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I wish to calculate the standard error of a series of numbers. Suppose the numbers are x[i] where i = 1 ... N. To do this

I set

averageX = 0.0
averageXSquared = 0.0

I then loop over all i=1,...N and for each I calculate

averageX += x[i]
averageXSquared += x[i]**2

I then divide by N

averageX = averageXC / N
averageXSquared = averageXSquared/N

I then take the square root of the difference

stdX = math.sqrt(averageXSquared - averageX * averageX)

The argument here is sure to always be >=0.

However if I set all x[i] = 0.07 (for example) then I get a math domain error as the argument of the root function is negative. There seems to be some loss of precision.

The argument is of the order of 10e-15.

This does not look encouraging. I now have to check myself to see if the result is negative before taking the root.

Or have I done something wrong.

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You will be lucky if stdX = math.sqrt(averageXSquared - averageX * averageX) is always positive. It will be very close to 0 as you said, but due to the intricacies of floating point math, it will not be exactly zero. –  CoryKramer Apr 29 '14 at 18:46
have you considered using this –  mauve Apr 29 '14 at 18:48
I'd recommend checking out the Decimal module. You can manually set the amount of desired precision. –  AMacK Apr 29 '14 at 18:49
@AMacK I don't think it would help in this situation. You'd need infinite precision. –  Mark Ransom Apr 29 '14 at 18:53
@MarkRansom For values on the order of 10e-15, wouldn't 30 digits of precision be sufficient? –  chepner Apr 29 '14 at 20:10

2 Answers 2

This is not a python problem, but a problem with finite precision in general. If you set all numbers to the same value, the standard error is mathematically 0, but not for a computer. The correct way to handle this, is to set very small values <0 to 0.

x = [0.7, 0.7, 0.7]
average = sum(x) / len(x)
sqav = sum(y**2 for y in x) / len(x)
stderr = math.sqrt(max(sqav - average**2, 0))
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That is a nice trick. It is worth mentioning that the correct way (TIOOWTDI) is to use Numpy (if you can afford depending on it). –  Davidmh Apr 29 '14 at 19:03

The correct way, of course is never subtract large numbers. Have another pass, which guarantees non-negativity (you need to do some algebra to realize that the result is mathematically the same):

y = [ v - average for v in x ]
dev = sum(v*v for v in y) / len(x)
stderr = math.sqrt(dev)
share|improve this answer
All those underscores make your code very hard to read. –  Mark Ransom Apr 29 '14 at 20:24
@MarkRansom: fixed. –  user58697 Apr 29 '14 at 21:27

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