I'm trying to use multiprocessing with pandas dataframe, that is split the dataframe to 8 parts. apply some function to each part using apply (with each part processed in different process).

EDIT: Here's the solution I finally found:

import multiprocessing as mp
import pandas.util.testing as pdt

def process_apply(x):
    # do some stuff to data here

def process(df):
    res = df.apply(process_apply, axis=1)
    return res

if __name__ == '__main__':
    p = mp.Pool(processes=8)
    split_dfs = np.array_split(big_df,8)
    pool_results = p.map(aoi_proc, split_dfs)

    # merging parts processed by different processes
    parts = pd.concat(pool_results, axis=0)

    # merging newly calculated parts to big_df
    big_df = pd.concat([big_df, parts], axis=1)

    # checking if the dfs were merged correctly
    pdt.assert_series_equal(parts['id'], big_df['id'])
  • 1
    @yemu what are you exactly trying to achieve by this code?
    – Dalek
    Commented Nov 6, 2014 at 16:37
  • 1
    currently apply only saturates one core of the CPU. I want to use multiprocess and use all cores to decrease processing time
    – yemu
    Commented Nov 6, 2014 at 19:29
  • 5
    It would be nicer if you left the question alone and then put the answers in the answers. That way we can see more of the process without looking at the changelog. Commented Jun 9, 2015 at 19:49
  • 4
    should "aoi_proc" be "process"? Maybe renaming your "process" function to simply "f" would be more readable in the multiprocessing context Commented Nov 30, 2015 at 19:56
  • I'm puzzled as to what process_apply should look like. Mine is a function a function of the row. Something like: def process_apply(rw): return(rw['A']*rw['B']). Is that correct?
    – vaudt
    Commented Jan 9, 2022 at 21:02

11 Answers 11


You can use https://github.com/nalepae/pandarallel, as in the following example:

from pandarallel import pandarallel
from math import sin


def func(x):
    return sin(x**2)

df.parallel_apply(func, axis=1)

  • 24
    This answer should get more upvotes. The speed up is terrific. Commented Nov 26, 2019 at 15:43
  • 15
    This solution works on linux &macOS natively. On Windows, Pandaral·lel will works only if the Python session is executed from Windows Subsystem for Linux (WSL).
    – SomeBruh
    Commented Mar 7, 2020 at 7:59
  • 2
    On windows, I get this error: ValueError: cannot find context for 'fork'
    – mah65
    Commented Apr 2, 2021 at 12:44
  • if you are using pandarallel with PyCharm, you can disable Run with Python Console Commented Aug 16, 2022 at 10:45

A more generic version based on the author solution, that allows to run it on every function and dataframe:

from multiprocessing import  Pool
from functools import partial
import numpy as np
import pandas as pd

def parallelize(data, func, num_of_processes=8):
    data_split = np.array_split(data, num_of_processes)
    pool = Pool(num_of_processes)
    data = pd.concat(pool.map(func, data_split))
    return data

def run_on_subset(func, data_subset):
    return data_subset.apply(func, axis=1)

def parallelize_on_rows(data, func, num_of_processes=8):
    return parallelize(data, partial(run_on_subset, func), num_of_processes)

So the following line:

df.apply(some_func, axis=1)

Will become:

parallelize_on_rows(df, some_func) 
  • 2
    What about some_func with parameters?
    – Alaa M.
    Commented Aug 27, 2019 at 21:15
  • 1
    @AlaaM. - you can use partial for that. docs.python.org/2/library/functools.html#functools.partial
    – Tom Raz
    Commented Sep 3, 2019 at 14:37
  • 4
    @TomRaz how do I use a partial in this case when normally I would do something like this? dataframe.apply(lambda row: process(row.attr1, row.attr2, ...))
    – frei
    Commented Jan 22, 2020 at 1:42
  • 1
    @frei - lambda functions cannot be used with multiprocessing, since they cannot be pickled. See more info here: stackoverflow.com/a/8805244/1781490 Can you use normal functions instead?
    – Tom Raz
    Commented Jan 25, 2020 at 7:36
  • i see ok. that's the piece i needed to know whether i should just refactor the whole method or not
    – frei
    Commented Jan 27, 2020 at 3:22

This is some code that I found useful. Automatically splits the dataframe into however many cpu cores you have.

import pandas as pd
import numpy as np
import multiprocessing as mp

def parallelize_dataframe(df, func):
    num_processes = mp.cpu_count()
    df_split = np.array_split(df, num_processes)
    with mp.Pool(num_processes) as p:
        df = pd.concat(p.map(func, df_split))
    return df

def parallelize_function(df):
    df[column_output] = df[column_input].apply(example_function)
    return df

def example_function(x):
    x = x*2
    return x

To run:

df_output = parallelize_dataframe(df, parallelize_function)

