If you require only the signal value, not the time at which it reaches that value, monitor a signal with Simulink® Real-Time™ Explorer.
If you require both the signal value and the time at which it reaches that value, add a real-time scope to your model. Create and configure scopes with Simulink Real-Time Explorer.
|Simulink Real-Time Explorer||Interact with target computer and real-time application running on target computer|
|Scope||Real-time Scope block|
Acquire non-time-stamped signal data while running a real-time application.
Acquire and visualize signals while running a real-time application.
Learn about usage issues that are common to all Simulink Real-Time Scope types.
Learn about usage issues that are unique to target scopes.
Learn about usage issues that are unique to host scopes.
Find and view signals and parameters with hierarchical path information
Learn about configuring scopes so that they wait until triggered to acquire data.
Learn about configuring scopes so that they acquire data before or after the trigger event.
Learn about configuring scopes so that they acquire data in response to the triggering of another scope.
Acquire non-time-stamped signal data and display it in text format.
Monitor Stateflow® states
Display Stateflow state changes graphically in your model.
Learn about the Simulink Real-Time Explorer display formats for monitoring signal groups.
Prepare to view signal and time data on the target computer monitor with real-time Scope blocks in target mode.
Visualize real-time data by creating target scopes that display on the target computer monitor.
Configure the scope display format on the target computer monitor.
Prepare to view signal and time data on the development computer with real-time Scope blocks in host mode.
Visualize real-time data on the development computer by using host scopes.
Configure the Simulink Real-Time Explorer host scope display on the development computer.
Trace signals by using the Simulink model as a user interface.
Select signals and log their state, time, and TET data to Simulation Data Inspector.
Avoid dropped data points caused by network buffer overruns
Create a user interface model by using the To Target and From Target blocks.
Configure scopes to trigger automatically or in response to user action.
Sample the output data for display and processing.
Group signals across hierarchical model boundaries.