129

I have been wondering... If I am reading, say, a 400MB csv file into a pandas dataframe (using read_csv or read_table), is there any way to guesstimate how much memory this will need? Just trying to get a better feel of data frames and memory...

  • You could always look at the process & it's memory usage for a single file. If you're running linux, try top and then Shift + M to sort my memory usage. – JayQuerie.com Aug 6 '13 at 20:25
  • I feel I should advertise this open pandas issue. – Andy Hayden Aug 6 '13 at 20:48
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    I have a large dataframe with 4 million rows. I discovered that its empty subset x=df.loc[[]] takes 0.1 seconds to get computed (to extract zero rows) and, furthermore, takes hundreds of megabytes of memory, just as the original dataframe, probably because of some copying underneath. – Sergey Orshanskiy Oct 4 '14 at 6:13
  • new link for the old post by the pandas lead developer – saladi Feb 22 '18 at 19:36
103

df.memory_usage() will return how many bytes each column occupies:

>>> df.memory_usage()

Row_ID            20906600
Household_ID      20906600
Vehicle           20906600
Calendar_Year     20906600
Model_Year        20906600
...

To include indexes, pass index=True.

So to get overall memory consumption:

>>> df.memory_usage(index=True).sum()
731731000

Also, passing deep=True will enable a more accurate memory usage report, that accounts for the full usage of the contained objects.

This is because memory usage does not include memory consumed by elements that are not components of the array if deep=False (default case).

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    is the sum of all the columns' memory usages really the impact on memory usage? I can imagine there to be more overhead. – firelynx Nov 2 '15 at 15:31
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    You really also want deep=True – smci Nov 23 '16 at 19:20
  • The sum of df.memory_usage() does not equal sys.getsizeof(df) ! There are many overheads. As smci mentioned, You need deep=True – vagabond Jul 13 '17 at 22:50
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    FYI, memory_usage() returns the memory usage in bytes (as you would expect). – engelen Sep 18 '17 at 7:55
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    Why such a huge difference between with/without deep=True? – Nguai al Jan 18 '19 at 15:02
86

Here's a comparison of the different methods - sys.getsizeof(df) is simplest.

For this example, df is a dataframe with 814 rows, 11 columns (2 ints, 9 objects) - read from a 427kb shapefile

sys.getsizeof(df)

>>> import sys
>>> sys.getsizeof(df)
(gives results in bytes)
462456

df.memory_usage()

>>> df.memory_usage()
...
(lists each column at 8 bytes/row)

>>> df.memory_usage().sum()
71712
(roughly rows * cols * 8 bytes)

>>> df.memory_usage(deep=True)
(lists each column's full memory usage)

>>> df.memory_usage(deep=True).sum()
(gives results in bytes)
462432

df.info()

Prints dataframe info to stdout. Technically these are kibibytes (KiB), not kilobytes - as the docstring says, "Memory usage is shown in human-readable units (base-2 representation)." So to get bytes would multiply by 1024, e.g. 451.6 KiB = 462,438 bytes.

>>> df.info()
...
memory usage: 70.0+ KB

>>> df.info(memory_usage='deep')
...
memory usage: 451.6 KB
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  • What object or module doe the g code above refer to? – zozo Aug 14 '18 at 0:28
  • @zozo woops - was a typo - fixed – Brian Burns Aug 14 '18 at 12:39
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    I use df.info(memory_usage="deep"), it returns "392.6 MB", whereas sys.getsizeof(df) and df.memory_usage(index=True, deep=True).sum() both return approximately "411718016" (~ 411MB). Can you please explain why the 3 results are not consistent ? thanks – Catbuilts Oct 29 '18 at 16:35
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    @BrianBurns: df.memory_usage(deep=True).sum() returns nearly the same with df.memory_usage(index=True, deep=True).sum(). in my case, the index doesnt take much memory. Interestingly enough, I found that 411718016/1024/1024 = 392.6, so df.info(memory_usage="deep") may use 2^10 to convert byte to MB, which makes me confused. Thanks for your help anyway :D. – Catbuilts Oct 30 '18 at 4:01
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    @Catbuilts Ah, that explains it! df.info is returning mebibytes (2^10), not megabytes (10^6) - will amend the answer. – Brian Burns Oct 30 '18 at 9:50
45

I thought I would bring some more data to the discussion.

I ran a series of tests on this issue.

By using the python resource package I got the memory usage of my process.

And by writing the csv into a StringIO buffer, I could easily measure the size of it in bytes.

I ran two experiments, each one creating 20 dataframes of increasing sizes between 10,000 lines and 1,000,000 lines. Both having 10 columns.

In the first experiment I used only floats in my dataset.

This is how the memory increased in comparison to the csv file as a function of the number of lines. (Size in Megabytes)

Memory and CSV size in Megabytes as a function of the number of rows with float entries

The second experiment I had the same approach, but the data in the dataset consisted of only short strings.

