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-- This file has been generated by CoCoSim2.
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-- Compiler: Lustre compiler 2 (ToLustre.m)
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-- Time: 03-Dec-2018 22:03:04
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(*
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Original block name: integrator_ext_IC_matrix_test_PP/Integrator
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*)
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node  Integrator_60_005(f_lpar_x_rpar__1 : real;
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	f_lpar_x_rpar__2 : real;
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	f_lpar_x_rpar__3 : real;
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	f_lpar_x_rpar__4 : real;
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	x0_1 : real;
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	__time_step : real;
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	__nb_step : int;)
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returns(F_lpar_x_rpar__1 : real;
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	F_lpar_x_rpar__2 : real;
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	F_lpar_x_rpar__3 : real;
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	F_lpar_x_rpar__4 : real;);
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var Constant_1 : real;
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	Product_1 : real;
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	Sample_1 : real;
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	Sample_2 : real;
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	Sample_3 : real;
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	Sample_4 : real;
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	Sum1_1 : real;
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	Sum1_2 : real;
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	Sum1_3 : real;
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	Sum1_4 : real;
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	Sum2_1 : real;
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	Sum2_2 : real;
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	Sum2_3 : real;
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	Sum2_4 : real;
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	Sum6_1 : real;
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	Sum6_2 : real;
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	Sum6_3 : real;
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	Sum6_4 : real;
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	UnitDelay_1 : real;
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	UnitDelay_2 : real;
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	UnitDelay_3 : real;
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	UnitDelay_4 : real;
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	UnitDelay1_1 : real;
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let
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	Constant_1 = 0.000000000000000;
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	Product_1 = 1.0 * x0_1 * UnitDelay1_1;
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	Sample_1 = (f_lpar_x_rpar__1 * 1.000000000000000);
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	Sample_2 = (f_lpar_x_rpar__2 * 1.000000000000000);
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	Sample_3 = (f_lpar_x_rpar__3 * 1.000000000000000);
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	Sample_4 = (f_lpar_x_rpar__4 * 1.000000000000000);
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	Sum1_1 = 0.0 + Sample_1 + Sum2_1;
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	Sum1_2 = 0.0 + Sample_2 + Sum2_2;
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	Sum1_3 = 0.0 + Sample_3 + Sum2_3;
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	Sum1_4 = 0.0 + Sample_4 + Sum2_4;
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	Sum2_1 = 0.0 + UnitDelay_1 + Product_1;
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	Sum2_2 = 0.0 + UnitDelay_2 + Product_1;
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	Sum2_3 = 0.0 + UnitDelay_3 + Product_1;
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	Sum2_4 = 0.0 + UnitDelay_4 + Product_1;
