Which method provides the best performance when removing the time portion from a datetime field in SQL Server?

a) select DATEADD(dd, DATEDIFF(dd, 0, getdate()), 0)


b) select cast(convert(char(11), getdate(), 113) as datetime)

The second method does send a few more bytes either way but that might not be as important as the speed of the conversion.

Both also appear to be very fast, but there might be a difference in speed when dealing with hundreds-of-thousands or more rows?

Also, is it possible that there are even better methods to get rid of the time portion of a datetime in SQL?

  • 1
    I've tried this out on one million records in one of my production tables and I couldn't get an accurate reading on performance either way. Both methods returned the exact same amount of data though. Jul 24, 2009 at 13:05
  • 9
    On 18,000,000 rows this is what I've found (SQL Server 2008): Method b is about 24% slower than method a. CAST(FLOOR(CAST(getdate() AS FLOAT)) AS DATETIME) is 3.5% slower than method a. Method a seems to be a winner with regards to performance. Thanks all for the great answers. Jul 24, 2009 at 13:33
  • 53
    Why the heck doesn't SQL have a built-in function to do this anyway?!! Jul 24, 2009 at 14:17
  • 12
    SQL 2008's new DATE datatype will handle this. Jul 24, 2009 at 14:23
  • 3
    possible duplicate of Most efficient way in SQL Server to get date from date+time? May 28, 2010 at 9:51

23 Answers 23


Strictly, method a is the least resource intensive:

a) select DATEADD(dd, DATEDIFF(dd, 0, getdate()), 0)

Proven less CPU intensive for the same total duration a million rows by someone with way too much time on their hands: Most efficient way in SQL Server to get a date from date+time?

I saw a similar test elsewhere with similar results too.

I prefer the DATEADD/DATEDIFF because:

Edit, Oct 2011

For SQL Server 2008+, you can CAST to date i.e. CAST(getdate() AS date). Or just use date datatype so no time to remove.

Edit, Jan 2012

A worked example of how flexible this is: Need to calculate by rounded time or date figure in sql server

Edit, May 2012

Do not use this in WHERE clauses and the like without thinking: adding a function or CAST to a column invalidates index usage. See number 2 here Common SQL Programming Mistakes

Now, this does have an example of later SQL Server optimiser versions managing CAST to date correctly, but generally it will be a bad idea ...

Edit, Sep 2018, for datetime2

DECLARE @datetime2value datetime2 = '02180912 11:45' --this is deliberately within datetime2, year 0218
DECLARE @datetime2epoch datetime2 = '19000101'

select DATEADD(dd, DATEDIFF(dd, @datetime2epoch, @datetime2value), @datetime2epoch)
  • 4
    @David Sopko for the Oct 2011 edit then code would be: select cast(GETDATE() as date) Dec 15, 2014 at 8:51
  • 1
    For more recent versions of SQL, using date instead of datetime avoids the need to deal with hours. Use the following sample: declare noTime date = getdate(), withTime datetime = getdate() select @noTime,@withTime
    – ozkary
    Jan 19, 2017 at 23:28
  • 1
    the cast as date is great if you just need the date. However often you need the current date at midnight so you can then do some further date manipulation. the DATE data time is obnoxiously restrictive at what it will let you do with regard to things like dateadd, datediff and interacting with other date/time data types. For those cases, the DATEADD() approach reigns king.
    – Xedni
    Jul 11, 2017 at 17:02
  • This does not work for every date. I had mistakenly entered 0218 instead of 2018 as the year and the DATEDIFF part of your statement throws an exception The conversion of a datetime2 data type to a datetime data type resulted in an out-of-range datetime value Try: select DATEDIFF(dd, 0, convert(datetime2(0), '0218-09-12', 120)) Sep 12, 2018 at 16:03
  • 1
    @BernhardDöbler in Jul 2009 when I answered , "0218" would have been a valid date so you would not have got this far. Also the "0" does not convert to 19000101 for datetime2. Try this select SELECT DATEDIFF(dd, '19000101', convert(datetime2(0), '0218-09-12', 120))
    – gbn
    Sep 13, 2018 at 9:34

In SQL Server 2008, you can use:

CONVERT(DATE, getdate(), 101)
  • 20
    The third argument has absolutely no bearing on the result when converting from a datetime to a date, and so your solution effectively boils down to just CONVERT(DATE,getdate()), which has already been suggested more than once.
    – Andriy M
    Oct 26, 2013 at 19:46
  • 4
    Just use CAST(GETDATE() AS DATE) or strictly ANSI CAST(CURRENT_TIMESTAMP AS DATE) which I think is worthless. Stay with the first one.
    – user2188550
    Sep 5, 2018 at 21:10

Of-course this is an old thread but to make it complete.

