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?

`LN()`

and Sql Server's`LOG()`

. You'll find they are both the natural logarithm. – lc. Jul 18 '14 at 4:10`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