I have a table in SQL Server database which I want to be able to search and retrieve data from as fast as possible. I don't care about how long time it takes to insert into the table, I am only interested in the speed at which I can get data.

The problem is the table is accessed with 20 or more different types of queries. This makes it a tedious task to add an index specially designed for each query. I'm considering instead simply adding an index that includes ALL columns of the table. It's not something you would normally do in "good" database design, so I'm assuming there is some good reason why I shouldn't do it.

Can anyone tell me why I shouldn't do this?

UPDATE: I forgot to mention, I also don't care about the size of my database. It's OK that it means my database size will grow larger than it needed to

  • 5
    "Why can't I simply add an index that includes all columns?" Wouldn't that be...the table? Aug 29, 2015 at 6:52
  • 2
    @T.J.Crowder yes but not exactly. Jan 10, 2017 at 13:44
  • 3
    @T.J.Crowder -- The order of the columns matters greatly. A simple example is in a many:many mapping table where you need to go both directions. See example here.
    – Rick James
    Jan 11, 2017 at 0:28

9 Answers 9


First of all, an index in SQL Server can only have at most 900 bytes in its index entry. That alone makes it impossible to have an index with all columns.

Most of all: such an index makes no sense at all. What are you trying to achieve??

Consider this: if you have an index on (LastName, FirstName, Street, City), that index will not be able to be used to speed up queries on

  • FirstName alone
  • City
  • Street

That index would be useful for searches on

  • (LastName), or
  • (LastName, FirstName), or
  • (LastName, FirstName, Street), or
  • (LastName, FirstName, Street, City)

but really nothing else - certainly not if you search for just Street or just City!

The order of the columns in your index makes quite a difference, and the query optimizer can't just use any column somewhere in the middle of an index for lookups.

Consider your phone book: it's order probably by LastName, FirstName, maybe Street. So does that indexing help you find all "Joe's" in your city? All people living on "Main Street" ?? No - you can lookup by LastName first - then you get more specific inside that set of data. Just having an index over everything doesn't help speed up searching for all columns at all.

If you want to be able to search by Street - you need to add a separate index on (Street) (and possibly another column or two that make sense).

If you want to be able to search by Occupation or whatever else - you need another specific index for that.

Just because your column exists in an index doesn't mean that'll speed up all searches for that column!

The main rule is: use as few indices as possible - too many indices can be even worse for a system than having no indices at all.... build your system, monitor its performance, and find those queries that cost the most - then optimize these, e.g. by adding indices.

Don't just blindly index every column just because you can - this is a guarantee for lousy system performance - any index also requires maintenance and upkeep, so the more indices you have, the more your INSERT, UPDATE and DELETE operations will suffer (get slower) since all those indices need to be updated.

  • 3
    Great answer, thanks. You mention the order of the index: Will the mentioned index work well both for "WHERE LastName = 'a' ORDER BY FirstName" and for "WHERE FirstName = 'a' ORDER BY LastName"? Mar 29, 2011 at 4:40
  • 1
    @Niels Brinch: an index always works for the first n columns it contains; if it's on (LastName, FirstName), it will help for WHERE or ORDER BY on (LastName) or on (LastName,FirstName) - but not for (FirstName) alone (neither a WHERE FirstName = ... nor a ORDER BY FirstName will benefit from such an index).
    – marc_s
    Mar 29, 2011 at 4:46
  • Does that mean "WHERE FirstName = 'a' ORDER BY LastName" would not benefit from the "LastName, FirstName" index? Mar 29, 2011 at 5:18
  • @Niels Brinch: in that case, the ORDER BY LastName would benefit - the WHERE FirstName = 'a' would NOT benefit
    – marc_s
    Mar 29, 2011 at 5:22

You are having a fundamental misunderstanding how indexes work.

Read this explanation "how multi-column indexes work".

The next question you might have is why not creating one index per column--but that's also a dead-end if you try to reach top select performance.

You might feel that it is a tedious task, but I would say it's a required task to index carefully. Sloppy indexing strikes back, as in this example.

Note: I am strongly convinced that proper indexing pays off and I know that many people are having the very same questions you have. That's why I'm writing a the a free book about it. The links above refer the pages that might help you to answer your question. However, you might also want to read it from the beginning.


I think the questioner is asking

'why can't I make an index like':

create index index_name
on table_name

The problems with that have been addressed.

But given it sounds like they are using MS sql server. It's useful to understand that you can include nonkey columns in an index so they the values of those columns are available for retrieval from the index, but not to be used as selection criteria :

create index index_name
on table_name
include (a,b,c,d) -- every column except foreign key

I created two tables with a million identical rows

I indexed table A like this

create nonclustered index index_name_A
on A
    foreign_key -- this is a guid

and table B like this

create nonclustered index index_name_B
on B
    foreign_key -- this is a guid
include (id,a,b,c,d) -- ( every key except foreign key)

no surprise, table A was slightly faster to insert to.

but when I and ran these this queries

select * from A where foreign_key = @guid
select * from B where foreign_key = @guid

On table A, sql server didn't even use the index, it did a table scan, and complained about a missing index including id,a,b,c,d

On table B, the query was over 50 times faster with much less io

forcing the query on A to use the index didn't make it any faster

select * from A where foreign_key = @guid
select * from A with (index(index_name_A)) where foreign_key = @guid

  • It’s surprising that it would not even use an index because other columns were not included. Almost seems like an error. Thanks for sharing. Apr 30, 2022 at 11:44
  • @NielsBrinch Not necessarily. I have done some testing on this, and sometimes a clustered index scan is considerably less costly than an index that does not actually have the data you need. I assume this is somewhat similar in concept to how SSDs, for example, are much faster at reading large blocks of contiguous data than they are at reading tons of small, randomly positioned bits. In SQL, if your index knows where your data lives but does not store it, execution will be doing a lot of random poking around to retrieve it. That is in addition to the cost of the seek itself.
    – Daniel
    Feb 17, 2023 at 21:57

...if you add an index that contains all columns, and a query was actually able to use that index, it would scan it in the order of the primary key. Which means hitting nearly every record. Average search time would be O(n/2).. the same as hitting the actual database.

