Is there a way to measure time with high-precision in Python --- more precise than one second? I doubt that there is a cross-platform way of doing that; I'm interesting in high precision time on Unix, particularly Solaris running on a Sun SPARC machine.

timeit seems to be capable of high-precision time measurement, but rather than measure how long a code snippet takes, I'd like to directly access the time values.

  • 2
    You mean 'elapsed time' or 'wall clock time', not 'CPU time'. Also, <1s is not considered high-precision. And when you say 'cross-platform', do you only mean 'across Linuxes', or also Windows?
    – smci
    Jul 10, 2017 at 14:04
  • PEP-418 (which introduces time.perf_counter) and PEP-564 provide a wealth of information about timing performance on a wide variety of operating systems, including tables for resolution, etc.
    – djvg
    Nov 22, 2021 at 14:26

15 Answers 15


The standard time.time() function provides sub-second precision, though that precision varies by platform. For Linux and Mac precision is +- 1 microsecond or 0.001 milliseconds. Python on Windows uses +- 16 milliseconds precision due to clock implementation problems due to process interrupts. The timeit module can provide higher resolution if you're measuring execution time.

>>> import time
>>> time.time()        #return seconds from epoch

Python 3.7 introduces new functions to the time module that provide higher resolution:

>>> import time
>>> time.time_ns()
>>> time.time_ns() / (10 ** 9) # convert to floating-point seconds
  • 45
    Note that on Windows time.time() has ~16 milliseconds precision. Dec 16, 2011 at 10:24
  • 3
    inaccurate on windows (useless) Aug 21, 2017 at 12:47
  • 2
    time_ns does provide nano second resolution. But is it really precise on Windows? Seems no description about it in official document
    – Jcyrss
    Jun 19, 2019 at 9:14
  • 10
    @Jcyrss, time_ns does not provide nanosecond resolution, it just returns the time in nanoseconds. This may or may not improve the resolution. Measured clock resolutions for Linux and Windows are documented in PEP 564. For Windows, the measured resolution of time_ns was 318 us.
    – wovano
    Jul 6, 2019 at 8:36
  • 5
    In python >=3.3 the answer is time.perf_counter() and time.process_time()
    – Berwyn
    Nov 14, 2020 at 4:28

Python tries hard to use the most precise time function for your platform to implement time.time():

/* Implement floattime() for various platforms */

static double
    /* There are three ways to get the time:
      (1) gettimeofday() -- resolution in microseconds
      (2) ftime() -- resolution in milliseconds
      (3) time() -- resolution in seconds
      In all cases the return value is a float in seconds.
      Since on some systems (e.g. SCO ODT 3.0) gettimeofday() may
      fail, so we fall back on ftime() or time().
      Note: clock resolution does not imply clock accuracy! */
        struct timeval t;
        if (gettimeofday(&t) == 0)
            return (double)t.tv_sec + t.tv_usec*0.000001;
        if (gettimeofday(&t, (struct timezone *)NULL) == 0)
            return (double)t.tv_sec + t.tv_usec*0.000001;
#endif /* !GETTIMEOFDAY_NO_TZ */

#if defined(HAVE_FTIME)
        struct timeb t;
        return (double)t.time + (double)t.millitm * (double)0.001;
#else /* !HAVE_FTIME */
        time_t secs;
        return (double)secs;
#endif /* !HAVE_FTIME */

( from http://svn.python.org/view/python/trunk/Modules/timemodule.c?revision=81756&view=markup )


David's post was attempting to show what the clock resolution is on Windows. I was confused by his output, so I wrote some code that shows that time.time() on my Windows 8 x64 laptop has a resolution of 1 msec:

# measure the smallest time delta by spinning until the time changes
def measure():
    t0 = time.time()
    t1 = t0
    while t1 == t0:
        t1 = time.time()
    return (t0, t1, t1-t0)

samples = [measure() for i in range(10)]

for s in samples:
    print s

Which outputs:

(1390455900.085, 1390455900.086, 0.0009999275207519531)
(1390455900.086, 1390455900.087, 0.0009999275207519531)
(1390455900.087, 1390455900.088, 0.0010001659393310547)
(1390455900.088, 1390455900.089, 0.0009999275207519531)
(1390455900.089, 1390455900.09, 0.0009999275207519531)
(1390455900.09, 1390455900.091, 0.0010001659393310547)
(1390455900.091, 1390455900.092, 0.0009999275207519531)
(1390455900.092, 1390455900.093, 0.0009999275207519531)
(1390455900.093, 1390455900.094, 0.0010001659393310547)
(1390455900.094, 1390455900.095, 0.0009999275207519531)

And a way to do a 1000 sample average of the delta:

reduce( lambda a,b:a+b, [measure()[2] for i in range(1000)], 0.0) / 1000.0

Which output on two consecutive runs:


So time.time() on my Windows 8 x64 has a resolution of 1 msec.

A similar run on time.clock() returns a resolution of 0.4 microseconds:

def measure_clock():
    t0 = time.clock()
    t1 = time.clock()
    while t1 == t0:
        t1 = time.clock()
    return (t0, t1, t1-t0)

reduce( lambda a,b:a+b, [measure_clock()[2] for i in range(1000000)] )/1000000.0



Which is ~0.4e-06

An interesting thing about time.clock() is that it returns the time since the method was first called, so if you wanted microsecond resolution wall time you could do something like this:

class HighPrecisionWallTime():
    def __init__(self,):
        self._wall_time_0 = time.time()
        self._clock_0 = time.clock()

    def sample(self,):
        dc = time.clock()-self._clock_0
        return self._wall_time_0 + dc

(which would probably drift after a while, but you could correct this occasionally, for example dc > 3600 would correct it every hour)

  • this is greate work cod3monk3y... thank you for sharing!
    – ojblass
    Apr 17, 2014 at 14:00
  • 6
    On Windows, time.clock measures elapsed time to high precision. On OS X and Linux, it measures CPU time. As of Python 3.3 it is deprecated in favor of perf_counter to measure elapsed time and process_time to measure CPU.
    – George
    Jun 9, 2016 at 3:51
  • 1
    This answer is misleading. Just because your windows has timer resolution set to 1ms at the time you ran this script does not guarantee that another process cannot or will not set it to a higher resolution. The default resolution is 15.6ms, any process can come along and change that value. I ran your script and I got 15ms delta, then I used github.com/tebjan/TimerTool and set it to 1ms and ran it again and got 1ms time delta. Be wary of assuming that windows is holding 1ms timer resolution, you should be explicit and set it yourself at the start of your script if needed.
    – Kevin S
    Mar 19, 2019 at 18:02

If Python 3 is an option, you have two choices:

  • time.perf_counter which always use the most accurate clock on your platform. It does include time spent outside of the process.
  • time.process_time which returns the CPU time. It does NOT include time spent outside of the process.

The difference between the two can be shown with:

from time import (



Which outputs:

  • I tried the code on Windows, and got: 0.0625, 0.0625, 1.0497794, 2.0537843. The output of the perf_counter() should be greater than that of the process_time() + 1, isn't it?
    – starriet
    Sep 17, 2021 at 0:39
  • This should now be the accepted answer IMHO. Also see tables with timing results in PEP-418 and PEP-564. The latter mentions 100ns precision measured for perf_counter on Windows 8.
    – djvg
    Nov 22, 2021 at 14:38

You can also use time.clock() It counts the time used by the process on Unix and time since the first call to it on Windows. It's more precise than time.time().

It's the usually used function to measure performance.

Just call

import time
t_ = time.clock()
#Your code here
print 'Time in function', time.clock() - t_

EDITED: Ups, I miss the question as you want to know exactly the time, not the time spent...


Python 3.7 introduces 6 new time functions with nanosecond resolution, for example instead of time.time() you can use time.time_ns() to avoid floating point imprecision issues:

import time
# 1522915698.3436284
# 1522915698343660458

These 6 functions are described in PEP 564:


time.clock_settime_ns(clock_id, time:int)





These functions are similar to the version without the _ns suffix, but return a number of nanoseconds as a Python int.

