I came across an interesting math problem that would require me to do some artithmetic with numbers that have more than 281 digits. I know that its impossible to represent a number this large with a system where there is one memory unit for each digit but wondered if there were any ways around this.
My initial thought was to use a extremely large base instead of base 10 (decimal). After some thought I believe (but can't verify) that the optimal base would be the square root of the number of digits (so for a number with 281 digits you'd use base 240ish) which is a improvement but that doesn't scale well and still isn't really practical.
So what options do I have? I know of many arbitrary precision libraries, but are there any that scale to support this sort of arithmetic?
EDIT: after thinking some more i realize i may be completely wrong about the "optimal base would be the square root of the number of digits" but a) that's why im asking and b) im too tired to remember my initial reasoning for assumption.
EDIT 2: 1000,000 in base ten = F4240 in base 16 = 364110 in base 8. In base 16 you need 20 bits to store the number in base 8 you need 21 so it would seem that by increasing the base you decrees the total number of bits needed. (again this could be wrong)