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I have a table which is a link table from objects in my SQL Server 2012 database, (annonsid, annonsid2). This table is used to create chains of triangle or even rectangles to see who can swap with who.

This is the query I use on the table Matching_IDs which has 1,5 million rows in it, producing 14 million possible chains using this query:

SELECT COUNT(*)
FROM Matching_IDs AS m
  INNER JOIN Matching_IDs AS m2
     ON m.annonsid2 = m2.annonsid
  INNER JOIN Matching_IDs AS m3
     ON m2.annonsid2 = m3.annonsid
       AND m.annonsid = m3.annonsid2

I must improve performance to take maybe 1 second or less, Is there a faster way to do this? The query takes about 1 minute on my computer. I normally use a WHERE m.annonsid=x, but it takes just the same amount of time, cause it has to go through all possible combinations anyway.

Update: the latest query plan

|--Compute Scalar(DEFINE:([Expr1006]=CONVERT_IMPLICIT(int,[globalagg1011],0)))
   |--Stream Aggregate(DEFINE:([globalagg1011]=SUM([partialagg1010])))
        |--Parallelism(Gather Streams)
             |--Stream Aggregate(DEFINE:([partialagg1010]=Count(*)))
                  |--Hash Match(Inner Join, HASH:([m2].[annonsid2], [m2].[annonsid])=([m3].[annonsid], [m].[annonsid2]), RESIDUAL:([MyDatabase].[dbo].[Matching_IDs].[annonsid2] as [m2].[annonsid2]=[MyDatabase].[dbo].[Matching_IDs].[annonsid] as [m3].[annonsid] AND [MyDatabase].[dbo].[Matching_IDs].[annonsid2] as [m].[annonsid2]=[MyDatabase].[dbo].[Matching_IDs].[annonsid] as [m2].[annonsid]))
                       |--Parallelism(Repartition Streams, Hash Partitioning, PARTITION COLUMNS:([m2].[annonsid2], [m2].[annonsid]))
                       |    |--Index Scan(OBJECT:([MyDatabase].[dbo].[Matching_IDs].[NonClusteredIndex-20121229-133207] AS [m2]))
                       |--Parallelism(Repartition Streams, Hash Partitioning, PARTITION COLUMNS:([m3].[annonsid], [m].[annonsid2]))
                            |--Merge Join(Inner Join, MANY-TO-MANY MERGE:([m].[annonsid])=([m3].[annonsid2]), RESIDUAL:([MyDatabase].[dbo].[Matching_IDs].[annonsid] as [m].[annonsid]=[MyDatabase].[dbo].[Matching_IDs].[annonsid2] as [m3].[annonsid2]))
                                 |--Parallelism(Repartition Streams, Hash Partitioning, PARTITION COLUMNS:([m].[annonsid]), ORDER BY:([m].[annonsid] ASC))
                                 |    |--Index Scan(OBJECT:([MyDatabase].[dbo].[Matching_IDs].[NonClusteredIndex-20121229-133152] AS [m]), ORDERED FORWARD)
                                 |--Parallelism(Repartition Streams, Hash Partitioning, PARTITION COLUMNS:([m3].[annonsid2]), ORDER BY:([m3].[annonsid2] ASC))
                                      |--Index Scan(OBJECT:([MyDatabase].[dbo].[Matching_IDs].[NonClusteredIndex-20121229-133207] AS [m3]), ORDERED FORWARD)
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3  
What indexes do you have defined on the table? An index (annonsid2,annonsid) may be a good option. –  Oded Dec 29 '12 at 22:38
    
I have a clustered index of both columns, and one non-clustered for every column (2) –  infinity1975 Dec 29 '12 at 22:39
    
Where does the query plan say time is taken? –  Oded Dec 29 '12 at 22:40
    
Well, it takes about 2 seconds from when i Press run until it starts to show results, but it doesn't mean the query is that fast right?, cause when I just do a Count(m.annonsid) instead of getting all the records, its taking around 1 minute. –  infinity1975 Dec 29 '12 at 22:41
    
Could you append query plan to the question? –  Vladimir Dec 29 '12 at 22:41
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5 Answers 5

You could denormalize the data by adding a table RelatedIds with AnnonsId, RelatedAnnonId and Distance. For every value of AnnonsId the table would contains rows for each RelatedAnnonId and the number of relations that need to be traversed to reach it, aka Distance. Triggers on the existing MatchingIds table would maintain the new table with some configured maximum value for Distance, e.g. 3 to handle rectangular shares. Index the table on (AnnonsId, Distance).

Edit: An index on (Distance, AnnonsId) will allow you to quickly find rows that have enough related entries to form a particular shape. Adding a column for MaxDistance may be useful if you want to be able to exclude rows based on, for example, having a triangular but not rectangular relationship.

The new query would inner join RelatedIds as RI on RI.AnnonsId = m.AnnonsId and RI.Distance <= @MaxDistance with the desired "shape" dictating the value of @MaxDistance.

It should provide much better performance on the select. Downsides are another table with a large number of rows and overhead of the triggers when altering the MatchingIds table.

Example: There are two entries in Matching_IDs: (1,2) and (2,3). The new table would contain 3 entries:
1-> 2: distance = 1
1-> 3: distance = 2 (it takes one intermediate 'node' to go from 1 to 3)
2-> 3: distance = 1

adding one more entry to the matching ids (3,1) would result in another entry:
1-> 1: distance = 3

And voilá: You found a triangle (distance=3).

