Imagine the following table (called TestTable):

id     somedate    somevalue
--     --------    ---------
45     01/Jan/09   3
23     08/Jan/09   5
12     02/Feb/09   0
77     14/Feb/09   7
39     20/Feb/09   34
33     02/Mar/09   6

I would like a query that returns a running total in date order, like:

id     somedate    somevalue  runningtotal
--     --------    ---------  ------------
45     01/Jan/09   3          3
23     08/Jan/09   5          8
12     02/Feb/09   0          8
77     14/Feb/09   7          15  
39     20/Feb/09   34         49
33     02/Mar/09   6          55

I know there are various ways of doing this in SQL Server 2000 / 2005 / 2008.

I am particularly interested in this sort of method that uses the aggregating-set-statement trick:

INSERT INTO @AnotherTbl(id, somedate, somevalue, runningtotal) 
   SELECT id, somedate, somevalue, null
   FROM TestTable
   ORDER BY somedate

DECLARE @RunningTotal int
SET @RunningTotal = 0

UPDATE @AnotherTbl
SET @RunningTotal = runningtotal = @RunningTotal + somevalue
FROM @AnotherTbl

... this is very efficient but I have heard there are issues around this because you can't necessarily guarantee that the UPDATE statement will process the rows in the correct order. Maybe we can get some definitive answers about that issue.

But maybe there are other ways that people can suggest?

edit: Now with a SqlFiddle with the setup and the 'update trick' example above


15 Answers 15


Update, if you are running SQL Server 2012 see: https://stackoverflow.com/a/10309947

The problem is that the SQL Server implementation of the Over clause is somewhat limited.

Oracle (and ANSI-SQL) allow you to do things like:

 SELECT somedate, somevalue,
  SUM(somevalue) OVER(ORDER BY somedate 
          AS RunningTotal
  FROM Table

SQL Server gives you no clean solution to this problem. My gut is telling me that this is one of those rare cases where a cursor is the fastest, though I will have to do some benchmarking on big results.

The update trick is handy but I feel its fairly fragile. It seems that if you are updating a full table then it will proceed in the order of the primary key. So if you set your date as a primary key ascending you will probably be safe. But you are relying on an undocumented SQL Server implementation detail (also if the query ends up being performed by two procs I wonder what will happen, see: MAXDOP):

Full working sample:

drop table #t 
create table #t ( ord int primary key, total int, running_total int)

insert #t(ord,total)  values (2,20)
-- notice the malicious re-ordering 
insert #t(ord,total) values (1,10)
insert #t(ord,total)  values (3,10)
insert #t(ord,total)  values (4,1)

declare @total int 
set @total = 0
update #t set running_total = @total, @total = @total + total 

select * from #t
order by ord 

ord         total       running_total
----------- ----------- -------------
1           10          10
2           20          30
3           10          40
4           1           41

You asked for a benchmark this is the lowdown.

The fastest SAFE way of doing this would be the Cursor, it is an order of magnitude faster than the correlated sub-query of cross-join.

The absolute fastest way is the UPDATE trick. My only concern with it is that I am not certain that under all circumstances the update will proceed in a linear way. There is nothing in the query that explicitly says so.

Bottom line, for production code I would go with the cursor.

Test data:

create table #t ( ord int primary key, total int, running_total int)

set nocount on 
declare @i int
set @i = 0 
begin tran
while @i < 10000
   insert #t (ord, total) values (@i,  rand() * 100) 
    set @i = @i +1

Test 1:

SELECT ord,total, 
    (SELECT SUM(total) 
        FROM #t b 
        WHERE b.ord <= a.ord) AS b 
FROM #t a

-- CPU 11731, Reads 154934, Duration 11135 

Test 2:

SELECT a.ord, a.total, SUM(b.total) AS RunningTotal 
FROM #t a CROSS JOIN #t b 
WHERE (b.ord <= a.ord) 
GROUP BY a.ord,a.total 
ORDER BY a.ord

-- CPU 16053, Reads 154935, Duration 4647

Test 3:

DECLARE @TotalTable table(ord int primary key, total int, running_total int)

SELECT ord, total
FROM #t 

OPEN forward_cursor 

DECLARE @running_total int, 
    @ord int, 
    @total int
SET @running_total = 0

FETCH NEXT FROM forward_cursor INTO @ord, @total 
     SET @running_total = @running_total + @total
     INSERT @TotalTable VALUES(@ord, @total, @running_total)
     FETCH NEXT FROM forward_cursor INTO @ord, @total 

