I need to create a pivot table of 2000 columns by around 30-50 million rows from a dataset of around 60 million rows. I've tried pivoting in chunks of 100,000 rows, and that works, but when I try to recombine the DataFrames by doing a .append() followed by .groupby('someKey').sum(), all my memory is taken up and python eventually crashes.

How can I do a pivot on data this large with a limited ammount of RAM?

EDIT: adding sample code

The following code includes various test outputs along the way, but the last print is what we're really interested in. Note that if we change segMax to 3, instead of 4, the code will produce a false positive for correct output. The main issue is that if a shipmentid entry is not in each and every chunk that sum(wawa) looks at, it doesn't show up in the output.

import pandas as pd
import numpy as np
import random
from pandas.io.pytables import *
import os


# create a small dataframe to simulate the real data.
def loadFrame():
    frame = pd.DataFrame()
    frame['shipmentid']=[1,2,3,1,2,3,1,2,3] #evenly distributing shipmentid values for testing purposes
    frame['qty']= np.random.randint(1,5,9) #random quantity is ok for this test
    frame['catid'] = np.random.randint(1,5,9) #random category is ok for this test
    return frame

def pivotSegment(segmentNumber,passedFrame):
    segmentSize = 3 #take 3 rows at a time
    frame = passedFrame[(segmentNumber*segmentSize):(segmentNumber*segmentSize + segmentSize)] #slice the input DF

    # ensure that all chunks are identically formatted after the pivot by appending a dummy DF with all possible category values
    span = pd.DataFrame() 
    span['catid'] = range(1,5+1)

    frame = frame.append(span)

    return frame.pivot_table(['qty'],index=['shipmentid'],columns='catid', \

def createStore():

    store = pd.HDFStore('testdata.h5')
    return store

segMin = 0
segMax = 4

store = createStore()
frame = loadFrame()

print('Printing Frame')

for i in range(segMin,segMax):
    segment = pivotSegment(i,frame)
    store.append('data',frame[(i*3):(i*3 + 3)])

print('\nPrinting Store')   
print('\nPrinting Store: data') 
print('\nPrinting Store: pivotedData') 

for df in store.select('pivotedData',chunksize=3):

store['pivotedAndSummed'] = sum((df.set_index('shipmentid').groupby('shipmentid',level=0).sum() for df in store.select('pivotedData',chunksize=3)))
print('\nPrinting Store: pivotedAndSummed') 

  • It's worth noting that not only does python crash, it crashes the whole computer. Clearly not a case where I can just let it cook for a couple days.
    – PTTHomps
    Commented Apr 3, 2015 at 21:17
  • Depending on the nature of your data, you might want to try using sparse DataFrames. It could save you a lot of RAM.
    – dmvianna
    Commented Apr 7, 2015 at 22:50
  • Since my values for shipmentid are all numeric, I'm now experimenting with manually selecting from the pivotedData table one integer value of shipmentid at a time, incrementing from 0 to 5 million or so, then executing the sum() on the result, and appending it to a result table in the store. However, each select is taking a very long time, especially when no entries exist for a particular shipmentid. Will continue playing with compression settings to see if that might help.
    – PTTHomps
    Commented Apr 10, 2015 at 17:31
  • 2
    Why not use a RDMS to aggregate your dataset? An SQL engine is designed to store millions of records and handle basic processing like Sum() by groups. And as your pivot indicates, with what I assume are two byte-size fields (ids) and one integer (qty) field a temp db table should not be too extensive to store and query. Consider aggregating inside SQL Server, Oracle, MySQL, PostgreSQL or any other and pass the result into the Python dataframe.
    – Parfait
    Commented Apr 11, 2015 at 0:30
  • From where is the data sourced? A database (if so, which?), .csv file, HDF5, etc.
    – Alexander
    Commented Apr 11, 2015 at 19:44

1 Answer 1


You could do the appending with HDF5/pytables. This keeps it out of RAM.

Use the table format:

store = pd.HDFStore('store.h5')
for ...:
    chunk  # the chunk of the DataFrame (which you want to append)
    store.append('df', chunk)

Now you can read it in as a DataFrame in one go (assuming this DataFrame can fit in memory!):

df = store['df']

You can also query, to get only subsections of the DataFrame.

Aside: You should also buy more RAM, it's cheap.

Edit: you can groupby/sum from the store iteratively since this "map-reduces" over the chunks:

# note: this doesn't work, see below
sum(df.groupby().sum() for df in store.select('df', chunksize=50000))
# equivalent to (but doesn't read in the entire frame)

Edit2: Using sum as above doesn't actually work in pandas 0.16 (I thought it did in 0.15.2), instead you can use reduce with add:

reduce(lambda x, y: x.add(y, fill_value=0),
       (df.groupby().sum() for df in store.select('df', chunksize=50000)))

In python 3 you must import reduce from functools.

Perhaps it's more pythonic/readable to write this as:

chunks = (df.groupby().sum() for df in store.select('df', chunksize=50000))
res = next(chunks)  # will raise if there are no chunks!
for c in chunks:
    res = res.add(c, fill_value=0)

If performance is poor / if there are a large number of new groups then it may be preferable to start the res as zero of the correct size (by getting the unique group keys e.g. by looping through the chunks), and then add in place.

  • 1
    @TraxusIV Hmmm, if you had a small number of groups, you could do it iteratively (by selecting each group and summing) - this'll be slow if you have lots of rows. I think this would make a great (new) question. A little google only found this (from 2006!) suggesting no, you need to go the iteration way (I suggested)... things may have improved in the last 9 years?? Commented Apr 3, 2015 at 22:48
  • 3
    @TraxusIV For a groupby sum, that map/reduces, in the sense you can groupby and sum on chunks then add up the results. So chunk through df in the store. Something like: sum(df.groupby().sum() for df in store.select('df', chunksize=50000)) ? see pandas.pydata.org/pandas-docs/stable/io.html#iterator Commented Apr 3, 2015 at 22:49
  • 1
    @TraxusIV note: this'll be fast regardless of how many groups you have, the slowness was if you had to extract each group iteratively, doing chunks is what you want/fast. Commented Apr 3, 2015 at 23:04
  • 1
    @TraxusIV sum will add up the multiple entries - which is what you want. Commented Apr 6, 2015 at 16:12
  • 1
    @TraxusIV what version of pandas are you using, I thought I tested this and it worked Commented Apr 7, 2015 at 1:01

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