  • It will be interesting to see a benchmark of this on a Raspberry Pi 3.
    – SDsolar
    Jun 7, 2018 at 17:31
  • 3
    These functions are just as accurate (or inaccurate) as the original functions. The only that changed is the format of the returned data: instead of being floating point numbers they are integers. For example 1ms is returned 1000000 rather than 0.001. Jan 10, 2020 at 15:46

time.clock() has 13 decimal points on Windows but only two on Linux. time.time() has 17 decimals on Linux and 16 on Windows but the actual precision is different.

I don't agree with the documentation that time.clock() should be used for benchmarking on Unix/Linux. It is not precise enough, so what timer to use depends on operating system.

On Linux, the time resolution is high in time.time():

>>> time.time(), time.time()
(1281384913.4374139, 1281384913.4374161)

On Windows, however the time function seems to use the last called number:

>>> time.time()-int(time.time()), time.time()-int(time.time()), time.time()-time.time()
(0.9570000171661377, 0.9570000171661377, 0.0)

Even if I write the calls on different lines in Windows it still returns the same value so the real precision is lower.

So in serious measurements a platform check (import platform, platform.system()) has to be done in order to determine whether to use time.clock() or time.time().

(Tested on Windows 7 and Ubuntu 9.10 with python 2.6 and 3.1)

  • 7
    Surely it's not that it returns the last value, but that you make multiple calls in a shorter span of time than the clock resolution.
    – daf
    Jan 31, 2013 at 1:48
  • Your code for linux is different from your code for windows. The Linux code shows a tuple of two time values and your Windows code shows just the fractional portions and a delta. Output of similar code would be easier to compare. If this code shows anything it's that your Linux box has a 2.2 microsecond time.time() resolution or that your Linux calls are taking a while (box is really slow, caught the timer on a transition, etc.). I'll post some code that shows a way to resolve the question you've raised here.
    – cod3monk3y
    Jan 23, 2014 at 5:50
  • 5
    In order to avoid platform-specific code, use timeit.default_timer()
    – tiho
    Mar 27, 2014 at 17:21

The original question specifically asked for Unix but multiple answers have touched on Windows, and as a result there is misleading information on windows. The default timer resolution on windows is 15.6ms you can verify here.

Using a slightly modified script from cod3monk3y I can show that windows timer resolution is ~15milliseconds by default. I'm using a tool available here to modify the resolution.


import time

# measure the smallest time delta by spinning until the time changes
def measure():
    t0 = time.time()
    t1 = t0
    while t1 == t0:
        t1 = time.time()
    return t1-t0

samples = [measure() for i in range(30)]

for s in samples:
    print(f'time delta: {s:.4f} seconds') 

enter image description here

enter image description here

These results were gathered on windows 10 pro 64-bit running python 3.7 64-bit.


The comment left by tiho on Mar 27 '14 at 17:21 deserves to be its own answer:

In order to avoid platform-specific code, use timeit.default_timer()

  • time.clock is deprecated since version 3.3 Aug 21, 2017 at 12:49

I observed that the resolution of time.time() is different between Windows 10 Professional and Education versions.

On a Windows 10 Professional machine, the resolution is 1 ms. On a Windows 10 Education machine, the resolution is 16 ms.

Fortunately, there's a tool that increases Python's time resolution in Windows: https://vvvv.org/contribution/windows-system-timer-tool

With this tool, I was able to achieve 1 ms resolution regardless of Windows version. You will need to be keep it running while executing your Python codes.


For those stuck on windows (version >= server 2012 or win 8)and python 2.7,

import ctypes

class FILETIME(ctypes.Structure):
    _fields_ = [("dwLowDateTime", ctypes.c_uint),
                ("dwHighDateTime", ctypes.c_uint)]

def time():
    """Accurate version of time.time() for windows, return UTC time in term of seconds since 01/01/1601
    file_time = FILETIME()
    return (file_time.dwLowDateTime + (file_time.dwHighDateTime << 32)) / 1.0e7

GetSystemTimePreciseAsFileTime function

  • Nice answer. How much time does it take to invoke the function itself? For example, on my Linux machine, invoking time.time()-time.time() prints a number slightly smaller than 1e-6 (1 us). Mar 27, 2019 at 13:48

On the same win10 OS system using "two distinct method approaches" there appears to be an approximate "500 ns" time difference. If you care about nanosecond precision check my code below.

