Main Content

Model Callbacks

Model callbacks execute at specified action points, for example after you load or save the model.

You can set most of the same callbacks for libraries. Only the callbacks that can execute for a library are available to set for a library. For example, you cannot set the InitFcn callback for a library, which is called as part of simulation, because you cannot simulate a library.

Create Model Callbacks

  1. In the Simulink® Toolstrip, on the Modeling tab, in the Design gallery, click Property Inspector.

  2. With no selection at the top level of your model or referenced model, on the Properties tab, in the Callbacks section, select the callback you want to set.


    Block callbacks differ from model callbacks. Do not select a Model block to set model callbacks for a referenced model.

  3. In the box, enter the functions you want the callback to perform.

To programmatically create a model callback, use the set_param function to assign MATLAB® code to a model callback parameter.

Model Callback Parameters

Model Callback ParameterWhen Executed


Before the model is loaded.

Do not use model parameters in a PreLoadFcn model callback because parameters are loaded after the model is loaded. Instead, use a PostLoadFcn callback to work with model parameters when the model is loaded.

Defining a callback code for this parameter is useful for loading variables that the model uses.

If you want to call your model from a MATLAB file without opening your model, use the load_system function so that the PreLoadFcn executes.

For examples, see:

Limitations include:

  • For the PreLoadFcn callback, get_param does not return the model parameter values because the model is not yet loaded. Instead, get_param returns:

    • The default value for a standard model parameter such as solver

    • An error message for a model parameter added with add_param

  • Programmatic access to Scopes is not supported.


After the model is loaded.

Defining callback code for this parameter may be useful for generating an interface requiring a loaded model.

Limitations include:

  • If you make structural changes with PostLoadFcn, the function does not set the model Dirty flag to indicate unsaved changes. When you close the model, Simulink does not prompt you to save.

  • Programmatic access to Scopes is not supported.

Because the Simulink Editor opens after this callback executes, the PostLoadFcn callback is not suitable for setting up the model view, for example setting a zoom factor. Save zoom information with the model to open it with a particular zoom factor.


During the update phase before block parameters are evaluated. This callback is called during model update and simulation.

Avoid model InitFcn callbacks that edit the structure of the model. Simulink may execute or ignore these callbacks based on the model load status.

For more information on the InitFcn callback, see Initialization Function.

For examples, see:


Before the simulation phase. This callback is not called during model update.


After the simulation pauses.


Before the simulation continues.


After the simulation stops.

Output is written to workspace variables and files before the StopFcn is executed.

Simulation outputs are not available in the StopFcn callbacks for command-line simulations.


Before the model is saved.


After the model is saved.

If you make structural changes with PostSaveFcn, the function does not set the model Dirty flag to indicate unsaved changes. When you close the model, Simulink does not prompt you to save.


Before the block diagram is closed.

Any ModelCloseFcn and DeleteFcn callbacks set on blocks in the model are called prior to the model CloseFcn callback. The DestroyFcn callback of any blocks in the model is called after the model CloseFcn callback.

Referenced Model Callbacks

In a model hierarchy, the execution of callbacks reflects the order in which the top model and the models it references execute their callbacks. For example, suppose:

  • Model A:

    • References model B in accelerator mode.

    • Has a PostLoadFcn callback that creates variables in the MATLAB workspace.

    • Has the Rebuild configuration parameter set to Always, If changes detected, or If any changes in known dependencies detected.

  • Model B:

    • Has a CloseFcn callback that clears the MATLAB workspace.

    • Has not been built or is out of date.

Simulating model A triggers a rebuild of referenced model B. When Simulink rebuilds model B, it opens and closes model B, which invokes the model B CloseFcn callback. CloseFcn clears the MATLAB workspace, including the variables created by the model A OpenFcn callback.

Instead of using a CloseFcn callback for model B, you can use a StopFcn callback in model A to clear the variables used by the model from the MATLAB workspace. Alternatively, you can use a data dictionary for the data to avoid the need to have variables in the base workspace.

The simulation mode of a Model block affects when the model callbacks of the referenced model execute.

Simulation Mode of Model BlockBehavior

During model compilation, Simulink loads each referenced model that is configured to simulate in normal mode and is not already loaded.

In most cases, Simulink compiles each normal-mode referenced model once, regardless of the number of Model blocks that reference it.

The InitFcn, StartFcn, PauseFcn, ContinueFcn, and StopFcn model callbacks execute for each executable form of the model created by the model compiler.

The referenced models remain loaded after model compilation.


During model compilation, Simulink may open and close referenced models that are configured to simulate in accelerator mode based on their Rebuild settings and simulation targets. Models that are open before model compilation remain open.

Simulink does not execute some callbacks.

  • If everything is up to date and the Rebuild configuration parameter is set to If any changes in known dependencies detected, then the referenced model does not compile and its InitFcn callbacks do not execute.

  • Callbacks such as StartFcn and StopFcn do not execute because referenced models in accelerator mode use an S-function, which starts and stops instead of the referenced model.

For more information about model reference simulation modes, see Choose Simulation Modes for Model Hierarchies.

Related Topics