When a monopoly is faced with a smaller, more efficient competitor, they cut prices to keep people from switching, or buy the new competitor, make themselves more efficient, and increase profits.

When Steam was faced with smaller competition that charged lower prices, they did - nothing. They’re not the leader because of a trick, or clever marketing, but because they give both publishers and gamers a huge stack of things they want.

You can skip 3 of these adapters if you upgrade to the latest libraries, downgrade your microcode, turn off WiFi, and bench press a goat. It turns out it was the goat involved I’m the process, rather than the sacrifice, that made that stuff work.

“Graphical UI” it is

Systemd is trying to stop a service. To do an action to a service (or any unit), it runs a job. The job to stop a service is called a stop job. Once the stop job is taken off the job queue, the stop job is running.

The method of stopping a service is configurable, but the default is to send a kill signal to the MainPID, then wait for the process to exit. If it doesn’t, after a timeout, the kill is reattempted with a harsher signal.

Brain one way, but other brain other way. Chemical stuff is making brain stuff happen. Makes see different.

Arch Linux is a spectrum mean it says tomorrow

Have you tried turning them off, then turning them on again?

I think we’re still headed up the peak of inflated expectations. Quantum computing may be better at a category of problems that do a significant amount of math on a small amount of data. Traditional computing is likely to stay better at anything that requires a large amount of input data, or a large amount of output data, or only uses a small amount of math to transform the inputs to the outputs.

Anything you do with SQL, spreadsheets, images, music and video, and basically anything involved in rendering is pretty much untouchable. On the other hand, a limited number of use cases (cryptography, cryptocurrencies, maybe even AI/ML) might be much cheaper and fasrer with a quantum computer. There are possible military applications, so countries with big militaries are spending until they know whether that’s a weakness or not. If it turns out they can’t do any of the things that looked possible from the expectation peak, the whole industry will fizzle.

As for my opinion, comparing QC to early silicon computers is very misleading, because early computers improved by becoming way smaller. QC is far closer to the minimum possible size already, so there won’t be a comparable, “then grow the circuit size by a factor of ten million” step. I think they probably can’t do anything world shaking.

You can buy high (97-99) CRI LEDs for things like the film industry, where it really does matter. They are very expensive, but can pay for themselves with longer service life, and lower power draw for long term installations.

The CRI on regular LED bulbs was climbing for a long time, but it seems as though 90ish is “good enough” most of the time.

If you take the sun out of the equation, the planets fly apart in all directions. Hope that helps ;)

You can just issue new certificates one per year, and otherwise keep your personal root CA encrypted. If someone is into your system to the point they can get the key as you use it, there are bigger things to worry about than them impersonating your own services to you.

A lot of businesses use the last 4 digits separately for some purposes, which means that even if it’s salted, you are only getting 110,000 total options, which is trivial to run through.

Don’t joke about this, the college professors will hear you.

I think you’re reading more into the statement than is there. Their studio was founded the same year this game released, with only one of the two founders described as a programmer. I’m pretty sure they mean “we” as in “the two guys that founded the studio”.

An immutable OS is useful for things like an alarm clock, where if you accidentally muted the sound system, you could oversleep. There’s an obvious downside if you’re someone that watches porn on your alarm clock computer, but sometimes compromises must be made.

I wanted to know how important this really would be. Human reaction times among gamers are on the order of 150-300 ms, and professional gamers mostly manage 150-200 ms. A view refreshing 700 times per second gives a new frame every 1.4 ms, while a view refreshing 60 times per second gives a new frame every 16.6 ms.

In a reaction timing heavy game, this would not be enough to bridge the gap between the fastest in the world and the slowest professionals, but it’s on the right order of magnitude to make a difference in professional level play, up against a 60 Hz display. On the other hand, it’s only a marginal step up from a 240 Hz display, and the loss in resolution must have an effect at some point.

There’s probably games where this is better, but only when the difference is small, or the other display is handicapped.

He only believes in the first 22 words of the first amendment. If you want to speak about what he has done, or (far worse) gather with others that share your beliefs to speak extra loud… straight to jail.

The problem when photon containment breaks like this is that we can never be 100% sure which photons were SUPPOSED to be there, and which ones leaked out. We’ll need a dedicated team of particle physicists with very small tweazers to have any hope of sorting out this mess.

So you’re saying my proposed imperial units depend on where you are, and who is using them, for what purpose? That just sells me on them as imperial units even more. :)

Thank you for the details.

From smallest to biggest:

Bits (basic unit)

Bytes (8:1 reduction)

Words (4:1 reduction)

KiB (32:1 reduction)

MiB (1024:1)

GiB (1024:1)

TiB (1024:1)

PiB (1024:1)

A normal amount of porn (237:1)