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I'm looking to write some very timing sensitive code on an LPC1343 where I need to count exact clock cycles. There are two issues :-

  1. I've read that code executing from the internal flash memory isn't always able to run at the full 72Mhz and wait states might be introduced. But I can't find any "official" document about this. I saw one place recommending to copy time sensitive functions into ram... I'm looking for either to be be told definitively that this doesn't happen, or for information on how it affects the timing.

  2. How long do branch instructions take? I read this core has branch prediction so timings might vary.. Is this correct, and if so is there any way to predict how it will behave, or disable that (as exact timing is more important than saving a few clock cycles for me).

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If timing is this critical, you could setup a GPIO pin to toggle with your logic and explicitly verify the timing with an oscilloscope. You can verify the basic timing, then setup to trigger on any timing failures (too short or too long a pulse width). –  Digikata Jul 26 '10 at 15:15
Yes, I would certainly do that, –  jcoder Jul 26 '10 at 15:59

2 Answers 2

up vote 2 down vote accepted

The instruction timing for Cortex-M3 is available from arm.com:


There are also pipeline operations, so instruction counting is a bit fiddly.

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Here's some real world investigation for LPC11xx and LPC13xx: http://knowledgebase.nxp.com/showthread.php?t=460

In short, there is no "right" answer, the results might depends on flash accelerator settings, memory alignment, bus architecture (neumann vs. harvard), 32-bit vs. 16-bit instructions and so on.

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