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	Sum6_1 = 0.0 + UnitDelay_1 + Product_1;
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	Sum6_2 = 0.0 + UnitDelay_2 + Product_1;
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	Sum6_3 = 0.0 + UnitDelay_3 + Product_1;
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	Sum6_4 = 0.0 + UnitDelay_4 + Product_1;
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	UnitDelay_1 = (0.000000000000000 -> (pre Sum1_1));
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	UnitDelay_2 = (0.000000000000000 -> (pre Sum1_2));
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	UnitDelay_3 = (0.000000000000000 -> (pre Sum1_3));
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	UnitDelay_4 = (0.000000000000000 -> (pre Sum1_4));
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	UnitDelay1_1 = (1.000000000000000 -> (pre Constant_1));
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	F_lpar_x_rpar__1 = Sum6_1;
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	F_lpar_x_rpar__2 = Sum6_2;
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	F_lpar_x_rpar__3 = Sum6_3;
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	F_lpar_x_rpar__4 = Sum6_4;
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tel
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(*
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Original block name: integrator_ext_IC_matrix_test_PP/Integrator1
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*)
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node  Integrator1_61_004(f_lpar_x_rpar__1 : real;
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	x0_1 : real;
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	x0_2 : real;
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	x0_3 : real;
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	x0_4 : real;
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	__time_step : real;
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	__nb_step : int;)
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returns(F_lpar_x_rpar__1 : real;
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	F_lpar_x_rpar__2 : real;
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	F_lpar_x_rpar__3 : real;
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	F_lpar_x_rpar__4 : real;);
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var Constant_1 : real;
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	Product_1 : real;
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	Product_2 : real;
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	Product_3 : real;
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	Product_4 : real;
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	Sample_1 : real;
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	Sum1_1 : real;
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	Sum1_2 : real;
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	Sum1_3 : real;
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	Sum1_4 : real;
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	Sum2_1 : real;
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	Sum2_2 : real;
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	Sum2_3 : real;
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	Sum2_4 : real;
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	Sum6_1 : real;
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	Sum6_2 : real;
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	Sum6_3 : real;
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	Sum6_4 : real;
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	UnitDelay_1 : real;
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	UnitDelay_2 : real;
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	UnitDelay_3 : real;
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	UnitDelay_4 : real;
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	UnitDelay1_1 : real;
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let
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	Constant_1 = 0.000000000000000;
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	Product_1 = 1.0 * x0_1 * UnitDelay1_1;
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	Product_2 = 1.0 * x0_2 * UnitDelay1_1;
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	Product_3 = 1.0 * x0_3 * UnitDelay1_1;
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	Product_4 = 1.0 * x0_4 * UnitDelay1_1;
