Properly managing VLFs can make or break the performance of your databases. There is a ton of information out there on the proper management of VLFs, but nothing I have found that tries to boil it down to the most important parts. So here it is, my attempt at A Busy or Accidental DBA’s Guide to Managing VLFs.

What are VLFs?

When SQL Server allocates new space in a log file it does it using Virtual Log Files (VLFs), meaning every growth of a transaction log file is made of 1 to many VLFs. Think of VLFs as small files within the file that are easier for SQL Server to manage than one large file. (There really is a lot more to it than that but rather than lift from BOL I will refer you to this page for a more detailed explanation.)

Why Manage VLFs?

Having too many or in some cases not enough VLFs can cause sluggish database performance. I have also heard cases of database recovery taking far longer than expected when a log file contains too many VLFs.

How Many VLFs Should I have?

To quote someone much wiser: “It depends”. I use 50 VLFs as my rule of thumb because it is much easier to have a simple rule and it is a safe number in most cases. I do suggest reading this article: Transaction Log VLFs – too many or too few? before committing to a number of your own, especially if you are working with VLDBs.

How do I Manage VLFs?

Managing VLFs is a 2 step process. Step 1 is figuring out how many VLFs you have in each of your transaction logs. Step 2 is deciding on what number of VLFs is acceptable to you and shrinking and growing the log files to get them back under your threshold. I have included scripts below that will help you identify and remediate high VLF counts. They probably could be wrapped up into a single script but I prefer to have control of what is running when so I can monitor for any issues the maintenance might cause.

Many people also add a step 3 where they increase the auto-growth increment of their database. I tend to avoid raising the auto-growth unless the database is new. The log should only grow very rarely on a mature database; constantly having to address VLFs in a particular database’s log could be a sign of a larger problem like auto-shrink being turned on.

What if I Just Shrink the Log and Let it Grow Back?

There is a misconception that shrinking a log and increasing the auto-growth is enough to remediate high VLF counts. While shrinking a log file may lower VLF counts temporarily, they will come right back when the log file grows back. This article: Transaction Log VLFs – too many or too few? lays out how many VLFs will be added based on the auto-growth increment. Rephrased from the article:

  • If the file growth is less than 64MB the new portion of the log file will contain 4 VLFs
  • If the file growth is at least 64MB and less than 1GB the new portion of the log file will contain 8 VLFs
  • If the file growth is at least 1GB and larger = 16VLFs

Based on that, if an 80GB log with 100 VLFs was shrunk to remove VLFs then allowed to auto-grow back to 80GB with a larger auto-growth increment, say 4GB, the log would contain 20*16 = 320 VLFs.

How Many VLFs are in My Databases?

This script will return the VLF count for each database on the server it is run on. I am not sure of the origins of the script but I can say it works for me. If you know or are the original author of this script please let me know so I can give proper credit or replace the script with a link to a more current version.

DECLARE     @query        varchar(1000),

        @dbname        varchar(1000),

        @count        int






    SELECT    name

    FROM    master.dbo.sysdatabases


TABLE ##loginfo


    dbname        varchar(100),

    num_of_rows int)


OPEN csr


FROM csr INTO @dbname


WHILE (@@fetch_status



TABLE #log_info


        fileid            tinyint,

        file_size        bigint,

        start_offset    bigint,

        FSeqNo            int,

        [status]        tinyint,

        parity            tinyint,

        create_lsn        numeric(25,0)



    SET @query =
‘DBCC loginfo (‘
+ @dbname +
”’) ‘


INTO #log_info

    EXEC (@query)


    SET @count =


TABLE #log_info


    INSERT    ##loginfo

        VALUES(@dbname, @count)


FROM csr INTO @dbname







SELECT    dbname,


FROM        ##loginfo

WHERE        num_of_rows >= 50 –My rule of thumb is 50 VLFs. Your mileage may vary.

BY    dbname


TABLE ##loginfo


How Do I Lower a Database’s VLF Count?

Once armed with a list of databases that have high VLF counts, the next step is to shrink the logs to as small as possible then grow them back to the original size, ideally in a single growth. This is best done during off-peak times. I wrote the following script to perform those exact steps given the appropriate USE statement. You may have to run it multiple times to get to a low enough VLF count.

/*USE <<db_name>>*/
–Set db name before running using drop-down above or this USE statement


DECLARE @file_name sysname,

@file_size int,

@file_growth int,

@shrink_command nvarchar(max),

@alter_command nvarchar(max)


SELECT @file_name = name,

@file_size =
(size / 128),

@file_growth =

WHEN (growth / 128)
< 100

THEN 100

WHEN (growth / 128)
< 250

THEN 250

WHEN (growth / 128)
< 500

THEN 500

ELSE 1000



WHERE type_desc =


SELECT @shrink_command =
+ @file_name +

PRINT @shrink_command



SELECT @shrink_command =
+ @file_name +
”’ , 0)’

PRINT @shrink_command



SELECT @alter_command =
+ @file_name +
”’, SIZE = ‘
CAST(@file_size AS

PRINT @alter_command


In Closing

This has by no means a comprehensive lesson in VLFs or transaction log management, but hopefully enough to get the job done. If you are looking for a more in-depth look at VLFs and transaction logs in general I suggest reading the following articles: Understanding Logging and Recovery in SQL Server, Transaction Log VLFs – too many or too few? and 8 Steps to better Transaction Log throughput.


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