This document presents new time-based UUID formats which are suited for use as a database key.
A common case for modern applications is to create a unique identifier for use as a primary key in a database table.
This identifier usually implements an embedded timestamp th...
This document presents new time-based UUID formats which are suited for use as a database key.
UUID versions that are not time ordered, such as UUIDv4, have poor database-index locality. This means that new values created in succession are not close to each other in the index; thus, they require inserts to be performed at random locations. The resulting negative performance effects on the common structures used for this (B-tree and its variants) can be dramatic.
I guess, this means with these new UUIDs, ideally you only create UUIDs on systems that are hooked up to NTP, though I guess, it won't really be worse than UUIDv4 either way.
My understanding is that as long as IDs are roughly the same range of the index instead of literally random, it reduces the thrashing about needed for indexing these. It probably doesn't need to be perfectly exact. They're talking about B-trees, so these would all be modifying the same smaller branches of the tree instead of going in all over the place.
Yeah, that is my understanding, too. Otherwise you'd only want to generate them on the database host, as even with NTP there will be small differences. This would kind of defeat the purpose of UUIDs.
If you're saying that even without NTP, just by manually setting the time, things will be fine. I mean, maybe. But I've seen it far too many times already that some host shows up with 1970-01-01...