Do you happen to own one? If yes, how do you feel about it?
For example, in the PineTime there is a heart rate monitor, but it’s too slow and imprecise. Notifications work great, and the battery lasts 20 days or more. How about the Bangle.js 2?
Professional C# .NET developer, React and TypeScript hobbyist, proud Linux user, Godot enthusiast!
Do you happen to own one? If yes, how do you feel about it?
For example, in the PineTime there is a heart rate monitor, but it’s too slow and imprecise. Notifications work great, and the battery lasts 20 days or more. How about the Bangle.js 2?
https://pine64.org/devices/pinetime/
Be warned though, the hearth rate monitor doesn’t work particularly well. And there is no sleep tracking afaik.
If you’d prefer something more reliable (but less open), GadgetBridge is an Android app to interface with commercial smart watches through reverse-engineered protocols.
For reference, this is what the “Checking for Updates” page on the Pop!_OS store looks like for me. This icon feels out of place, that’s why I assumed this is a placeholder that replaced the correct icon that went missing due to some kind of minor problem with my installation.
I assumed that’s the “no icon” placeholder for Gnome. I saw it around as well.
I’m definitely no expert so I might not be the best person to try and help, but if you want to try having a 1 on 1 chat to fix it, feel free to send me a PM.
Can you see at least GRUB, or nothing at all?
If you can see GRUB I would try booting with the “nosplash” kernel option, which causes video drivers to be loaded later.
This is a temporary fix, as it might cause other issues, but if it makes the screen work it will be a step in the right direction.
I am not sure… in the case I’m referring to, they were lagging also when scrolling. But it was React, so native browser rendering. And they were actually very large tables, so we had to do some funny things like viewport culling (see react-window).
For what it’s worth I’ve never had any similar performance issues with tables in Flutter (web with the canvas-based render engine, not Android) when applying the same culling technique, they just ran fine at any resolution. Different hardware, though, so it’s not an apple to apple comparison.
In any case just to be safe I would personally assume less pixels = less work = less power = more battery life. My opinion is very unscientific though.
Isn’t rescaling usually done by the display driver? I am fairly certain this is the case for external displays. Are laptop displays any different?
Edit: with “display driver” I mean the hardware chip behind the display panel, dedicated to converting a video signal to the electrical signals necessary to turn on the individual pixels.
As a web developer, I noticed that some elements such as very big tables struggle to render on 4K but are absolutely fine at 1080p. I would assume that means the CPU and/or GPU are more taxed to draw at higher resolution, and therefore I assume they would draw more power. I might be mistaken. Do you speak by experience?
I might be very mistaken, but I don’t think QEMU can link mixed-architecture dependencies. Box86 can run an x86 game on ARM and link ARM-native shared objects for OpenGL, thus skipping emulation of some hotpath code.
VM startup time can be skipped by saving state instead of shutting it down every time.
I would say the worst issue using a VM is with programs that need the GPU (e.g. CAD softwares or games), and software with aggressive DRM.
I thought so. Although almost nothing for modern standards, 60MB is not exactly tiny. Sorry about that.
On a different note, a repository is always a good thing imho. If you’d rather not have to worry about the dependency-pull step you can always include the dependencies with your sources, or just limit your code to using features included in the standard library.
JavaScript through Node.js, or TypeScript through Deno if you like typed languages. They both check all your boxes (just check the size of the executables to make sure that it’s what you would consider “small footprint”).
Both languages and runtimes are quite popular, so you will find any answers on StackOverflow.
They are both single-executable with little dependencies, and Deno can also compile your scripts to self-contained executables.
As a bonus, both support the vast and extensive NPM package repository where you can find all sort of libraries for even the most complex tasks.
And they work with your favourite IDE or editor, not just syntax highlighting, but also contextual suggestions.
I’m still a bit confused by the use of this “Driver Store”. Since when does Wine support device drivers? Or are we talking about something else?
Phoronix seems to explain a bit more, but I still did not understand: https://www.phoronix.com/news/Wine-9.16-Released
Could anyone share their insights?
I didn’t understand that you ran it without hardware virtualization. This is really convenient, thanks a lot for making it!
Yeah, you are correct. Docker shares the kernel with the host operating system, it doesn’t use hardware virtualization. That’s why it’s so fast and simple, but it also means it’s not a traditional VM and thus comes with some limitations.
I might actually be interested. It’s like a lightweight alternative to Proxmox?
None, I use Docker for Linux, and Proton (Heroic) for Windows.
But if I had to pick a virtual machine: libvirt with virt-manager as a frontend, which uses KVM for virtualization.
1099$, seriously? 😅