I need to initialize a new field with the value -1 in a 120 Million record table.

Update table
       set int_field = -1;

I let it run for 5 hours before canceling it.

I tried running it with transaction level set to read uncommitted with the same results.

Recovery Model = Simple.
MS SQL Server 2005

Any advice on getting this done faster?

  • 3
    The problem is IO based. Remus addressed this issue here: stackoverflow.com/questions/3523831/…
    – OMG Ponies
    Commented Sep 14, 2010 at 17:17
  • I was worried that it may be IO based. Sadly, not much I can do about that. Would smaller incremental batches run faster?
    – Bob Probst
    Commented Sep 14, 2010 at 17:19
  • Nope. The overall data volume will be the same: updated pages and log pages. It's still 120M rows, and those rows effectively get written twice (once to the log, and once to the backing store). So the time should be proportional to the overall size of your table. If it's a table with a single 4 byte int, that's rough 1G of data to write (120 * 4 = 480, *2 - 960). So, how big is the overall table? Commented Sep 14, 2010 at 17:58
  • @Will Hartung, I strongly disagree. Commented Sep 14, 2010 at 18:00
  • Can you post the schema of the table? I'm most curious about the number of columns, data type, and size of each.
    – 8kb
    Commented Sep 14, 2010 at 20:01

11 Answers 11


The only sane way to update a table of 120M records is with a SELECT statement that populates a second table. You have to take care when doing this. Instructions below.

Simple Case

For a table w/out a clustered index, during a time w/out concurrent DML:

  • SELECT *, new_col = 1 INTO clone.BaseTable FROM dbo.BaseTable
  • recreate indexes, constraints, etc on new table
  • switch old and new w/ ALTER SCHEMA ... TRANSFER.
  • drop old table

If you can't create a clone schema, a different table name in the same schema will do. Remember to rename all your constraints and triggers (if applicable) after the switch.

Non-simple Case

First, recreate your BaseTable with the same name under a different schema, eg clone.BaseTable. Using a separate schema will simplify the rename process later.

  • Include the clustered index, if applicable. Remember that primary keys and unique constraints may be clustered, but not necessarily so.
  • Include identity columns and computed columns, if applicable.
  • Include your new INT column, wherever it belongs.
  • Do not include any of the following:
    • triggers
    • foreign key constraints
    • non-clustered indexes/primary keys/unique constraints
    • check constraints or default constraints. Defaults don't make much of difference, but we're trying to keep things minimal.

Then, test your insert w/ 1000 rows:

-- assuming an IDENTITY column in BaseTable
INSERT clone.BaseTable WITH (TABLOCK) (Col1, Col2, Col3)
SELECT TOP 1000 Col1, Col2, Col3 = -1
FROM dbo.BaseTable

Examine the results. If everything appears in order:

  • truncate the clone table
  • make sure the database in in bulk-logged or simple recovery model
  • perform the full insert.

This will take a while, but not nearly as long as an update. Once it completes, check the data in the clone table to make sure it everything is correct.

Then, recreate all non-clustered primary keys/unique constraints/indexes and foreign key constraints (in that order). Recreate default and check constraints, if applicable. Recreate all triggers. Recreate each constraint, index or trigger in a separate batch. eg:

-- next constraint/index/trigger definition here

Finally, move dbo.BaseTable to a backup schema and clone.BaseTable to the dbo schema (or wherever your table is supposed to live).

-- -- perform first true-up operation here, if necessary
-- EXEC clone.BaseTable_TrueUp
-- GO
-- -- create a backup schema, if necessary
-- CREATE SCHEMA backup_20100914
-- GO
  ALTER SCHEMA backup_20100914 TRANSFER dbo.BaseTable
  -- -- perform second true-up operation here, if necessary
  -- EXEC clone.BaseTable_TrueUp
  ALTER SCHEMA dbo TRANSFER clone.BaseTable
  SELECT ERROR_MESSAGE() -- add more info here if necessary

If you need to free-up disk space, you may drop your original table at this time, though it may be prudent to keep it around a while longer.

Needless to say, this is ideally an offline operation. If you have people modifying data while you perform this operation, you will have to perform a true-up operation with the schema switch. I recommend creating a trigger on dbo.BaseTable to log all DML to a separate table. Enable this trigger before you start the insert. Then in the same transaction that you perform the schema transfer, use the log table to perform a true-up. Test this first on a subset of the data! Deltas are easy to screw up.


