Following is text from Data structure and algorithm analysis by Mark Allen Wessis.

Following x(i+1) should be read as x subscript of i+1, and x(i) should be read as x subscript i.

x(i + 1) = (a*x(i))mod m.

It is also common to return a random real number in the open interval (0, 1) (0 and 1 are not possible values); this can be done by dividing by m. From this, a random number in any closed interval [a, b] can be computed by normalizing.

The problem with this routine is that the multiplication could overflow; although this is not an error, it affects the result and thus the pseudo-randomness. Schrage gave a procedure in which all of the calculations can be done on a 32-bit machine without overflow. We compute the quotient and remainder of m/a and define these as q and r, respectively.

In our case for M=2,147,483,647 A =48,271, q = 127,773, r = 2,836, and r < q.

We have

```
x(i + 1) = (a*x(i))mod m.---------------------------> Eq 1.
= ax(i) - m (floorof(ax(i)/m)).------------> Eq 2
```

Also author is mentioning about:

```
x(i) = q(floor of(x(i)/q)) + (x(i) mod Q).--->Eq 3
```

My question

what does author mean by random number is computed by normalizing?

How author came with Eq 2 from Eq 1?

How author came with Eq 3?