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We have a SQL Server 2005 database for which we want to improve performance of bulk delete/insert/selects and I notice it uses decimal(18,0) for its primary keys. I understand this will give us many more values than bigint but was hoping it might be a quick win and should last us for many million years of growth by my calculations.

I see in the .net docs decimals take 16 bytes instead of the 8 required by longs but in SQL Server it looks like bigint take 8 bytes but the decimal(18,0) takes only 5 bytes - as also seen by select DATALENGTH(max(id)) from table. Is this correct?

Is there any other reason bigint might be slower or should I stick to decimal(18,0)?

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in your case decimal(18,0) takes 9 bytes not 5 – Kris Ivanov Jul 27 '11 at 1:09
The DATALENGTH function says 5? – Adam Butler Jul 27 '11 at 1:29
up vote 8 down vote accepted

DATALENGTH is casting to varchar before counting bytes. So your max value is < 100000.

The 9 bytes can be proved with this. sys.columns has a max_length column (decimal is fixed length so it is always 9 bytes, before you ask otherwise)

CREATE TABLE dbo.foo (bar decimal(18,0))
SELECT * FROM sys.columns WHERE object_id = OBJECT_ID('foo') 
DROP TABLE dbo.foo

For legacy reasons, decimal(18, 0) was often used as a surrogate for "64 bit integer" before bigint was added with SQL Server 2000.

decimal(18, 0) and bigint are roughly the same in range: decimal is one byte more at 9 bytes as per the documentation

On top of that, plain integer will be fractionally (maybe not measurable) faster then decimal. Saying that, if expect to have more then 4 billion rows in the next year or 5, then the performance should matter. If it doesn't, then just use int

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A bigint fits into a single register on a 64-bit machine, a 9-byte decimal does not. If we're talking about a primary key that is used all over the place I would expect this to be quite costly. – Jonathan Allen Jul 29 '14 at 22:22

You get this range with bigint:

-2^63 to 2^63-1 

also known as roughly:

-9.2 x 10^18 to 9.2 x 10^18

You get this range with decimal(18,0):

-10^18 to 10^18

Decimal: Storage Bytes per Precision

Precision    Storage Bytes
1-9:         5
10-19:       9
20-28:       13
29-38:       17

Integer Types and Storage Bytes

integer type    Storage Bytes
bigint          8
int             4
smallint        2
tinyint         1


The two examples posted in your Question actually yield virtually the same quantity of unique values.

Also, you are not going to see a significant performance change no matter your choice, but you will see a change in efficiency for other programmers on the team if you start using decimals where programmers are expecting an integer. This is a minor point.

To address your specific issue, if you want a larger range, use Decimal(38,0). This gives you:

-10^38 to 10^38

If you are concerned about speed, use the minimum precision that will last the lifetime of your software.

If you're not measuring time in nano-seconds, then choose the option that will fit best for your programmers' mindsets and your desire to have a very long set of numbers.


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