On Dec24, 2010, at 11:23 , Nicolas Barbier wrote:
> 2010/12/24 Florian Pflug <fgp@phlo.org>:
>
>> On Dec23, 2010, at 20:39 , Tomas Vondra wrote:
>>
>>> I guess we could use the highest possible value (equal to the number
>>> of tuples) - according to wiki you need about 10 bits per element
>>> with 1% error, i.e. about 10MB of memory for each million of
>>> elements.
>>
>> Drat. I had expected these number to come out quite a bit lower than
>> that, at least for a higher error target. But even with 10% false
>> positive rate, it's still 4.5MB per 1e6 elements. Still too much to
>> assume the filter will always fit into memory, I fear :-(
>
> I have the impression that both of you are forgetting that there are 8
> bits in a byte. 10 bits per element = 1.25MB per milion elements.
Uh, of course. So in the real universe, the numbers are
~1.2MB per 1e6 elements for a false positive rate of 1%
~0.5MB per 1e6 elements for a false positive rate of 10%
Hm. So for a table with a billion distinct elements, we'd need half
a gigabyte per column for the filter. A tuple with two int columns
takes at least 24+2*4 = 32bytes to store I think, making such a table
at least 32GB in size. The filter size would thus be 1/64 of the table
size in the worst case.
best regards,
Florian Pflug