Introduction to analyzing your application’s timeline
See also:
Briefly about analyzing the timeline
C-SPY can provide information for various aspects of your application, collected when the application is running. This can help you to analyze the application’s behavior.
You can view the timeline information in different representations:
As different graphs that correlate with the running application in relation to a shared time axis. The graphs appear either in the Timeline window or the Sampled graphs window, depending on the source of the data,
As detailed logs
As summaries of the logs.
Depending on the capabilities of your hardware, the debug probe, and the C-SPY driver you are using, timeline information can be provided for:
Call stack | Can be represented in the Timeline window, as a graph that displays the sequence of function calls and returns collected by the trace system. You get timing information between the function invocations. Note that there is also a related Call Stack window and a Function Trace window, see Call Stack window and Function Trace window, respectively. |
Data logging | Based on data logs collected by the trace system for up to four different variables or address ranges, specified by means of Data Log breakpoints. Choose to display the data logs:
|
Data sampling | Based on samples for up to four different variables. Choose to display the data logs:
Data sampling gives an indication of the data value over a length of time. Because it is a sampled value, data sampling is best suited for slow-changing data. |
Event logging | Based on event logs produced from Smart Analog data collection. Choose to display the event logs:
Event logging requires a hardware debugger driver that supports the feature, and a Renesas MCU with Smart Analog support. |
Interrupt logging | Based on interrupt logs collected by the trace system. Choose to display the interrupt logs:
Interrupt logging can, for example, help you locate which interrupts you can fine-tune to make your application more efficient. For more information, see Interrupts. |
Power logging | Based on logged power measurement samples generated by the debug probe or associated hardware. Choose to display the power logs:
Power logs can be useful for finding peaks in the power consumption and by double-clicking on a value you can see the corresponding source code. The precision depends on the frequency of the samples, but there is a good chance that you find the source code sequence that caused the peak. For more information, see Power debugging. |
Requirements for timeline support
Depending on the capabilities of the hardware, the debug probe, and the C-SPY driver you are using, trace-based timeline information is supported for:
Target system | Call Stack | Data logging | Data sampling | Interrupt logging | Power logging | Smart Analog event logging* |
|---|---|---|---|---|---|---|
C-SPY simulator | Yes | Yes | — | Yes | — | — |
E1, E2, E2 Lite, E2 On-Board, E20, EZ-CUBE2 | — | — | Yes | — | Yes, E2 | If supported by the device |
EZ-CUBE, TK, COM Port | — | — | Yes | — | — | — |
* This feature collects and displays Smart Analog data, which is supported by some Renesas MCUs.
For more information about requirements related to trace data, see Requirements for using trace.