Memory and CSV size in Megabytes as a function of the number of rows with string entries

It seems that the relation of the size of the csv and the size of the dataframe can vary quite a lot, but the size in memory will always be bigger by a factor of 2-3 (for the frame sizes in this experiment)

I would love to complete this answer with more experiments, please comment if you want me to try something special.

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  • What is your y axis? – Ilya V. Schurov Feb 5 '18 at 14:15
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    max_rss and csv size on disk in megabytes – firelynx Feb 6 '18 at 10:37
31

You have to do this in reverse.

In [4]: DataFrame(randn(1000000,20)).to_csv('test.csv')

In [5]: !ls -ltr test.csv
-rw-rw-r-- 1 users 399508276 Aug  6 16:55 test.csv

Technically memory is about this (which includes the indexes)

In [16]: df.values.nbytes + df.index.nbytes + df.columns.nbytes
Out[16]: 168000160

So 168MB in memory with a 400MB file, 1M rows of 20 float columns

DataFrame(randn(1000000,20)).to_hdf('test.h5','df')

!ls -ltr test.h5
-rw-rw-r-- 1 users 168073944 Aug  6 16:57 test.h5

MUCH more compact when written as a binary HDF5 file

In [12]: DataFrame(randn(1000000,20)).to_hdf('test.h5','df',complevel=9,complib='blosc')

In [13]: !ls -ltr test.h5
-rw-rw-r-- 1 users 154727012 Aug  6 16:58 test.h5

The data was random, so compression doesn't help too much

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  • That is very clever! Any idea how to measure the memory you need to read the file using read_csv? – Andy Hayden Aug 6 '13 at 21:15
  • No idea how to measure AS you read; IIRC it can be up to 2x the final memory needed to hold the data (from wes's article), but I think he brought it down to a constant + final memory – Jeff Aug 6 '13 at 21:23
  • Ah, I need to re-read, I remembered 2x being some convenient theoretical min for a certain algorithm, if it's even less that's coool. – Andy Hayden Aug 6 '13 at 21:26
  • You can use iotop like top/htop for watching (in real time) IO performance. – Phillip Cloud Aug 6 '13 at 22:02
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    nbytes will be a gross underestimate if you have e.g. strings in a dataframe. – Sergey Orshanskiy Jan 12 '15 at 1:47
10

If you know the dtypes of your array then you can directly compute the number of bytes that it will take to store your data + some for the Python objects themselves. A useful attribute of numpy arrays is nbytes. You can get the number of bytes from the arrays in a pandas DataFrame by doing

nbytes = sum(block.values.nbytes for block in df.blocks.values())

object dtype arrays store 8 bytes per object (object dtype arrays store a pointer to an opaque PyObject), so if you have strings in your csv you need to take into account that read_csv will turn those into object dtype arrays and adjust your calculations accordingly.

EDIT:

See the numpy scalar types page for more details on the object dtype. Since only a reference is stored you need to take into account the size of the object in the array as well. As that page says, object arrays are somewhat similar to Python list objects.

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  • Thanks Phillip! Just to clarify - for a string we would need 8 bytes for a pointer to a string object, plus the actual string object? – Anne Aug 7 '13 at 13:31
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    Yes, for any object type you'll need an 8 byte pointer + size(object) – Viktor Kerkez Aug 7 '13 at 14:13
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    Suggest df.blocks.values() It looks like df.blocks is now a dict – MRocklin Mar 6 '15 at 17:11
8

Yes there is. Pandas will store your data in 2 dimensional numpy ndarray structures grouping them by dtypes. ndarray is basically a raw C array of data with a small header. So you can estimate it's size just by multiplying the size of the dtype it contains with the dimensions of the array.

For example: if you have 1000 rows with 2 np.int32 and 5 np.float64 columns, your DataFrame will have one 2x1000 np.int32 array and one 5x1000 np.float64 array which is:

4bytes*2*1000 + 8bytes*5*1000 = 48000 bytes

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  • @AndyHayden What do you mean the construction cost? The size of an instance of DataFrame? – Phillip Cloud Aug 6 '13 at 20:40
  • Thanks Victor! @Andy - Any idea how big the construction cost is? – Anne Aug 6 '13 at 20:40
  • It's not including, but pandas have a very efficient implementation of read_table in Cython (it's much better than the numpy's loadtxt) so I assume that it parsers and stores the data directly into the ndarray. – Viktor Kerkez Aug 6 '13 at 20:41
  • @PhillipCloud you have to build it, that takes memory.. I seem to remember twice the size being mentioned?... – Andy Hayden Aug 6 '13 at 20:43
6

This I believe this gives the in-memory size any object in python. Internals need to be checked with regard to pandas and numpy

>>> import sys
#assuming the dataframe to be df 
>>> sys.getsizeof(df) 
59542497
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