hEy, yOu lEaRnEd A bUzZwOrD aNd rEcEnTlY dIsCoVeReD tHe sHiFt KeY!!! cOnGrAtS!?!

hEy, yOu lEaRnEd A bUzZwOrD aNd rEcEnTlY dIsCoVeReD tHe sHiFt KeY!!! cOnGrAtS!?!

hEy, yOu lEaRnEd A bUzZwOrD aNd rEcEnTlY dIsCoVeReD tHe sHiFt KeY!!! cOnGrAtS!?!

But this issue wasn’t found because of code analysis per se, but because of microbenchmarking.

Oh, we play dumb ad-hominem without any basis in reality?

I can play this too: Was your last school homework hard?

If the vulnerability is in the wild, what other security mechanisms do you have until it’s patched?

The only real downside on the open source side is that the fix is also public, and thus the recipe how to exploit the backdoor.

If there’s a massive CVE on a closed source system, you get a super high-level description of the issue and that’s it.

If there’s one on an open source system, you get ready-made “proof of concepts” on github that any script kiddy can exploit.

And since not every software can be updated instantly, you are left with millions of vulnerable servers/PCs and a lot of happy script kiddies.

See, for example, Log4Shell.

Most people I helped getting Linux to work are actually not techy at all and they haven’t touched the CLI at all so far…

I guess it differs if you use Linux because you are interested in the technology or if you use it because Windows 11 doesn’t run on your PC.

Tbh, I don’t recommend beginners to try out multiple distros in the beginning. Realistically, if you don’t have in depth Linux knowledge already, all you’ll be able to differentiate is the look of the DE and the wallpaper.

I find, too much choice tends to confuse beginners more than it helps them.

So I’d rather recommend something simple like Ubuntu and let them try out the flavours with the different DEs.

Choice is better for later when people actually understand what they are looking for.

You lost your job? Your wife an away with the post man? You are just grumpy?

Go splash the Mona Lisa’s glass and all your troubles go away!

@aihorde@lemmy.dbzer0.com draw for me Soup with Mona Lisa splashed on it. The soup is enjoying the Mona Lisa and the Mona Lisa is very tasty.

That would indeed be very helpful. But if all the other usages keep draining the supply, it will only help extend artificial reserves.

Stuff only becomes valuable when it’s mostly gone…

A Fairphone 4. Got it at launch and it’s a terribly buggy mess.

Describing all the issues would make a huge wall of text.

The sad part is that the hardware is ok. But they don’t seem to have any software QA at all.

My goal was to carry it until 2027, when replacable batteries will become standard, but since I can’t even use the phone for calling, I am trying to at least carry it until the Galaxy S55 launches.

I got the 6 million from this link: https://www.chemanalyst.com/industry-report/helium-gas-market-578

The issue is not how much can be produced right now, but the rate at which we are depleting it.

I found different estimates on how long earth’s helium supply will last, and most of them are between 10 and 100 years. That’s not a long time, considering that it means we will lose access to a whole element.

But not nearly the required amounts. We currently use about 6 million metric tons of helium per year.

If fusion plants ever become a commercially viable thing (and that’s a big if), they will never be able to supply anything close to that.

There’s quite a large amount of the usage which could be labelled “for fun”.

But we are consuming about 6 million tons per year (https://www.chemanalyst.com/industry-report/helium-gas-market-578).

The 3000 tons are just a drop in the water and it’s pretty much impossible to get to all that.

Not in a way that could be scaled up to even cover the childrens birthday parties of a medium sized city.

One relevant part that I couldn’t really find in the article is that helium is so light that it escapes Earth’s atmosphere when released into the air.

So any helium that is released to the air is permanently gone.

There is also no known way to synthesize helium, and it also doesn’t renew itself at all on Earth.

It’s also the only substance we have to cool stuff really far down. That’s why e.g. MRIs depend on it.

And we put this precious, finite and often life saving substance into kids’ balloons to make them bobble nicely through the air.