Pandas DataFrame performance

A dict is to a DataFrame as a bicycle is to a car.You can pedal 10 feet on a bicycle faster than you can start a car, get it in gear, etc, etc. But if you need to go a mile, the car wins.

For certain small, targeted purposes, a dict may be faster.And if that is all you need, then use a dict, for sure! But if you need/want the power and luxury of a DataFrame, then a dict is no substitute. It is meaningless to compare speed if the data structure does not first satisfy your needs.

Now for example -- to be more concrete -- a dict is good for accessing columns, but it is not so convenient for accessing rows.

import timeitsetup = '''import numpy, pandasdf = pandas.DataFrame(numpy.zeros(shape=[10, 1000]))dictionary = df.to_dict()'''# f = ['value = dictionary[5][5]', 'value = df.loc[5, 5]', 'value = df.iloc[5, 5]']f = ['value = [val[5] for col,val in dictionary.items()]', 'value = df.loc[5]', 'value = df.iloc[5]']for func in f:    print(func)    print(min(timeit.Timer(func, setup).repeat(3, 100000)))

yields

value = [val[5] for col,val in dictionary.iteritems()]25.5416321754value = df.loc[5]5.68071913719value = df.iloc[5]4.56006002426

So the dict of lists is 5 times slower at retrieving rows than df.iloc. The speed deficit becomes greater as the number of columns grows. (The number of columns is like the number of feet in the bicycle analogy. The longer the distance, the more convenient the car becomes...)

This is just one example of when a dict of lists would be less convenient/slower than a DataFrame.

Another example would be when you have a DatetimeIndex for the rows and wish to select all rows between certain dates. With a DataFrame you can use

df.loc['2000-1-1':'2000-3-31']

There is no easy analogue for that if you were to use a dict of lists. And the Python loops you would need to use to select the right rows would again be terribly slow compared to the DataFrame.

It seems the performance difference is much smaller now (0.21.1 -- I forgot what was the version of Pandas in the original example). Not only the performance gap between dictionary access and .loc reduced (from about 335 times to 126 times slower), loc (iloc) is less than two times slower than at (iat) now.

In [1]: import numpy, pandas   ...:    ...: df = pandas.DataFrame(numpy.zeros(shape=[10, 10]))   ...:    ...: dictionary = df.to_dict()   ...: In [2]: %timeit value = dictionary[5][5]85.5 ns ± 0.336 ns per loop (mean ± std. dev. of 7 runs, 10000000 loops each)In [3]: %timeit value = df.loc[5, 5]10.8 µs ± 137 ns per loop (mean ± std. dev. of 7 runs, 100000 loops each)In [4]: %timeit value = df.at[5, 5]6.87 µs ± 64.9 ns per loop (mean ± std. dev. of 7 runs, 100000 loops each)In [5]: %timeit value = df.iloc[5, 5]14.9 µs ± 114 ns per loop (mean ± std. dev. of 7 runs, 100000 loops each)In [6]: %timeit value = df.iat[5, 5]9.89 µs ± 54.7 ns per loop (mean ± std. dev. of 7 runs, 100000 loops each)In [7]: print(pandas.__version__)0.21.1

---- Original answer below ----

+1 for using at or iat for scalar operations. Example benchmark:

In [1]: import numpy, pandas   ...: df = pandas.DataFrame(numpy.zeros(shape=[10, 10]))   ...: dictionary = df.to_dict()In [2]: %timeit value = dictionary[5][5]The slowest run took 34.06 times longer than the fastest. This could mean that an intermediate result is being cached 1000000 loops, best of 3: 310 ns per loopIn [4]: %timeit value = df.loc[5, 5]10000 loops, best of 3: 104 µs per loopIn [5]: %timeit value = df.at[5, 5]The slowest run took 6.59 times longer than the fastest. This could mean that an intermediate result is being cached 100000 loops, best of 3: 9.26 µs per loopIn [6]: %timeit value = df.iloc[5, 5]10000 loops, best of 3: 98.8 µs per loopIn [7]: %timeit value = df.iat[5, 5]The slowest run took 6.67 times longer than the fastest. This could mean that an intermediate result is being cached 100000 loops, best of 3: 9.58 µs per loop

It seems using at (iat) is about 10 times faster than loc (iloc).

I encountered the same problem. you can use at to improve.

"Since indexing with [] must handle a lot of cases (single-label access, slicing, boolean indexing, etc.), it has a bit of overhead in order to figure out what you’re asking for. If you only want to access a scalar value, the fastest way is to use the at and iat methods, which are implemented on all of the data structures."

see official reference http://pandas.pydata.org/pandas-docs/stable/indexing.html chapter "Fast scalar value getting and setting"