JavaScript can represent contiguously the integers between -9007199254740992 and 9007199254740992. It actually *can* represent larger (and smaller) integers, but not all of them! In fact the "next" integer after 9007199254740992 is 9007199254740994. They are two apart for a while, then become 4 apart, then 8, etc. As you noticed, when they get really large, they display in scientific notation. Even the result of `toFixed`

is not guaranteed to be displayed in a form that consists of digits only.

So when you compute integers that would be in the range of 23 decimal digits, you would be unable to represent a bunch of them using JavaScript's native `Number`

type (IEEE-754 64-bit).

If you don't care about a specific distribution for your random numbers, a random string over the alphabet `0..9`

can work, as can pasting together smaller integers, but if you *are* looking for a specific distribution then you should (as suggested by Ignacio Vasquez-Abrams) use a library supporting arbitrary-length precision.