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Bounty open: Ok people, the boss needs an answer and I need a pay rise. It doesn't seem to be a cold caching issue.

UPDATE:

I've followed the advice below to no avail. How ever the client statistics threw up an interesting set of number.

#temp vs @temp

Number of INSERT, DELETE and UPDATE statements 0 vs 1

Rows affected by INSERT, DELETE, or UPDATE statements 0 vs 7647

Number of SELECT statements 0 vs 0

Rows returned by SELECT statements 0 vs 0

Number of transactions 0 vs 1

The most interesting being the number of rows affected and the number of transactions. To remind you, the queries below return identical results set, just into different styles of tables.


The following query are basicaly doing the same thing. They both select a set of results (about 7000) and populate this into either a temp or var table. In my mind the var table @temp should be created and populated quicker than the temp table #temp however the var table in the first example takes 1min 15sec to execute where as the temp table in the second example takes 16 seconds.

Can anyone offer an explanation?

declare @temp table ( 
id uniqueidentifier, 
brand nvarchar(255), 
field nvarchar(255),
date datetime, 
lang nvarchar(5), 
dtype varchar(50)
)
insert into @temp (id, brand, field, date, lang, dtype )
select id, brand, field, date, lang, dtype
from view 
where brand = 'myBrand' 
-- takes 1:15

vs

select id, brand, field, date, lang, dtype
into #temp
from view 
where brand = 'myBrand'

DROP TABLE #temp
-- takes 16 seconds
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Have you looked at the execution plans for both queries and seen how they differ? –  John Naegle Dec 30 '09 at 18:03
1  
Do you mean to load @cf or @temp in 1st example? –  gbn Dec 31 '09 at 8:07
    
sorry yes, i'll update the question... –  gingerbreadboy Dec 31 '09 at 9:04
    
I would also isolate to see if the difference is in "INSERT INTO" vs. "SELECT INTO" as opposed to #temp vs. @temp. What happens if you switch the #temp query to use INSERT INTO (create the #temp table up front)? –  Phil Sandler Jan 4 '10 at 19:12
    
Please post the actual output of SET STATISTICS TIME ON and SET STATISTICS IO ON for the two runs. –  Remus Rusanu Jan 4 '10 at 19:33

6 Answers 6

up vote 7 down vote accepted
+100

I believe this almost completely comes down to table variable vs. temp table performance.

Table variables are optimized for having exactly one row. When the query optimizer chooses an execution plan, it does it on the (often false) assumption that that the table variable only has a single row.

I can't find a good source for this, but it is at least mentioned here:

http://technet.microsoft.com/en-us/magazine/2007.11.sqlquery.aspx

Other related sources:

http://connect.microsoft.com/SQLServer/feedback/ViewFeedback.aspx?FeedbackID=125052

http://databases.aspfaq.com/database/should-i-use-a-temp-table-or-a-table-variable.html

share|improve this answer
    
I am liking this answer very much, there is a lot of food for thought in that first link. It goes a long way towards explaining the high disparity between the table variable and the temp table. I shall further investigate when I get back to the server. –  gingerbreadboy Jan 4 '10 at 19:40

Run both with SET STATISTICS IO ON and SET STATISTICS TIME ON. Run 6-7 times each, discard the best and worst results for both cases, then compare the two average times.

I suspect the difference is primarily from a cold cache (first execution) vs. a warm cache (second execution). The output from STATISTICS IO would give away such a case, as a big difference in the physical reads between the runs.

And make sure you have 'lab' conditions for the test: no other tasks running (no lock contention), databases (including tempdb) and logs are pre-grown to required size so you don't hit any log growth or database growth event.

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I'm not 100% that this is the cause, but the table var will not have any statistics whereas the temp table will.

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"statistics" - could you elaborate just a tiny bit? Cheers - rrrg –  gingerbreadboy Dec 30 '09 at 17:02

SELECT INTO is a non-logged operation, which would likely explain most of the performance difference. INSERT creates a log entry for every operation.

Additionally, SELECT INTO is creating the table as part of the operation, so SQL Server knows automatically that there are no constraints on it, which may factor in.

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@table variables are also not logged –  Remus Rusanu Dec 30 '09 at 18:05

If it takes over a full minute to insert 7000 records into a temp table (persistent or variable), then the perf issue is almost certainly in the SELECT statement that's populating it.

Have you run DBCC FREEPROCCACHE and DBCC DROPCLEANBUFFERS before profiling? I'm thinking that maybe it's using some cached results for the second query.

share|improve this answer
    
isn't DBCC FREEPROCCACHE specifically for stored procedures? We're not running this as part of a stored proc. –  gingerbreadboy Dec 31 '09 at 9:53
    
I used to think so too, but the "proc cache" is actually the "plan cache". That statement clears all cached query plans. You should run it before every execution - if you're comparing two separate queries, you should profile them separately with this pair of statements before each. –  Aaronaught Dec 31 '09 at 13:48

This is not uncommon. Table variables can be (and in a lot of cases ARE) slower than temp tables. Here are some of the reasons for this:

  • SQL Server maintains statistics for queries that use temporary tables but not for queries that use table variables. Without statistics, SQL Server might choose a poor processing plan for a query that contains a table variable

  • Non-clustered indexes cannot be created on table variables, other than the system indexes that are created for a PRIMARY or UNIQUE constraint. That can influence the query performance when compared to a temporary table with non-clustered indexes.

  • table variables use internal metadata in a way that prevents the engine from using a table variable within a parallel query (this means that it wont take advantage of multi-processor machines).

  • A table variable is optimized for one row, by SQL Server (it assumes 1 row will be returned).

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