In pseudocode, a naive implementation might look like:

```
1. for each column c1 in table1
2. for each column c2 in table2
3. if approximately_isomorphic(c1, c2) then
4. emit (c1, c2)
approximately_isomorphic(c1, c2)
1. hmap = hash()
2. for i = 1 to min(|c1|, |c2|) do
3. hmap[c1[i]] = c2[i]
4. if |hmap| - unique_count(c1) < error_margin then return true
5. else then return false
```

The idea is this: do a pairwise comparison of the elements of each column with each other column. For each pair of columns, construct a hash map linking corresponding elements of the two columns. If the hash map contains the same number of linkings as unique elements of the first column, then you have a perfect isomorphism; if you have a few more, you have a near isomorphism; if you have many more, up to the number of elements in the first column, you have what probably doesn't represent any correlation.

Example on your input:

```
ID & anything : perfect isomorphism since all of ID are unique
Opt1 & ID : 4 mappings and 3 unique values; not a perfect
isomorphism, but not too far away.
Opt1 & Opt1 : ditto above
Opt1 & Type : 3 mappings & 3 unique values, perfect isomorphism
Opt2 & ID : 4 mappings & 3 unique values, not a perfect
isomorphism, but not too far away
Opt2 & Opt2 : ditto above
Opt2 & Type : ditto above
Type & anything: perfect isomorphism since all of ID are unique
```

For best results, you might do this procedure both ways - that is, comparing table1 to table2 and then comparing table2 to table1 - to look for bijective mappings. Otherwise, you can be thrown off by trivial cases... all values in the first are different (perfect isomorphism) or all values in the second are the same (perfect isomorphism). Note also that this technique provides a way of ranking, or measuring, how similar or dissimilar columns are.

Is this going in the right direction? By the way, this is O(ijk) where table1 has i columns, table 2 has j columns and each column has k elements. In theory, the best you could do for a method would be O(ik + jk), if you can find correlations without doing pairwise comparisons.

`C->3000`

is more significant than anything). If there's anything else I could put down to clarify or be more specific please ask here, or if you have an possible answer, please post below. thanks. – filippo Nov 4 '11 at 14:32