From SQL 2008 you can use DATE datatype so you can simply do:


In SQL Server 2008, there is a DATE datetype (also a TIME datatype).

CAST(GetDate() as DATE)


declare @Dt as DATE = GetDate()
  • This is what I used and it worked well. Seems like the simplest answer. Any downsides over using in conjunction w/ CONVERT?
    – joelmdev
    Jan 29, 2018 at 18:16
  • 3
    CAST and CONVERT are equivalent in function. The difference is that CAST is part of the ANSI standard, while CONVERT is specific to T-SQL. So, use CAST wherever possible.
    – troy
    Sep 5, 2018 at 18:40
  • 1
    @troy I use CAST because I can save 3 typing letters and syntax is clearer than CONVERT, the ANSI Standard part is worthless
    – user2188550
    Sep 5, 2018 at 21:13

...is not a good solution, per the comments below.

I would delete this answer, but I'll leave it here as a counter-example since I think the commenters' explanation of why it's not a good idea is still useful.

  • See GBN's answer, many have investigated this. DATETIMEs are NOT stored as floats, and so using DATEADD/DATEDIFF avoids the mathmatical manipulation need to CAST between types.
    – MatBailie
    Jul 24, 2009 at 13:29
  • I can accept that you might want to avoid a cast from DATETIME to FLOAT for the reason you describe, but in that case isn't the implicit conversion from zero in the OPs option (a) also a problem? Hmmm... I suppose in that case it's not a FLOAT and that the server is probably smart enough to discard the time info. OK, I concede :-) Jul 24, 2009 at 14:16
  • The 0 is indeed an implicit conversion from a numeric type (INT I would guess) to a DATETIME. Because it's a constant expression, however, the optimiser can do that at compile time for Stored Procedures and only needs to do it once for dynamically execute SQL. In short, there is a one time overhead for that, the FLOAT based query has the equivilent overhead for every Row.
    – MatBailie
    Jul 26, 2009 at 15:03
  • Casting to float is terribly unprecise. This answer should be deleted. Nobody should use this code.
    – usr
    Jun 3, 2012 at 18:57
  • 3
    Not to mention that it's not safe to cast to float and back to datetime--float doesn't have enough precision. Therefore I think it can't be recommended at all. See this post for more detail.
    – ErikE
    Oct 29, 2013 at 4:25

Here's yet another answer, from another duplicate question:

SELECT CAST(CAST(getutcdate() - 0.50000004 AS int) AS datetime) 

This magic number method performs slightly faster than the DATEADD method. (It looks like ~10%)

The CPU Time on several rounds of a million records:

500       453
453       360
375       375
406       360

But note that these numbers are possibly irrelevant because they are already VERY fast. Unless I had record sets of 100,000 or more, I couldn't even get the CPU Time to read above zero.

Considering the fact that DateAdd is meant for this purpose and is more robust, I'd say use DateAdd.

  • 3
    That is horrible. I'd never put my data at risk like this. Who knows if this is correct for all datetimes, not just the ones you tested.
    – usr
    Jun 3, 2012 at 18:58
  • @usr Oh, it's correct, it's just a magic number and shouldn't be used for that reason. If you want to check its correctness, just stuff all the possible dates for one day in a table and check the results! Also see this post for more information.
    – ErikE
    Oct 29, 2013 at 4:28
  • @ErikE good point. Your answer provides the possibility of using '12:00:00.003' which I think is much better, though.
    – usr
    Oct 29, 2013 at 7:12
  • 4
    A valid option, yes. Suggested more than once in this thread, though.
    – Andriy M
    Jul 4, 2013 at 11:51

I really like:

[date] = CONVERT(VARCHAR(10), GETDATE(), 120)

The 120 format code will coerce the date into the ISO 8601 standard:

'YYYY-MM-DD' or '2017-01-09'

Super easy to use in dplyr (R) and pandas (Python)!