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	Sample_1 = (f_lpar_x_rpar__1 * 1.000000000000000);
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	Sum1_1 = 0.0 + Sample_1 + Sum2_1;
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	Sum1_2 = 0.0 + Sample_1 + Sum2_2;
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	Sum1_3 = 0.0 + Sample_1 + Sum2_3;
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	Sum1_4 = 0.0 + Sample_1 + Sum2_4;
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	Sum2_1 = 0.0 + UnitDelay_1 + Product_1;
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	Sum2_2 = 0.0 + UnitDelay_2 + Product_2;
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	Sum2_3 = 0.0 + UnitDelay_3 + Product_3;
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	Sum2_4 = 0.0 + UnitDelay_4 + Product_4;
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	Sum6_1 = 0.0 + UnitDelay_1 + Product_1;
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	Sum6_2 = 0.0 + UnitDelay_2 + Product_2;
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	Sum6_3 = 0.0 + UnitDelay_3 + Product_3;
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	Sum6_4 = 0.0 + UnitDelay_4 + Product_4;
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	UnitDelay_1 = (0.000000000000000 -> (pre Sum1_1));
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	UnitDelay_2 = (0.000000000000000 -> (pre Sum1_2));
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	UnitDelay_3 = (0.000000000000000 -> (pre Sum1_3));
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	UnitDelay_4 = (0.000000000000000 -> (pre Sum1_4));
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	UnitDelay1_1 = (1.000000000000000 -> (pre Constant_1));
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	F_lpar_x_rpar__1 = Sum6_1;
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	F_lpar_x_rpar__2 = Sum6_2;
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	F_lpar_x_rpar__3 = Sum6_3;
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	F_lpar_x_rpar__4 = Sum6_4;
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tel
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(*
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Original block name: integrator_ext_IC_matrix_test_PP/Integrator2
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*)
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node  Integrator2_62_219(f_lpar_x_rpar__1 : real;
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	f_lpar_x_rpar__2 : real;
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	f_lpar_x_rpar__3 : real;
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	f_lpar_x_rpar__4 : real;
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	x0_1 : real;
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	x0_2 : real;
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	x0_3 : real;
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	x0_4 : real;
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	__time_step : real;
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	__nb_step : int;)
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returns(F_lpar_x_rpar__1 : real;
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	F_lpar_x_rpar__2 : real;
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	F_lpar_x_rpar__3 : real;
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	F_lpar_x_rpar__4 : real;);
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var Constant_1 : real;
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	Product_1 : real;
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	Product_2 : real;
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	Product_3 : real;
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	Product_4 : real;
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	Sample_1 : real;
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	Sample_2 : real;
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	Sample_3 : real;
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	Sample_4 : real;
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	Sum1_1 : real;
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	Sum1_2 : real;
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	Sum1_3 : real;
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	Sum1_4 : real;
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	Sum2_1 : real;
