29))), (+ 1 skv_24 (* (- 1) (power1 2 skv_29))) ) 60.77/61.06 ( skv_26, (+ 2 skv_24 (* (- 2) (power1 2 skv_29))), (+ 1 skv_24 (* (- 1) (power1 2 skv_29))) ) 60.77/61.06 ) 60.77/61.06 (instantiation (forall ((I map_int_int)) (= I (tb2t1 (t2tb1 I))) ) 60.77/61.06 ( skv_26 ) 60.77/61.06 ( skv_28 ) 60.77/61.06 ) 60.77/61.06 (instantiation (forall ((X Int) (Y Int)) (let ((_let_0 (div1 X Y))) (or (not (>= Y 1)) (not (>= X 0)) (and (>= _let_0 0) (>= (+ X (* (- 1) _let_0)) 0)))) ) 60.77/61.06 ( (power1 2 skv_29), 2 ) 60.77/61.06 ) 60.77/61.06 (instantiation (forall ((A ty) (U Int) (U1 uni)) (or (not (sort1 (map int A) U1)) (= U1 (elts A (mk_array1 A U U1)))) ) 60.77/61.06 ( int, skv_25, (t2tb1 skv_26) ) 60.77/61.06 ( int, skv_27, (t2tb1 skv_28) ) 60.77/61.06 ) 60.77/61.06 (instantiation (forall ((C map_int_int) (I Int) (J Int)) (let ((_let_0 (+ (- 1) J))) (or (>= (+ I (* (- 1) J)) 0) (= (sum2 C I J) (+ (sum2 C I _let_0) (tb2t (get int int (t2tb1 C) (t2tb _let_0))))))) ) 60.77/61.06 ( skv_26, 0, (+ skv_24 (* (- 2) (power1 2 skv_29))) ) 60.77/61.06 ( skv_26, 0, (+ 1 skv_24 (* (- 2) (power1 2 skv_29))) ) 60.77/61.07 ( skv_26, 0, (+ 1 skv_24 (* (- 1) (power1 2 skv_29))) ) 60.77/61.07 ( skv_26, 1, (+ 1 skv_24 (* (- 2) (power1 2 skv_29))) ) 60.77/61.07 ( skv_26, (+ 1 skv_24 (* (- 2) (power1 2 skv_29))), (+ skv_24 (* (- 1) (power1 2 skv_29))) ) 60.77/61.07 ( skv_26, (+ 1 skv_24 (* (- 2) (power1 2 skv_29))), (+ 1 skv_24 (* (- 1) (power1 2 skv_29))) ) 60.77/61.07 ( skv_26, (+ 2 skv_24 (* (- 2) (power1 2 skv_29))), (+ 1 skv_24 (* (- 1) (power1 2 skv_29))) ) 60.77/61.07 ) 60.77/61.07 (instantiation (forall ((X Int) (Y Int) (N Int)) (or (not (>= N 0)) (= (power1 (* X Y) N) (* (power1 X N) (power1 Y N)))) ) 60.77/61.07 ( 2, 2, skv_29 ) 60.77/61.07 ( 2, 2, (+ (- 1) skv_29) ) 60.77/61.07 ( 2, 2, (* 2 skv_29) ) 60.77/61.07 ( 2, 2, (+ 1 skv_29) ) 60.77/61.07 ( 2, 4, skv_29 ) 60.77/61.07 ( 4, 2, skv_29 ) 60.77/61.07 ) 60.77/61.07 (instantiation (forall ((X Int) (N Int)) (or (not (>= N 0)) (= (power1 X (+ 1 N)) (* X (power1 X N)))) ) 60.77/61.07 ( 2, skv_29 ) 60.77/61.07 ( 2, (+ (- 1) skv_29) ) 60.77/61.07 ( 2, (* 2 skv_29) ) 60.77/61.07 ( 2, (+ 1 skv_29) ) 60.77/61.07 ( 4, skv_29 ) 60.77/61.07 ) 60.77/61.07 (instantiation (forall ((X Int)) (let ((_let_0 (+ X (* (- 2) (div1 X 2))))) (or (not (>= X 0)) (and (not (>= _let_0 2)) (>= _let_0 0)))) ) 60.77/61.07 ( (power1 2 skv_29) ) 60.77/61.07 ) 