Alternatively the y axis could be “blog posts not about …”
Alternatively the y axis could be “blog posts not about …”
Ah, gotcha.
Is there like a list where you can enter your server so that other people use it as an ntp server? Or how did you advertise it to have 2800 requests flooding in?
I have similar specs and cost with ionos
It says posted 4 days ago, updated yesterday.
For most stuff the pi4 is also enough. Jellyfin (no transcoding) works fine on mine. It takes a bit to generate the chapter images and the timeline peek images when ingesting a new movie, but I’ve never had any issues with playback.
Wait what? Do I understand that correctly? You have a raspberry pi with a direct network connection to an atomic clock? That’s so awesome!
The short excerpt suggests this, yes
But spoiler alert: they too will have thought about that.
A basic image is really easy. It’s basically just
Dockerfile
FROM debian # start with a minimal Linux system. There are probably better options than debian. Some images are made especially for docker (i.e. very minimal and light weight).
RUN apt install dependencies # do what ever you need to get your app running.
RUN echo "options and stuff" >> /etc/a/config/file # you can also edit system files
COPY . /app # copy your project into the docker container.
EXPOSE 8080 # doesn't actually do anything, but documents where the app will be listening
CMD server-binary run /app/main.php # I have actually no idea how php server stuff works
(Docs https://docs.docker.com/reference/dockerfile/)
Then people can run your project with docker.
Edit: checking the readme some small changes would be required. Config.php should read in environment variables and the DB init SQL should be run automatically somehow.
I have a graphical application that crashes regularly when I switch between displays with Ctrl+alt+number. Something in the winit stack does not like it.
Compilation: top row, runtime: button row.
There are 4x the pixels so…
Totally agree, but then
2k, 4k, and 8k
Is internally inconsistent!
If 4k is four times the pixel count of 1080, then 2k means 1440 (-ish, it should be 1530) - that’s fine. But then 8k must be 3050, but it is actually 4320!!!
So it can not refer to the number of pixels (quadratic scaling). On the other hand, if we assume linear scaling and 8k is 4320 and 4k is 2160, then 2k is 1080 - but 2k is never used in that context!
Edit: as you can see I’m very passionate about this XD
Maybe consider paperless-ngx.
Its primary purpose is document management, but you can easily upload receipts and pictures as well. I use paperless-mobile to interact with my instance.
I have the opposite problem, llavafiles (a large language model, packages as a single files) can run on both Linux and Windows. They are written to be compatible with both.
But when I ./file to run it, eine is started automatically!
(The llava file GitHub has a workaround, but still by default it chooses wine for some reason)
I’d argue it’s a nice thing to make the costs obvious for people who can’t do multiplication.
Nice
Only host what you need.
It depends if underpowered means “too slow” for you, or “slow”. I would consider the meaning more similar to “too slow”, i.e. I think the reference point matters. Therefore for me the pi is not underpowered, just low powered. [Edit: to keep the discussion on track, I would therefore consider the pi “good enough”, which was the original claim in the second level comment]
Of course in terms of absolute numbers the pi has not a lot of processing power.
Meme: image of an airliner cockpit, but the thrust levers are replaced with a big button that says “import numpy”
Nah, just slow.
But it has a ridiculously big library and is easy to write. A lot of libraries are also written in C, so the slowness drawback doesn’t even apply in some cases.
It entirely depends on what you want to do with it. So calling it underpowered is not a statement that can be made in general.
I had this problem before as well. Something was spamming log messages and filled up the boot drive. No snap needed.
No, because you can’t mathematically guarantee that pi contains long strings of predetermined patterns.
The 1.101001000100001… example by the other user was just that - an example. Their number is infinite, but never contains a 2. Pi is also infinite, but does it contain the number e to 100 digits of precision? Maybe. Maybe not. The point is, we don’t know and we can’t prove it either way (except finding it by accident).