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	Sum2_2 : real;
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	Sum2_3 : real;
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	Sum2_4 : real;
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	Sum6_1 : real;
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	Sum6_2 : real;
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	Sum6_3 : real;
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	Sum6_4 : real;
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	UnitDelay_1 : real;
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	UnitDelay_2 : real;
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	UnitDelay_3 : real;
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	UnitDelay_4 : real;
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	UnitDelay1_1 : real;
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let
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	Constant_1 = 0.000000000000000;
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	Product_1 = 1.0 * x0_1 * UnitDelay1_1;
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	Product_2 = 1.0 * x0_2 * UnitDelay1_1;
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	Product_3 = 1.0 * x0_3 * UnitDelay1_1;
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	Product_4 = 1.0 * x0_4 * UnitDelay1_1;
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	Sample_1 = (f_lpar_x_rpar__1 * 1.000000000000000);
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	Sample_2 = (f_lpar_x_rpar__2 * 1.000000000000000);
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	Sample_3 = (f_lpar_x_rpar__3 * 1.000000000000000);
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	Sample_4 = (f_lpar_x_rpar__4 * 1.000000000000000);
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	Sum1_1 = 0.0 + Sample_1 + Sum2_1;
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	Sum1_2 = 0.0 + Sample_2 + Sum2_2;
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	Sum1_3 = 0.0 + Sample_3 + Sum2_3;
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	Sum1_4 = 0.0 + Sample_4 + Sum2_4;
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	Sum2_1 = 0.0 + UnitDelay_1 + Product_1;
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	Sum2_2 = 0.0 + UnitDelay_2 + Product_2;
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	Sum2_3 = 0.0 + UnitDelay_3 + Product_3;
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	Sum2_4 = 0.0 + UnitDelay_4 + Product_4;
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	Sum6_1 = 0.0 + UnitDelay_1 + Product_1;
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	Sum6_2 = 0.0 + UnitDelay_2 + Product_2;
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	Sum6_3 = 0.0 + UnitDelay_3 + Product_3;
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	Sum6_4 = 0.0 + UnitDelay_4 + Product_4;
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	UnitDelay_1 = (0.000000000000000 -> (pre Sum1_1));
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	UnitDelay_2 = (0.000000000000000 -> (pre Sum1_2));
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	UnitDelay_3 = (0.000000000000000 -> (pre Sum1_3));
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	UnitDelay_4 = (0.000000000000000 -> (pre Sum1_4));
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	UnitDelay1_1 = (1.000000000000000 -> (pre Constant_1));
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	F_lpar_x_rpar__1 = Sum6_1;
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	F_lpar_x_rpar__2 = Sum6_2;
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	F_lpar_x_rpar__3 = Sum6_3;
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	F_lpar_x_rpar__4 = Sum6_4;
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tel
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(*
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Original block name: integrator_ext_IC_matrix_test_PP/Integrator3
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*)
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node  Integrator3_63_009(f_lpar_x_rpar__1 : real;
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	f_lpar_x_rpar__2 : real;
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	f_lpar_x_rpar__3 : real;
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	f_lpar_x_rpar__4 : real;
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	x0_1 : real;
