@nwp I agree with @milleniumbug. It is a difference in C ASCII ordering and UTF-8 ordering in English. With C or POSIX locales it uses ASCII ordering and in that ' ' < 's'. But when you are using *.UTF-8, it uses Unicode collation algorithm.
This is not at all a coreutils issue. This is locale specific. The utilities just use the locale information that it provided by Glibc.
Or rather the collation function that is provided by Glibc.
@Xeo That makes sense. It makes a lot less sense that this seems to be what it uses with (for one obvious example) a completely default installation of Ubuntu.
amber2::wilx:~> LC_COLLATE=en_US.UTF-8 sort test.sort.txt
Buff modifier
Buffs
Buff time modifier
amber2::wilx:~> LC_COLLATE=en_US sort test.sort.txt
Buff modifier
Buff time modifier
Buffs
> As a result, the goal for the collation support is at level 3. This also matches the requirements for the Canadian collation order, as well as other, known collation requirements for alphabetic scripts. It specifically rules out collation based on pronunciation rules or based on semantic analysis of the text.
@Ell That's because it's optimized to give up real fast when there aren't big sorted or reverse-sorted runs. The real work on not-sorted data is achieved by pdqsort.
@EtiennedeMartel Nothing unexpected. Kaby Lake is just another "Haswell Refresh". Higher clocks, little to no change to the architecture.
Kaby Lake is just another "meh" in the pipeline while Intel figures out how to do 10nm.
I'm (most likely) gonna get the high-end 8-core Zen just to toy around with. Then later this year I'll grab either Skylake X or Purley Xeon depending on whether the former has AVX512.
@EtiennedeMartel i would say the article is wrong in one respect. It's not that Intel has quit trying. It's that Intel is distracted with 10 nm right now. They haven't stopped trying by any stretch of the imagination. It's just that they haven't succeeded yet.
@JerryCoffin I would imagine that there might not be too much overlap between the guys designing the processor layouts and the guys developing 10nm. That's two different fields with different areas of expertise. (I can probably design and layout a processor, but I can't do quantum mechanics for shit.)
So there's a limit to how much Intel can reallocate resources between the two areas.
I guess that's probably why Intel is investing so much in their Xeon Phi line because they have nothing else to do with their processor designers while the manufacturing guys figure out 10nm.
@Mysticial To an extent, yes. But (high end) processor layout has gotten pretty heavily process dependent, so I'd guess what's happening here is that Intel did a Microsoft-style thing and has two teams working in parallel: one with a directive to take current technology and push it as far as they can, and second working (completely separately) on what they can do when the process guys get 10 nm to the point they can produce it dependably.
kaby Lake (Kaby lack?) is what came from the first team. When 10 nm is up and going, we'll see what the second team has been doing.
IOW, Intel likely has a shit-ton of stuff backed up waiting for 10nm. (probably including a completely taped out Cannonlake architecture) But we won't see any of that until the floodgates are opened.
@Mysticial I think there's more to it than that. As process improvement makes an individual core smaller, they need to figure out ways of using more cores to keep die size large enough to support a decent price, and that means finding ways of getting lots of cores to work together to get better performance. Yes, things like AVX512 will use a lot of die space too, but extremely wide SIMD is hard to apply to a wide range of problems, so they want other tricks to go with it.
@wilx Probably takes long than that if you start over completely from scratch. Intel (and AMD) shorten the cycle by limiting how much they change in any given cycle.
@JerryCoffin If you pay attention to the details of Intel's chips starting from Core 2, you can see that.
The initial proposal for AVX included FMA4 which came out very early.
Once Intel started working on Sandy Bridge, they realized, "oh fuck, we can't do FMA because we can't handle 3-input uops". So they punted that to Haswell.
Then they realized, "oh shit, we can't efficiently handle 4-operand instructions". So they changed the specification to FMA3. In the meantime, AMD was the victim.
I hold the stack community to very high standards in everything from technical discussions to being acutely aware of cultural sensitivities. As a vegetarian and animal lover I found the 'Bacon' simply too offensive.
I'm keen to hear what the other stack<*>ians have to say.
I come here and expect a few puns about bad cars and poor driving abilities. And I get an informative discussion about fab and design of CPUs? Color me shocked. I very much like 2017 so far.
@CaptainGiraffe Look carefully at what I've posted, and you'll find 10 places that I posted bad puns that were supposed to make you laugh, but apparently no pun in ten did.
@Mysticial I dont have the link anymore but the question was essentially "how do i make a base class member unmodifiable, i tried const / static / static const and nothing works" and later in the comments "why not const?", well it gives an error "m_XYZ is unmodifiable"... "but thats what you want!?"... "oh right, maybe i should take a break" ./triple-facepalm
Ok. набиячлэвэли and Jerry is a lot more clever than I would ever be, and I think of myself as a pretty clever guy. 2017 will be a year of improvement for me.