The uniqueness comes from the chances of you or anyone getting that same guid again using a fair guid-generating algorithm. The guid algorithm is basically a random number generator and the number of choices is so astronomical, that is is extremely unlikely that any two fairly generated guid generations will result in the same number.
There are 2^128 unique guids because guids are 128 bits. If you only have 64-bits (8-bytes), then you only have 2^64 choices. That is a MUCH smaller number and if you choose your 64-bit numbers randomly then there's a much higher chance that you'll "collide" with another random selection.
If you gave some structure, say 4-bytes for the date and time down to the minute (smalldatetime) then you'd have 60-bits left for a random number to uniquely identify any records for that one minute. If you're ok with the (n-1)/2^60 th possibility of repeating an ID for the nth new record every minute, then you can use that. (You'd still use all 64 of those bits as your ID) Otherwise, increase your bits!
Further, note that GUID doesn't have to be truly globally unique to be useful - the implicit information of what-it's-for is part of its uniqueness too! If you have a record in your database for managing file uploads, and that SAME guid is used by programmer in Prague to define some ActiveX plugin - there's absolutely no issue because there is no time where some code will use your record id to load the activex, nor the browser to accidentally load your record when it was intending to load the plugin! The context of the number is an important part of the number itself.
BUT, unless you have to generate new IDs between 2 or more systems which aren't always connected (offline or peer-to-peer clients, or multiple servers) then use serially incrementing longs instead, managed by the central authority.