# Bits, not hex

Focusing on hexadecimal digits is confusing you.

A UUID is not made of hex. A UUID is made of 128 bits.

Humans would resent reading a series of 128 bits presented as a long string of `1`

and `0`

characters. So for the benefit of reading and writing by humans, we present the 128-bits in hex.

Always keep in mind that when you see the series of 36 hex characters with hyphens, you are *not* looking at a UUID. You are looking at some text generated to represent the 128-bits of that are actually in the UUID.

# Version & Variant

The first special meaning you mention, the “version” of UUID, is recorded using 4 bits. See section 4.1.3 of your linked spec.

The second special meaning you indicate is the “variant”. This value takes 1-3 bits. This See section 4.1.1 of your linked spec.

A hex character represents 4 bits (half an octet).

- The
*Version* number, being 4 bits, takes an entire a single hex character to itself.
- Version 4 specifically uses the bits
`01 00`

which in hex is `4`

as it is too in decimal (base 10) numbers.

- The
*Variant*, being 1-3 bits, does *not* take an entire hex character.
- Outside the Microsoft world of GUIDs, the rest of the industry nowadays uses two bits:
`10`

, for a decimal value of 2, as the variant. This pair of bits lands in the most significant bits of octet # 8. That octet looks like this, where ‘n’ means 0 or 1: `10 nn nn nn`

. A pair of hex characters represent each half of that octet. So your 17th hex digit, the first half of that 8th octet, `10 nn`

, can only have four possible values:
`10 00`

(hex 8)
`10 01`

(hex 9)
`10 10`

(hex A)
`10 11`

(hex B)