Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

This is my formula. I put it in a SQL Server stored procedure:

DECLARE @Var01 float
SET @Var01 = 1164.83 * (1 - 3.3387306 * LOG(0.00459418151829729) + 1.426559 * POWER(LOG(0.00459418151829729),2)) / (1 - 3.4680733 * LOG(0.00459418151829729) + 1.8779192 * POWER(LOG(0.00459418151829729), 2) - 0.21223784 * POWER(LOG(0.00459418151829729), 3) - 0.0035814371 * POWER(LOG(0.00459418151829729), 4) - 0.90903163 * POWER(10, -4) * POWER(LOG(0.00459418151829729), 5)) - 459.67

The result is: 214.630185149416

Then I'm trying to compare to excel, the formula as below:

=1164.83 * (1 - 3.3387306 * LN(0.00459418151829729) + 1.426559 * (LN(0.00459418151829729)) ^ 2) / (1 - 3.4680733 * LN(0.00459418151829729) + 1.8779192 * (LN(0.00459418151829729)) ^ 2 - 0.21223784 * (LN(0.00459418151829729)) ^ 3 - 0.0035814371 * (LN(0.00459418151829729)) ^ 4 - 0.90903163 * 10 ^ -4 * (LN(0.00459418151829729)) ^ 5) - 459.67

The result is: 211.981432072480

The question is, which one is correct? Any Idea? What the calculation is different?

share|improve this question
LN used in Excel, LOG used in SQL. – Haminteu Jul 18 '14 at 3:53
You're using a lot of floating-point numbers, some to 17 decimal places. You're losing precision in the floating point arithmetic, and without checking I'd say the the precision offered by SQL and Excel differs which is why you're getting a discrepancy. – user1864610 Jul 18 '14 at 3:58
@All, then what should I do? – Haminteu Jul 18 '14 at 4:04
@nawazlj Please read the documentation of both Excel's LN() and Sql Server's LOG(). You'll find they are both the natural logarithm. – lc. Jul 18 '14 at 4:10
@Haminteu Oh boy, I guess my vote would be with SQL Server. IIRC by default float means float(53) which is a whole lot more precision than Excel. You could also try Wolfram Alpha and see what you get there, but you'll have to split your formula into a couple chunks due to the size limit. I'm not confident enough in this to provide an answer though. Hopefully someone else can come along and confirm. – lc. Jul 18 '14 at 4:23
up vote 3 down vote accepted

The comments have speculated that this is roundoff error, and that SQL Server is more reliable because it uses more precise floats than Excel. This is wrong. The relative error is about 1%. You do not get relative errors of 1% when you perform a short computation while making roundoff errors of 10-13% unless you are subtracting nearly equal large numbers.

I suggested breaking down the computation to see if SQL Server and Excel agree on the pieces, to see where they diverged. This would have worked. It's like stepping through a program instead of just saying that the end result is not what was desired. You can do a binary search to find the problem rapidly, but the OP didn't provide any additional information.

The computation being performed is

1164.83\frac{1+17.9723+41.3364}{1+18.6685+54.4152+33.1045-3.00707+0.410853} - 459.67

= 1164.83 \frac{60.3087}{104.592}-459.67


There isn't any cancelation of huge numbers that might cause a large relative error. So, I tried to solve

1164.83 \frac{60.3087}{104.592+x}-459.67 = 214.630185149416

to see what error in the denominator would result in this miscalculation. With a little calculus, I could check for typos in the constants. The solution is x=-0.410829. That's almost exactly the last term in the denominator. So, the answer isn't that one of these environments produces 1% relative errors in simple floating point calculations, it's that a term was dropped in the denominator. This would have been obvious from breaking the calculation into pieces.

The last term is the only one with something like POWER(10,-4). Could it be that this is carried out using integer arithmetic instead of floating point, so that it evaluates to 0 instead of 0.0001? Yes, apparently that's what SQL Server does. It's like 1/2=0 in integer arithmetic. If you want a decimal output you have to give it a decimal input. Cast the 10 to decimal, change it to POWER(10.0,-4), use 0.0001, or use proper scientific notation for the whole coefficient.

share|improve this answer
My gosh, there is no LaTeX support on SO, only on the other StackExchange sites. I'll edit this to make the equations readable. – Douglas Zare Jul 23 '14 at 15:01
The Mathematica and Math sites are the only ones with LaTex support, AFAIK. – RBarryYoung Jul 23 '14 at 15:02
OK, looks like Physics and the CompSci sites have it too. So most of the hard science sites. – RBarryYoung Jul 23 '14 at 15:05
Yes, I suspected that SQL Server's practice of using the smallest/lowest precision datatype that can hold a literal constant without typographical loss of precision was the problem, but wasn't sure where it was. Good job finding it. – RBarryYoung Jul 23 '14 at 15:08
@DouglasZare, I couldn't understand. If I declare '@myNumber' as float in storeprocedure, then I set it to POWER(2, 0.5) .. The result is 1. But I am trying to compare with excel and scientific calculator. The result is 1.4142135624. Am I doing wrong? – Haminteu Aug 6 '14 at 7:06

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

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