You would need to use some sort of extended precision type. Such a type would not be a primitive type, you would need to either use an existing one or write your own (which would be a huge amount of work, and a classic case of reinventing the wheel). Java might be a better language for this because its system libraries include BigInteger and BigDecimal classes, which handle the functionality you would need.

Edit: Here are some delphi libraries providing large integer and high precision floating point arithmetic: http://www.delphiforfun.org/programs/Library/big_integers.htm

That said, if you find yourself unable to use the windows calculator to accomplish what you are looking for and you only need this for one or two things, consider using a more powerful online service such as WolframAlpha.

Also, in case you still don't have an answer:

```
17^1000 mod 18 == 1
17^1000 mod 100 == 1
```

The algorithm used to compute numbers like these is simple and does not require large integer support. Consider the following pseudocode:

```
modular_exponentiation (base, exponent, modulus):
let value = 1
let c_exponent = 0
for c_exponent less than exponent:
let value = value * base
if value greater than or equal to modulus:
let value = (value) mod (modulus)
increment c_exponent
value.
```

`17 over 1000`

->`17 / 1000`

->`0.017`

. – Marc B Jun 20 '12 at 17:15