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I'm trying to profile a C function (which is called from an interrupt, but I can extract it and profile it elsewhere) on a Cortex M4.

What are the possibilities to count the number of cycles typically used in this function ? Function shall run in ~4000 cycles top, so RTC isn't an option I guess, and manually counting cycles from disassembly can be painful - and only useful if averaged because I'd like to profile on a typical stream with typical flash / memory usage pattern.

I have heard about cycle counter registers and MRC instructions, but they seem to be available for A8/11. I haven't seen such instructions in cortex-Mx micros.

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most microcontrollers have timers, the cortex-m3 has one in the core (m4 doesnt if I remember right or m0 doesnt one of the two). github.com/dwelch67 I have many examples and all start with blinking leds progressively working towards using different timers, etc. mbed and stm32f4d are cortex-m examples (there are others). –  dwelch Jul 18 '12 at 0:11

3 Answers 3

up vote 11 down vote accepted

Take a look at the DWT_CYCCNT register defined here. Note that this register is implementation-dependent. Who is the chip vendor? I know the STM32 implementation offers this set of registers.

This post provides instructions for using the DWT Cycle Counter Register for timing. (See the post form 11 December 2009 - 06:29 PM)

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I've seen it quickly, but thought it was only a comparator to a counter, only able to generate interrupts each time a given value. So I would have only an imprecise count - interrupting each 500 cycles, or have a big impact on performance, always interrupting to code ? How to get access to its value or use it ? (It is indeed an STM32F4 chip) –  makapuf Jul 17 '12 at 21:07
    
@makapuf: See edited post. You should be able to obtain precise timing using this register. –  Throwback1986 Jul 17 '12 at 21:11
    
Thanks, sounds like it ! I'll try it ASAP. I'll post the results. –  makapuf Jul 19 '12 at 8:06
    
Include the content from the links in the answer case they die again –  BenCr Mar 18 at 9:36
    
As a follow-up for posterity, this link is quite good: stackoverflow.com/questions/13379220/… –  Throwback1986 Jul 17 at 20:54

If your part incorporates the CoreSight Embedded Trace Macrocell and you have appropriate trace capable debugger hardware and software then you can profile the code directly. Trace capable debug hardware is of course more expensive, and your board needs to be designed to make the trace port pins available on the debug header. Since these pins are often multiplexed to other functions, that may not always be possible or practical.

Otherwise if your tool-chain includes a cycle-accurate simulator (such as that available in Keil uVision), you can use that to analyse the code timing. The simulator provides debug, trace and profiling features that are generally more powerful and flexible that those available on chip, so even if you do have trace hardware, the simulator may still be the easier solution.

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I'm using gnu tool chain on Linux, so gcc/gdb –  makapuf Jul 18 '12 at 7:56
    
One slightly convoluted solution perhaps then is to use a Windows machine or a Windows VM running in VirtualBox for example, and then use the evaluation version of Keil uVision with Codesourcery's GNU ARM Toolchain. The evaluation restrictions are on the ARM RealView compiler/linker not the IDE and I am not sure about the debugger/simulator, but even if they are restricted the code size limit is 32k, so you can probably test this function if not the entire application. Details: keil.com/appnotes/docs/apnt_199.asp. Probably to much trouble though. –  Clifford Jul 18 '12 at 17:12
    
Thanks but This will only be a simulation, based on a perfect memory model (could be great as a first approx but I'd trust the real deal better in case of memory bus contention ( I use heavyly DMA transfers also ...) –  makapuf Jul 19 '12 at 8:09
    
@makapuf: True, but equally you might never know whether your "real" measurements represent worst case conditions either in that case. The real measurements will be variable, while the simulation will give you a base-line constant from which to calculate worst-case conditions (perhaps). It would be interesting to do both, but you may not have the time or the equipment. I suggest Throwback1986's solution. –  Clifford Jul 19 '12 at 8:35
    
I also think I'll start with it. Thanks again for your answer. Besides, talking about simulations, it seems ARMulator is a cycle-perfect ARM simulator, do you have any experience with it ? –  makapuf Jul 19 '12 at 21:34

This depends on you ARM implementation.

I used the SysTick->VAL register on a stm32F4 core. This is cycle accurate.

When interpreting the results, take care of:

  • take wrapping into account.
  • It counts down, not up.

Limitation: This only works on intervals smaller than a single systick.

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