Method a) and b) does NOT always have the same output!

select DATEADD(dd, DATEDIFF(dd, 0, '2013-12-31 23:59:59.999'), 0)

Output: 2014-01-01 00:00:00.000

select cast(convert(char(11), '2013-12-31 23:59:59.999', 113) as datetime)

Output: 2013-12-31 00:00:00.000

(Tested on MS SQL Server 2005 and 2008 R2)

EDIT: According to Adam's comment, this cannot happen if you read the date value from the table, but it can happen if you provide your date value as a literal (example: as a parameter of a stored procedure called via ADO.NET).

  • 1
    .999 cannot be stored in SQL Server in a DATETIME column. The highest available is .997 From: msdn.microsoft.com/en-us/library/ms187819.aspx you'll see that the values are rounded to have the thousandth place to 0, 3, or 7. The OP will not see the value from your test in their tables. Jan 20, 2014 at 14:40
  • You are correct. I didn't mean to post this as an answer to the OP question, but as a comment for others to see, but I only had 11 reputation points and 15 is needed for commenting.
    – broslav
    Jan 22, 2014 at 13:42
  • In your first snippet the string constant is implicitly converted to a datetime, in your second one it remains a string (and the 113 is just ignored).
    – Andriy M
    Jan 28, 2014 at 16:11

See this question:
How can I truncate a datetime in SQL Server?

Whatever you do, don't use the string method. That's about the worst way you could do it.

  • Thanks, I figured this had to have been asked before. Strange though that my experiments pointed out that the float method is actually slower by 3.5% on SQL Server 2008 than the dateadd(dd,0, datediff(dd,0, getDate())) method. I did run my tests many times for each method and the database server was unused for anything else at the time. Jul 24, 2009 at 13:48
  • Let's just say that I'm skeptical of benchmarks done by anyone who hasn't demonstrated that they do benchmarks regularly and in a very scientific way as part of their job. Even Thomas' benchmark in the link by gbn has some obvious problems when you look at it. That doesn't make it wrong necessarily, just not definitive. The cast/floor/cast method was the accepted fastest way for a very long time, and I suspect it was once indisputably true. That said, I am starting to reconsider it; especially for sql server 2008, where it's completely unnecessary anyway. Jul 24, 2009 at 14:44
  • 1
    The string method is extremely easy to use, to read, and to remember. Those are very important factors which I think you are underestimating!
    – Ben
    Jan 31, 2012 at 12:36
  • 1
    @JoelCoehoorn, convert style 121 is called "ODBC Canonical". It does not vary with collation or locale. The string trick is also easy to generalise to year, year+month, day, hour or minute.
    – Ben
    Jan 31, 2012 at 18:58
  • 1
    @Ben The string trick teaches developers to use string conversions. They work, but date math is far, far superior, for many reasons, not the least of which is speed--but even more, for what learning to work with the dates-as-numbers confers on the developer and his mental abilities to be fluid with number manipulation in code.
    – ErikE
    Oct 29, 2013 at 4:27

Already answered but ill throw this out there too... this suposedly also preforms well but it works by throwing away the decimal (which stores time) from the float and returning only whole part (which is date)


second time I found this solution... i grabbed this code off

CAST(round(cast(getdate()as real),0,1) AS datetime)

This method does not use string function. Date is basically a real datatype with digits before decimal are fraction of a day.

this I guess will be faster than a lot.


For me the code below is always a winner:


select CONVERT(char(10), GetDate(),126)

  • What is the principal difference of your suggestion from the method mentioned in @broslav's answer or from the method that was determined as slowest in this thread (same link as in the accepted answer)?
    – Andriy M
    Mar 24, 2014 at 15:35

Strip time on inserts/updates in the first place. As for on-the-fly conversion, nothing can beat a user-defined function maintanability-wise:

select date_only(dd)

The implementation of date_only can be anything you like - now it's abstracted away and calling code is much much cleaner.