If you have the disk space, you could use SELECT INTO and create a new table. It's minimally logged, so it would go much faster

select t.*, int_field = CAST(-1 as int)
into mytable_new 
from mytable t

-- create your indexes and constraints


exec sp_rename mytable, mytable_old
exec sp_rename mytable_new, mytable

drop table mytable_old
  • Yes yes yes. Updating is very log intensive. Commented Sep 15, 2010 at 2:10
  • @MikeForman Hello, can you please let me know how you would go about enabling nologging in the above solution
    – Nick Div
    Commented Jun 14, 2017 at 4:57

I break the task up into smaller units. Test with different batch size intervals for your table, until you find an interval that performs optimally. Here is a sample that I have used in the past.

declare @counter int 
declare @numOfRecords int
declare @batchsize int

set @numOfRecords = (SELECT COUNT(*) AS NumberOfRecords FROM <TABLE> with(nolock))
set @counter = 0 
set @batchsize = 2500

set rowcount @batchsize
while @counter < (@numOfRecords/@batchsize) +1
set @counter = @counter + 1 
Update table set int_field = -1 where int_field <> -1;
set rowcount 0
  • I wonder how does updating in batch will speed up the update process. I think it will only slow it down Commented Feb 25, 2020 at 5:38

If your int_field is indexed, remove the index before running the update. Then create your index again...

5 hours seem like a lot for 120 million recs.

  • 5
    What you gain in applying the data change, you'll loose (if not worse) in reapplying the index.
    – OMG Ponies
    Commented Sep 14, 2010 at 17:15
  • 1
    and the field is not indexed.
    – Bob Probst
    Commented Sep 14, 2010 at 17:24
set rowcount 1000000
Update table set int_field = -1 where int_field<>-1

see how fast that takes, adjust and repeat as necessary


What I'd try first is
to drop all constraints, indexes, triggers and full text indexes first before you update.

If above wasn't performant enough, my next move would be
to create a CSV file with 12 million records and bulk import it using bcp.

Lastly, I'd create a new heap table (meaning table with no primary key) with no indexes on a different filegroup, populate it with -1. Partition the old table, and add the new partition using "switch".

  • How come you didn't mention disabling triggers? Commented Sep 14, 2010 at 17:53
  • Thanks, Denis. I also mentioned disabling FTS indexing
    – dance2die
    Commented Sep 15, 2010 at 9:10

When adding a new column ("initialize a new field") and setting a single value to each existing row, I use the following tactic:

 add NewColumn  int  not null
  constraint MyTable_TemporaryDefault
   default -1

 drop constraint MyTable_TemporaryDefault

If the column is nullable and you don't include a "declared" constraint, the column will be set to null for all rows.

  • do you know if this has the performance profile of an UPDATE statement, a bulk logged INSERT statement, or something else? Commented Sep 15, 2010 at 15:13
  • I suspect "something else". I've never done this on truly large tables, but it tends to run very quickly on moderate ones. Regardless, when you have to add a column to an existing table, you have to pay an "all or nothing" price, as you can't add it to just one batch of rows at a time. (Flip side is INSERT....SELECT... for N rows at a time, but if you're doing that you'll probably have to schedule some downtime, at which point locking, blocking, and timing shouldn't be quite so critical.) Commented Sep 15, 2010 at 15:39
  • I've tried this on a table with > 380 million rows and it looks like it is updating the table in the same way and taking similiar amount of time.
    – Otake
    Commented Jun 24, 2015 at 9:52
declare @cnt bigint
set @cnt = 1

while @cnt*100<10000000 

UPDATE top(100) [Imp].[dbo].[tablename]
   SET [col1] = xxxx 
 WHERE[col1] is null  

  print '@cnt: '+convert(varchar,@cnt)
  set @cnt=@cnt+1

Sounds like an indexing problem, like Pabla Santa Cruz mentioned. Since your update is not conditional, you can DROP the column and RE-ADD it with a DEFAULT value.

  • 1
    Maybe I'm doing something wrong but my experience with Defaults is that they are not set when a column is created but only when a record is inserted.
    – Bob Probst
    Commented Sep 14, 2010 at 17:33
  • You're probably right (I've never actually done this). Perhaps if you disallowed NULLS on the column, it would gets the value from the default value constraint (since it's added inline, it would have an auto-generated name).
    – Brad
    Commented Sep 14, 2010 at 17:49
  • 1
    @TrickyNixon: in fact, Brad's suggestion will work, if you recreate the field as not null and declare a default constraint in the same statement: ALTER TABLE TableName ADD int_field INT NOT NULL CONSTRAINT DF_TableName_int_field DEFAULT (1). Whether this has the performance profile of an UPDATE statement, an INSERT statement, or something else, I do not know. When in doubt, create a test table w/ a subset of the data and try it there. Commented Sep 15, 2010 at 15:11

In general, recommendation are next:

  1. Remove or just Disable all INDEXES, TRIGGERS, CONSTRAINTS on the table;
  2. Perform COMMIT more often (e.g. after each 1000 records that were updated);
  3. Use select ... into.

But in particular case you should choose the most appropriate solution or their combination.

Also bear in mind that sometime index could be useful e.g. when you perform update of non-indexed column by some condition.


If the table has an index which you can iterate over I would put update top(10000) statement in a while loop moving over the data. That would keep the transaction log slim and won't have such a huge impact on the disk system. Also, I would recommend to play with maxdop option (setting it closer to 1).

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