The DSP Simulink® model templates let you automatically configure the Simulink environment with the recommended settings for digital signal processing modeling. DSP Simulink model templates enable reuse of settings, including configuration parameters. You can create models from templates that use best practices and take advantage of previous solutions to common problems. Instead of the default canvas of a new model, select a template model to help you get started.
For more information on Simulink model templates, see Create a Model in the Simulink documentation.
To create a new blank model and open the library browser:
On the MATLAB® Home tab, click Simulink, and choose the DSP System model template.
Click Create Model to create an empty model with settings suitable for use with DSP System Toolbox™. The new model opens. To access the library browser, click the Library Browser button on the model toolbar.
The new model using the template settings and contents appears in the Simulink Editor. The model is only in memory until you save it.
When you create a model by choosing one of the DSP Simulink model templates, the model is configured to use the settings recommended for DSP System Toolbox. Some of these settings are:
The DSP Simulink model templates are:
Click on DSP System and then click the button to create a blank model configured with settings recommended for DSP System Toolbox.
Click on Basic Filter and then click the button to create a basic filtering model configured with settings recommended for DSP System Toolbox.
This model implements a low pass filter and enables you to compare the filtered signal with the original signal. The model acts as a starting point for modeling filtering algorithms in Simulink using DSP System Toolbox.
Click the ARM Cortex-A Model and then click the
button to create a basic model for code replacement with the Ne10 library, which is optimized for ARM® Cortex®-A Processors. This model is configured with settings recommended for DSP System Toolbox and ARM Cortex-A processors.
Click the ARM Cortex-M Model and then click the
button to create a basic model for code replacement with the CMSIS library, which is optimized for ARM Cortex-M processors. This model is configured with settings recommended for DSP System Toolbox and ARM Cortex-M processors.