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In the following query

declare @a float(23)
declare @b float(23)
declare @c float(53)
set @a = 123456789012.1234
set @b = 1234567.12345678
set @c = @a * @b
select @c

select LTRIM(STR((@c),32,12))

declare @x  decimal(16,4)
declare @y decimal(16,8)
declare @z decimal (32,12)

set @x = 123456789012.1234
set @y = 1234567.12345678
set @z = @x * @y
select @z

I get answers as


From the above answers the third answer is the correct one. Is this the reason why float data type is called Approximate Numeric Data Type

Or am I doing something fundamentally wrong.

BTW this is due to a problem I have with legacy system wherein I have to use float as storage data type, at the same time in there should not be loss of precision while calculation.

Please suggest alternatives, or an explanation.

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up vote 6 down vote accepted

Float is accurate to 15 significant figures only (in SQL Server).

This is demonstrated by 1.52415693411713 E+17 where 1.52415693411713 (15 digits) is as accurate as you'll get. The final 020... after 152415693411713 with STR is made up is the resolution of floating point

To keep precision, don't use float. It is that simple. CAST to decimal if you want for calculation, but if you CAST back to float you are limited to 15 digits

See "What Every Computer Scientist Should Know About Floating-Point Arithmetic"

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thanks for the explanation. this leads us to a possible solution to increase precision while storing the float data type using decimal – Rakesh Singh Dec 7 '11 at 12:29
@gbn: There is nothing 'made up' about the extra digits beyond digit 15. For example, 1.23456789012345 converts to a double as 1.0011110000001100101001000010100011000101100111011101, which equals exactly 1.2345678901234500290939877231721766293048858642578125. – Rick Regan Dec 8 '11 at 16:01
@Rick Regan: This isn't "1.23456789012345" which you'd expect. "made up" is practical enough – gbn Dec 8 '11 at 16:07
@gbn: I agree a user would want to see "1.23456789012345" in this case. But saying 'made up' only perpetuates the myth that floating point gives unpredictable results. – Rick Regan Dec 8 '11 at 16:20

The last answer


is providing scale up to 12 decimal places because you have declared @z accordingly.

declare @z decimal (32,12)

The second parameter in this declaration is scale which is set to 12.

More on the this can be found at

share|improve this answer
How does this explian the float issues, or address OP's accuracy question – gbn Dec 7 '11 at 11:46

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