  • I once devised a trigger to scrub times from selected columns. If the data can't be bad, you don't have to clean it. Jul 24, 2009 at 14:21
  • 2
    There is a downside to the UDF approach, they're not SARGable. If used in JOINs or WHERE clauses, the optimiser can't use INDEXes to improve performance. Using the DATEADD/DATEDIFF approach, however, is SARGable and will be able to benefit from INDEXes. (Apparently the FLOAT method is SARGable too)
    – MatBailie
    Jul 29, 2009 at 11:55
  • 1
    @MatBailie I beg to differ! UDFs are definitely not SARGable, but neither is Dateadd nor is Convert to float! WHERE DateAdd(DateDiff(Column)) = @DateValue won't use an index. On the other hand, WHERE Column >= dbo.UDF(@DateValue) AND Column < dbo.UDF(@DateValue + 1) is SARGable. So be careful how you put it.
    – ErikE
    Oct 29, 2013 at 4:34

I think you mean cast(floor(cast(getdate()as float))as datetime)

real is only 32-bits, and could lose some information

This is fastest cast(cast(getdate()+x-0.5 as int)as datetime)

...though only about 10% faster(about 0.49 microseconds CPU vs. 0.58)

This was recommended, and takes the same time in my test just now: DATEADD(dd, DATEDIFF(dd, 0, getdate()), 0)

In SQL 2008, the SQL CLR function is about 5 times faster than using a SQL function would be, at 1.35 microseconds versus 6.5 microsections, indicating much lower function-call overhead for a SQL CLR function versus a simple SQL UDF.

In SQL 2005, the SQL CLR function is 16 times faster, per my testing, versus this slow function:

create function dateonly (  @dt datetime )
returns datetime
return cast(floor(cast(@dt as float))as int)

How about select cast(cast my_datetime_field as date) as datetime)? This results in the same date, with the time set to 00:00, but avoids any conversion to text and also avoids any explicit numeric rounding.


I think that if you stick strictly with TSQL that this is the fastest way to truncate the time:

 select convert(datetime,convert(int,convert(float,[Modified])))

I found this truncation method to be about 5% faster than the DateAdd method. And this can be easily modified to round to the nearest day like this:

select convert(datetime,ROUND(convert(float,[Modified]),0))

Here I made a function to remove some parts of a datetime for SQL Server. Usage:

  • First param is the datetime to be stripped off.
  • Second param is a char:
    • s: rounds to seconds; removes milliseconds
    • m: rounds to minutes; removes seconds and milliseconds
    • h: rounds to hours; removes minutes, seconds and milliseconds.
    • d: rounds to days; removes hours, minutes, seconds and milliseconds.
  • Returns the new datetime

create function dbo.uf_RoundDateTime(@dt as datetime, @part as char) returns datetime as begin if CHARINDEX( @part, 'smhd',0) = 0 return @dt; return cast( Case @part when 's' then convert(varchar(19), @dt, 126) when 'm' then convert(varchar(17), @dt, 126) + '00' when 'h' then convert(varchar(14), @dt, 126) + '00:00' when 'd' then convert(varchar(14), @dt, 112) end as datetime ) end

  • Thanks Andriy! I didn't know my recommendation wasn't that efficient. At least it works, but you are right.
    – Max Vargas
    Jun 26, 2015 at 20:53

Just in case anyone is looking in here for a Sybase version since several of the versions above didn't work

  • Tested in I SQL v11 running on Adaptive Server 15.7
  • This is better fit as an edit on the accepted answer. With 20 other answers this will be buried and nigh unfindable. Also the accepted answer makes mention of using cast: For SQL Server 2008+, you can CAST to date. Or just use date so no time to remove.
    – EWit
    Sep 24, 2014 at 13:03
  • It would be best to post this as an answer to an equivalent Sybase question. If there is no such question, you are free to create one (and answer it yourself).
    – Andriy M
    Sep 25, 2014 at 5:36
  • Besides, it is pointless to specify a third parameter to CONVERT when you are converting a datetime to date: neither of those has an inherent format.
    – Andriy M
    Sep 25, 2014 at 5:40

If possible, for special things like this, I like to use CLR functions.