60.77/61.07 (instantiation (forall ((Left Int) (Right Int) (A0 array_int) (A0qt array_int) (A array_int)) (or (not (>= (length1 int (t2tb2 A0)) 0)) (not (>= (length1 int (t2tb2 A)) 0)) (not (forall ((I Int)) (let ((_let_0 (* (- 1) I))) (let ((_let_1 (t2tb I))) (or (not (>= (+ Right _let_0) 1)) (>= (+ (* 2 Left) (* (- 1) Right) _let_0) 0) (= (tb2t (get int int (elts int (t2tb2 A0)) _let_1)) (tb2t (get int int (elts int (t2tb2 A0qt)) _let_1)))))) )) (not (phase11 Left Right A0 A)) (not (>= (length1 int (t2tb2 A0qt)) 0)) (phase11 Left Right A0qt A)) ) 60.77/61.07 ( (+ skv_24 (* (- 1) (power1 2 skv_29))), skv_24, (tb2t2 (mk_array1 int skv_25 (t2tb1 skv_26))), (tb2t2 (mk_array1 int skv_27 (t2tb1 skv_28))), (tb2t2 (mk_array1 int skv_27 (t2tb1 skv_28))) ) 60.77/61.07 ( (+ skv_24 (* (- 1) (div1 (power1 2 skv_29) 2))), skv_24, (tb2t2 (mk_array1 int skv_25 (t2tb1 skv_26))), (tb2t2 (mk_array1 int skv_25 (t2tb1 skv_26))), (tb2t2 (mk_array1 int skv_27 (t2tb1 skv_28))) ) 60.77/61.07 ) 60.77/61.07 (instantiation (forall ((Left Int) (Right Int) (A0 array_int) (A array_int) (Aqt array_int)) (or (not (forall ((I Int)) (let ((_let_0 (* (- 1) I))) (let ((_let_1 (t2tb I))) (or (>= (+ (* 2 Left) (* (- 1) Right) _let_0) 0) (not (>= (+ Right _let_0) 1)) (= (tb2t (get int int (elts int (t2tb2 Aqt)) _let_1)) (tb2t (get int int (elts int (t2tb2 A)) _let_1)))))) )) (not (phase11 Left Right A0 A)) (not (>= (length1 int (t2tb2 Aqt)) 0)) (not (>= (length1 int (t2tb2 A)) 0)) (not (>= (length1 int (t2tb2 A0)) 0)) (phase11 Left Right A0 Aqt)) ) 60.77/61.07 ( (+ skv_24 (* (- 1) (power1 2 skv_29))), skv_24, (tb2t2 (mk_array1 int skv_25 (t2tb1 skv_26))), (tb2t2 (mk_array1 int skv_27 (t2tb1 skv_28))), (tb2t2 (mk_array1 int skv_25 (t2tb1 skv_26))) ) 60.77/61.07 ( (+ skv_24 (* (- 1) (div1 (power1 2 skv_29) 2))), skv_24, (tb2t2 (mk_array1 int skv_25 (t2tb1 skv_26))), (tb2t2 (mk_array1 int skv_27 (t2tb1 skv_28))), (tb2t2 (mk_array1 int skv_27 (t2tb1 skv_28))) ) 60.77/61.07 ) 60.77/61.07 (instantiation (forall ((A ty) (X uni) (X1 Int)) (sort1 A (get A int (elts A X) (t2tb X1))) ) 60.77/61.07 ( int, (t2tb2 (tb2t2 (mk_array1 int skv_25 (t2tb1 skv_26)))), 0 ) 60.77/61.07 ( int, (t2tb2 (tb2t2 (mk_array1 int skv_25 (t2tb1 skv_26)))), (+ skv_24 (* (- 2) (power1 2 skv_29))) ) 60.77/61.07 ( int, (t2tb2 (tb2t2 (mk_array1 int skv_25 (t2tb1 skv_26)))), (+ 1 skv_24 (* (- 2) (power1 2 skv_29))) ) 60.77/61.07 ) 60.77/61.07 (instantiation (forall ((Left Int) (Right Int) (A0 array_int) (A array_int)) (let ((_let_0 (* (- 1) Right))) (let ((_let_1 (* (- 1) (div1 (+ (* (- 1) Left) Right) 2)))) (or (>= (+ Left _let_0) (- 1)) (not (phase11 (+ Left _let_1) Left A0 A)) (not (phase11 (+ Right _let_1) Right A0 A)) (not (= (tb2t (get int int (elts int (t2tb2 A)) (t2tb Left))) (sum2 (tb2t1 (elts int (t2tb2 A0))) (+ 1 (* 2 Left) _let_0) (+ 1 Left)))) (phase11 Left Right A0 A)))) ) 60.77/61.07 ( (+ skv_24 (* (- 1) (div1 (power1 2 skv_29) 2))), skv_24, (tb2t2 (mk_array1 int skv_25 (t2tb1 skv_26))), (tb2t2 (mk_array1 int skv_27 (t2tb1 skv_28))) ) 60.77/61.07 ( (let ((_let_0 (power1 2 skv_29))) (+ skv_24 (* (- 1) _let_0) (* (- 1) (div1 _let_0 2)))), (+ skv_24 (* (- 1) (power1 2 skv_29))), (tb2t2 (mk_array1 int skv_25 (t2tb1 skv_26))), (tb2t2 (mk_array1 int skv_27 (t2tb1 skv_28))) ) 60.77/61.07 ) 60.77/61.07 (instantiation (forall ((Z Int) (Z1 Int) (Z2 array_int) (Z3 array_int)) (let ((_let_0 (* (- 1) Z1))) (let ((_let_1 (t2tb Z))) (let ((_let_2 (tb2t (get int int (elts int (t2tb2 Z3)) _let_1)))) (let ((_let_3 (elts int (t2tb2 Z2)))) (let ((_let_4 (* (- 1) (div1 (+ (* (- 1) Z) Z1) 2)))) (or (not (phase11 Z Z1 Z2 Z3)) (and (not (>= (+ Z _let_0) (- 1))) (phase11 (+ Z1 _let_4) Z1 Z2 Z3) (= _let_2 (sum2 (tb2t1 _let_3) (+ 1 (* 2 Z) _let_0) (+ 1 Z))) (phase11 (+ Z _let_4) Z Z2 Z3)) (and (= Z (+ (- 1) Z1)) (= _let_2 (tb2t (get int int _let_3 _let_1)))))))))) ) 60.77/61.07 ( (+ skv_24 (* (- 1) (power1 2 skv_29))), skv_24, (tb2t2 (mk_array1 int skv_25 (t2tb1 skv_26))), (tb2t2 (mk_array1 int skv_27 (t2tb1 skv_28))) ) 60.77/61.07 ( (+ skv_24 (* (- 1) (div1 (power1 2 skv_29) 2))), skv_24, (tb2t2 (mk_array1 int skv_25 (t2tb1 skv_26))), (tb2t2 (mk_array1 int skv_27 (t2tb1 skv_28))) ) 60.77/61.07 ( (let ((_let_0 (power1 2 skv_29))) (+ skv_24 (* (- 1) _let_0) (* (- 1) (div1 _let_0 2)))), (+ skv_24 (* (- 1) (power1 2 skv_29))), (tb2t2 (mk_array1 int skv_25 (t2tb1 skv_26))), (tb2t2 (mk_array1 int skv_27 (t2tb1 skv_28))) ) 60.77/61.07 ) 60.77/61.07 (instantiation (forall ((BOUND_VARIABLE_2841 Int)) (let ((_let_0 (power1 2 BOUND_VARIABLE_2841))) (or (not (>= _let_0 2)) (= _let_0 (* 2 (div1 _let_0 2))) (not (>= BOUND_VARIABLE_2841 0)))) ) 60.77/61.07 ( skv_29 ) 60.77/61.07 ( (+ (- 1) skv_29) ) 60.77/61.07 ( (* 2 skv_29) ) 60.77/61.07 ( (+ 1 skv_29) ) 60.77/61.07 ) 60.77/61.07 % SZS output end Proof for theBenchmark 60.77/61.07 EOF