You need to read a bit lot about indexes.

It might help if you consider an index on a table to be a bit like a Dictionary in C#.

var nameIndex = new Dictionary<String, List<int>>();

That means that the name column is indexed, and will return a list of primary keys.

var nameOccupationIndex = new Dictionary<String, List<Dictionary<String, List<int>>>>();

That means that the name column + occupation columns are indexed. Now imagine the index contained 10 different columns, nested so far deep it contains every single row in your table.

This isn't exactly how it works mind you. But it should give you an idea of how indexes could work if implemented in C#. What you need to do is create indexes based on one or two keys that are queried on extensively, so that the index is more useful than scanning the entire table.

  • Surely it would depend if the DBMS indexes the columns in separate indexes or not?
    – ewanm89
    Mar 27, 2011 at 8:22
  • I'd never try to analyze how much data will be hit during query, since OP did not provide us cardinality of data, did not describe their nature and did not show us the queries he perform over data.
    – zerkms
    Mar 27, 2011 at 8:22
  • 1
    Indexes also tend to be an ordered data structure, the same can't be said for the unordered data in the columns. O(n) is fastest search on unordered data.
    – ewanm89
    Mar 27, 2011 at 8:23
  • And yes, for B-Tree indexes speed of lookup is O(logn) which is definitely better than O(n/2)
    – zerkms
    Mar 27, 2011 at 8:28
  • Sorry, you're right. On a non-unique unordered field, search is O(n). On a unique unordered field, search would be O(n/2) average case. That is on a table scan, which is essentially what would happen if there was an index containing every column. It just would never be used. Mar 27, 2011 at 8:45

If this is a data warehouse type operation where queries are highly optimized for READ queries, and if you have 20 ways of dissecting the data, e.g.

WHERE clause involves..

 Q1: status, type, customer
 Q2: price, customer, band
 Q3: sale_month, band, type, status
 Q4: customer

And you absolutely have plenty of fast storage space to burn, then by all means create an index for EVERY single column, separately. So a 20-column table will have 20 indexes, one for each individual column. I could probably say to ignore bit columns or low cardinality columns, but since we're going so far, why bother (with that admonition). They will just sit there and churn the WRITE time, but if you don't care about that part of the picture, then we're all good.

Analyze your 20 queries, and if you have hot queries (the hottest ones) that still won't go any faster, plan it using SSMS (press Ctrl-L) with one query in the query window. It will tell you what index can help that queries - just create it; create them all, fully remembering that this adds again to the write cost, backup file size, db maintenance time etc.

  • Creating an index for each columns would only benefit the first parameter in each query. This is why I'm curious about creating an index that includes all columns rather than one index for each column. Mar 29, 2011 at 5:32

I'm considering instead simply adding an index that includes ALL columns of the table.

This is always a bad idea. Indexes in database is not some sort of pixie dust that works magically. You have to analyze your queries and according to what and how is being queried - append indexes.

It is not as simple as "add everything to index and have a nap"

  • Thanks, I suspected as much, which is why my question was WHY is this a bad idea. Mar 29, 2011 at 4:23
  • It's a "bad idea" only in that it is likely to be a waste. Very likely to be a waste if the order of the columns is the same as in the table. Might not be a waste for queries that can make use of the first column(s) for filtering and/or ordering.
    – Rick James
    Jan 11, 2017 at 0:34

I see only long and complicated answers here so I thought I should give the simplest answer possible.

You cannot add an entire table, or all its columns, to an index because that just duplicates the table.

In simple terms, an index is just another table with selected data ordered in the order you normally expect to query it in, and a pointer to the row on disk where the rest of the data lives.

So, a level of indirection exists. You have a partial copy of a table in an preordered manner (both on disk and in RAM, assuming the index is not fragmented), which is faster to query for the columns defined in the index only, while the rest of the columns can be fetched without having to scan the disk for them, because the index contains a reference to the correct position on disk where the rest of the data is for each row.


1) size, an index essentially builds a copy of the data in that column some easily searchable structure, like a binary tree (I don't know SQL Server specifcs). 2) You mentioned speed, index structures are slower to add to.

  • I commented my own question saying speed for insertion etc. is not important in my case. I apologize for not putting this in the original question. Mar 29, 2011 at 5:33

That index would just be identical to your table (possibly sorted in another order).
It won't speed up your queries.

  • As if you said if data in indexes is sorted - why wouldn't it speed up select queries? ;-)
    – zerkms
    Mar 27, 2011 at 8:23
  • Because it would require as much I/O as a table scan and wouldn't be sorted on the columns required for different join or where. Mar 27, 2011 at 8:51
  • we don't know what queries he performs. Even for queries for joins or whatever it can be possible to never access table data (because all needed data is in index).
    – zerkms
    Mar 27, 2011 at 8:52
  • Not to mention the DBMS caching queries and stuff.
    – ewanm89
    Mar 27, 2011 at 9:08
  • I believe the correct answer here is, it WOULD speed up my query for one VERY specific query and for other queries the index would be ignored or unusable. Mar 29, 2011 at 5:30

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Not the answer you're looking for? Browse other questions tagged or ask your own question.