How do I get the current time in milliseconds in Python?


18 Answers 18


Using time.time():

import time

def current_milli_time():
    return round(time.time() * 1000)


>>> current_milli_time()
  • 67
    This may not give the correct answer. According to the docs, "Note that even though the time is always returned as a floating point number, not all systems provide time with a better precision than 1 second" Commented Nov 2, 2012 at 17:21
  • 22
    I am wondering, why do you need to round? It seems int(time.time() * 1000) is enough? Commented Jun 13, 2013 at 17:08
  • 24
    IMO I'd use floor and not round, but that's just me. If someone asks what the hour is, and it's 7:32, the number they probably want is 7, not 8.
    – davr
    Commented Sep 9, 2013 at 20:37
  • 17
    @MaximVladimirsky That isn't the behavior of int(). Int does not floor a value, it rounds toward zero. Which is the same thing for positive number, but the opposite for negative. int(1.5) gives 1, int(-1.5) gives -1, math.floor(-1.5) gives -2 See: docs.python.org/2/library/stdtypes.html Commented Jul 30, 2015 at 14:24
  • 3
    @SkipHuffman Since you will never get a negative number for the current time, you can just use int(time.time() * 1000).
    – EzPizza
    Commented Nov 5, 2020 at 14:15

For Python 3.7+, time.time_ns() gives the time passed in nanoseconds since the epoch.

This gives time in milliseconds as an integer:

import time

ms = time.time_ns() // 1_000_000
  • Why floor division (//) though ? Commented Mar 20 at 8:49
  • @big_in_japan floor is all you can do, otherwise you risk being in the future
    – whitfin
    Commented May 3 at 14:26

time.time() may only give resolution to the second, the preferred approach for milliseconds is datetime.

from datetime import datetime
dt = datetime.now()
  • 154
    not quite useful - this only gives you the microseconds within the dt's second. see stackoverflow.com/a/1905423/74632 Commented Nov 5, 2012 at 0:23
  • 45
    -1. this is an incorrect answer to this question. as @Boris commented, this does not give "the time in microseconds", e.g. does not include days, hours, seconds in number of microseconds.
    – j-a
    Commented Sep 3, 2015 at 6:56
  • 5
    +1 This gives a correct value and arithmetic can be assumed to work because math. If the user needs the current time in milliseconds/microseconds, simple arithmetic will get them there. If a time delta is needed--which is not asked for--arithmetic, again, saves the day.
    – user521945
    Commented Apr 13, 2016 at 18:11
  • 2
    @j-a: it does include "days, hours, seconds" (it fixes the issue pointed out in your comment). To address the new issue (leap seconds): POSIX time does NOT count leap seconds and time.time() returns POSIX time on most systems supported by Python (if we exclude uncommon "right" timezones). Don't confuse precision and accuracy -- this question is about the millisecond precision -- if you need the millisecond accuracy then you need to talk about clock synchronization, ntp (LAN vs. WAN), etc first.
    – jfs
    Commented Aug 22, 2016 at 11:08
  • 8
    Gives microsecond of the current time, not entire timestamp. Commented Jan 8, 2018 at 9:28
def TimestampMillisec64():
    return int((datetime.datetime.utcnow() - datetime.datetime(1970, 1, 1)).total_seconds() * 1000) 
  • 3
    you could inline the formula for .total_seconds() to produce (possibly) better precision: (td.microseconds + (td.seconds + td.days * 86400) * 10**6) / 10**3 (with true division enabled) Or if you want to truncate the milliseconds then use // 10**3.
    – jfs
    Commented Mar 24, 2015 at 20:13
  • 1
    This seems to be the best answer if using datetime
    – dlsso
    Commented Sep 21, 2016 at 21:09
  • If you are presenting this as a cross platform python solution, is there an assurance that all platforms and all python versions 3+ will properly account for any past leap seconds in what is returned by datetime.datetime.utcnow(), or are there lurking difficulties with this as a consistent cross platform solution? Commented Oct 27, 2020 at 13:59

Just sample code:

import time
timestamp = int(time.time()*1000.0)

Output: 1534343781311

  • time.time() does not gaurantee that OS supports fraction of a second
    – iperov
    Commented Dec 19, 2020 at 18:03

In versions of Python after 3.7, the best answer is to use time.perf_counter_ns(). As stated in the docs:

time.perf_counter() -> float

Return the value (in fractional seconds) of a performance counter, i.e. a clock with the highest available resolution to measure a short duration. It does include time elapsed during sleep and is system-wide. The reference point of the returned value is undefined, so that only the difference between the results of consecutive calls is valid.

time.perf_counter_ns() -> int

Similar to perf_counter(), but return time as nanoseconds

As it says, this is going to use the best counter your system has to offer, and it is specifically designed for using in measuring performance (and therefore tries to avoid the common pitfalls of other timers).

