I have read about data structures like bloom filters and skip lists.
What are the common characteristics of probabilistic data structures and what are they used for?
I have read about data structures like bloom filters and skip lists.
What are the common characteristics of probabilistic data structures and what are they used for?
There are probably a lot of different (and good) answers, but in my humble opinion, the common characteristics of probabilistic data structures is that they provide you with approximate, not precise answer.
How many items are here? About 1523425 with probability of 99%
Update: Quick search produced link to decent article on the issue:
https://highlyscalable.wordpress.com/2012/05/01/probabilistic-structures-web-analytics-data-mining/
Probabilistic data structures can't give you a definite answer, instead they provide you with a reasonable approximation of the answer and a way to approximate this estimation. They are extremely useful for big data and streaming application because they allow to dramatically decrease the amount of memory needed (in comparison to data structures that give you exact answers).
In majority of the cases these data structures use hash functions to randomize the items. Because they ignore collisions they keep the size constant, but this is also a reason why they can't give you exact values. The advantages they bring:
Frequently used probabilistic data structures are:
There is a list of probabilistic data structures in wikipedia for your reference: https://en.wikipedia.org/wiki/Category:Probabilistic_data_structures
There are different definitions about what "probabilistic data structure" is. IMHO, probabilistic data structure means that the data structure uses some randomized algorithm or takes advantage of some probabilistic characteristics internally, but they don't have to behave probabilistically or un-deterministically from the data structure user's perspective.
There are many "probabilistic data structures" with probabilistically behavior such as the bloom filter and HyperLogLog mentioned by the other answers.
At the same time, there are other "probabilistic data structures" with determined behavior (from a user's perspective) such as skip list. For skip list, users can use it similarly as a balanced binary search tree but is implemented with some probability related idea internally. And according to skip list's author William Pugh:
Skip lists are a probabilistic data structure that seem likely to supplant balanced trees as the implementation method of choice for many applications. Skip list algorithms have the same asymptotic expected time bounds as balanced trees and are simpler, faster and use less space.
If you are interested in probabilistic data structures, you might want to read my recently published book "Probabilistic Data Structures and Algorithms for Big Data Applications" (ISBN: 9783748190486, available at Amazon) where I have explained many of such space-efficient data structures and fast algorithms that are extremely useful in modern Big Data applications.
In this book, you can find the state of the art algorithms and data structures that help to handle such common problems in Big Data processing as
You can get a free preview and all related information about the book at https://pdsa.gakhov.com