The Linux Kernel uses a linked list for TCP and a RB tree for process scheduling.
In terms of algorithmic efficiency, these make sense. You're going to be getting a bunch of packets one at a time so O(1) insertion at the end of the list is nice.
With process scheduling, the Completely Fair Scheduler uses a Red Black tree, with O(1) time to choose tasks.
As far as I know neither of these are implemented in a 'flat' way - the linked list is a bunch of nodes with pointers to other nodes, just like the tree. This means that locality for these structures, as far as I know, should be poor.
From what I've seen cache locality often outweighs algorithmic efficiency.
Is there something about the data set that Linux is programmed for that makes the algorithmic efficiency of these structures outweigh the cache efficiency of others?
Am I misunderstanding something? Has anyone profiled?