# High power and double precision

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How do you solve the below equation in some programming language of your choice?

``````(1-1/X)^Y
``````

Easy!

But how about when X & Y are very big and X>>Y

e.g.

``````(1-1/X)^Y
where
X = 10^40
Y = 10^12
``````

Looks like it should be a simple enough problem, but getting around the double precision problem before applying the power is something I was not able to figure out.

-
I believe it is language dependent - in some languages, I believe you would use some library that implements fixed point arithmeric, like `BigDecimal` in java. – amit Apr 27 '12 at 14:37
Use wolframalpha.com to expand into a series representation that does not have any X^Y terms, and then compute as many terms of the series as necessary to achieve your desired precision. – mbeckish Apr 27 '12 at 14:42
To the closevoter: How is this off topic? – Li-aung Yip Apr 27 '12 at 15:04

Well, `(1 - 1/X)^Y = exp(Y*log(1 - 1/X))`. If `X` is very large, and much larger than `Y`, you can approximate the logarithm with

``````log(1 - 1/x) = -1/x -1/(2*X^2) + O(1/X^3)
``````

and calculate

``````exp(-(Y/X+ Y/(2*X*X)))
``````

If `X` isn't that much larger than `Y`, using a third or even fourth term of the Taylor series of the logarithm may be necessary.

-

Using GNU Octave the calculations are approximate:

``````octave:1> x = 10^40
x =  1.0000e+40
octave:2> y = 10^12
y =  1.0000e+12
octave:3> (1-1/x)^y
ans =  1

octave:8> exp(-(y/x + y /(2*x*x)))
ans =  1
``````

Provided that the calculation made by Daniel Fischer is correct, the code to calculate `exp(-(Y/X+ Y/(2*X*X)))` in Java using BigDecimal is:

``````public static void main(String[] args) {
BigDecimal x = new BigDecimal(10,MathContext.UNLIMITED).pow(40);
BigDecimal y = new BigDecimal(10,MathContext.UNLIMITED).pow(12);

BigDecimal twoXSquared = new BigDecimal(2,MathContext.UNLIMITED).multiply(x).multiply(x);
BigDecimal yDividedByTwoXSquared = y.divide(twoXSquared);

BigDecimal yDividedByX = y.divide(x);