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	__time_step : real;
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	__nb_step : int;)
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returns(F_lpar_x_rpar__1 : real;
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	F_lpar_x_rpar__2 : real;
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	F_lpar_x_rpar__3 : real;
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	F_lpar_x_rpar__4 : real;);
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var Constant_1 : real;
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	Product_1 : real;
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	Sample_1 : real;
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	Sample_2 : real;
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	Sample_3 : real;
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	Sample_4 : real;
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	Sum1_1 : real;
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	Sum1_2 : real;
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	Sum1_3 : real;
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	Sum1_4 : real;
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	Sum2_1 : real;
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	Sum2_2 : real;
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	Sum2_3 : real;
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	Sum2_4 : real;
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	Sum6_1 : real;
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	Sum6_2 : real;
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	Sum6_3 : real;
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	Sum6_4 : real;
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	UnitDelay_1 : real;
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	UnitDelay_2 : real;
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	UnitDelay_3 : real;
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	UnitDelay_4 : real;
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	UnitDelay1_1 : real;
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let
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	Constant_1 = 0.000000000000000;
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	Product_1 = 1.0 * x0_1 * UnitDelay1_1;
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	Sample_1 = (f_lpar_x_rpar__1 * 1.000000000000000);
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	Sample_2 = (f_lpar_x_rpar__2 * 1.000000000000000);
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	Sample_3 = (f_lpar_x_rpar__3 * 1.000000000000000);
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	Sample_4 = (f_lpar_x_rpar__4 * 1.000000000000000);
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	Sum1_1 = 0.0 + Sample_1 + Sum2_1;
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	Sum1_2 = 0.0 + Sample_2 + Sum2_2;
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	Sum1_3 = 0.0 + Sample_3 + Sum2_3;
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	Sum1_4 = 0.0 + Sample_4 + Sum2_4;
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	Sum2_1 = 0.0 + UnitDelay_1 + Product_1;
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	Sum2_2 = 0.0 + UnitDelay_2 + Product_1;
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	Sum2_3 = 0.0 + UnitDelay_3 + Product_1;
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	Sum2_4 = 0.0 + UnitDelay_4 + Product_1;
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	Sum6_1 = 0.0 + UnitDelay_1 + Product_1;
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	Sum6_2 = 0.0 + UnitDelay_2 + Product_1;
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	Sum6_3 = 0.0 + UnitDelay_3 + Product_1;
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	Sum6_4 = 0.0 + UnitDelay_4 + Product_1;
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	UnitDelay_1 = (0.000000000000000 -> (pre Sum1_1));
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	UnitDelay_2 = (0.000000000000000 -> (pre Sum1_2));
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	UnitDelay_3 = (0.000000000000000 -> (pre Sum1_3));
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	UnitDelay_4 = (0.000000000000000 -> (pre Sum1_4));
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	UnitDelay1_1 = (1.000000000000000 -> (pre Constant_1));
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	F_lpar_x_rpar__1 = Sum6_1;