CLOSE forward_cursor
DEALLOCATE forward_cursor

SELECT * FROM @TotalTable

-- CPU 359, Reads 30392, Duration 496

Test 4:

declare @total int 
set @total = 0
update #t set running_total = @total, @total = @total + total 

select * from #t

-- CPU 0, Reads 58, Duration 139
  • 1
    Thanks. So your code sample is to demonstrate that it will sum in the order of the primary key, I presume. It would be interesting to know if cursors are still more efficient than joins for larger data sets.
    – codeulike
    May 14, 2009 at 8:37
  • 1
    I just tested the CTE @Martin, nothing comes close to the update trick - cursor seems lower on reads. Here is a profiler trace i.stack.imgur.com/BbZq3.png Sep 19, 2011 at 0:42
  • 3
    @Martin Denali is going to have a pretty nice solution for this msdn.microsoft.com/en-us/library/ms189461(v=SQL.110).aspx Sep 19, 2011 at 2:18
  • 1
    +1 for all the work put into this answer - I love the UPDATE option; can a partition be built into this UPDATE script? e.g if there was an additional field "Car Colour" could this script return running totals within each "Car Colour" partition?
    – whytheq
    Aug 10, 2012 at 14:02
  • 2
    the initial (Oracle (and ANSI-SQL) ) answer now works in SQL server 2017. Thank you, very elegant!
    – DaniDev
    Sep 24, 2019 at 17:36

In SQL Server 2012 you can use SUM() with the OVER() clause.

select id,
       sum(somevalue) over(order by somedate rows unbounded preceding) as runningtotal
from TestTable

SQL Fiddle


While Sam Saffron did great work on it, he still didn't provide recursive common table expression code for this problem. And for us who working with SQL Server 2008 R2 and not Denali, it's still fastest way to get running total, it's about 10 times faster than cursor on my work computer for 100000 rows, and it's also inline query.
So, here it is (I'm supposing that there's an ord column in the table and it's sequential number without gaps, for fast processing there also should be unique constraint on this number):

    select T.ord, T.total, T.total as running_total
    from #t as T
    where T.ord = 0
    union all
    select T.ord, T.total, T.total + C.running_total as running_total
    from CTE_RunningTotal as C
        inner join #t as T on T.ord = C.ord + 1
select C.ord, C.total, C.running_total
from CTE_RunningTotal as C
option (maxrecursion 0)

-- CPU 140, Reads 110014, Duration 132

sql fiddle demo

update I also was curious about this update with variable or quirky update. So usually it works ok, but how we can be sure that it works every time? well, here's a little trick (found it here - http://www.sqlservercentral.com/Forums/Topic802558-203-21.aspx#bm981258) - you just check current and previous ord and use 1/0 assignment in case they are different from what you expecting:

declare @total int, @ord int

select @total = 0, @ord = -1

update #t set
    @total = @total + total,
    @ord = case when ord <> @ord + 1 then 1/0 else ord end,
    running_total = @total

select * from #t

-- CPU 0, Reads 58, Duration 139

From what I've seen if you have proper clustered index/primary key on your table (in our case it would be index by ord_id) update will proceed in a linear way all the time (never encountered divide by zero). That said, it's up to you to decide if you want to use it in production code :)

update 2 I'm linking this answer, cause it includes some useful info about unreliability of the quirky update - nvarchar concatenation / index / nvarchar(max) inexplicable behavior.

  • there should be a sequential number so you can join on ord = ord + 1 and sometimes it needs a little more work. But anyway, on SQL 2008 R2 I'm using this solution Jun 24, 2013 at 10:21
  • 2
    For the case where you already have an ordinal for your data and you'r e looking for concise (non cursor) set based solution on SQL 2008 R2, this appears to be perfect.
    – Nick.Mc
    Feb 25, 2014 at 1:03
  • 1
    Not every running total query will have an ordinal field that is contiguous. Sometimes a datetime field is what you have, or records have been deleted from the middle of the sort. That might be why it doesn't get used more often.
    – Reuben
    Oct 29, 2014 at 4:17
  • 1
    @Reuben if your table is small enough, you always can dump it into temp table with sequential numbers, but yes, sometimes this solution could not be applied easily Oct 29, 2014 at 7:55
  • 1
    @RomanPekar Just seen your 2014 update with the order check and divide by zero ejector seat, amazing idea!
    – codeulike
    Dec 8, 2022 at 11:25

