The housing crisis arises out of one problem, and one problem only:
Housing as an investment.
My city has a rental vacancy rate of <4%, and a homeowner vacancy rate of <1%. Flippers leave a house empty while under the process of flipping it, and that’s not what the numbers show. Landlords do increase the cost compared to ownership (they have to cover all normal costs of ownership, plus have profit for themselves), but they don’t reduce the number of shelters being occupied. Not when vacancy rates are this low.
In other words, my particular city may have costs driven up by flippers and landlords, but the number of dwelling units would be short even without them. Getting rid of them would be an insufficient solution, even if there are some benefits on costs. It does not address the problem that we need more dwelling units.
There’s a few different techniques. The crudest is to check what cell tower you’re connected to and use its location as your location. Good enough to find what sandwich shops are in the area, but not precise enough for driving instructions. That takes GPS satellites.
Flat earthers sometimes confuse these modes to say your phone only connects to local towers. Most people don’t know the details and don’t know how to refute it.
There’s a guy out there who made a reversible NES emulator, meaning it can run games backwards and come to the correct state. He made a brilliant post on Reddit /r/programming linking his ideas for the emulator to quantum mechanics.
Then he was asked why he didn’t distribute his program in git. He said that he didn’t know git.
To me, that’s a pretty good example of the difference between computer science and software engineering.
Surface area of the fin stack matters. An air cooler will always be limited by the space available around the CPU. A water cooling radiator has more flexibility to be placed in around the case.
That said, having less than a 360mm AIO is probably a waste. Also, higher end Intel chips these days are so power hungry that they can’t be physically cooled properly with the surface area available on the package.
They recognized that PCs were the next big thing and needed one of their own. Large companies don’t move fast, and IBM is certainly no exception, but they had to move fast now. So they took a bunch of off the shelf components that anyone else could have bought and called it their PC.
Everything except the BIOS. It regulated how the OS interacts with the hardware. Almost to the point where you could argue DOS isn’t an OS at all, but just a thin command line layer over the BIOS, plus a simple minded file system.
Anyway, some people at Compaq make a cleanroom implementation of the BIOS and release an “IBM PC compatible”. This quickly becomes the basis of everything we call a PC today. But IBM doesn’t get to profit off it in the long run. They sold off their PC division decades ago.
The show “Halt and Catch Fire” has an excellent fictional example of the reverse engineering process.
Nonsense. It’s a simple continuation of something that has always been around. They would have needed to actively and purposefully changed it. The first company that tried to sell “1 Megabyte/s” instead of “8 Megabits/s” is shooting themselves in the foot because the number is smaller. If it was going to change, you would need everyone to agree at once to correct the numbers the same way.
Modems were 300 baud, then 1200 baud, then 56.6k baud. ISDN took things to 128k baud, and a T1 was 1.544M baud. Except that sometime around the time things went into tens of k, we started saying “bits” instead of “baud”. In any case, it simply continued with the first DSL and cable modems being around 1 to 10 Mbits. You had to be able to compare it fairly to what came before, and the easiest way to do that is to keep doing what they’ve been doing.
Ethernet continues to be sold in the same system of measurement, for the same reasons.
I’ll take DS9’s first two seasons over TNG’s first two any time. Yes, even Move Along Home. TNG also peaked around season 5, and was somewhat more mixed after that (but never going quite so low, either).
They might use some kind of mask to spray something on. I tried to replicate it by printing TPU to fabric, but TPU can be hard to work with for such fine details and consistency.