This worked well for me:

rows_iter = (row for _, row in df.iterrows())

with multiprocessing.Pool() as pool:
    df['new_column'] = pool.map(process_apply, rows_iter)
  • 1
    @Robert Handzel's solution is faster though
    – Alaa M.
    Commented Oct 31, 2022 at 8:48

Since I don't have much of your data script, this is a guess, but I'd suggest using p.map instead of apply_async with the callback.

p = mp.Pool(8)
pool_results = p.map(process, np.array_split(big_df,8))
results = []
for result in pool_results:
  • I had to put the call inside if name == 'main'. and with other small changes I managed to make it work, however I'm not sure if the result dataframes in pool results are returned in the same order as they were split. I have to check it.
    – yemu
    Commented Nov 7, 2014 at 9:24
  • see here for a solution with dask stackoverflow.com/questions/37979167/… Commented Jun 24, 2016 at 18:03

To use all (physical or logical) cores, you could try mapply as an alternative to swifter and pandarallel.

You can set the amount of cores (and the chunking behaviour) upon init:

import pandas as pd
import mapply


def process_apply(x):
    # do some stuff to data here

def process(df):
    # spawns a pathos.multiprocessing.ProcessPool if sensible
    res = df.mapply(process_apply, axis=1)
    return res

By default (n_workers=-1), the package uses all physical CPUs available on the system. If your system uses hyper-threading (usually twice the amount of physical CPUs would show up), mapply will spawn one extra worker to prioritise the multiprocessing pool over other processes on the system.

You could also use all logical cores instead (beware that like this the CPU-bound processes will be fighting for physical CPUs, which might slow down your operation):

import multiprocessing
n_workers = multiprocessing.cpu_count()

# or more explicit
import psutil
n_workers = psutil.cpu_count(logical=True)

Python's pool.starmap() method can be used to succinctly introduce parallelism also to apply use cases where column values are passed as arguments, i.e. to cases like:

df.apply(lambda row: my_func(row["col_1"], row["col_2"], ...), axis=1)

Full example and benchmarking:

import time
from multiprocessing import Pool

import numpy as np
import pandas as pd

def mul(a, b, c):
    # For illustration, could obviously be vectorized
    return a * b * c

df = pd.DataFrame(np.random.randint(0, 100, size=(10_000_000, 3)), columns=list('ABC'))

# Standard apply
start = time.time()
df["mul"] = df.apply(lambda row: mul(row["A"], row["B"], row["C"]), axis=1)
print(f"Standard apply took {time.time() - start:.0f} seconds.") 

# Starmap apply
start = time.time()
with Pool(10) as pool:
    df["mul_pool"] = pool.starmap(mul, zip(df["A"], df["B"], df["C"]))
print(f"Starmap apply took {time.time() - start:.0f} seconds.") 

pd.testing.assert_series_equal(df["mul"], df["mul_pool"], check_names=False)

>>> Standard apply took 72 seconds.
>>> Starmap apply took 5 seconds.

This has the benefit of not relying on external libraries, plus being very readable.


I also run into the same problem when I use multiprocessing.map() to apply function to different chunk of a large dataframe.

I just want to add several points just in case other people run into the same problem as I do.

  1. remember to add if __name__ == '__main__':
  2. execute the file in a .py file, if you use ipython/jupyter notebook, then you can not run multiprocessing (this is true for my case, though I have no clue)

Install Pyxtension that simplifies using parallel map and use like this:

from pyxtension.streams import stream

big_df = pd.concat(stream(np.array_split(df, multiprocessing.cpu_count())).mpmap(process))

I ended up using concurrent.futures.ProcessPoolExecutor.map in place of multiprocessing.Pool.map which took 316 microseconds for some code that took 12 seconds in serial.


Tom Raz's answer https://stackoverflow.com/a/53135031/11847090 misses an edge case where there are fewer rows in the dataframe than processes

use this parallelize method instead

def parallelize(data, func, num_of_processes=8):
   # check if the number of rows is less than the number of processes
   # to avoid the following error
   # ValueError: Expected a 1D array, got an array with shape
   num_rows = len(data)
    if num_rows == 0:
        return None
    elif num_rows < num_of_processes:
        num_of_processes = num_rows
    data_split = np.array_split(data, num_of_processes)
    pool = Pool(num_of_processes)
    data = pd.concat(pool.map(func, data_split))
    return data

and also I used dask bag to multithread this instead of this custom code

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