view the rest of the comments
Selfhosted
A place to share alternatives to popular online services that can be self-hosted without giving up privacy or locking you into a service you don't control.
Rules:
-
Be civil: we're here to support and learn from one another. Insults won't be tolerated. Flame wars are frowned upon.
-
No spam posting.
-
Posts have to be centered around self-hosting. There are other communities for discussing hardware or home computing. If it's not obvious why your post topic revolves around selfhosting, please include details to make it clear.
-
Don't duplicate the full text of your blog or github here. Just post the link for folks to click.
-
Submission headline should match the article title (don’t cherry-pick information from the title to fit your agenda).
-
No trolling.
Resources:
- selfh.st Newsletter and index of selfhosted software and apps
- awesome-selfhosted software
- awesome-sysadmin resources
- Self-Hosted Podcast from Jupiter Broadcasting
Any issues on the community? Report it using the report flag.
Questions? DM the mods!
Zram swap is basically this: Turn all of your free ram into a swapdisk. Compress all access to that swapdisk.
So, it's not using you storage, buy your memory. Most stuff in memory is usually highly uncompressed - so it compresses really well.
Instead of getting the additional space from disk, it's getting it from compression.
Can you please explain to me the difference? How does a swapdisk compare to RAM? I don’t mind googling it but I highly doubt I’ll get a straightforward ELI5 style answer from there.
I would really appreciate it if you can elaborate, if you have the time that is.
Thank you.
There are two types of computer memory that fundamentally matter on the consumer level:
Solid state disk storage, and in particular some SD cards, can be vulnerable to excessive writes.
Ram, however, is not impacted by the number of uses.
A swap file works like this: When memory gets full, you move the least-used parts onto the swap file.
A normal swapfile is on-disk. When memory gets close to full, the system moves some onto the (much much slower, like 10-1000x) on-disk swapfile.
Zram swap creates a compressed swapfile out of your free memory. A file in linux does not have to be on a hard disk/ssd, it just has to look and quack like a file. When memory gets close to full, the system copies some onto the in-memory compressed file. This is very fast, but uses some cpu. It doesn't touch your drive storage.
That is a great explanation. It makes perfect sense to me know. Thank you