Now, to find all triangles, simply do this:

select * 
  from RelatedIds 
 where AnnonsId=RelatedAnnonId 
   and Distance=3
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this was way to complex for me to understand :D, What I already have is a table relatedids, this is the table "Matching_IDs" who have (annonsid, annonsid2), What I dont understand is the "Distance" and how to get it?, and what the triggers will do. –  infinity1975 Dec 31 '12 at 9:38
    
I edited @HABO's suggestion and added an example –  alzaimar Dec 31 '12 at 11:45
    
The problem persist I think?, the problem is the performance, not to create the outcome. This trigger is just the same as using my query by providing an id making it run on only that id, and then save the result in a second table. Am I wrong? –  infinity1975 Jan 2 '13 at 10:41
    
@infinity1975 - The difference is that the trigger divides the heavy lifting into a relatively small amount of work every time the base table is changed. A downside is that the work is always performed, even if you never query for "shapes". The upside is that the "shapes" query should be much faster. –  HABO Jan 2 '13 at 14:31
    
Yes, I have a solution for this, except the distance parameter. I have one table for directswaps and one for triangleswaps. –  infinity1975 Jan 2 '13 at 17:21
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1 - change select Count(*) to Count(1) or Count(id)

2 - Write set Nocount on at the first of your Stored procedure or at the first of your Query

3 - Use index on annonsid , annonsid2

4 - Having your Indexes after the primary key in your Table

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1- there is no difference between count(*) and count(1)` etc. I tested it. –  alzaimar Dec 31 '12 at 11:38
1  
    
Correct. There is a difference when it comes to WHAT to count. But this does not apply to infinity1975's problem, as far as I can see it. But +1 for pointing that out. –  alzaimar Dec 31 '12 at 13:01
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Some ideas:

Try two indexes (annonsid,annonsid2) and (annonsid2,annonsid)

Have you tried a column store index? It makes the table read only but it might improve performance.

Also, some variations of the query could help. Examples:

SELECT COUNT(*)
FROM Matching_IDs AS m
  INNER JOIN Matching_IDs AS m2
     ON m.annonsid2 = m2.annonsid
  INNER JOIN Matching_IDs AS m3
     ON m2.annonsid2 = m3.annonsid
where m.annonsid = m3.annonsid2

or

SELECT COUNT(*)
FROM Matching_IDs AS m, Matching_IDs AS m2, Matching_IDs AS m3
where m2.annonsid2 = m3.annonsid
  and m.annonsid2 = m2.annonsid
  and m.annonsid = m3.annonsid2

Did you check the CPU/IO-Load? If IO-Load is high, then the server is not crunching numbers but swapping => more RAM solves the problem.

How fast is this query?

SELECT COUNT(*)
FROM Matching_IDs AS m
  INNER JOIN Matching_IDs AS m2
     ON m.annonsid2 = m2.annonsid

If this is very fast but adding the next join slows thing down then you propably need more RAM.

share|improve this answer
    
#1 and #2 is similair (22 seconds) same as my normal query, i managed to use a distinct table which went down from 1 minute to 22 seconds. The 3rd query is very fast, 2 seconds. I have 8gb ram. –  infinity1975 Dec 30 '12 at 11:35
    
Actually what I really want is to remove the 1 to 1 id table, but I have no clue on how I can know which ad matches which in an easy way. I thought about having alot of bigint's and using bitwise and between the ads. This is narrowing the search down to 15.000 ads (rows) instead of 1,5 million. BUT, the end result will anyway be 15 million so it might not be worth it. –  infinity1975 Dec 30 '12 at 11:44
    
What do you mean by 1 to 1 id table? Regarding performance: I just did a test on my laptop. Counting 6 mio rows takes a while (20 secs) and so I doubt you can get much faster. –  alzaimar Dec 30 '12 at 23:35
    
It's a table with 2 id's pointing left to right, id1 wants id2. –  infinity1975 Dec 31 '12 at 9:34
    
How about adding and m.AnnonId != m.AnnonId2? Do this with all three tables (m, m1, m2). It might help a bit, but they get sorted out anyway, as you said. –  alzaimar Dec 31 '12 at 11:37
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You should make this query a bit more separated. I think first you should create a table, where you can store the primary key + annonsid, annonsid2 -if annosid is not the primary key itself.

DECLARE @AnnonsIds TABLE
(
primaryKey int,
-- if you need later more info from the original rows like captions  
-- AND it is not (just) the annonsid
annonsid int,
annonsid2 int
)

If you declare a table, and you have index on this column, it is quite fast to get the specified rows by the WHERE annonsid = @annonsid OR annonsid2 = @annosid

After the first step you have a much smaller (I guess), and "thin" table to work with. Then you just have to use the joins here or make a temp table and a CTE on it.

I think it should be faster, depending on the selectivity of the condition in the WHERE, of yourse if 1.1 million rows fits in it, then it does not make sense, but if just a couple hundred or tousend, then you should give it a try!

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It seems like you already indexed this quite well. You can try converting the hash to a merge join by adding the right multi-column index, but it won't give you the desired speedup of 60x.

I think this index would be on annonsid, annonsid2 although I might have made a mistake here.

It would be nice to materialize all of this but indexed views do not support self-joins. You can try to materialize this query (unaggregated) into a new table. Whenever you execute DML against the base table, also update the second table (using either application logic or triggers). That would allow you to query blazingly fast.

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