I've got a large query where a simple subquery optimization dropped it from 8 minutes down to 20 seconds. I'm not sure I understand why the optimization had such a drastic effect.
In essence, here's the problem part:
SELECT (bunch of stuff) FROM a LEFT OUTER JOIN b ON a.ID = b.a LEFT OUTER JOIN c ON b.ID = c.b ... ... INNER JOIN veryLargeTable ON a.ID = veryLargeTable.a AND veryLargeTable.PetID = (SELECT id from Pets WHERE Pets.Name = 'Something') /* BAD! */ ... ...
In all, there are 16 joined tables. If I replace the second predicate of the
veryLargeTable join with a pre-populated variable containing the petID (instead of using the subquery) the entire query speeds up dramatically:
AND veryLargeTable.PetID = @petID /* Awesome! */
(SELECT id from Pets WHERE Name = 'Something') is being executed for every row. There are two things I don't fully understand:
As far as I can tell, this is a non-correlated subquery. The Pets table is not part of the outer query at all. Aren't non-correlated subqueries independently evaluated (and hence optimized)? Why isn't this the case here?
The execution plans are dramatically different. In the failure case (above), the entire subtree deals with an estimated 950k rows. In the win case (using a variable instead of a subquery), there's only about 125k estimated rows. What's going on? Why are so many more rows involved if that subquery is there? The Pets.Name column definitely has unique data (but no unique constraint as far as I can tell).
Note that moving the predicate to the WHERE clause doesn't affect the query in either case, as I would expect, since it's an INNER JOIN.