I would like to estimate the amount of opcodes it takes a
cortex A9 single core to handle an IRQ.
Assuming I work with Linux kernel
3.4, how many opcodes it takes to call the
irq and execute the
You question is related how to calculate the interrupt latency of Linux. At least you might be interested in how long it takes before your interrupt even starts. We will ignore this aspect of
A simple way is to toggle a
The source for the primary interrupt handling is in entry-armv.S. There are macros defined for the interrupt controller you use and these depend on the
So the second way would be to inspect the code and calculate it directly. This is probably easier if you look at the source, compile your kernel and then do an
As you can see from the source, there is also
There are variations such as,
Measuring on a scope will show the jitter in
Often you don't care how long the whole
Edit: The Cortex A9 technical reference has instruction counts in appendix B. Most ARM instruction are a single cycle on most architectures, except memory load/store, multiples and branches. Follow the 3rd and 4th paragraphs above to find the complete instruction path to handle a Linux interrupt for your configuration and just add it up; for an estimate (as the original question asks) you can just count the instructions as they are generally a single cycle.
Whilst you can calculate the theoretical minimum number of core cycles by inspection of the source code, the number actually taken is far less certain due to the effects of caching, memory and memory controller performance, what the other core is doing at the time and various other factors dependant on the micro-architecture of the ARM processor in question.
I suspect you would be better off measuring the actual interrupt latency performance of your system, either using a digital 'scope or performance counters.
Of course, for hard real-time applications, you need to know the worst case interrupt latency - which includes the worst case of all of these factors.