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I have about a 100 csv files each 100,000 x 40 rows columns. I'd like to do some statistical analysis on it, pull out some sample data, plot general trends, do variance and R-square analysis, and plot some spectra diagrams. For now, I'm considering numpy for the analysis.

I was wondering what issues should I expect with such large files? I've already checked for erroneous data. What are your recommendations on doing statistical analysis? would it be better if I just split the files and do the whole thing in Excel?

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Those aren't terribly large files. Why are you asking? Have you actually tried doing simple reads to see how fast Python will be? –  S.Lott Jan 26 '10 at 20:33
Unless you are wedded to python, you may be better off using a dedicated stats language like R - see r-project.org. –  anon Jan 26 '10 at 20:36
Usually lines and rows are synonyms when talking about tables. I guess you mean 40 columns? –  gnibbler Jan 26 '10 at 21:02
Just don't read the whole file into a string or other datatype at once and you should be fine. Apply filters and readers on it instead. S.Lott and Tomasz both seem to be doing this properly. –  Brian Jan 26 '10 at 21:35

5 Answers 5

up vote 10 down vote accepted

I've found that Python + CSV is probably the fastest, and simplest way to do some kinds of statistical processing.

We do a fair amount of reformatting and correcting for odd data errors, so Python helps us.

The availability of Python's functional programming features makes this particularly simple. You can do sampling with tools like this.

def someStatFunction( source ):
    for row in source:
        ...some processing...

def someFilterFunction( source ):
    for row in source:
        if someFunction( row ):
            yield row

# All rows
with open( "someFile", "rb" )  as source:
    rdr = csv.reader( source )
    someStatFunction( rdr )

# Filtered by someFilterFunction applied to each row
with open( "someFile", "rb" )  as source:
    rdr = csv.reader( source )
    someStatFunction( someFilterFunction( rdr ) )

I really like being able to compose more complex functions from simpler functions.

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When the data need to be massaged and filtered, as @S.Lott says, it's great to be able to do it in Python. If you can feed the data directly to an R function, the incredible packages will help. But if you have to fiddle with it first, Python is da bomb. –  telliott99 Jan 26 '10 at 21:28
You can also use loadtxt and convert automatically to numpy float arrays. –  Navi Jan 5 '11 at 14:42

Python is very nice for such kind of data processing, especially if your samples are "rows" and you can process each such row independently:


In fact your program can have very small memory footprint, thanks to generators and generator expressions, about which you can read here: http://www.dabeaz.com/generators/ (it's not basic stuff but some mind-twisting applications of generators).

Regarding S.Lott's answer, you probably want to avoid filter() being applied to sequence of rows - it might explode your computer if you pass to it sequence that is long enough (try: filter(None, itertools.count()) - after saving all you data :-)). It's much better to replace filter with something like this:

    def filter_generator(func, sequence):
        for item in sequence:
            if (func is None and item) or func(item):
                yield item

or shorter:

    filtered_sequence = (item for item in sequence if (func is None and item) or func(item))

This can be further optimized by extracting condition before the loop, but this is an excersise for the reader :-)

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...or just use itertools.ifilter :) –  gnibbler Jan 26 '10 at 21:12
Boom, and I'm sinking! Let's pretend I've explained how ifilter works ;-) –  Tomasz Zielinski Jan 26 '10 at 22:04
Thanks. Fixed my answer. –  S.Lott Jan 26 '10 at 22:37

I've been having great success using Python and CSV file reading and generation. Using a modest Core 2 Duo laptop I have been able to store close to the same amount of data as you and process it in memory in a few minutes. My main advice in doing this is to split up your jobs so that you can do things in separate steps since batching all your jobs at once can be a pain when you want only one feature to execute. Come up with a good battle rhythm that allows you to take advantage of your resources as much as possible.

Excel is nice for smaller batches of data, but check out matplotlib for doing graphs and charts normally reserved for Excel.

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For massive datasets you might be interested in ROOT. It can be used to analyze and very effectively store petabytes of data. It also come with some basic and more advanced statistics tools.

While it is written to be used with C++, there are also pretty complete python bindings. They don't make it extremely easy to get direct access to the raw data (e.g. to use them in R or numpy) -- but it is definitely possible (I do it all the time).

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In general, don't worry too much about the size. If your files get bigger by a factor of 2-3, you might start running out of memory on a 32-bit system. I figure that if each field of the table is 100 bytes, i.e., each row is 4000 bytes, you'll be using roughly 400 MB of RAM to store the data in memory and if you add about as much for processing, you'll still only be using 800 or so MB. These calculations are very back of the envelope and extremely generous (you'll only use this much memory if you have a lot of long strings or humongous integers in your data, since the maximum you'll use for standard datatypes is 8 bytes for a float or a long).

If you do start running out of memory, 64-bit might be the way to go. But other than that, Python will handle large amounts of data with aplomb, especially when combined with numpy/scipy. Using Numpy arrays will almost always be faster than using native lists as well. Matplotlib will take care of most plotting needs and can certainly handle the simple plots you've described.

Finally, if you find something that Python can't do, but already have a codebase written in it, take a look at RPy.

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