Could you explain the difference between CLOCK_REALTIME and CLOCK_MONOTONIC clocks returned by clock_gettime() on Linux?

Which is a better choice if I need to compute elapsed time between timestamps produced by an external source and the current time?

Lastly, if I have an NTP daemon periodically adjusting system time, how do these adjustments interact with each of CLOCK_REALTIME and CLOCK_MONOTONIC?

7 Answers 7


CLOCK_REALTIME represents the machine's best-guess as to the current wall-clock, time-of-day time. As Ignacio and MarkR say, this means that CLOCK_REALTIME can jump forwards and backwards as the system time-of-day clock is changed, including by NTP.

CLOCK_MONOTONIC represents the absolute elapsed wall-clock time since some arbitrary, fixed point in the past. It isn't affected by changes in the system time-of-day clock.

If you want to compute the elapsed time between two events observed on the one machine without an intervening reboot, CLOCK_MONOTONIC is the best option.

Note that on Linux, CLOCK_MONOTONIC does not measure time spent in suspend, although by the POSIX definition it should. You can use the Linux-specific CLOCK_BOOTTIME for a monotonic clock that keeps running during suspend.

  • 15
    Note that on newer kernels, CLOCK_MONOTONIC_RAW is available which is even better (no NTP adjustments). Aug 20, 2012 at 13:59
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    @JosephGarvin for some value of "better", perhaps — CLOCK_MONOTONIC_RAW may run fast or slow of real time by several (or several hundred) parts per million, and its rate might vary due to environmental conditions like temperature or voltage (or steal time on virtual machines). On a properly-working machine, NTP does its best to mitigate all of those factors and so CLOCK_MONOTONIC more closely reflects true elapsed time.
    – hobbs
    Dec 29, 2012 at 6:37
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    Granted, it might be interesting to have a CLOCK_MONOTONIC_PARBOILED that was affected by NTP's efforts to correct frequency errors, but unaffected by its efforts to correct phase errors, but that's a lot of complexity for a dubious gain :)
    – hobbs
    Dec 29, 2012 at 6:40
  • 1
    I like the point that @hobbs brings up. What if you're concerned about programs that can be affected by clock drift? Would CLOCK_MONOTONIC be the best choice in that scenario? e.g. Patriot Missile System
    – sjagr
    Jan 14, 2014 at 18:43
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    I think it's also important to mention that CLOCK_REALTIME is affected by leap seconds. This means that it will produce double timestamps every time a leap second is inserted. Last time this happened in June 30, 2012 and quite a lot of software ran into trouble. Apr 2, 2014 at 7:45

Robert Love's book LINUX System Programming 2nd Edition, specifically addresses your question at the beginning of Chapter 11, pg 363:

The important aspect of a monotonic time source is NOT the current value, but the guarantee that the time source is strictly linearly increasing, and thus useful for calculating the difference in time between two samplings

That said, I believe he is assuming the processes are running on the same instance of an OS, so you might want to have a periodic calibration running to be able to estimate drift.


CLOCK_REALTIME is affected by NTP, and can move forwards and backwards. CLOCK_MONOTONIC is not, and advances at one tick per tick.

  • 21
    CLOCK_MONOTONIC is affected by NTP's time adjustment (time slewing). It won't jump, however.
    – derobert
    Aug 23, 2011 at 20:19
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    But on newer kernels there is CLOCK_MONOTONIC_RAW, which really isn't affected by NTP. Aug 20, 2012 at 14:00
  • 2
    "tick" -- any rough idea how big/long/CPU instructions is a tick on Linux/amd64? Or where I can get docs on any of this?
    – kevinarpe
    Dec 22, 2014 at 3:58
  • @kevinarpe Not sure but I think a tick is defined as a fraction of time, not a number of CPU cycle, often it’s 1/100 second.
    – Stéphane
    Mar 2, 2018 at 0:36
  • @Stéphane: I surely must be tighter than 10ms. I think Java's System.nanoTime() uses CLOCK_MONOTONIC and can measure durations of 1000ns or less. Maybe you are thinking about system time, which is sometimes limited to milliseconds?
    – kevinarpe
    Mar 2, 2018 at 6:35

In addition to Ignacio's answer, CLOCK_REALTIME can go up forward in leaps, and occasionally backwards. CLOCK_MONOTONIC does neither; it just keeps going forwards (although it probably resets at reboot).