It also gives you a nice integer number of nanoseconds, so just divide by 1000000 to get your milliseconds:

start = time.perf_counter_ns()
# do some work
duration = time.perf_counter_ns() - start
print(f"Your duration was {duration // 1000000}ms.")
  • 1
    So not possible to get the current epoch with that precision?
    – MrR
    Commented Nov 17, 2021 at 13:31
  • 1
    I don't believe so. Using time.time_ns() is your best bet, but it has different guarantees. Commented Nov 17, 2021 at 21:08

The simpliest way I've found to get the current UTC time in milliseconds is:

# timeutil.py
import datetime

def get_epochtime_ms():
    return round(datetime.datetime.utcnow().timestamp() * 1000)

# sample.py
import timeutil


another solution is the function you can embed into your own utils.py

import time as time_ #make sure we don't override time
def millis():
    return int(round(time_.time() * 1000))
  • [@Cadey][1] this solution is dangerous, it will give you back results which have different sizes eg. 13 characters normally but sometimes it turns the result to a timestamp which follows seconds and not milis, if you use the dates to compare you will run into issues (experiences this on our production system, replicated this using a python script)
    – Oliver
    Commented Jun 27, 2023 at 5:11

If you want a simple method in your code that returns the milliseconds with datetime:

from datetime import datetime
from datetime import timedelta

start_time = datetime.now()

# returns the elapsed milliseconds since the start of the program
def millis():
   dt = datetime.now() - start_time
   ms = (dt.days * 24 * 60 * 60 + dt.seconds) * 1000 + dt.microseconds / 1000.0
   return ms
  • 1
    this is the difference between two times in milliseconds, combining your method with @Jason s answer gives the current timestamp in milliseconds... Thinking about it, the UNIX timestamp would be your method with start_time = datetime(1970,1,1)
    – P.R.
    Commented Nov 20, 2013 at 15:51
  • local time may be ambiguous and non-monotonous (due to DST transitions or other reasons to change the local utc offset). Use .utcnow() instead or if you don't need the absolute time then you could use time.monotonous(). Note: there is a subtle difference due to floating-point arithmetics between some_int + dt.microseconds/ 1000.0 and the formula ( ) / 10**3 with true division enabled. See the explicit formula and the link for total_seconds() in the related answer
    – jfs
    Commented Mar 24, 2015 at 20:10

If you're concerned about measuring elapsed time, you should use the monotonic clock (python 3). This clock is not affected by system clock updates like you would see if an NTP query adjusted your system time, for example.

>>> import time
>>> millis = round(time.monotonic() * 1000)

It provides a reference time in seconds that can be used to compare later to measure elapsed time.


If you use my code (below), the time will appear in seconds, then, after a decimal, milliseconds. I think that there is a difference between Windows and Unix - please comment if there is.

from time import time

x = time()

my result (on Windows) was:


EDIT: There is no difference:) Thanks tc0nn

  • 1
    No diff on Mac OSX:/usr/local/opt/python/bin/python3.7 scratch.py 1577212639.882543
    – tc0nn
    Commented Dec 24, 2019 at 18:37
  • 1
    No diff on Ubuntu 18:python3 scratch.py 1577212763.9136133
    – tc0nn
    Commented Dec 24, 2019 at 18:39

UPDATED: thanks to @neuralmer.

One of the most efficient ways:

(time.time_ns() + 500000) // 1000000  #rounding last digit (1ms digit)


time.time_ns() // 1000000          #flooring last digit (1ms digit)

Both are very efficient among other methods.