277
	F_lpar_x_rpar__2 = Sum6_2;
278
	F_lpar_x_rpar__3 = Sum6_3;
279
	F_lpar_x_rpar__4 = Sum6_4;
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tel
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(*
283
Original block name: integrator_ext_IC_matrix_test_PP/Integrator4
284
*)
285
node  Integrator4_64_005(f_lpar_x_rpar__1 : real;
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	x0_1 : real;
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	x0_2 : real;
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	x0_3 : real;
289
	x0_4 : real;
290
	__time_step : real;
291
	__nb_step : int;)
292
returns(F_lpar_x_rpar__1 : real;
293
	F_lpar_x_rpar__2 : real;
294
	F_lpar_x_rpar__3 : real;
295
	F_lpar_x_rpar__4 : real;);
296
var Constant_1 : real;
297
	Product_1 : real;
298
	Product_2 : real;
299
	Product_3 : real;
300
	Product_4 : real;
301
	Sample_1 : real;
302
	Sum1_1 : real;
303
	Sum1_2 : real;
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	Sum1_3 : real;
305
	Sum1_4 : real;
306
	Sum2_1 : real;
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	Sum2_2 : real;
308
	Sum2_3 : real;
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	Sum2_4 : real;
310
	Sum6_1 : real;
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	Sum6_2 : real;
312
	Sum6_3 : real;
313
	Sum6_4 : real;
314
	UnitDelay_1 : real;
315
	UnitDelay_2 : real;
316
	UnitDelay_3 : real;
317
	UnitDelay_4 : real;
318
	UnitDelay1_1 : real;
319
let
320
	Constant_1 = 0.000000000000000;
321
	Product_1 = 1.0 * x0_1 * UnitDelay1_1;
322
	Product_2 = 1.0 * x0_2 * UnitDelay1_1;
323
	Product_3 = 1.0 * x0_3 * UnitDelay1_1;
324
	Product_4 = 1.0 * x0_4 * UnitDelay1_1;
325
	Sample_1 = (f_lpar_x_rpar__1 * 1.000000000000000);
326
	Sum1_1 = 0.0 + Sample_1 + Sum2_1;
327
	Sum1_2 = 0.0 + Sample_1 + Sum2_2;
328
	Sum1_3 = 0.0 + Sample_1 + Sum2_3;
329
	Sum1_4 = 0.0 + Sample_1 + Sum2_4;
330
	Sum2_1 = 0.0 + UnitDelay_1 + Product_1;
331
	Sum2_2 = 0.0 + UnitDelay_2 + Product_2;
332
	Sum2_3 = 0.0 + UnitDelay_3 + Product_3;
333
	Sum2_4 = 0.0 + UnitDelay_4 + Product_4;
334
	Sum6_1 = 0.0 + UnitDelay_1 + Product_1;
335
	Sum6_2 = 0.0 + UnitDelay_2 + Product_2;
336
	Sum6_3 = 0.0 + UnitDelay_3 + Product_3;
337
	Sum6_4 = 0.0 + UnitDelay_4 + Product_4;
338
	UnitDelay_1 = (0.000000000000000 -> (pre Sum1_1));
339
	UnitDelay_2 = (0.000000000000000 -> (pre Sum1_2));
340
	UnitDelay_3 = (0.000000000000000 -> (pre Sum1_3));
341
	UnitDelay_4 = (0.000000000000000 -> (pre Sum1_4));
342
	UnitDelay1_1 = (1.000000000000000 -> (pre Constant_1));
343
	F_lpar_x_rpar__1 = Sum6_1;
344
	F_lpar_x_rpar__2 = Sum6_2;
345
	F_lpar_x_rpar__3 = Sum6_3;
346
	F_lpar_x_rpar__4 = Sum6_4;
347
tel
348

    
349
(*
350
Original block name: integrator_ext_IC_matrix_test_PP/Integrator5
351
*)
352
node  Integrator5_65_004(f_lpar_x_rpar__1 : real;
353
	f_lpar_x_rpar__2 : real;
354
	f_lpar_x_rpar__3 : real;
355
	f_lpar_x_rpar__4 : real;
356
	x0_1 : real;
357
	x0_2 : real;
358
	x0_3 : real;
359
	x0_4 : real;
360
	__time_step : real;
361
	__nb_step : int;)
362
returns(F_lpar_x_rpar__1 : real;
363
	F_lpar_x_rpar__2 : real;
364
	F_lpar_x_rpar__3 : real;
365
	F_lpar_x_rpar__4 : real;);
366
var Constant_1 : real;
367
	Product_1 : real;
368
	Product_2 : real;
369
	Product_3 : real;
370
	Product_4 : real;
371
	Sample_1 : real;
372
	Sample_2 : real;
373
	Sample_3 : real;
374
	Sample_4 : real;
375
	Sum1_1 : real;
376
	Sum1_2 : real;
377
	Sum1_3 : real;
378
	Sum1_4 : real;
379
	Sum2_1 : real;
380
	Sum2_2 : real;
381
	Sum2_3 : real;
382
	Sum2_4 : real;
383
	Sum6_1 : real;
384
	Sum6_2 : real;
385
	Sum6_3 : real;
386
	Sum6_4 : real;
387
	UnitDelay_1 : real;
388
	UnitDelay_2 : real;
389
	UnitDelay_3 : real;
390
	UnitDelay_4 : real;
391
	UnitDelay1_1 : real;
392
let
393
	Constant_1 = 0.000000000000000;
394
	Product_1 = 1.0 * x0_1 * UnitDelay1_1;
395
	Product_2 = 1.0 * x0_2 * UnitDelay1_1;
396
	Product_3 = 1.0 * x0_3 * UnitDelay1_1;
397
	Product_4 = 1.0 * x0_4 * UnitDelay1_1;
398
	Sample_1 = (f_lpar_x_rpar__1 * 1.000000000000000);
399
	Sample_2 = (f_lpar_x_rpar__2 * 1.000000000000000);
400
	Sample_3 = (f_lpar_x_rpar__3 * 1.000000000000000);
401
	Sample_4 = (f_lpar_x_rpar__4 * 1.000000000000000);
402
	Sum1_1 = 0.0 + Sample_1 + Sum2_1;
403
	Sum1_2 = 0.0 + Sample_2 + Sum2_2;
404
	Sum1_3 = 0.0 + Sample_3 + Sum2_3;
405
	Sum1_4 = 0.0 + Sample_4 + Sum2_4;
406
	Sum2_1 = 0.0 + UnitDelay_1 + Product_1;
407
	Sum2_2 = 0.0 + UnitDelay_2 + Product_2;
408
	Sum2_3 = 0.0 + UnitDelay_3 + Product_3;
