# How to downsample a pandas dataframe

I am trying to downsample a pandas dataframe in order to reduce granularity. In example, I want to reduce this dataframe:

``````1  2  3  4
2  4  3  3
2  2  1  3
3  1  3  2
``````

to this (downsampling to obtain a 2x2 dataframe using mean):

``````2.25  3.25
2     2.25
``````

Is there a builtin way or efficient way to do it or I have to write it on my own?

Thanks

-
How would you want to downsample? Take every two neighbouring rows and do a mean? –  Viktor Kerkez Sep 16 '13 at 10:14
I want to slice the original matrix in submatrices and then do a block mean in each submatrix.. e.g. for element (1,1) in result matrix do the block mean of submatrix (1:2, 1:2) in original matrix.. –  nsl Sep 16 '13 at 10:17

One option is to use groupby twice. Once for the index:

``````In [11]: df.groupby(lambda x: x/2).mean()
Out[11]:
0    1  2    3
0  1.5  3.0  3  3.5
1  2.5  1.5  2  2.5
``````

and once for the columns:

``````In [12]: df.groupby(lambda x: x/2).mean().groupby(lambda y: y/2, axis=1).mean()
Out[12]:
0     1
0  2.25  3.25
1  2.00  2.25
``````

Note: A solution which only calculated the mean once might be preferable... one option is to stack, groupby, mean, and unstack, but atm this is a little fiddly.

This seems significantly faster than Vicktor's solution:

``````In [21]: df = pd.DataFrame(np.random.randn(100, 100))

In [22]: %timeit df.groupby(lambda x: x/2).mean().groupby(lambda y: y/2, axis=1).mean()
1000 loops, best of 3: 1.64 ms per loop

In [23]: %timeit viktor()
1 loops, best of 3: 822 ms per loop
``````

In fact, Viktor's solution crashes my (underpowered) laptop for larger DataFrames:

``````In [31]: df = pd.DataFrame(np.random.randn(1000, 1000))

In [32]: %timeit df.groupby(lambda x: x/2).mean().groupby(lambda y: y/2, axis=1).mean()
10 loops, best of 3: 42.9 ms per loop

In [33]: %timeit viktor()
# crashes
``````

As Viktor points out, this doesn't work with non-integer index, if this was wanted, you could just store them as temp variables and feed them back in after:

``````df_index, df_cols, df.index, df.columns = df.index, df.columns, np.arange(len(df.index)), np.arange(len(df.columns))
res = df.groupby(...
res.index, res.columns = df_index[::2], df_cols[::2]
``````
-
Although I didn't include timeit's this is also faster for the OP's toy example. –  Andy Hayden Sep 16 '13 at 14:40
Something is not quite right with the `timeit` here. For the `rolling_mean` I get `best of 3: 4.67 ms per loop` and for the `groupby` I get `best of 3: 940 µs per loop`. So it's around 5x slower, not 800x. –  Viktor Kerkez Sep 16 '13 at 14:56
@ViktorKerkez I've just copied your entire block as a function. These are the numbers I get, and it crashes for me for "large" DataFrames. –  Andy Hayden Sep 16 '13 at 14:59
Weird... I added my timing info to the post :-/ –  Viktor Kerkez Sep 16 '13 at 15:05
@ViktorKerkez can repo the 800ms vs 1.65ms. :s –  Andy Hayden Sep 16 '13 at 15:05
show 1 more comment

You can use the `rolling_mean` function applied twice, first on the columns and then on the rows, and then slice the results:

``````rbs = 2 # row block size
cbs = 2 # column block size
pd.rolling_mean(pd.rolling_mean(df.T, cbs, center=True)[cbs-1::cbs].T,
rbs)[rbs-1::rbs]
``````

Which gives the same result you want, except the index will be different (but you can fix this using `.reset_index(drop=True)`):

``````      1     3
1  2.25  3.25
3  2.00  2.25
``````

Timing info:

``````In [11]: df = pd.DataFrame(np.random.randn(100, 100))
In [12]: %%timeit
pd.rolling_mean(pd.rolling_mean(df.T, 2, center=True)[1::2].T, 2)[1::2]
100 loops, best of 3: 4.75 ms per loop
In [13]: %%timeit
df.groupby(lambda x: x/2).mean().groupby(lambda y: y/2, axis=1).mean()
100 loops, best of 3: 932 µs per loop
``````

So it's around 5x slower than the groupby not 800x :)

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I am not sure this is what I need. The resulting matrix has to be 2x2, where each sample is the block mean between four elements of the original matrix. Your solution is interesting but I don't understand why the resulting matrix is 2x4.. –  nsl Sep 16 '13 at 10:53
@Francesco Ah sorry I misunderstood you, so you want a mean of every 2x2 submatrix? I calculated only row wise not column wise. –  Viktor Kerkez Sep 16 '13 at 10:55
@Francesco Updated the answer. –  Viktor Kerkez Sep 16 '13 at 11:08
If you want you can improve your answer generalizing it, adding different size for rows and columns (not only bs for squared matrices). Anyway great answer :) –  nsl Sep 16 '13 at 11:27
@Francesco Good idea :), updated. –  Viktor Kerkez Sep 16 '13 at 11:33