Model tp057 ! Source version 1 ! Simple APM canonicalizer version 1.3 ! APM backend version 1.1 Parameters a_1 = 8 a_2 = 8 a_3 = 10 a_4 = 10 a_5 = 10 a_6 = 10 a_7 = 12 a_8 = 12 a_9 = 12 a_10 = 12 a_11 = 14 a_12 = 14 a_13 = 14 a_14 = 16 a_15 = 16 a_16 = 16 a_17 = 18 a_18 = 18 a_19 = 20 a_20 = 20 a_21 = 20 a_22 = 22 a_23 = 22 a_24 = 22 a_25 = 24 a_26 = 24 a_27 = 24 a_28 = 26 a_29 = 26 a_30 = 26 a_31 = 28 a_32 = 28 a_33 = 30 a_34 = 30 a_35 = 30 a_36 = 32 a_37 = 32 a_38 = 34 a_39 = 36 a_40 = 36 a_41 = 38 a_42 = 38 a_43 = 40 a_44 = 42 b_1 = 0.49 b_2 = 0.49 b_3 = 0.48 b_4 = 0.47 b_5 = 0.48 b_6 = 0.47 b_7 = 0.46 b_8 = 0.46 b_9 = 0.45 b_10 = 0.43 b_11 = 0.45 b_12 = 0.43 b_13 = 0.43 b_14 = 0.44 b_15 = 0.43 b_16 = 0.43 b_17 = 0.46 b_18 = 0.45 b_19 = 0.42 b_20 = 0.42 b_21 = 0.43 b_22 = 0.41 b_23 = 0.41 b_24 = 0.40 b_25 = 0.42 b_26 = 0.40 b_27 = 0.40 b_28 = 0.41 b_29 = 0.40 b_30 = 0.41 b_31 = 0.41 b_32 = 0.40 b_33 = 0.40 b_34 = 0.40 b_35 = 0.38 b_36 = 0.41 b_37 = 0.40 b_38 = 0.40 b_39 = 0.41 b_40 = 0.38 b_41 = 0.40 b_42 = 0.40 b_43 = 0.39 b_44 = 0.39 End Parameters Variables x_1 = 0.42, >= 0.4 x_2 = 5, >= -4 obj End Variables Intermediates aux_1 = b_1 - x_1 - (0.49 - x_1)*exp(-x_2*(a_1 - 8)) aux_2 = b_2 - x_1 - (0.49 - x_1)*exp(-x_2*(a_2 - 8)) aux_3 = b_3 - x_1 - (0.49 - x_1)*exp(-x_2*(a_3 - 8)) aux_4 = b_4 - x_1 - (0.49 - x_1)*exp(-x_2*(a_4 - 8)) aux_5 = b_5 - x_1 - (0.49 - x_1)*exp(-x_2*(a_5 - 8)) aux_6 = b_6 - x_1 - (0.49 - x_1)*exp(-x_2*(a_6 - 8)) aux_7 = b_7 - x_1 - (0.49 - x_1)*exp(-x_2*(a_7 - 8)) aux_8 = b_8 - x_1 - (0.49 - x_1)*exp(-x_2*(a_8 - 8)) aux_9 = b_9 - x_1 - (0.49 - x_1)*exp(-x_2*(a_9 - 8)) aux_10 = b_10 - x_1 - (0.49 - x_1)*exp(-x_2*(a_10 - 8)) aux_11 = b_11 - x_1 - (0.49 - x_1)*exp(-x_2*(a_11 - 8)) aux_12 = b_12 - x_1 - (0.49 - x_1)*exp(-x_2*(a_12 - 8)) aux_13 = b_13 - x_1 - (0.49 - x_1)*exp(-x_2*(a_13 - 8)) aux_14 = b_14 - x_1 - (0.49 - x_1)*exp(-x_2*(a_14 - 8)) aux_15 = b_15 - x_1 - (0.49 - x_1)*exp(-x_2*(a_15 - 8)) aux_16 = b_16 - x_1 - (0.49 - x_1)*exp(-x_2*(a_16 - 8)) aux_17 = b_17 - x_1 - (0.49 - x_1)*exp(-x_2*(a_17 - 8)) aux_18 = b_18 - x_1 - (0.49 - x_1)*exp(-x_2*(a_18 - 8)) aux_19 = b_19 - x_1 - (0.49 - x_1)*exp(-x_2*(a_19 - 8)) aux_20 = b_20 - x_1 - (0.49 - x_1)*exp(-x_2*(a_20 - 8)) aux_21 = b_21 - x_1 - (0.49 - x_1)*exp(-x_2*(a_21 - 8)) aux_22 = b_22 - x_1 - (0.49 - x_1)*exp(-x_2*(a_22 - 8)) aux_23 = b_23 - x_1 - (0.49 - x_1)*exp(-x_2*(a_23 - 8)) aux_24 = b_24 - x_1 - (0.49 - x_1)*exp(-x_2*(a_24 - 8)) aux_25 = b_25 - x_1 - (0.49 - x_1)*exp(-x_2*(a_25 - 8)) aux_26 = b_26 - x_1 - (0.49 - x_1)*exp(-x_2*(a_26 - 8)) aux_27 = b_27 - x_1 - (0.49 - x_1)*exp(-x_2*(a_27 - 8)) aux_28 = b_28 - x_1 - (0.49 - x_1)*exp(-x_2*(a_28 - 8)) aux_29 = b_29 - x_1 - (0.49 - x_1)*exp(-x_2*(a_29 - 8)) aux_30 = b_30 - x_1 - (0.49 - x_1)*exp(-x_2*(a_30 - 8)) aux_31 = b_31 - x_1 - (0.49 - x_1)*exp(-x_2*(a_31 - 8)) aux_32 = b_32 - x_1 - (0.49 - x_1)*exp(-x_2*(a_32 - 8)) aux_33 = b_33 - x_1 - (0.49 - x_1)*exp(-x_2*(a_33 - 8)) aux_34 = b_34 - x_1 - (0.49 - x_1)*exp(-x_2*(a_34 - 8)) aux_35 = b_35 - x_1 - (0.49 - x_1)*exp(-x_2*(a_35 - 8)) aux_36 = b_36 - x_1 - (0.49 - x_1)*exp(-x_2*(a_36 - 8)) aux_37 = b_37 - x_1 - (0.49 - x_1)*exp(-x_2*(a_37 - 8)) aux_38 = b_38 - x_1 - (0.49 - x_1)*exp(-x_2*(a_38 - 8)) aux_39 = b_39 - x_1 - (0.49 - x_1)*exp(-x_2*(a_39 - 8)) aux_40 = b_40 - x_1 - (0.49 - x_1)*exp(-x_2*(a_40 - 8)) aux_41 = b_41 - x_1 - (0.49 - x_1)*exp(-x_2*(a_41 - 8)) aux_42 = b_42 - x_1 - (0.49 - x_1)*exp(-x_2*(a_42 - 8)) aux_43 = b_43 - x_1 - (0.49 - x_1)*exp(-x_2*(a_43 - 8)) aux_44 = b_44 - x_1 - (0.49 - x_1)*exp(-x_2*(a_44 - 8)) s_1 = (aux_1)^2 s_2 = s_1 + (aux_2)^2 s_3 = s_2 + (aux_3)^2 s_4 = s_3 + (aux_4)^2 s_5 = s_4 + (aux_5)^2 s_6 = s_5 + (aux_6)^2 s_7 = s_6 + (aux_7)^2 s_8 = s_7 + (aux_8)^2 s_9 = s_8 + (aux_9)^2 s_10 = s_9 + (aux_10)^2 s_11 = s_10 + (aux_11)^2 s_12 = s_11 + (aux_12)^2 s_13 = s_12 + (aux_13)^2 s_14 = s_13 + (aux_14)^2 s_15 = s_14 + (aux_15)^2 s_16 = s_15 + (aux_16)^2 s_17 = s_16 + (aux_17)^2 s_18 = s_17 + (aux_18)^2 s_19 = s_18 + (aux_19)^2 s_20 = s_19 + (aux_20)^2 s_21 = s_20 + (aux_21)^2 s_22 = s_21 + (aux_22)^2 s_23 = s_22 + (aux_23)^2 s_24 = s_23 + (aux_24)^2 s_25 = s_24 + (aux_25)^2 s_26 = s_25 + (aux_26)^2 s_27 = s_26 + (aux_27)^2 s_28 = s_27 + (aux_28)^2 s_29 = s_28 + (aux_29)^2 s_30 = s_29 + (aux_30)^2 s_31 = s_30 + (aux_31)^2 s_32 = s_31 + (aux_32)^2 s_33 = s_32 + (aux_33)^2 s_34 = s_33 + (aux_34)^2 s_35 = s_34 + (aux_35)^2 s_36 = s_35 + (aux_36)^2 s_37 = s_36 + (aux_37)^2 s_38 = s_37 + (aux_38)^2 s_39 = s_38 + (aux_39)^2 s_40 = s_39 + (aux_40)^2 s_41 = s_40 + (aux_41)^2 s_42 = s_41 + (aux_42)^2 s_43 = s_42 + (aux_43)^2 s_44 = s_43 + (aux_44)^2 mf = s_44 myminfun = mf myabsdevnod0_0 = abs(myminfun - 0.02845966972298671) myreldevnod0_0 = abs(myminfun/0.02845966972298671 - 1) myabsdevnod0_1 = abs(x_1 - 0.4199526507578012) myreldevnod0_1 = abs(x_1/0.4199526507578012 - 1) myabsdevnod0_2 = abs(x_2 - 1.284845193624845) myreldevnod0_2 = abs(x_2/1.284845193624845 - 1) myabsdevnod1_0 = (1/2)*(abs(myabsdevnod0_0 - myabsdevnod0_1) + (myabsdevnod0_0 + myabsdevnod0_1)) myreldevnod1_0 = (1/2)*(abs(myreldevnod0_0 - myreldevnod0_1) + (myreldevnod0_0 + myreldevnod0_1)) myabsdevnod1_2 = myabsdevnod0_2 myreldevnod1_2 = myreldevnod0_2 myabsdevnod2_0 = (1/2)*(abs(myabsdevnod1_0 - myabsdevnod1_2) + (myabsdevnod1_0 + myabsdevnod1_2)) myreldevnod2_0 = (1/2)*(abs(myreldevnod1_0 - myreldevnod1_2) + (myreldevnod1_0 + myreldevnod1_2)) zmyabsdevmax = myabsdevnod2_0 zmyreldevmax = myreldevnod2_0 End Intermediates Equations obj = myminfun 0.49*x_2 - x_1*x_2 - 0.09 >= 0 End Equations End Model