I got a cheap netbook style laptop for traveling some weeks ago (HP Stream 11" with 4 GB of RAM and a N4120). Didn't expect much more from this hardware than opening a few browser tabs and doing some retro gaming via Steam.
Shared RAM with graphics card means that 3.64 GB of RAM are effectively usable for the OS. This was even too little RAM to open a handful of tabs w/o having tabs being unresponsive for seconds sometimes in a very annoying way. Another thing which made trouble was the Wifi - I guess it went into power saving, was swapped and didn't load fast enough to provide a good experience. (Of course I wasted an hour checking for Wifi drivers/support.)
In short: Even for my low expectations for this laptop it was an underwhelming experience.
First step was to look at my vm.swappiness and set it to 10, which already helped, but still the machine had hiccups and annoying timeouts.
In a last, desperate effort I enabled ZRAM on the laptop... and literally WTF: Saying it is a night and day difference doesn't do the experience justice. Typing this words now on the Stream, which I use exactly the same way as my much more beefy other machines (my next worst computer has 8G of RAM and an Intel Core i3), browsing with 10 open tabs, e-mail client open on another virtual desktop... it is crazy, it makes the Stream fun to use and I use it at home for everything which isn't heavily CPU/IO bound.
What surprised me the most: No hiccups, no timeouts and it even fixed the Wifi issues on this little machine. Didn't expect this would be possible, especially with a N4120 and 3.64 GB of RAM.
In short, my laptop changed from not even reaching my low/realistic expectations to being my favorite technical purchase of the last years, thanks to ZRAM.
Besides making this a ZRAM appreciation post, I really want to spread the word about it. Especially for old hardware and limited RAM situations, IMHO it should be the first thing which comes to mind/is recommended.
Fedora and PopOS use it by default, so it is well tested and should IMHO again, be a default at least for desktop setups.
Give it a try - supposedly it even improved the experience on much more beefy computers for gaming etc.
I'm running ZRAM on my old Netgear ReadyNAS's, which has 512MB or 256MB RAM. It enables them to do a lot more than they otherwise would be able to, running a modern linux distribution.
I've been so satisfied with it that I even started running it on my modern desktop with 32GB RAM, it helps with my tab addiction :)
Rolling out ZRAM to all my boxes right now! 🙃
Do you also tweak other settings for ZRAM? According to ArchWiki PopOS settled for the following settings:
I am testing this settings right now and cannot say I experience a difference compared to the defaults.
vm.swappiness
value should be between 0 and 100 IIRC.Kernel 5.8 changed this, so the value is from 0 to 200.
https://docs.kernel.org/admin-guide/sysctl/vm.html#swappiness
Yes. I stand corrected.
https://stackoverflow.com/questions/72544562/what-is-vm-swappiness-a-percentage-of
I read several articles on this topic, and it seems there are urban legends and misunderstandings about setting vm.swappiness. The 180 was an experimental result from PopOS and Fedora people, and it only makes sense with ZRAM AFAIK. ... anyway, long story short, I ended up with the default of 60 after some testing. ;-)
I don't really tweak much. I use the Debian default of 50 percent RAM used. For the NAS's I tell it to use lz4 as they're pretty weak cpu-wise.
zstd compression algorithm can be overkill depending of your use case. I'd try lz4 compression algorithm just to see if it sits well with you, since it's overally faster, less CPU intensive, than zstd at a possibly negligible compression rate.
Have been using zstd for compression with ZRAM at least for my raspberry pi for years now, and I don't experience any CPU bottleneck in usual usage, but memory is really scarce, so I'll stick to it.
If I remember correctly, other people on reddit, from Fedora and PopOS did some benchmarks. Fedora defaults to lz4, AFAIK and PopOS to zstd.
Has anyone ever actually benchmarked vm.page-cluster = 0? Makes no sense to me to suggest a cpu is so bottlenecked that disabling read-ahead would actually help. If anything it would mitigate the decompression time if it guessed correctly as the work would already be done if left at the default of 3. Normally cpu is not bound when using zram because its quite low cpu anyway.
For my own usage, I just enabled ZRAM, 50% with zstd and left all other options unchanged, which seems to be the conservative approach and more important: It works on my machines(TM).
I would love to see some benchmarks or even a structured run down about the available options and configurations.