Context switch + mutex overhead
Hey everyone,
I would like to get some advice on timing measurement I made that surprise me.
I run my application on a Cortex M7 200MHz. I have configCHECKFORSTACKOVERFLOW, configUSEMALLOCFAILEDHOOK, configUSETRACEFACILITY, configGENERATERUNTIME_STATS set to 0. Compiler GCC is optimised for speed.
I have a task with the highest priority in my system that waits for a notification to run its code.
This notification comes from an interruption every 23us.
The scenario is the following :
– Interruption starts (lets say at t=0)
– Some code is processed (around 5us processing, finishes at t=5us)
– A notification is sent to the highest priority task (followed by portYIELDFROMISR).
From what I understand, context switch should be pretty fast: the task that gets notified has the highest priority and is the only one with this priority. I therefore would like to get around 23-5=18us of available processing time for this task before the next interruption.
But the time I measure between the notification is sent and the task wakes up is around 2.2us, which represent 440 CPU cycles. Even though this can be variable according to multiple parameters, doesn’t it seem too far from the 84 cycles announced in the FAQ ?
Also, in this high priority task, I run some code that as some point TAKE a mutex and GIVE it back. I set the timout of the TAKE operation to 0, since I don’t want to wait: if it’s not available, I don’t want to run my code. It appears that the time consumed by the simple TAKE + GIVE operations is 1.7us, which represent 340 CPU cycles. Again, I think it is a lot for such simple operation.
In total, instead of having 18us available for my task to run between two interrupts, I end up having only 14.1us (if I use the mutex). This makes a noticeable difference in my application.
Do some of you can provide explanation on this ? It would be greatly appreciated.
Best
Context switch + mutex overhead
First – if interrupts need processing that quickly, consider performing
the processing in the interrupt itself, rather than switching to a task.
I therefore would like to get around 23-5=18us of available processing time for this task before the next interruption.Hmm, which would imply he context switch takes 0 CPU cycles ;o)
But the time I measure between the notification is sent and the task wakes up is around 2.2us, which represent 440 CPU cycles. Even though this can be variable according to multiple parameters, doesn’t it seem too far from the 84 cycles announced in the FAQ ?The time in the FAQ is for the context switch itself. In this case you are also measuring the time for the ‘notify give’ function to execute, and the time for the ‘notify receive’ function to exit. The ‘give’ part can be seen (at the time of writing) on line 4799 of the following file: https://sourceforge.net/p/freertos/code/HEAD/tree/trunk/FreeRTOS/Source/tasks.c so there is also logic to remove the task from the event list, add it to the ready list, etc.
Context switch + mutex overhead
Hello Richard,
I wasn’t expecting the context switch to be 0 cycles, but a fraction of ‘us would’ve been great 😀
Anyway, I think I’ll try to move the code to the interrupt itself.
Also I wasn’t expecting the MUTEX TAKE and GIVE operations to be that long. I think I’ll consider getting rid of it for time critical operations.
Anyway, thank you for your quick and clear answer. It is greatly appreciated!