The APPLY operator in SQL 2005 and higher works for this:

    t.id ,
    t.somedate ,
    t.somevalue ,
from TestTable t
 cross apply (select sum(somevalue) as runningTotal
                from TestTable
                where somedate <= t.somedate
            ) as rt
order by t.somedate
  • 5
    Works very well for smaller datasets. A downside is you'll have to have identical where clauses on the inner and outer query.
    – Sire
    Sep 12, 2012 at 14:29
  • Since some of my dates were exactly the same (down to the fraction of a second) I had to add: row_number() over (order by txndate) to the inner and outer table and a few compound indices to make it run. Slick/simple solution. BTW, tested cross apply against subquery ... it's slightly faster.
    – pghcpa
    Jan 5, 2015 at 4:39
  • this is very clean and does work well with small data sets; faster than the recursive CTE
    – jtate
    Jun 23, 2016 at 15:41
  • this is nice solution as well (for small data sets), but you also have to be aware that it implies somedate column to be unique Sep 29, 2016 at 8:04
SELECT TOP 25   amount, 
    (SELECT SUM(amount) 
    FROM time_detail b 
    WHERE b.time_detail_id <= a.time_detail_id) AS Total FROM time_detail a

You can also use the ROW_NUMBER() function and a temp table to create an arbitrary column to use in the comparison on the inner SELECT statement.

  • 1
    This is really inefficient ... but then again there is no real clean way of doing this in sql server May 14, 2009 at 0:36
  • Absolutely it is inefficient - but it does the job and there's no question of whether something for executed in the right or wrong order.
    – Sam Axe
    May 14, 2009 at 6:35
  • thanks, its useful to have alternative answers, and also useful to have efficienty critique
    – codeulike
    May 14, 2009 at 8:30

Use a correlated sub-query. Very simple, here you go:

(SELECT SUM(somevalue) FROM TestTable t2 WHERE t2.somedate<=t1.somedate) AS running_total
FROM TestTable t1
GROUP BY somedate
ORDER BY somedate

The code might not be exactly correct, but I'm sure that the idea is.

The GROUP BY is in case a date appears more than once, you would only want to see it once in the result set.

If you don't mind seeing repeating dates, or you want to see the original value and id, then the following is what you want:

(SELECT SUM(somevalue) FROM TestTable t2 WHERE t2.somedate<=t1.somedate) AS running_total
FROM TestTable t1
ORDER BY somedate
  • Thanks... simple was great. There was an index to add for performance, but that was simple enough, (taking one of the recommendations from Database Engine Tuning Advisor ;), and then it ran like a shot. Apr 28, 2015 at 22:09

You can also denormalize - store running totals in the same table:


Selects work much faster than any other solutions, but modifications may be slower


If you are using Sql server 2008 R2 above. Then, It would be shortest way to do;

Select id
LAG(runningtotal) OVER (ORDER BY somedate) + somevalue AS runningtotal
From TestTable 

LAG is use to get previous row value. You can do google for more info.


  • 1
    I believe LAG only exists in SQL server 2012 and above (not 2008)
    – AaA
    Oct 23, 2017 at 4:35
  • 1
    Using LAG() does not improve on SUM(somevalue) OVER(...) which seems a lot cleaner to me Oct 23, 2017 at 6:45

Assuming that windowing works on SQL Server 2008 like it does elsewhere (that I've tried), give this a go:

select testtable.*, sum(somevalue) over(order by somedate)
from testtable
order by somedate;

MSDN says it's available in SQL Server 2008 (and maybe 2005 as well?) but I don't have an instance to hand to try it.

EDIT: well, apparently SQL Server doesn't allow a window specification ("OVER(...)") without specifying "PARTITION BY" (dividing the result up into groups but not aggregating in quite the way GROUP BY does). Annoying-- the MSDN syntax reference suggests that its optional, but I only have SqlServer 2000 instances around at the moment.

The query I gave works in both Oracle and PostgreSQL 8.4-beta. So tell MS to catch up ;)

  • 2
    Using OVER with SUM will not work in this case to give a running total. The OVER clause does not accept ORDER BY when used with SUM. You have to use PARTITION BY, which will not work for running totals.
    – Sam Axe
    May 14, 2009 at 0:23
  • thanks, its actually useful to hear why this wont work. araqnid maybe you could edit your answer to explain why its not an option
    – codeulike
    May 14, 2009 at 8:33
  • This actually works for me, because I need to partition - so even though this isn't the most-popular answer, it is the easiest solution to my problem for RT in SQL. Mar 13, 2013 at 16:32
  • I don't have MSSQL 2008 with me, but I think you could probably partition by (select null) and hack around the partitioning problem. Or make a subselect with 1 partitionme and partition by that. Also, partition by is probably needed in real life situations when doing reports.
    – nurettin
    Jul 19, 2017 at 14:30

Though best way is to get it done will be using a window function, it can also be done using a simple correlated sub-query.

