SQL Server Optimization Big summary-millions database optimization

Source: Internet
Author: User

1. To optimize the query, to avoid full table scanning, first consider the where and order by the columns involved in the index.


2. Avoid null-valued fields in the WHERE clause, which will cause the engine to discard full-table scans using the index, such as:

Select ID from t where num is null

It is best not to leave the database null, and to populate the database with not NULL as much as possible.

Comments, descriptions, comments, and so on can be set to NULL, others, preferably not using NULL.

Do not assume that NULL does not require space, such as: char (100) type, when the field is established, the space is fixed, regardless of whether the insertion value (NULL is also included), is occupied 100 characters of space, if it is varchar such a variable length field, NULL does not occupy space.


You can set the default value of 0 on NUM, make sure that the NUM column in the table does not have a null value, and then query:

Select ID from t where num = 0


3. Try to avoid using the! = or <> operator in the WHERE clause, or discard the engine for a full table scan using the index.

4. Try to avoid using or in the WHERE clause to join the condition, if a field has an index and a field is not indexed, it will cause the engine to discard using the index for a full table scan, such as:

Select ID from t where num=10 or Name = ' admin '

You can query this:

Select ID from t where num = 10union allselect ID from t where Name = ' admin '


5.in and not in should also be used with caution, otherwise it will result in full table scans, such as:

Select ID from t where num in

For consecutive values, you can use between instead of in:

Select ID from t where num between 1 and 3

A lot of times it's a good choice to replace in with exists:

Select num from a where num in (select num from B)

Replace with the following statement:

Select num from a where exists (select 1 from b where num=a.num)

6. The following query will also cause a full table scan:

Select ID from t where name like '%abc% '

To be more efficient, consider full-text indexing.

7. If you use a parameter in the WHERE clause, it also causes a full table scan. Because SQL resolves local variables only at run time, the optimizer cannot defer the selection of access plans to run time; it must be selected at compile time. However, if an access plan is established at compile time, the value of the variable is still unknown and therefore cannot be selected as an input for the index. The following statement will perform a full table scan:

Select ID from t where num = @num

You can force the query to use the index instead:

Select ID from the T with (index name) where num = @num

You should try to avoid expression operations on fields in the WHERE clause, which will cause the engine to discard full table scans using the index. Such as:

Select ID from t where NUM/2 = 100

should read:

Select ID from t where num = 100*2


9. You should try to avoid function operations on the fields in the WHERE clause, which will cause the engine to discard the full table scan using the index. Such as:

Select ID from t where substring (name,1,3) = ' abc '       -–name idselect ID starting with ABC from t where DateDiff (Day,createdate, ' 2005 -11-30′) = 0-    ' 2005-11-30 '    --generated ID

should read:

Select ID from t where name like ' abc% ' select ID from t where createdate >= ' 2005-11-30 ' and CreateDate < ' 2005-12-1 ‘


10. Do not perform functions, arithmetic operations, or other expression operations on the left side of "=" in the WHERE clause, or the index may not be used correctly by the system.

11. When using an indexed field as a condition, if the index is a composite index, you must use the first field in the index as a condition to guarantee that the system uses the index, otherwise the index will not be used, and the field order should be consistent with the index order as much as possible.

12. Do not write meaningless queries, such as the need to generate an empty table structure:

Select Col1,col2 into #t from T where 1=0

This type of code does not return any result sets, but consumes system resources and should be changed to this:
CREATE TABLE #t (...)

13.Update statement, if you only change 1, 2 fields, do not Update all fields, otherwise frequent calls will cause significant performance consumption, while bringing a large number of logs.

14. For multiple large data volume (here Hundreds of is even larger) table join, to first paged and then join, otherwise the logical reading will be very high, poor performance.

15.select Count (*) from table, so that count without any conditions causes a full table scan, and without any business meaning, it must be eliminated.


