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I have two lists of times in nanoseconds. Each list can have 10^12 elements or more. My current implementation is to take a subset of both lists, compare the times in that subset using for loops and output correlated times, then take another subset. For each subset comparison this runs in approx. (m*n) where m is the size of list 1 subset and n is the size of the list 2 subset, which is obviously a bad algorithm.

I also have a clock that is smaller than the total time of my data sets, so there are rollovers in the data to be concerned with at certain times.

List 1 has certain events, and list two has secondary events. I want to know if the secondary events happen within a certain time from the primary events. There is also a lot of noise, so I need to create a histogram of correlated times and look for a time where there is a statistically significant signal.

I would like to know if there is a known efficient algorithm that can be used in C++ from any open source library, or an efficient algorithm that I can implement, to search the times of both lists, and output the items that fall within the window.

Here is an example of the brute force function:

int correlate_lists( int window )
  for( int i = 0 ; i < list1.size() ; i++ )
    for( int j = 0 ; j < list2.size() ; j++ )
      if( list2[j].time() > list1[i].time() &&  (list2[j].time() - list1[j].time()) < window )
        printf("Time: %d\n, list2[j].time() - list[1].time() );
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Compare based on what criteria? Only this in your example code? –  ddriver Apr 5 '13 at 20:50
Seems like sorting the two lists would be required to make it efficient. –  Vaughn Cato Apr 5 '13 at 20:51
yes, I am only comparing what is above in the code example. –  Cerekay Apr 5 '13 at 20:54
@ddriver Pre-increment? Really? Come on... –  Nik Bougalis Apr 5 '13 at 21:09
Up to 10^12 elements or more... As the times are in nanoseconds, I assume you need at least 64 bit data type to store them. Do you really possess 16TB of RAM to store that? Or are your lists data structures from something like STXXL and are stored on an external drive? –  Ixanezis Apr 5 '13 at 21:16

2 Answers 2

up vote 0 down vote accepted

If your two lists are sorted by time, you can walk through the lists efficiently:

  for( int i = 0, j = 0 ; i < list1.size() ; ++i )
    while( j < list2.size() && list2[j].time() <= list1[i].time() ) 

    int k = j;

    while( k < list2.size() && list2[k].time() < list1[i].time() + window) 
      printf("Time: %d\n, list2[k].time() - list1[i].time() );
share|improve this answer
Since those are supposedly time stamp inputs, I think the order is important. –  ddriver Apr 5 '13 at 21:08
@ddriver: Yes, in fact they may already be sorted by time for that reason. –  Vaughn Cato Apr 5 '13 at 21:10
But only if they are actual time stamps and not intervals between timestamps. The latter case it would be impractical to sort, because you don't know what is what. –  ddriver Apr 5 '13 at 21:11
@ddriver: The comments by the OP have clarified that they are lists of times and not intervals. –  Vaughn Cato Apr 5 '13 at 21:18
I'll give this implementation a try and see if it improves my time. I apologize for not clarifying very well what I meant by times in my question, the times are timestamps in nanoseconds. With this version I still have to handle rollovers, but it may be fast enough that I can do subsets of times between rollovers. –  Cerekay Apr 5 '13 at 21:21

If the lists are sorted, surely you can use a binary search to find the "window" position?

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I had considered a binary search tree, but I am not familiar with any libraries that allow me to quickly use an already implemented one. –  Cerekay Apr 5 '13 at 22:00
@Cerekay: I was thinking of std::binary_search –  Mats Petersson Apr 5 '13 at 22:21

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