In this case:

    public static SqlDateTime DateOnly(SqlDateTime input)
        if (!input.IsNull)
            SqlDateTime dt = new SqlDateTime(input.Value.Year, input.Value.Month, input.Value.Day, 0, 0, 0);

            return dt;
            return SqlDateTime.Null;

I, personally, almost always use User Defined functions for this if dealing with SQL Server 2005 (or lower version), however, it should be noted that there are specific drawbacks to using UDF's, especially if applying them to WHERE clauses (see below and the comments on this answer for further details). If using SQL Server 2008 (or higher) - see below.

In fact, for most databases that I create, I add these UDF's in right near the start since I know there's a 99% chance I'm going to need them sooner or later.

I create one for "date only" & "time only" (although the "date only" one is by far the most used of the two).

Here's some links to a variety of date-related UDF's:

Essential SQL Server Date, Time and DateTime Functions
Get Date Only Function

That last link shows no less than 3 different ways to getting the date only part of a datetime field and mentions some pros and cons of each approach.

If using a UDF, it should be noted that you should try to avoid using the UDF as part of a WHERE clause in a query as this will greatly hinder performance of the query. The main reason for this is that using a UDF in a WHERE clause renders that clause as non-sargable, which means that SQL Server can no longer use an index with that clause in order to improve the speed of query execution. With reference to my own usage of UDF's, I'll frequently use the "raw" date column within the WHERE clause, but apply the UDF to the SELECTed column. In this way, the UDF is only applied to the filtered result-set and not every row of the table as part of the filter.

Of course, the absolute best approach for this is to use SQL Server 2008 (or higher) and separate out your dates and times, as the SQL Server database engine is then natively providing the individual date and time components, and can efficiently query these independently without the need for a UDF or other mechanism to extract either the date or time part from a composite datetime type.

  • Using a UDF can be good in some situations (like when scrubbing parameters). But in most situations it is an awful solution--running a UDF once for each row is a way to just kill the performance of a query, without any need for it!
    – ErikE
    Oct 29, 2013 at 4:30
  • @ErikE - I don't disagree, Erik, UDF's are performance killers which is why I say that, if you can use SQL Server 2008 or above and use a built-in datatype that does this for you, that will be the best solution (both in terms of achieving what's required and in terms of performance). If you're stuck with an older version of SQL Server that doesn't natively support this, you're going to give up something in order to achieve your requirements.
    – CraigTP
    Oct 29, 2013 at 7:12
  • True. It would be nice if the database engine gave us something that was SARGable, but easier to express. In the meantime, if you're looking for a value that's any time during a whole day, this is still the best solution (for at least older versions of SQL): WHERE DateColumn >= {TimeTruncatingExpression}(@DateValue) AND DateColumn < {TimeTruncatingExpression}(@DateValue + 1). I felt like I had to say something since you said "I almost always use UDFs" didn't explain any of the drawbacks, nor the way to make a date-only query SARGable.
    – ErikE
    Oct 29, 2013 at 18:12
  • @ErikE - No worries, Erik. When I've used UDF's, I've either been working with small data sets where performance isn't paramount, or more likely I've been filtering the query against the "raw" date field (to ensure sargability) but selecting the column with the UDF applied. As these are usually small datasets once filtered, running the UDF over this small number of records isn't such a performance hit. That said, you do raise a very good point and I've updated my answer to reflect this.
    – CraigTP
    Oct 30, 2013 at 9:16

I would use:

CAST(YEAR(DATEFIELD) as varchar(4)) + '/' CAST(MM(DATEFIELD) as varchar(2)) + '/' CAST(DD(DATEFIELD) as varchar(2)) as datetime

Thus effectively creating a new field from the date field you already have.

  • 2
    Why would you do that? Do you think that extracting bits from a datetime value, converting them to strings, concatenating those together and finally converting the result back to datetime is better than e.g. performing direct calculations on the original datetime (the DATEADD/DATEDIFF method)?
    – Andriy M
    Dec 26, 2013 at 9:46
  • Also, what are MM and DD? There are no such functions in SQL Server.
    – Andriy M
    Dec 26, 2013 at 9:46

Not the answer you're looking for? Browse other questions tagged or ask your own question.