A robust app needs to be able to tolerate CLOCK_REALTIME leaping forwards occasionally (and perhaps backwards very slightly very occasionally, although that is more of an edge-case).

Imagine what happens when you suspend your laptop - CLOCK_REALTIME jumps forwards following the resume, CLOCK_MONOTONIC does not. Try it on a VM.

  • 3
    CLOCK_MONOTONIC starts at 0 when the program starts; it is not for interprocess use.
    – Benubird
    Feb 9, 2011 at 10:31
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    @Benubird: It does not start at 0 when the program starts. That's CLOCK_PROCESS_CPUTIME_ID. Quick test: $ perl -w -MTime::HiRes=clock_gettime,CLOCK_MONOTONIC -E 'say clock_gettime(CLOCK_MONOTONIC)' --> 706724.117565279. That number matches system uptime on Linux, but the standard says its arbitrary.
    – derobert
    Aug 23, 2011 at 20:16
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    As an aside, I do not believe that the Linux behaviour where CLOCK_MONOTONIC stops over a suspend/resume is POSIX-conforming. It's supposed to be the time since a fixed point in the past, but stopping the clock over suspend/resume breaks that.
    – caf
    Jul 16, 2013 at 10:31

POSIX 7 quotes

POSIX 7 specifies both at http://pubs.opengroup.org/onlinepubs/9699919799/functions/clock_getres.html:


This clock represents the clock measuring real time for the system. For this clock, the values returned by clock_gettime() and specified by clock_settime() represent the amount of time (in seconds and nanoseconds) since the Epoch.

CLOCK_MONOTONIC (optional feature):

For this clock, the value returned by clock_gettime() represents the amount of time (in seconds and nanoseconds) since an unspecified point in the past (for example, system start-up time, or the Epoch). This point does not change after system start-up time. The value of the CLOCK_MONOTONIC clock cannot be set via clock_settime().

clock_settime() gives an important hint: POSIX systems are able to arbitrarily change CLOCK_REALITME with it, so don't rely on it flowing neither continuously nor forward. NTP could be implemented using clock_settime(), and could only affect CLOCK_REALTIME.

The Linux kernel implementation seems to take boot time as the epoch for CLOCK_MONOTONIC: Starting point for CLOCK_MONOTONIC

  • 1
    That's what I really wanted to know! Thank you! Sep 12, 2020 at 15:37

Sorry, no reputation to add this as a comment. So it goes as an complementary answer.

Depending on how often you will call clock_gettime(), you should keep in mind that only some of the "clocks" are provided by Linux in the VDSO (i.e. do not require a syscall with all the overhead of one -- which only got worse when Linux added the defenses to protect against Spectre-like attacks).

While clock_gettime(CLOCK_MONOTONIC,...), clock_gettime(CLOCK_REALTIME,...), and gettimeofday() are always going to be extremely fast (accelerated by the VDSO), this is not true for, e.g. CLOCK_MONOTONIC_RAW or any of the other POSIX clocks.

This can change with kernel version, and architecture.

Although most programs don't need to pay attention to this, there can be latency spikes in clocks accelerated by the VDSO: if you hit them right when the kernel is updating the shared memory area with the clock counters, it has to wait for the kernel to finish.

Here's the "proof" (GitHub, to keep bots away from kernel.org): https://github.com/torvalds/linux/commit/2aae950b21e4bc789d1fc6668faf67e8748300b7


There's one big difference between CLOCK_REALTIME and MONOTONIC. CLOCK_REALTIME can jump forward or backward according to NTP. By default, NTP allows the clock rate to be speeded up or slowed down by up to 0.05%, but NTP cannot cause the monotonic clock to jump forward or backward.

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