409
	Sum2_4 = 0.0 + UnitDelay_4 + Product_4;
410
	Sum6_1 = 0.0 + UnitDelay_1 + Product_1;
411
	Sum6_2 = 0.0 + UnitDelay_2 + Product_2;
412
	Sum6_3 = 0.0 + UnitDelay_3 + Product_3;
413
	Sum6_4 = 0.0 + UnitDelay_4 + Product_4;
414
	UnitDelay_1 = (0.000000000000000 -> (pre Sum1_1));
415
	UnitDelay_2 = (0.000000000000000 -> (pre Sum1_2));
416
	UnitDelay_3 = (0.000000000000000 -> (pre Sum1_3));
417
	UnitDelay_4 = (0.000000000000000 -> (pre Sum1_4));
418
	UnitDelay1_1 = (1.000000000000000 -> (pre Constant_1));
419
	F_lpar_x_rpar__1 = Sum6_1;
420
	F_lpar_x_rpar__2 = Sum6_2;
421
	F_lpar_x_rpar__3 = Sum6_3;
422
	F_lpar_x_rpar__4 = Sum6_4;
423
tel
424

    
425
(*
426
Original block name: integrator_ext_IC_matrix_test_PP
427
*)
428
node  integrator_ext_IC_matrix_test_PP(In4_1 : real;
429
	In4_2 : real;
430
	In4_3 : real;
431
	In4_4 : real;
432
	In7_1 : real;
433
	In1_1 : real;
434
	In2_1 : real;
435
	In2_2 : real;
436
	In2_3 : real;
437
	In2_4 : real;
438
	In3_1 : real;
439
	In3_2 : real;
440
	In3_3 : real;
441
	In3_4 : real;
442
	In5_1 : real;
443
	In5_2 : real;
444
	In5_3 : real;
445
	In5_4 : real;
446
	In6_1 : real;
447
	In6_2 : real;
448
	In6_3 : real;
449
	In6_4 : real;
450
	In8_1 : real;
451
	In9_1 : real;
452
	In10_1 : real;
453
	In10_2 : real;
454
	In10_3 : real;
455
	In10_4 : real;
456
	In11_1 : real;
457
	In11_2 : real;
458
	In11_3 : real;
459
	In11_4 : real;
460
	In12_1 : real;
461
	In12_2 : real;
462
	In12_3 : real;
463
	In12_4 : real;)
464
returns(Out4_1 : real;
465
	Out4_2 : real;
466
	Out4_3 : real;
467
	Out4_4 : real;
468
	Out1_1 : real;
469
	Out1_2 : real;
470
	Out1_3 : real;
471
	Out1_4 : real;
472
	Out2_1 : real;
473
	Out2_2 : real;
474
	Out2_3 : real;
475
	Out2_4 : real;
476
	Out3_1 : real;
477
	Out3_2 : real;
478
	Out3_3 : real;
479
	Out3_4 : real;
480
	Out5_1 : real;
481
	Out5_2 : real;
482
	Out5_3 : real;
483
	Out5_4 : real;
484
	Out6_1 : real;
485
	Out6_2 : real;
486
	Out6_3 : real;
487
	Out6_4 : real;);
488
var Integrator_1 : real;
489
	Integrator_2 : real;
490
	Integrator_3 : real;
491
	Integrator_4 : real;
492
	Integrator1_1 : real;
493
	Integrator1_2 : real;
494
	Integrator1_3 : real;
495
	Integrator1_4 : real;
496
	Integrator2_1 : real;
497
	Integrator2_2 : real;
498
	Integrator2_3 : real;
499
	Integrator2_4 : real;
500
	Integrator3_1 : real;
501
	Integrator3_2 : real;
502
	Integrator3_3 : real;
503
	Integrator3_4 : real;
504
	Integrator4_1 : real;
505
	Integrator4_2 : real;
506
	Integrator4_3 : real;
507
	Integrator4_4 : real;
508
	Integrator5_1 : real;
509
	Integrator5_2 : real;
510
	Integrator5_3 : real;
511
	Integrator5_4 : real;
512
	__time_step : real;
513
	__nb_step : int;
514
let
515
	(Integrator_1, Integrator_2, Integrator_3, Integrator_4) = Integrator_60_005(In4_1, In4_2, In4_3, In4_4, In7_1, __time_step, __nb_step);
516
	(Integrator1_1, Integrator1_2, Integrator1_3, Integrator1_4) = Integrator1_61_004(In1_1, In2_1, In2_2, In2_3, In2_4, __time_step, __nb_step);
517
	(Integrator2_1, Integrator2_2, Integrator2_3, Integrator2_4) = Integrator2_62_219(In3_1, In3_2, In3_3, In3_4, In5_1, In5_2, In5_3, In5_4, __time_step, __nb_step);
518
	(Integrator3_1, Integrator3_2, Integrator3_3, Integrator3_4) = Integrator3_63_009(In6_1, In6_2, In6_3, In6_4, In8_1, __time_step, __nb_step);
519
	(Integrator4_1, Integrator4_2, Integrator4_3, Integrator4_4) = Integrator4_64_005(In9_1, In10_1, In10_2, In10_3, In10_4, __time_step, __nb_step);
520
	(Integrator5_1, Integrator5_2, Integrator5_3, Integrator5_4) = Integrator5_65_004(In11_1, In11_2, In11_3, In11_4, In12_1, In12_2, In12_3, In12_4, __time_step, __nb_step);
521
	Out4_1 = Integrator_1;
522
	Out4_2 = Integrator_2;
523
	Out4_3 = Integrator_3;
524
	Out4_4 = Integrator_4;
525
	Out1_1 = Integrator1_1;
526
	Out1_2 = Integrator1_2;
527
	Out1_3 = Integrator1_3;
528
	Out1_4 = Integrator1_4;
529
	Out2_1 = Integrator2_1;
530
	Out2_2 = Integrator2_2;
531
	Out2_3 = Integrator2_3;
532
	Out2_4 = Integrator2_4;
533
	Out3_1 = Integrator3_1;
534
	Out3_2 = Integrator3_2;
535
	Out3_3 = Integrator3_3;
536
	Out3_4 = Integrator3_4;
537
	Out5_1 = Integrator4_1;
538
	Out5_2 = Integrator4_2;
539
	Out5_3 = Integrator4_3;
540
	Out5_4 = Integrator4_4;
541
	Out6_1 = Integrator5_1;
542
	Out6_2 = Integrator5_2;
543
	Out6_3 = Integrator5_3;
544
	Out6_4 = Integrator5_4;
545
	__time_step = (0.0 -> ((pre __time_step) + 1.000000000000000));
546
	__nb_step = (0 -> ((pre __nb_step) + 1));
547
tel
548

    
(1074-1074/1153)