16. The index is not the more the better, although the index can improve the efficiency of the corresponding select, but also reduce the efficiency of insert and UPDATE, because the INSERT or update when the index may be rebuilt, so how to build the index needs careful consideration, depending on the situation. The number of indexes on a table should not be more than 6, if too many you should consider whether some of the indexes that are not commonly used are necessary.

17. You should avoid updating clustered index data columns as much as possible, because the order of the clustered index data columns is the physical storage order of the table records, which can consume considerable resources once the column values change to the order in which the entire table is recorded. If your application needs to update clustered index data columns frequently, you need to consider whether the index should be built as a clustered index.

18. Use numeric fields as much as possible, if the field containing only numeric information should not be designed as a character type, which will reduce the performance of queries and connections and increase storage overhead. This is because the engine compares each character in a string one at a time while processing queries and joins, and it is sufficient for a numeric type to be compared only once.

19. Use Varchar/nvarchar instead of Char/nchar as much as possible, because the first variable length field storage space is small, can save storage space, second, for the query, in a relatively small field in the search efficiency is obviously higher.

20. Do not use SELECT * from t anywhere, replace "*" with a specific field list, and do not return any fields that are not available.

21. Try to use table variables instead of temporary tables. If the table variable contains a large amount of data, be aware that the index is very limited (only the primary key index).

22. Avoid frequent creation and deletion of temporary tables to reduce the consumption of system table resources. Temporary tables are not unusable, and they can be used appropriately to make certain routines more efficient, such as when you need to repeatedly reference a dataset in a large table or a common table. However, for one-time events, it is best to use an export table.

23. When creating a temporary table, if you insert a large amount of data at one time, you can use SELECT INTO instead of CREATE table to avoid causing a large number of logs to increase speed, and if the amount of data is small, create table to mitigate the resources of the system tables. Then insert.

24. If a temporary table is used, be sure to explicitly delete all temporary tables at the end of the stored procedure, TRUNCATE table first, and then drop table, which avoids longer locking of the system tables.

25. Avoid using cursors as much as possible, because cursors are inefficient and should be considered for overwriting if the cursor is manipulating more than 10,000 rows of data.

26. Before using a cursor-based method or temporal table method, you should first look for a set-based solution to solve the problem, and the set-based approach is generally more efficient.

27. As with temporary tables, cursors are not unusable. Using Fast_forward cursors on small datasets is often preferable to other progressive processing methods, especially if you must reference several tables to obtain the required data. Routines that include "totals" in the result set are typically faster than using cursors. If development time permits, a cursor-based approach and a set-based approach can all be tried to see which method works better.

28. Set NOCOUNT on at the beginning of all stored procedures and triggers, set NOCOUNT OFF at the end. You do not need to send a DONE_IN_PROC message to the client after each statement that executes the stored procedure and trigger.

29. Try to avoid large transaction operation and improve the system concurrency ability.

30. Try to avoid the return of large data to the client, if the amount of data is too large, should consider whether the corresponding demand is reasonable.

Real Case Analysis : splitting large DELETE or INSERT statements and committing SQL statements in batches
If you need to perform a large DELETE or INSERT query on an online website, you need to be very careful to avoid your actions to keep your entire site from stopping accordingly. Because these two operations will lock the table, the table is locked, the other operations are not in.
Apache will have a lot of child processes or threads. So, it works quite efficiently, and our servers don't want to have too many child processes, threads and database links, which is a huge amount of server resources, especially memory.
If you lock your watch for a period of time, say 30 seconds, then for a site with a high volume of traffic, the 30-second cumulative number of access processes/threads, database links, and open files may not only crash your Web service, but may also cause your entire server to hang up immediately.
So, if you have a big deal, you must split it, using the LIMIT Oracle (rownum), SQL Server (top) condition is a good method. Here is an example of MySQL:

while (1) {//do only 1000 mysql_query at a time ("delete from logs where log_date <= ' 2012-11-01 ' limit 1000"); if (mysql_affected_rows () = = 0) {
Delete Complete, exit! break;}//each pause for a period of time, freeing the table for other processes/threads to access. Usleep (50000)}

SQL Server Optimization Big summary-millions database optimization

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