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I'm reading "Dissecting SQL Server Execution Plans" from Grant Fritchey and it's helping me a lot to see why certain queries are slow.

However, I am stumped with this case where a simple rewrite performs quite a lot faster.

This is my first attempt and it takes 21 secs. It uses a derived table:

-- 21 secs
  FROM Table1 AS o JOIN( 
    SELECT col1
    FROM    Table1
    GROUP BY    col1
    HAVING  COUNT( * ) > 1
) AS i ON ON i.col1= o.col1

My second attempt is 3 times faster and simply moves out the derived table to a temp table. Now it's 3 times faster:

-- 7 secs
INTO    #doubles
FROM    Table1
GROUP BY    col1
HAVING  COUNT( * ) > 1

FROM Table1 AS o JOIN #doubles AS i ON i.col1= o.col1

My main interest is into why moving from a derived table to a temp table improves performance so much, not on how to make it even faster.

I would be grateful if someone could show me how I can diagnose this issue using the (graphical) execution plan.

Xml Execution plan: https://www.sugarsync.com/pf/D6486369_1701716_16980

Edit 1

When I created statistics on the 2 columns that were specified in the group by and the optimizer started doing "the right thing", after giving up the procedure cache (don't forget that if you are a beginner!). I simplified the query in the question which was not a good simplification in retrospect. The attached sqlplan shows the 2 columns but this was not obvious.

The estimates are now a lot more accurate as is the performance which is up to par with the temp table solution. As you know the optimizer creates stats on single columns automatically (if not disabled) but 2 column statistics have to be create by the DBA.

A (non clustered) index on these 2 columns made the query perform the same but in this case a stat is just as good and it doesn't suffer the downside of index maintenance. I'm going forward with the 2 column stat and see how it performs. @Grant Do you know if the stats on an index are more reliable than that of a column stat?

Edit 2

I always follow up once a problem is solved on how a similar problem can be diagnosed faster in the future.

The problem here was that the estimated row couns were way of. The graphical execution plans shows these when you hover over a row but that's about it.

Some tools that can help:


I heard this one will become obsolete and be replaced by its XML variant but I still like the output which is in grid format. Here the big diff between columns "Rows" and "EstimateRows" would have shown the problem

  1. External Tool: SQL Sentry Plan Explorer http://www.sqlsentry.net/

This is a nice tool especially if you are a beginner. It highlights problems

enter image description here

  1. External Tool: SSMS Tools Pack http://www.ssmstoolspack.com/

A more general purpose tool but again directs the user to potential problems

enter image description here

Kind Regards, Tom

share|improve this question
Without the query plan for both queries we can not tell why. Potentially it is related to having accurate statistics on the temp table which are incorrectly estimated on the derived table. –  Filip De Vos Feb 28 '12 at 14:54
What is the purpose of selecting the results of the subquery into a temp table in the first example? Why not just do SELECT col1 FROM Table1 GROUP BY col1 HAVING COUNT( * ) > 1 in the subselect? –  rsbarro Feb 28 '12 at 14:55
I can’t see the plan, just the graphic. Without the plan itself, I’d just be guessing as to what’s going on. Things to look at, what's the reason for early termination on the first plan? What are the stats like on the table that you're using to load to the temp table? If the stats are out of date, loading to the temp table could be giving you a cleaner set of stats. Again, just looking at the graphics so these are guesses. –  Grant Fritchey Feb 28 '12 at 17:11
+1 Grant. On the first query, the plan shows a hash join, but the pipe width from the 2 clustered scans look nearly identical. With hash joins, I expect one pipe to be tiny and the other to be huge. To me, this implies dated or missing stats, which result in suboptimal plans (poor join algorithm choice, insufficient memory preallocated for sorts and joins, etc). Like Grant pointed out, the graphic doesn't fully explain the plan (estimated row count, actual row count...). –  brian Feb 28 '12 at 18:59
@buckley No differences in stats between just stats and stats in an index. They're all still stats. –  Grant Fritchey Mar 5 '12 at 17:10

2 Answers 2

up vote 3 down vote accepted

Looking at the values for the first execution plan, it looks like it's statistics. You have an estimated number of rows at 800 and an actual of 1.2 million. I think you'll find that updating the statistics will change the way the first query's plan is generated.

share|improve this answer
We updated all the statistics but the estimates are still off. I'm still thinking it has to do with bad statistics though. Do you have clue at what we could look next? –  buckley Mar 1 '12 at 10:15
did you update the stats with a FULL SCAN? If you did a sampled update it might still show a disparity. If not, then something else is going on that I'm not seeing from the plan there. –  Grant Fritchey Mar 2 '12 at 16:03
Creating stats on the table with a full scan did not improve the execution plan. You were right that SQL Server did not have the right estimates to come up with a good execution plan tough. I updated the question with the solution. –  buckley Mar 5 '12 at 15:47

Are you sure its 3 times faster? It looks like the first way costs 47% of the batch and the second way costs 35+18 = 53% so its only faster by 6%

share|improve this answer
Those values are estimated costs to the execution plans, not a measure of speed. –  Grant Fritchey Feb 28 '12 at 18:58

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