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What are Covering Indexes and Covered Queries in SQL Server?

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What are covering indexes in SQL Server?

When an index contains all the columns needed to satisfy a query, it is called a covering index. Including strategic columns in a nonclustered index can ensure that the most frequent queries can be satisfied entirely from the index without the need for key lookups into the clustered index.

What are covering indexes?

Simply put, the covering index contains the data to be searched through include, so that the SQL query can get the required data without reaching the basic table. The composite index is to create an index on the combination of multiple columns, these columns may contain all the columns of the query, or may not contain.

What is a covered query?

A covered query is a query that can be satisfied entirely using an index and does not have to examine any documents. An index covers a query when all of the following apply: all the fields in the query are part of an index, and. all the fields returned in the results are in the same index.

Which indexes includes covers all the data that is necessary for a query?

An index that contains all information required to resolve the query is known as a “Covering Index”; it completely covers the query.


A covering index is one which can satisfy all requested columns in a query without performing a further lookup into the clustered index.

There is no such thing as a covering query.

Have a look at this Simple-Talk article: Using Covering Indexes to Improve Query Performance.


If all the columns requested in the select list of query, are available in the index, then the query engine doesn't have to lookup the table again which can significantly increase the performance of the query. Since all the requested columns are available with in the index, the index is covering the query. So, the query is called a covering query and the index is a covering index.

A clustered index can always cover a query, if the columns in the select list are from the same table.

The following links can be helpful, if you are new to index concepts:


A Covering Index is a Non-Clustered index. Both Clustered and Non-Clustered indexes use B-Tree data structure to improve the search for data, the difference is that in the leaves of a Clustered Index a whole record (i.e. row) is stored physically right there!, but this is not the case for Non-Clustered indexes. The following examples illustrate it:

Example: I have a table with three columns: ID, Fname and Lname.

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However, for a Non-Clustered index, there are two possibilities: either the table already has a Clustered index or it doesn't:

enter image description here

As the two diagrams show, such Non-Clustered indexes do not provide a good performance, because they cannot find the favorite value (i.e. Lname) solely from the B-Tree. Instead they have to do an extra Look Up step (either Key or RID look up) to find the value of Lname. And, this is where covered index comes to the screen. Here, the Non-Clustered index on ID coveres the value of Lname right next to it in the leaves of the B-Tree and there is no need for any type of look up anymore.

enter image description here


A covered query is a query where all the columns in the query's result set are pulled from non-clustered indexes.

A query is made into a covered query by the judicious arrangement of indexes.

A covered query is often more performant than a non-covered query in part because non-clustered indexes have more rows per page than clustered indexes or heap indexes, so fewer pages need to be brought into memory in order to satisfy the query. They have more rows per page because only part of the table row is part of the index row.

A covering index is an index which is used in a covered query. There is no such thing as an index which, in and of itself, is a covering index. An index may be a covering index with respect to query A, while at the same time not being a covering index with respect to query B.


Here's an article in devx.com that says:

Creating a non-clustered index that contains all the columns used in a SQL query, a technique called index covering

I can only suppose that a covered query is a query that has an index that covers all the columns in its returned recordset. One caveat - the index and query would have to be built as to allow the SQL server to actually infer from the query that the index is useful.

For example, a join of a table on itself might not benefit from such an index (depending on the intelligence of the SQL query execution planner):

PersonID ParentID Name
1        NULL     Abe
2        NULL     Bob
3        1        Carl
4        2        Dave

Let's assume there's an index on PersonID,ParentID,Name - this would be a covering index for a query like:

SELECT PersonID, ParentID, Name FROM MyTable

But a query like this:

SELECT PersonID, Name FROM MyTable LEFT JOIN MyTable T ON T.PersonID=MyTable.ParentID

Probably wouldn't benifit so much, even though all of the columns are in the index. Why? Because you're not really telling it that you want to use the triple index of PersonID,ParentID,Name.

Instead, you're building a condition based on two columns - PersonID and ParentID (which leaves out Name) and then you're asking for all the records, with the columns PersonID, Name. Actually, depending on implementation, the index might help the latter part. But for the first part, you're better off having other indexes.


A covering query is on where all the predicates can be matched using the indices on the underlying tables.

This is the first step towards improving the performance of the sql under consideration.


a covering index is the one which gives every required column and in which SQL server don't have hop back to the clustered index to find any column. This is achieved using non-clustered index and using INCLUDE option to cover columns. Non-key columns can be included only in non-clustered indexes. Columns can’t be defined in both the key column and the INCLUDE list. Column names can’t be repeated in the INCLUDE list. Non-key columns can be dropped from a table only after the non-key index is dropped first. Please see details here