Select id, someday, somevalue, (select sum(somevalue) 
                                from testtable as t2
                                where t2.id = t1.id
                                and t2.someday <= t1.someday) as runningtotal
from testtable as t1
order by id,someday;

Here are 2 simple ways to calculate running total:

Approach 1: It can be written this way if your DBMS supports Analytical Functions

SELECT     id
           ,runningtotal = SUM(somevalue) OVER (ORDER BY somedate ASC)
FROM       TestTable

Approach 2: You can make use of OUTER APPLY if your database version / DBMS itself does not support Analytical Functions

SELECT     T.id
           ,runningtotal = OA.runningtotal
FROM       TestTable T
           OUTER APPLY (
                           SELECT   runningtotal = SUM(TI.somevalue)
                           FROM     TestTable TI
                           WHERE    TI.somedate <= S.somedate
                       ) OA;

Note:- If you have to calculate the running total for different partitions separately, it can be done as posted here: Calculating Running totals across rows and grouping by ID


I believe a running total can be achieved using the simple INNER JOIN operation below.

        SELECT 45 AS ID, CAST('01-01-2009' AS DATETIME) AS SomeDate, 3 AS SomeValue
        UNION ALL
        SELECT 23, CAST('01-08-2009' AS DATETIME), 5
        UNION ALL
        SELECT 12, CAST('02-02-2009' AS DATETIME), 0
        UNION ALL
        SELECT 77, CAST('02-14-2009' AS DATETIME), 7
        UNION ALL
        SELECT 39, CAST('02-20-2009' AS DATETIME), 34
        UNION ALL
        SELECT 33, CAST('03-02-2009' AS DATETIME), 6
    ) rt

    ,SUM(t2.SomeValue) AS RunningTotal
    #tmp t1
    JOIN #tmp t2
        ON t2.OrderID <= t1.OrderID

  • Yes, I think this is equivalent to 'Test 3' in Sam Saffron's answer.
    – codeulike
    Feb 4, 2011 at 18:57

The following will produce the required results.

SELECT a.SomeDate,
       SUM(b.SomeValue) AS RunningTotal
FROM TestTable a
CROSS JOIN TestTable b
WHERE (b.SomeDate <= a.SomeDate) 
GROUP BY a.SomeDate,a.SomeValue
ORDER BY a.SomeDate,a.SomeValue

Having a clustered index on SomeDate will greatly improve the performance.

  • @Dave I think this question is trying to find an efficient way of doing this, cross joining is going to be really slow for large sets May 14, 2009 at 0:44

Using join Another variation is to use join. Now the query could look like:

    SELECT a.id, a.value, SUM(b.Value)FROM   RunTotalTestData a,
    RunTotalTestData b
    WHERE b.id <= a.id
    GROUP BY a.id, a.value 
    ORDER BY a.id;

for more you can visite this link http://askme.indianyouth.info/details/calculating-simple-running-totals-in-sql-server-12

CREATE TABLE #Table (_Id INT IDENTITY(1,1) ,id INT ,    somedate VARCHAR(100) , somevalue INT)

INSERT INTO #Table ( id  ,    somedate  , somevalue  )
SELECT 45 , '01/Jan/09', 3 UNION ALL
SELECT 23 , '08/Jan/09', 5 UNION ALL
SELECT 12 , '02/Feb/09', 0 UNION ALL
SELECT 77 , '14/Feb/09', 7 UNION ALL
SELECT 39 , '20/Feb/09', 34 UNION ALL
SELECT 33 , '02/Mar/09', 6 

;WITH CTE ( _Id, id  ,  _somedate  , _somevalue ,_totvalue ) AS

 SELECT _Id , id  ,    somedate  , somevalue ,somevalue
 FROM #Table WHERE _id = 1
 SELECT #Table._Id , #Table.id  , somedate  , somevalue , somevalue + _totvalue
 FROM #Table,CTE 
 WHERE #Table._id > 1 AND CTE._Id = ( #Table._id-1 )


  • You should probably give some information as to what you are doing here, and note any advantages/disadvantages of this particular method.
    – TT.
    Nov 4, 2016 at 7:17

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