I have a dataframe of shape (RxC) 1.5M x 128. I do the following:

  1. I do groupby() based on 6 columns. This creates ~8700 sub-groups each of shape 538 x 122.
  2. On each sub-group, I run apply(). This function computes the % frequency of each categorical value PER column (i.e., 122) in the sub-group.

So my (pesudo) code:

<df = Read dataframe from file> g = df.groupby(grp_cols) g[nongrp_cols].apply(lambda d: d.apply(lambda s: s.value_counts()) / len(d.index))

The code is working OK for me so now I'm profiling it to improve performance. The apply() function takes about 20-25 minutes to run. I believe the problem is it is iterating over every column (122 times) for 8700 times (each subgroup) which may not be the best way (given the way I have coded it).

Can anyone recommend ways I can try to speed this up?

I tried using python multiprocessing pool (8 processes) to divide the subgroups into equal sets to process, but ended up getting some pickling error...


  • First thing is do : g[nongrp_cols].apply(lambda d: d.apply(lambda s: s.value_counts(normalize=True))) – user4979733 Jun 18 '15 at 0:23

pd.DataFrame.groupby.apply really gives us a lot of flexibility (unlike agg/filter/transform, it allows you to reshape each subgroup to any shape, in your case, from 538 x 122 to N_categories x 122). But it indeed comes with a cost: apply your flexible function one-by-one and lacks of vectorization.

I still think the way to solve it is to use multiprocessing. The pickle error you encounter is most likely because you define some functions inside your multi_processing_function. The rule is that you must move all functions on top levels. See the code below.

import pandas as pd
import numpy as np

# simulate your data with int 0 - 9 for categorical values
df = pd.DataFrame(np.random.choice(np.arange(10), size=(538, 122)))
# simulate your groupby operations, not so cracy with 8700 sub-groups, just try 800 groups for illustration
sim_keys = ['ROW' + str(x) for x in np.arange(800)]
big_data = pd.concat([df] * 800, axis=0, keys=sim_keys)

Out[337]: (430400, 122)

# Without multiprocessing
# ===================================================
by_keys = big_data.groupby(level=0)

sample_group = list(by_keys)[0][1]

def your_func(g):
    return g.apply(lambda s: s.value_counts()) / len(g.index)

def test_no_multiprocessing(gb, apply_func):
    return gb.apply(apply_func)

%time result_no_multiprocessing = test_no_multiprocessing(by_keys, your_func)

CPU times: user 1min 26s, sys: 4.03 s, total: 1min 30s
Wall time: 1min 27

Pretty slow here. Let's use multiprocessing module:

# multiprocessing for pandas dataframe apply
# ===================================================
# to void pickle error, must define functions at TOP level, if we move this function 'process' into 'test_with_multiprocessing', it raises a pickle error
def process(df):
    return df.groupby(level=0).apply(your_func)

def test_with_multiprocessing(big_data, apply_func):

    import multiprocessing as mp

    p = mp.Pool(processes=8)
    # split it into 8 chunks
    split_dfs = np.array_split(big_data, 8, axis=0)
    # define the mapping function, wrapping it to take just df as input
    # apply to each chunk
    df_pool_results = p.map(process, split_dfs)


    # combine together
    result = pd.concat(df_pool_results, axis=0)

    return result

%time result_with_multiprocessing = test_with_multiprocessing(big_data, your_func)

CPU times: user 984 ms, sys: 3.46 s, total: 4.44 s
Wall time: 22.3 s

Now, it's much faster, especially in CPU times. Although a bit overheads are there when we split and recombine the result, it expects to be about 4 - 6 times faster than non-multiprocessing case, when using a 8-core processor.

Finally, check whether two results are the same.

import pandas.util.testing as pdt

pdt.assert_frame_equal(result_no_multiprocessing, result_with_multiprocessing)

Pass the test beautifully.

  • Thanks a lot Jianxun. – user4979733 Jun 19 '15 at 7:25

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