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Problem:

I have a list of millions of transactions. Each transaction contains items (eg 'carrots', 'apples') the goal is to generate a list of pair of items that frequently occur together in individual transactions. As far as I can tell doing an exhaustive search isn't feasible.

Solution attempts:

So far I have two ideas. 1) Randomly sample some appropriate fraction of transactions and only check those or 2) count how often each element appears, use that data to calculate how often elements should appear together by chance and use that to modify the estimate from 1.

Any tips, alternative approaches, ready-made solutions or just general reading suggestions are much appreciated.

Edit:

Some additional information from the comments

Number of diffent items: 1,000 to 100,000

Memory constraint: A few gigs of ram at the most for a few hours.

Frequency of use: More or less a one off.

Available resources: 20-100 hours of newbie programmer time.

Desired result list format: Pair of items and some measure how often they appear, for the n most frequent pairs.

Distribution of items per transactions: Unknown as of now.

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How many items do you have are they again in the order of millions? –  Ivaylo Strandjev Jan 4 '13 at 14:17
    
More like 1,000-100,000 –  RalleG Jan 4 '13 at 14:26
    
Definitely an interesting question. I believe both points that you propose are good suggestions and it's worth trying using them. –  Ivaylo Strandjev Jan 4 '13 at 14:31
    
What is the memory constraint? How often do you need the list re-generated? What resources can you devote to this task? How many different items are there in your universe? What part of the list of pairs do you want? What is the distribution of the number of items per transaction? –  Deer Hunter Jan 4 '13 at 14:50
1  
Try searching for frequent item set mining. –  ElKamina Jan 4 '13 at 16:02

2 Answers 2

up vote 5 down vote accepted

Let the number of transactions be n, the number of items be k, and the average size of a transaction be d.

The naive approach (check pair in all records) will give you O(k^2 * n * d) solution, not very optimal indeed. But we can improve it to O(k*n*d), and if we assume uniform distribution of items (i.e. each items repeats on average O(n*d/k) times) - we might be able to improve it to O(d^2 * n + k^2) (which is much better, since most likely d << k).

This can be done by building an inverted index of your transactions, meaning - create a map from the items to the transactions containing them (Creating the index is O(nd + k)).

Example, if you have transactions

transaction1 = ('apple','grape')
transaction2 = ('apple','banana','mango')
transaction3 = ('grape','mango')

The inverted index will be:

'apple' -> [1,2]
'grape' -> [1,3]
'banana' -> [2]
'mango' -> [2,3]

So, after understanding what an inverted index is - here is the guidelines for the solution:

  1. Build an inverted index for your data
  2. For each item x, iterate all documents it appears in, and build a histogram for all the pairs (x,y) such that y co-occures with x.
  3. When you are done, you have a histogram containing k^2 items, which you need to process. This question discusses how to get top-k elements out of an unsorted list.

Complexity analysis:

  1. Building an inverted index is O(nd+k)
  2. Assuming each element repeats in O(nd/k) transactions, each iteration takes O(nd/k * d) time, and you have k iterations in this step, so you get O(nd^2 + k) for this step.
  3. Processing the list can be done in O(k^2logk) if you want full ordering, or if you just want to print top X elements, it can be done in O(k^2).

Totaling in O(nd^2 + k^2) solution to get top-X elements, which is MUCH better then naive approach, assuming d << k.

In addition, note that the bottleneck (step 2) can be efficiently parallelized and distributed among threads if needed.

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Thank you very much for the comprehensive answer! –  RalleG Jan 4 '13 at 19:24
    
@RalleG: You are most welcome. I hope it helps. Note that building an inverted index helps a lot when talking about a lot of collections/documents which contains much fewer items/terms/words - and thus is often used by search engines (just an FYI addition). –  amit Jan 4 '13 at 19:26

If the number of items ordered in one purchase is small(<10) do this:
have map of maps(dictionary of dictionaries) : key in the first map is item,
value in the first map is map whose key is second item, value count how many times it appeared in the purchase with first key.

So go through every order and for every pair update map. At the end go through map of maps and look for "big values" in the "second value"

Note: depending on the size and "distribution"of input data you might end up with not enough memory

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