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If I create a non-clustered index on a table, does SQL server make a copy of data in that table and stores it separately? I am just thinking about cost of creating non-clustered indexes. I guess selected by that key used in index will be faster but all inserts, updates and delete will be slow as sql server will have to maintain two copies of data. Is my understanding correct?

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Yes. That's pretty much it. –  Martin Smith Jan 19 '11 at 16:33
    
where and how exactly this other copy of data is stored? That what i am trying to understand –  imak Jan 19 '11 at 16:34
    
If you want to see this stuff for yourself I recommend having a play with SQL Internals Viewer (on codeplex) –  Martin Smith Jan 19 '11 at 17:07

3 Answers 3

up vote 1 down vote accepted

The data is not "copied" for non-clustered indices. A "map" of sorts (sometimes using a full copy of the indexed column[s] only) is created to make lookups faster for some queries on that field. For a basic guideline to this, think of a B-Tree http://en.wikipedia.org/wiki/B-tree where the different nodes are at well-known locations and that you can determine, based on the query, where to start looking. Yes, you will need to spend some resources creating/maintaining the map... but how much time are you spending on searches?

The most fundamental difference between clustered and non-clustered indices in SQL Server is that a clustered index describes the physical storage order of the rows on the disk... this is why a sequential clustered index is usually preferred for good insert performance.

On the other hand, for non-clustered indices, you need to gauge the importance of search performance versus the cost of insert performance / disk space. I usually will use an index on any commonly searched field. If the same field is has very frequent inserts it becomes a bit more complicated but I've never personally had to deal with insert performance convincing me not to use an index.

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@Matthew. What exactly get stored on disk for this non-clustere indices. Is it this "map" of sort that is stored on the disk and SQL Server just have a copy of this map in memory as well for this table? –  imak Jan 19 '11 at 16:48
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+Very true, btree structures must be learned first +1 for great answer, then you can get into implementation details msdn.microsoft.com/en-us/library/ms177484.aspx –  user44298 Jan 19 '11 at 16:51
    
@imak, per the link ivo posted SQL Server stores index pages rather than data pages for leafs of the non-clustered index. The index pages are stored on disk (and probably loaded into memory based on use) though I can't say exactly where. I would guess in the DB file itself –  Matthew Jan 19 '11 at 16:59
    
Why the downvote? –  Matthew Jan 20 '11 at 18:17
    
A clustered index on a sequential value has better insert performance than a clustered index on a non-sequential value because it avoid page-split, not because it "describes the physical storage order of the rows on the disk". –  Stephanie Page Feb 2 '11 at 16:03

SQL Server will not make a copy of all the data in the table, just the data contained in the columns of the index and any 'covering' columns, plus additional overhead data.

Yes, inserts / updates will be somewhat slower but the cost you potentially incur by not having indexes for Selects can far outweigh that. For the most part, unless you are inserting hundreds/thousands of rows per second, on a regular basis, you probably will not notice much impact on inserts / updates by having an appropriate number of indexes on a table.

We try to limit indexes on our production database but use far more indexes on our reporting database, which gets replicated from our production database. The overhead of having many indexes on a reporting databases (for inserts / updates) is not noticed.

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@ivo The index pages do make a copy of the data (key columns, row locator, included columns) as described in this answer. leaf level index pages are really pretty similar to data pages in terms of row storage (the format has a few minor differences such as no status bits B and there isn't always a NULL BITMAP). To answer your "why" think of random vs sequential I/O. –  Martin Smith Jan 19 '11 at 17:21
    
@ivo I can assure you my description is exactly right. (I'm not sure why you are talking about "whole row" I was very explicit about stating key columns, row locator, included columns) It stores a row locator (File:Page:Offset for a heap or Clustered index key otherwise) but only needs to use that if the index is not fully covering. When it does need to use it this is a very expensive random I/O key lookup. You might want to read sqlblog.com/blogs/kalen_delaney/archive/2010/03/07/… –  Martin Smith Jan 19 '11 at 17:56
    
@ivo s - The thought crossed my mind that maybe we are talking at cross purposes but I don't think we are. Have you ever actually looked at the index pages in SQL Server using DBCC IND and DBCC PAGE? –  Martin Smith Jan 19 '11 at 18:37
    
@ivo Sorry but that suggestion of trying to work out what's happening by looking at the size of the mdf file is laughable. The mdf file grows in chunks according to the growth rate so at any one time will likely have unused free space. The file is divided into extents and pages DBCC PAGE does indeed show the contents of specific pages (formatted for human consumption) I suggest you read up on this (very well documented) area. –  Martin Smith Jan 19 '11 at 19:54
    
I take it ivo removed all of his comments. I can cobble together what he must have said, so... well done Martin! –  Stephanie Page Feb 2 '11 at 15:44

The answer also depends on whether or not you are using a covering index which will contain a copy of some or all of the columns in the table. The article linked to, above, does a great job of explaining the whys.

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