To be clear, I don’t blame the poster of this comment at all for the content of their post – this is accepted as “common knowledge” by a lot of Linux sysadmins and is probably one of the most likely things that you will hear from one if you ask them to talk about swap. It is unfortunately also, however, a misunderstanding of the purpose and use of swap, especially on modern systems.
It doesn’t. It’s just good to have in most circumstances.
Also, sidenote: “GNU” doesn’t apply here. Swapping is purely kernel business, no GNU involvement here.
Physical memory does not just contain program data, it also contains the filesystem cache, which is also important for performance and responsiveness. The idea is that some of the least recently used memory pages are sometimes evicted to swap in favor of more file caching.
You can tweak this behavior by setting the
vm.swappiness
kernel parameter with sysctl. Basically higher values mean higher preference for keeping file backed pages in memory, lower values mean higher preference for keeping regular memory pages in memory.By default
vm.swappiness = 60
. If you have an abundance of memory, like a desktop system with 32G, it can be advantageous to lower the value of this parameter. If you set it to something low like 10 or 1, you will rarely see any of this paradoxical swap usage, but the system will still swap if absolutely necessary. I remember reading somewhere that it’s not a good idea to set it to 0, but I don’t remember the reason for that.Alternatively, there is no rule that says you can’t disable swap entirely. I’ve run a 32G desktop system without any swap for years. The downside is that if your 32G does run out, there will be no warning signs and the OOM killer will unceremoniously kill whatever is using the most memory.
tl;dr just do this:
sysctl vm.swappiness=10 echo "vm.swappiness=10" > /etc/sysctl.d/99-swappiness.conf