I am looking for a way to get high-resolution timer (clock source) on Android. This must be in native code, and may be fairly non-portable. I would like microsecond resolution, or better. For my particular application, resolution is more important than precision, and a timer which is monotonic is best. I've been testing on a particular ARMv7 chipset with Android 4.0.3.

What I've tried so far:

  • clock_gettime(CLOCK_MONOTONIC): increments in units of 1ms on target hardware (EDIT originally I thought 10ms due to bug in my code, 1ms is correct but still not very good)
  • gettimeofday(): similar to clock_gettime

What I haven't tried:

See also (related questions, but no answer):

  • Can you assume root access on the device? – Marat Dukhan Feb 20 '13 at 9:20
  • @Maratyszcza: Yes, I could have root if needed. – Alex I Feb 20 '13 at 9:50
  • It is not about Android but Linux, and it is not possible. elinux.org/High_Resolution_Timers – auselen Feb 20 '13 at 10:31
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    He just needs a rdtsc equivalent on ARM I think. @auselen – StarPinkER Feb 20 '13 at 10:38
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    Well, in the Android source there's elapsedRealtimeNano() and systemTime(). I can't seem to find where System.nanoTime() is implemented, though... – tc. Feb 22 '13 at 6:25

You could use CPU cycle counter to measure the number of cycles between the two moments and then convert it to seconds. To guarantee that the CPU runs at its nominal frequency, switch its scaling governor to "performance" mode (there is a number of apps in Play store to do it, but root access it needed). You also will have to cool your device well to make sure the CPU doesn't throttle (this is especially important for phones). Finally, you have to bind your code to a single core (preferably core 0, because other cores can be put offline by the system).

There are two ways to access cycle counter on ARM: using perf_event subsystem in Linux or by directly reading cycle counter from CP15 coprocessor. perf_event method will only work if Linux kernel is compiled with support for this subsystem (the file /proc/sys/kernel/perf_event_paranoid exists) and reading event counters is not restricted (the file /proc/sys/kernel/perf_event_paranoid contains 0 or -1; with root access you can overwrite the value in this file). The CP15 method will work only if user-mode access to performance counters is enabled (by default it is always disabled, and you will have to either patch the kernel or use a kernel driver to enable it). Yeppp! library (I'm the author) is capable of using either method whenever available, and includes a kernel-mode driver to enable user-mode access to performance counters. You may find this example helpful.

  • I mentioned the same thing, looks like someone didn't like my suggestion as much... – sgupta Feb 23 '13 at 16:26
  1. Android doesn't support ARMv7-M, so Systick is out of the equation.
  2. I am not really experienced with timers in android/linux, If you're going to run this software on your own device, You can enable PMU in linux and use the CPU's cycle count register for accuracy nearing nanoseconds. This is not really advisable if you're going to publish your software or offer it to some end consumer as Manufacturers have different kernel config on different devices and hence PMU may not be enabled/available.

EDIT: You could additionally look at https://groups.google.com/forum/?fromgroups=#!topic/android-ndk/dgrqhgHWbHI and clock_getres() to check the resolution of clock_gettime()


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