Code Interface Report for Inverter_000_test

Table of Contents

Entry-Point Functions

Function: Inverter_000_test_initialize

Prototype void Inverter_000_test_initialize(void)
Description Initialization entry point of generated code
Timing Must be called exactly once
Arguments None
Return value None
Header file Inverter_000_test.h

Function: Inverter_000_test_step0

Prototype void Inverter_000_test_step0(void)
Description Output entry point of generated code
Timing Must be called periodically, every 5e-05 seconds
Arguments None
Return value None
Header file Inverter_000_test.h

Function: Inverter_000_test_step1

Prototype void Inverter_000_test_step1(void)
Description Output entry point of generated code
Timing Must be called periodically, every 0.0001 seconds
Arguments None
Return value None
Header file Inverter_000_test.h

Function: Inverter_000_test_terminate

Prototype void Inverter_000_test_terminate(void)
Description Termination entry point of generated code
Timing Must be called exactly once
Arguments None
Return value None
Header file Inverter_000_test.h

Inports

No Inports in model.

Outports

No Outports in model.

Interface Parameters

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Parameter Source Code Identifier Data Type Scaling Dimension
<S4>/Float to IQN2 Inverter_000_test_P.FloattoIQN2_P1 real_T   1
<S4>/Float to IQN Inverter_000_test_P.FloattoIQN_P1 real_T   1
<S4>/Float to IQN1 Inverter_000_test_P.FloattoIQN1_P1 real_T   1
<S11>/Float to IQN Inverter_000_test_P.FloattoIQN_P1_j real_T   1
<S2>/Float to IQN1 Inverter_000_test_P.FloattoIQN1_P1_b real_T   1
<Root>/Constant Inverter_000_test_P.Constant_Value real_T   1
<Root>/Saturation4 Inverter_000_test_P.Saturation4_UpperSat int32_T sfix32_En10 1
<Root>/Saturation4 Inverter_000_test_P.Saturation4_LowerSat int32_T sfix32_En10 1
<Root>/Constant8 Inverter_000_test_P.Constant8_Value int32_T sfix32_En10 1
<Root>/Saturation5 Inverter_000_test_P.Saturation5_UpperSat int32_T sfix32_En10 1
<Root>/Saturation5 Inverter_000_test_P.Saturation5_LowerSat int32_T sfix32_En10 1
<Root>/Constant3 Inverter_000_test_P.Constant3_Value int32_T sfix32_En10 1
<S4>/Constant11 Inverter_000_test_P.Constant11_Value int32_T sfix32_En29 1
<S4>/Constant8 Inverter_000_test_P.Constant8_Value_e int32_T sfix32_En29 1
<S4>/Constant9 Inverter_000_test_P.Constant9_Value int32_T sfix32_En29 1
<S12>/Unit Delay Inverter_000_test_P.UnitDelay_InitialCondition int32_T sfix32_En29 1
<S14>/1 Inverter_000_test_P.u_Value int32_T sfix32_En29 1
<S14>/-1 Inverter_000_test_P.u_Value_e int32_T sfix32_En29 1
<S15>/1 Inverter_000_test_P.u_Value_f int32_T sfix32_En29 1
<S15>/-1 Inverter_000_test_P.u_Value_c int32_T sfix32_En29 1
<S2>/Gain Inverter_000_test_P.Gain_Gain int32_T sfix32_En31 1
<S5>/Gain Inverter_000_test_P.Gain_Gain_h int32_T sfix32_En32 1
<S5>/Gain1 Inverter_000_test_P.Gain1_Gain int32_T sfix32_En32 1
<Root>/Rate Transition1 Inverter_000_test_P.RateTransition1_InitialConditio real32_T   1
<S4>/Gain3 Inverter_000_test_P.Gain3_Gain real32_T   1
<S4>/Constant13 Inverter_000_test_P.Constant13_Value real32_T   1
<S4>/Constant14 Inverter_000_test_P.Constant14_Value real32_T   1
<S4>/Constant10 Inverter_000_test_P.Constant10_Value real32_T   1
<S4>/Gain2 Inverter_000_test_P.Gain2_Gain real32_T   1
<S11>/Constant Inverter_000_test_P.Constant_Value_j real32_T   1
<Root>/Gain2 Inverter_000_test_P.Gain2_Gain_f real32_T   1
<Root>/Bias1 Inverter_000_test_P.Bias1_Bias real32_T   1
<S1>/Constant15 Inverter_000_test_P.Constant15_Value real32_T   1
<S1>/Constant13 Inverter_000_test_P.Constant13_Value_a real32_T   1
<S1>/Constant14 Inverter_000_test_P.Constant14_Value_m real32_T   1
<Root>/Constant2 Inverter_000_test_P.Constant2_Value real32_T   1
<Root>/Bias2 Inverter_000_test_P.Bias2_Bias real32_T   1
<Root>/Constant14 Inverter_000_test_P.Constant14_Value_mo real32_T   1

Data Stores

No data stores in the model; note that this report lists only data stores with non-auto storage class and global data stores