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

10 Answers 10


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.

  • 8
    this no longer works, since %install_ext is deprecated. Is there an alternative? – eyeApps LLC Feb 13 '17 at 1:05
  • 12
    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
  • 9
    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

  • 25
    this is the correct answer, not sure why this is sitting down the bottom with no votes – maxymoo Oct 10 '16 at 0:27
  • The cell magic vs line magic has just helped me out. This might be the correct answer? – Atlas7 Aug 3 '17 at 11:30
  • 3
    Now %%time works even when the last statement is not print, as @rhaps0dy pointed out above. – nealmcb Aug 17 '18 at 1:18
  • 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. – technazi Nov 6 '18 at 4:55

%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
  • This is the most underrated answer! – DaveR Jul 6 at 9:38

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

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


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

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.


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

import time
start = time.time()
"the code you want to test stays here"
end = time.time()
print(end - start)

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