Retro computing enthusiast.
Avatar taken from: https://en.wikipedia.org/wiki/Cyrix\_Cx486#/media/File:Cyrix\_Cx486DX4.jpg
Did anyone manage to build this? It seems something is missing, or I am doing something wrong. The build fails due to missing symbols for me. Also, interestingly the assembler complained about one line in a certain file being too long. Fortunately that lines was just a comment, so it was easy to fix that.
Matrix also does have a pretty big problem with meta data. By default it stores a ton of meta data (at least the reference server implementation does) and I am not sure if this is even a solvable problem without redesigning the protocol. When opting for an alternative to Signal, XMPP is probably the better choice.
Before anyone loses their minds, imagine you get the i3-8300T model that will peak at 25W, that’s about 0.375$ a month to run the thing assuming a constant 100% load that you’ll never have.
Not sure how you came to that conclusion, but even in places with very cheap electricity, it does not even come close to your claimed $0.375 per month. At 25 W you would obviously consume about 18 kWh per month. Assuming $0.10/kWh you’d pay $1.80/month. In Europe you can easily pay $0.30/kWh, so you would already pay more than $5 per month or $60 per year.
Awesome project. Thanks for sharing.
Lots of answers about use-cases of additional wifi networks, so I won’t go into that. I haven’t seen the downsides mentioned here, though. While technically you can run lots of wifi networks of off the same wifi router/ap, each SSID takes a bit of air time to broadcast. While this might sound rather insignificant since this is only a rather tiny bit of information transmitted, it is actually more significant than one might expect. For one the SSIDs are broadcast quite often, but also they are always transmitted at the lowest possible speed (meaning they require a lot more airtime than normal WiFi traffic would require for the same amount of data) for compatibility reasons. This is also the reason why it is a good idea to disable older wifi standards if not needed by legacy clients (such as 54 Mbit/s 802.11G wifi).
Having two networks is usually fine and doesn’t cause noticable performance degradation, having 4 or more networks is usually noticable, particularily in an already crowded area with lots of wifi networks.
For many li-ion laptop batteries, the manufacturer’s configuration of a 100 % charge is pretty much equivalent to overcharging. I’ve seen many laptops over the years with swollen batteries, almost all of them had been plugged in all the time, with the battery kept at 100 % charge.
As an electrical engineer you should know that technically there is no 100 % charge for batteries. A battery can more or less safely be charged up to to a certain voltage. The 100 % charge point is something the manufacturer can choose (of course within limits depending on cell chemistry). A manufacturer can choose a higher cell voltage than another to gain a little more capacity, at the cost of longterm reliability. There are manufacturers that choose a cell voltage of 4250 mV and while that’s possible and works okay if charged only occasionally, if plugged in all the time, this pretty much ensures killing the batteries rather quickly. I would certainly call that overcharging.
Since you already mentioned charging thresholds, I just want to say, anyone considering using a laptop as a server should absolutely make use of this feature and limit the maximum charge.
Ich kann dir zu der Nabe keine Tipps geben, aber Einspeichen ist privat absolut machbar und auch nicht besonders schwierig. Es ist hauptsächlich Fleißarbeit. Außer einem Speichenspanner braucht man dazu keine weiteren Werkzeuge. Zentrieren kann man nach Gehör (oder mit einer Smartphone App die die Frequenz messen kann) machen, indem man die Speiche wie eine Saite anschlägt um einen Ton zu erzeugen. So kann man leicht sicherstellen, dass alle Speichen gleichmäßig angezogen sind.
Of course harassment is never okay, but I’d say when it comes to GNOME, this is not surprising. GNOME developers have been so hostile towards both users and other developers for a long time. I’m not saying every single person associated with the project does this, but it is pretty common (e.g. here and here ). Of course the GNOME devs don’t have to accomodate everyone, but it is a common theme with the project to remove features despite user backlash and also to close bugs as WONTFIX often without good explanations as to why, even when there are pull requests for fixing the problem.
I am simply avoiding the project, since there are enough good alternatives.
I’d choose LUKS over Veracrypt for simplicity. If the drive is solely for backup, depending on the backup tool you use, you might not even need encryption on the file system level. Several backup solutions support data encryption.
Yes, the Odroid H series SBC probably come closest to OP’s requirements. Schematics are available on their website. They are also really low power with even the older H2 idling below 4 W.
Disableing the root login gains nothing in regarding security.
This is usually not the reason people recommend disabling root login. Since root is an anonymous account not tied to an actual person, in a corporate setting, you do not really know who used that account if you allow root login. If this is relevant for a personal home network is for you to decide. I would say there is not such a strong argument for it to be made in that setting.
Highly susceptible to replay and man in the middle attacks.
fwknop
isn’t susceptible to either.
I was thinking about doing something similar and was considering running Android on a Raspberry Pi. There are unofficial LineageOS builds for the Raspberry Pi. I haven’t tried that yet, but I guess it should be possible to use the Jellyfin Android app on such a setup.
Die grüne Plakette (4) bekommt man bereits für Benzin-Fahrzeuge mit Euro 1.
Unwahrscheinlich, da die Euro 4-Norm erst 2005 eingeführt wurde.
Getting certs from Let’s Encrypt should work fine with any provider, even if you can’t open any ports, since they do support DNS challenge.
OP mentioned $0.40/kWh, so that would be about $17 per year with a 5 W difference.
Particularly in low-load scenarios there can be quite a big difference when it comes to PSU efficiency. While newer ATX PSUs have become better with regards to efficiency at low load, a Pico PSU can still be quite a bit better. Older ATX PSU often don’t even reach 60 % efficiency at 5 % load (which would be a typical load for such a system at idle), sometimes considerably less than that. At the same load a Pico PSU can easily be at 85 % efficiency.
Of course, at higher loads the difference is way smaller.
No, even the earliest Ryzens support ECC reporting just fine, given the motherboard used supports it, which many boards do. Only the non-Pro APUs do not support ECC.