Java 8's java.time.Instant stores in "nanosecond resolution", but using only provides millisecond resolution...

Instant instant =;



How can I get an Instant whose value is 'now', but with nanosecond resolution?

  • It's system architecture dependent (same as Timestamp was) on whether the system supports nanosecond resolution. – Chris Kessel Dec 19 '13 at 18:38
  • Remedied in Java 9. A fresh implementation of Clock captures the current moment in up to nanosecond resolution (depending on the capability of your host hardware clock). – Basil Bourque Sep 19 '16 at 0:54

While default Java8 clock does not provide nanoseconds resolution, you can combine it with Java ability to measure time differences with nanoseconds resolution, thus creating an actual nanosecond-capable clock.

public class NanoClock extends Clock
    private final Clock clock;

    private final long initialNanos;

    private final Instant initialInstant;

    public NanoClock()

    public NanoClock(final Clock clock)
        this.clock = clock;
        initialInstant = clock.instant();
        initialNanos = getSystemNanos();

    public ZoneId getZone()
        return clock.getZone();

    public Instant instant()
        return initialInstant.plusNanos(getSystemNanos() - initialNanos);

    public Clock withZone(final ZoneId zone)
        return new NanoClock(clock.withZone(zone));

    private long getSystemNanos()
        return System.nanoTime();

Using it is straightforward: just provide extra parameter to, or call Clock.instant() directly:

    final Clock clock = new NanoClock();   
    final Instant instant =;

Although this solution might work even if you re-create NanoClock instances every time, it's always better to stick with a stored clock initialized early in your code, then used wherever it's needed.

  • 2
    System.nanoTime() javadoc: Differences in successive calls that span greater than approximately 292 years (263 nanoseconds) will not correctly compute elapsed time due to numerical overflow. Looks like I won't be able to use it for my deep space explorer ;) – Adam Dec 19 '17 at 17:45
  • Yeah, I'm afraid you couldn't. What about designing a CryoNanoClock? Shall we start? 😉 – logtwo Dec 19 '17 at 21:01
  • Well, it might not be necessary since Java9 (as per one of the other answers here) is supposed to contain such a clock - but if I was going to design one, I'd keep the last value from System.nanoTime() and as soon as the next value is less, reset the clock's variables. – Adam Dec 20 '17 at 12:53
  • The code is excellent. The premise however is deeply flawed. As has been said in other comments to other answers, precision is not the same as accuracy. This code will violate its contract on just about every piece of hardware on which it runs. – Gabriel Jan 17 at 15:58
  • failing under test as expected. – Gabriel Jan 17 at 19:51

You can consider yourself lucky if you get even millisecond resolution.

Instant may model the time to nanosecond precision, but the real-life equipment on your computer which tracks wall-clock time usually has resolution around 10 ms, and accuracy almost certainly quite a bit below that (100 ms would be an optimistic assumption).

Compare this with System.nanoTime(), which gives resolution in the microseconds, but doesn't give absolute wall-clock time. Clearly, there is already a tradeoff at work to give you that kind of resolution, still three orders of magnitude short of nanoseconds.

  • 2
    Accuracy and resolution are hardly synonymous. You can always have much higher resolution that accuracy (or, better, uncertainty). – Ted Hopp Dec 19 '13 at 18:42
  • @TedHopp The correct term to use is accuracy. OP's "resolution" is technically termed precision. – Marko Topolnik Dec 19 '13 at 18:43
  • 1
    Well, I would hardly use the Java docs as the authority for metrology terminology. They perhaps are using precision in the sense of repeatability, but it's more likely that they are trying to make the point that reporting time in nanoseconds is a form of false precision. – Ted Hopp Dec 19 '13 at 19:08
  • 1
    @TedHopp If you measure 10000 ns where the actual value was 10999 ns, your accuracy was at best within 999 ns, whereas your (implied) precision was 1 ns. Therefore accuracy is closely related to resolution and the Javadoc uses the term accuracy. If, as you note, the Javadoc has changed, so will my terminology in the future. – Marko Topolnik Dec 19 '13 at 19:38
  • 3
    @TedHopp That distinction just isn't there in the Javadoc, which would be the only place where any kind of precision could be specified. You can either read the Javadoc as "we don't specify any precision for the measurement", "we specify the implied precision of 1 ns", or even "we screwed up by even touching the term precision". Take your pick, but I maintain that referring to the terms used in the docs is the best option when writing Java-related answers here. – Marko Topolnik Dec 19 '13 at 19:53

You can only get an Instant with "nanoseconds" by using another more precise java.time.Clock by using the Instant-method public static Instant now(Clock clock) In your example the default clock normally uses System.currentTimeMillis() which cannot display any nanoseconds.

Be aware that there is no clock available in nanosecond resolution (real time). The internal nanosecond representation facility of java.time.Instant is mainly due to the requirement to map database timestamps given in nanosecond precision (but normally not accurate to nanoseconds!).

Update from 2015-12-29: Java-9 will deliver a better clock, see my newer post.

  • I repeat as far as I know there is no nanosecond resolution clock. But of course you can easily construct a fake clock which pretends to create nanosecond-instants. Just look at the Clock-API. And databases also do similar stuff by inventing nanosecond timestamps (usually by incrementing a counter). – Meno Hochschild Dec 19 '13 at 19:01

So I spent some time digging through the Javadoc here:

It appears that you should be able to do the following:

Instant inst =;
long time = inst.getEpochSecond();
time *= 1000000000l; //convert to nanoseconds
time += inst.getNano(); //the nanoseconds returned by inst.getNano() are the nanoseconds past the second so they need to be added to the epoch second

That said - the other answerers make a good point that it's going to be mighty hard to get an accurate nano-second time as computers just don't typically have the capacity to track time to that resolution

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