The modifications of the code is based on code from user cod3monk3y and Kevin S.

OS: python 3.7.3 (default, date, time) [MSC v.1915 64 bit (AMD64)]

def measure1(mean):
    for i in range(1, my_range+1):
        x = time.time()
        td = x- samples1[i-1][2]
        if i-1 == 0:
            td = 0
        td = f'{td:.6f}'
        samples1.append((i, td, x))
        mean += float(td)
        print (mean)
    mean = mean/my_range
    return mean

def measure2(nr):
    t0 = time.time()
    t1 = t0
    while t1 == t0:
        t1 = time.time()
    td = t1-t0
    td = f'{td:.6f}'
    return (nr, td, t1, t0)

samples1 = [(0, 0, 0)]
my_range = 10
mean1    = 0.0
mean2    = 0.0

mean1 = measure1(mean1)

for i in samples1: print (i)

print ('...\n\n')

samples2 = [measure2(i) for i in range(11)]

for s in samples2:
    #print(f'time delta: {s:.4f} seconds')
    mean2 += float(s[1])
    print (s)
mean2 = mean2/my_range

print ('\nMean1 : ' f'{mean1:.6f}')
print ('Mean2 : ' f'{mean2:.6f}')

The measure1 results:

nr, td, t0
(0, 0, 0)
(1, '0.000000', 1562929696.617988)
(2, '0.002000', 1562929696.6199884)
(3, '0.001001', 1562929696.620989)
(4, '0.001001', 1562929696.62199)
(5, '0.001001', 1562929696.6229906)
(6, '0.001001', 1562929696.6239917)
(7, '0.001001', 1562929696.6249924)
(8, '0.001000', 1562929696.6259928)
(9, '0.001001', 1562929696.6269937)
(10, '0.001001', 1562929696.6279945)

The measure2 results:

nr, td , t1, t0
(0, '0.000500', 1562929696.6294951, 1562929696.6289947)
(1, '0.000501', 1562929696.6299958, 1562929696.6294951)
(2, '0.000500', 1562929696.6304958, 1562929696.6299958)
(3, '0.000500', 1562929696.6309962, 1562929696.6304958)
(4, '0.000500', 1562929696.6314962, 1562929696.6309962)
(5, '0.000500', 1562929696.6319966, 1562929696.6314962)
(6, '0.000500', 1562929696.632497, 1562929696.6319966)
(7, '0.000500', 1562929696.6329975, 1562929696.632497)
(8, '0.000500', 1562929696.633498, 1562929696.6329975)
(9, '0.000500', 1562929696.6339984, 1562929696.633498)
(10, '0.000500', 1562929696.6344984, 1562929696.6339984)

End result:

Mean1 : 0.001001 # (measure1 function)

Mean2 : 0.000550 # (measure2 function)


Here is a python 3 solution for Windows building upon the answer posted above by CyberSnoopy (using GetSystemTimePreciseAsFileTime). We borrow some code from jfs

Python datetime.utcnow() returning incorrect datetime

and get a precise timestamp (Unix time) in microseconds

#! python3
import ctypes.wintypes

def utcnow_microseconds():
    system_time = ctypes.wintypes.FILETIME()
    #system call used by time.time()
    #getting high precision:
    large = (system_time.dwHighDateTime << 32) + system_time.dwLowDateTime
    return large // 10 - 11644473600000000

for ii in range(5):



I created a tiny C-Extension that uses GetSystemTimePreciseAsFileTime to provide an accurate timestamp on Windows: https://pypi.org/project/win-precise-time/


>>> import win_precise_time
>>> win_precise_time.time()
def start(self):
    sec_arg = 10.0
    cptr = 0
    time_start = time.time()
    time_init = time.time()
    while True:
        cptr += 1
        time_start = time.time()
        time.sleep(((time_init + (sec_arg * cptr)) - time_start ))

        # AND YOUR CODE .......
        t00 = threading.Thread(name='thread_request', target=self.send_request, args=([]))

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