You can see some benchmark results of different methods on my own machine below:

import time

t = time.perf_counter_ns()
for i in range(1000):
    o = time.time_ns() // 1000000           #each 200 ns
t2 = time.perf_counter_ns()
print((t2 - t)//1000)

t = time.perf_counter_ns()
for i in range(1000):
    o = (time.time_ns() + 500000) // 1000000  #each 227 ns
t2 = time.perf_counter_ns()
print((t2 - t)//1000)

t = time.perf_counter_ns()
for i in range(1000):
    o = round(time.time_ns() / 1000000)    #each 456 ns
t2 = time.perf_counter_ns()
print((t2 - t)//1000)

t = time.perf_counter_ns()
for i in range(1000):
    o = int(time.time_ns() / 1000000)      #each 467 ns
t2 = time.perf_counter_ns()
print((t2 - t)//1000)

t = time.perf_counter_ns()
for i in range(1000):
    o = int(time.time()* 1000)          #each 319 ns
t2 = time.perf_counter_ns()
print((t2 - t)//1000)

t = time.perf_counter_ns()
for i in range(1000):
    o = round(time.time()* 1000)       #each 342 ns
t2 = time.perf_counter_ns()
print((t2 - t)//1000)```
  • 1
    OP is looking for milliseconds, by dividing by only 1000, you're providing microseconds. (milli-, micro-, nano-)
    – neuralmer
    Commented Aug 19, 2021 at 15:36
  • thanks a lot @neuralmer. Answer updated and whole code re-benchmarked.
    – Seyfi
    Commented Aug 25, 2021 at 18:24

After some testing in Python 3.8+ I noticed that those options give the exact same result, at least in Windows 10.

import time

# Option 1
unix_time_ms_1 = int(time.time_ns() / 1000000)
# Option 2
unix_time_ms_2 = int(time.time() * 1000)

Feel free to use the one you like better and I do not see any need for a more complicated solution then this.


These multiplications to 1000 for milliseconds may be decent for solving or making some prerequisite acceptable. It could be used to fill a gap in your database which doesn't really ever use it. Although, for real situations which require precise timing it would ultimately fail. I wouldn't suggest anyone use this method for mission-critical operations which require actions, or processing at specific timings.

For example: round-trip pings being 30-80ms in the USA... You couldn't just round that up and use it efficiently.

My own example requires tasks at every second which means if I rounded up after the first tasks responded I would still incur the processing time multiplied every main loop cycle. This ended up being a total function call every 60 seconds. that's ~1440 a day.. not too accurate.

Just a thought for people looking for more accurate reasoning beyond solving a database gap which never really uses it.

  • 3
    Do you have a better solution? Also honestly, I don't get what you are saying at all. What do you mean by "round up"? Commented Jun 17, 2019 at 3:36
  • 3
    Explain your solution with a practical example for better understanding Commented Jun 17, 2019 at 3:39

Time since unix

from time import time
while True:
    print(str(time()*1000)+'ms       \r', end='')

Time since start of program

from time import time
init = time()
while True:
    print(str((time()-init)*1000)+'ms         \r', end='')

Thanks for your time


If you were already using pandas library, then you can view the current timestamp (in local time by default but the timezone can be changed) as nanoseconds since the UNIX epoch (using view()). Then to convert the nanoseconds into milliseconds resolution, divide the value by 1000000.

# for a single timestamp
pd.Timestamp('now').asm8.view('int64') // 10**6

# if a column (which is probably more common)
pd.Series([pd.Timestamp('now')]).view('int64') // 10**6

If you were using the numpy library, then numpy has datetime64 function where you can specify the resolution (ms in this case) and view it as int64. Note that unlike pandas, it's UTC time.

np.datetime64('now', 'ms').view('int64')

In typical Linux and Windows, time.time_ns() // 1_000_000 is cheaper than round(time.time() * 1000):

import time

def benchmark_time_time():
    start = time.time()
    for _ in range(10_000_000):
        round(time.time() * 1000)
    end = time.time()
    return end - start

def benchmark_time_time_ns():
    start = time.time()
    for _ in range(10_000_000):
        time.time_ns() // 1_000_000
    end = time.time()
    return end - start

time_time_duration = benchmark_time_time()
time_time_ns_duration = benchmark_time_time_ns()

print(time_time_duration/time_time_ns_duration * 100 - 100)

It seems that round(time.time() * 1000) takes roughly 20~60% more time in Linuxes and ~100% in Windows, just roughly saying.


Just another solution using the datetime module for Python 3+.

round(datetime.datetime.timestamp(datetime.datetime.now()) * 1000)


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