It also might be that c++ as a topic, might be better positioned to lending answer these types of questions. Since the language is so close to the hardware. Knowing these things to some degree better enables you to use the language effectively.
Alastair from overclock.net says : " I dont know about you. But being able to save the CPU after bending a pin sounds like a massive advantage. "But I pull out the CPU when I remove the cooler" I hear you say. Well firstly instead of just trying to yank off your cooler just twist it back and forth gently and it will eventually come free. And if you do happen to pull it out the socket any way well it doesnt damage anything."
also, the quality of the steel is determined by the grain. The grain of the steel can be made smaller and more tightly packed by quenching, and then the grains can be made stiff by annealing. This is where the true strength of steel comes from
@Rick Technically, it's not quenching that makes the grain smaller. It's heating that leads to the smaller grain size. Quenching just chills the steel quickly enough that it becomes solid (stopping grain growth) before the grains can grow much.
@EtiennedeMartel if you want to reduce the carbon content of steel you can heat it with an open flame. The flame should steal the carbon molecule on the surface to produce CO2
Traffic jam is not always a bad thing, I mean, when the cars are moving at 30cm per second on this Sydney main artery, I am going to force the drivers to look at this gigantic ads I have put outside of the place I need to rent out.
You put an advertisement on a major real estate website, it will cost you $350, the support is not so great and you are getting about 350 views in it's life time.
You put out an A0 sized DIY advertisement at side of one of the busiest roads here (which the property is on), you pay $100 and you are getting 10,000+ people to look at it every week. That's 1 cent for every view, and the viewers are targeted, viewing time can be long (because traffic jam is severe around peak hours).
@LoïcFaure-Lacroix Yes, but you don't (normally) want to just steal carbon from the surface. You want to have a relatively uniform carbon content, or (fairly frequently) a "core" with a fairly low carbon content, and a fairly thin layer at the surface with a substantially higher carbon content.
Single room with en suite, 24 hours room services, all meals provided - if you are an indoor kind of person who don't like to go out, supermax sounds almost ideal :p
@TelKitty isn't that pretty much the premise of the Riddick chronicles? That they just dumped people on a world that was super inhospitable where they basically had to live underground?
@Mgetz That's one of those things that people like to shit on in the US. Regulations everywhere and they keep getting in the way of things. But they also prevent tragedies like this.
People want to be free to do what they want, they also want to be safe using public infrastructure but wooooah, you want to put in rule saying that such infrastructure has to be safe? Respect my fwedom
But yes, RGB does contribute to thermals. My main box has poor airflow over the ram. So when I tried my RGB stick in them, they did get a little warm (60C+). So I swapped them back with my other rig which does have ram airflow.
@Mgetz My case, PSU, AIO, are all arriving either today or early next week. Not sure if I should start assembling it even though I won't have mobo+CPU until September. And no ram either.
But I'll have to at least open up the AIO to see the RGB connectors on it.
Yeah, all core overclocks can be useful. But only when you really really need that sort of frequency lock. The chip can easily beat that overall if you let it even at stock settings
it's not simple but the short answer is that it scales like GPU clocks now...
Either way GN's major takeaway was that case and cooling are likely to be the biggest limiting factors in most high end builds. The boards can supply insane power. The chip can use it... just it needs to stay cool.
@Mgetz I'll have to see. If any overclocking beyond base clock turns off power saving and PBO like in Zen 1, I'll probably just be running it at stock.
@EtiennedeMartel Thinking back on things, what I found surprising wasn't so much that the difference was so small, but the direction. I'd always heard that steel was iron with carbon added to make it stronger and tougher. That made it a little bit of a surprise when I found out that to make steel, you start by burning off (nearly) all the carbon, then you add back in a measured (and much smaller) amount of carbon. IOW, cast iron is really steel with so much carbon it's always brittle.
@EtiennedeMartel Yup--I recently got a new stove with a cast iron griddle built in. Takes a few minutes to warm up properly, but once it's warmed up, it works beautifully (especially for pan cakes).
@Mysticial Not entirely clear to me how you'd use it if it were static. Normally you have some_object(/*args*/), but if it's static, then there's no object on which to invoke it. Yes, invocation of some_type() would be ambiguous with constructing a temp object.
@Mysticial I'm sure starving children in Africa still worry if their code isn't as pretty as it could be (even if the closest it ever comes to running is on a picture of a computer drawn on a black board).
As a parameter to a function template. IIRC it's also possible to use functions as class template parameters.
Function addresses are resolved at link time. At compile time their address is just a placeholder for the linker to fill in later. And from what I remember from "Modern C++ Design", this placeholder can be used as a template parameter.
@Rick Well, an object is being passed as the argument, and we invoke the operator on that object (baz() isn't invoking baz.operator(), it's just creating a temporary object of type baz).
AFAIK [[no_unique_address]] can only be applied to class members
And that doesn't fix the fact that if your optimizer can't see the body of foobar::operator(), it will still need to pass a pointer to an instance of foobar to the function
I know I guess what I'm suggesting is that the committee could use that attribute on function objects that are empty to allow the compiler to omit the this
basically as a way of saying that the operator() can be called directly
@Rick Sorry for the delay--had to stop and do some work for a while.
So, this part: foo(baz()); creates a temporary baz object, and passes it to foo. Then foo receives that as f (of some type F). It then does f();. So, if you passed the address of a function, it'll call the function whose address you passed. OTOH, if you passed an object, it'll invoke that object's operator().
Now if you really want to go crazy, trace through proxy types in matrix3. Mu hah hah hah! (or however an evil laugh is supposed to sound...)