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How does the RAM required to store data in memory compare to the disk space required to store the same data in a file? Or is there no generalized correlation?

For example, say I simply have a billion floating point values. Stored in binary form, that'd be 4 billion bytes or 3.7GB on disk (not including headers and such). Then say I read those values into a list in python... how much RAM should I expect that to require?

My thanks in advance for any insights!

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More RAM! There is list overhead, among other things. If you’re worried, a) find out, and b) consider just storing the raw data in memory and unpacking it on the fly (it depends on what you’re doing with it). –  minitech Apr 10 '14 at 21:54
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Related: stackoverflow.com/a/994010/846892 –  Ashwini Chaudhary Apr 10 '14 at 21:55
    
My first thought is that would take a while for the user to wait until all that data was loaded into RAM. –  Mike Weber Apr 10 '14 at 21:55
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My first thought is why the hell wouldn't you use mmap? –  Ignacio Vazquez-Abrams Apr 10 '14 at 21:57
    
Both in RAM and disk, you use exactly as many bytes as you are asking to use (though this asking is possibly hidden deep inside libraries), modulo metadata for the {filesystem,memory manager} which is hard to compare or quantify and rarely significant. –  delnan Apr 10 '14 at 22:27

1 Answer 1

If the data is stored in some python object, there will be a little more data attached to the actual data in memory.

This may be easily tested.

The size of data in various forms

It is interesting to note how, at first, the overhead of the python object is significant for small data, but quickly becomes negligible.

Here is the iPython code used to generate the plot

%matplotlib inline
import random
import sys
import array
import matplotlib.pyplot as plt

max_doubles = 10000

raw_size = []
array_size = []
string_size = []
list_size = []
set_size = []
tuple_size = []
size_range = range(max_doubles)

# test double size
for n in size_range:
    double_array = array.array('d', [random.random() for _ in xrange(n)])
    double_string = double_array.tostring()
    double_list = double_array.tolist()
    double_set = set(double_list)
    double_tuple = tuple(double_list)

    raw_size.append(double_array.buffer_info()[1] * double_array.itemsize)
    array_size.append(sys.getsizeof(double_array))
    string_size.append(sys.getsizeof(double_string))
    list_size.append(sys.getsizeof(double_list))
    set_size.append(sys.getsizeof(double_set))
    tuple_size.append(sys.getsizeof(double_tuple))

# display
plt.figure(figsize=(10,8))
plt.title('The size of data in various forms', fontsize=20)
plt.xlabel('Data Size (double, 8 bytes)', fontsize=15)
plt.ylabel('Memory Size (bytes)', fontsize=15)
plt.loglog(
    size_range, raw_size, 
    size_range, array_size, 
    size_range, string_size,
    size_range, list_size,
    size_range, set_size,
    size_range, tuple_size
)
plt.legend(['Raw (Disk)', 'Array', 'String', 'List', 'Set', 'Tuple'], fontsize=15, loc='best')
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