I would like to get the time spent on the cell execution in addition to the original output from cell.

To this end, I tried %%timeit -r1 -n1 but it doesn't expose the variable defined within cell.

%%time works for cell which only contains 1 statement.

In[1]: %%time
CPU times: user 4 µs, sys: 0 ns, total: 4 µs
Wall time: 5.96 µs
Out[1]: 1

In[2]: %%time
       # Notice there is no out result in this case.
       x = 1
CPU times: user 3 µs, sys: 0 ns, total: 3 µs
Wall time: 5.96 µs

What's the best way to do it?


I have been using Execute Time in Nbextension for quite some time now. It is great.

  • 3
    do you really need to time the display of the value? why not just put the x display line in the next cell? – dbliss Feb 19 '16 at 17:58
  • Why not accepting an answer? – raratiru Mar 28 '17 at 20:30

12 Answers 12


Use cell magic and this project on github by Phillip Cloud:

Load it by putting this at the top of your notebook or put it in your config file if you always want to load it by default:

%install_ext https://raw.github.com/cpcloud/ipython-autotime/master/autotime.py
%load_ext autotime

If loaded, every output of subsequent cell execution will include the time in min and sec it took to execute it.

  • 19
    this no longer works, since %install_ext is deprecated. Is there an alternative? – eyeApps LLC Feb 13 '17 at 1:05
  • 21
    There is a Pull Request adressing this issue(github.com/cpcloud/ipython-autotime/pull/5) then you can try pip install ipython-autotime – x0s Apr 11 '17 at 15:06
  • 14
    Now %%time works even when the last statement is not print. – rhaps0dy Jul 11 '17 at 16:10

The only way I found to overcome this problem is by executing the last statement with print.

Do not forget that cell magic starts with %% and line magic starts with %.

clf = tree.DecisionTreeRegressor().fit(X_train, y_train)
res = clf.predict(X_test)

Notice that any changes performed inside the cell are not taken into consideration in the next cells, something that is counter intuitive when there is a pipeline: an example

  • 6
    Now %%time works even when the last statement is not print, as @rhaps0dy pointed out above. – nealmcb Aug 17 '18 at 1:18
  • 1
    display(res) also works and is the preferred solution when trying to display a pandas dataframe or something else that requires a stylized output. – dshefman Oct 31 '18 at 15:53
  • @dshefman Yes that is correct and makes it easy portable for databricks/spark notebooks too. – user2083957 Nov 6 '18 at 4:55
  • Isn't it a problem when we implement the 1st cell %%time and a=1 but the 2nd cell doesn't know what a is? – Jason Aug 27 '19 at 19:25
  • 7
    FYI. I found that variables in the tested cell are now taken into consideration into the next cells. (20/02/2020) - Fei – Fei Yao Feb 20 '20 at 18:27

%time and %timeit now come part of ipython's built-in magic commands


An easier way is to use ExecuteTime plugin in jupyter_contrib_nbextensions package.

pip install jupyter_contrib_nbextensions
jupyter contrib nbextension install --user
jupyter nbextension enable execute_time/ExecuteTime
  • 10
    This is the most underrated answer! – DaveR Jul 6 '19 at 9:38
  • 2
    to somebody diving throught the answers sea: this is the one, just install it and then you will see execution time on each cell in a nice format – El pocho la pantera Feb 19 '20 at 18:29
import time
start = time.time()
"the code you want to test stays here"
end = time.time()
print(end - start)
  • 2
    Perfect. It's too much hassle to preserve the object from %%timeit and use in next cell – Paul Jul 9 '20 at 17:47

I simply added %%time at the beginning of the cell and got the time. You may use the same on Jupyter Spark cluster/ Virtual environment using the same. Just add %%time at the top of the cell and you will get the output. On spark cluster using Jupyter, I added to the top of the cell and I got output like below:-

[1]  %%time
     import pandas as pd
     from pyspark.ml import Pipeline
     from pyspark.ml.classification import LogisticRegression
     import numpy as np
     .... code ....

Output :-

CPU times: user 59.8 s, sys: 4.97 s, total: 1min 4s
Wall time: 1min 18s
  • Does this execute the cell code a default no. of times and then takes the average? And what about the first statement as the 'setup code'? – amsquareb Apr 2 '20 at 7:58

You can use timeit magic function for that.

%timeit CODE_LINE

Or on the cell



Check more IPython magic functions at https://nbviewer.jupyter.org/github/ipython/ipython/blob/1.x/examples/notebooks/Cell%20Magics.ipynb


This is not exactly beautiful but without extra software

class timeit():
    from datetime import datetime
    def __enter__(self):
        self.tic = self.datetime.now()
    def __exit__(self, *args, **kwargs):
        print('runtime: {}'.format(self.datetime.now() - self.tic))

Then you can run it like:

with timeit():
    # your code, e.g., 

% 49999995000000
% runtime: 0:00:00.338492

If you want to print wall cell execution time here is a trick, use

<--code goes here-->

but here make sure that, the %%time is a magic function, so put it at first line in your code.

if you put it after some line of your code it's going to give you usage error and not gonna work.


Sometimes the formatting is different in a cell when using print(res), but jupyter/ipython comes with a display. See an example of the formatting difference using pandas below.

import pandas as pd 
from IPython.display import display

df = pd.DataFrame({"col0":{"a":0,"b":0}

#compare the following

The display statement can preserve the formatting. screenshot

  • Does this execute the cell code a default no. of times and then takes the average? And what about the first statement as the 'setup code'? – amsquareb Apr 2 '20 at 7:58

When in trouble what means what:

?%timeit or ??timeit

To get the details:

Usage, in line mode:
  %timeit [-n<N> -r<R> [-t|-c] -q -p<P> -o] statement
or in cell mode:
  %%timeit [-n<N> -r<R> [-t|-c] -q -p<P> -o] setup_code

Time execution of a Python statement or expression using the timeit
module.  This function can be used both as a line and cell magic:

- In line mode you can time a single-line statement (though multiple
  ones can be chained with using semicolons).

- In cell mode, the statement in the first line is used as setup code
  (executed but not timed) and the body of the cell is timed.  The cell
  body has access to any variables created in the setup code.

you may also want to look in to python's profiling magic command %prunwhich gives something like -

def sum_of_lists(N):
    total = 0
    for i in range(5):
        L = [j ^ (j >> i) for j in range(N)]
        total += sum(L)
    return total


%prun sum_of_lists(1000000)

will return

14 function calls in 0.714 seconds  

Ordered by: internal time      

ncalls  tottime  percall  cumtime  percall filename:lineno(function)
    5    0.599    0.120    0.599    0.120 <ipython-input-19>:4(<listcomp>)
    5    0.064    0.013    0.064    0.013 {built-in method sum}
    1    0.036    0.036    0.699    0.699 <ipython-input-19>:1(sum_of_lists)
    1    0.014    0.014    0.714    0.714 <string>:1(<module>)
    1    0.000    0.000    0.714    0.714 {built-in method exec}

I find it useful when working with large chunks of code.

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