@Mikhail I actually needed more ram. The RGB is just the cherry on top.
Since I recently (January) built a new rig around the ES 7940X that my company let me keep.
Initially, I put it in my rig from last year. But the RGB on the ram was so bright that it basically blinded out rest of the build. And there's no way to dim it down.
So I moved it into my January build where all the RGB components are blindingly bright anyway.
It's summer, but it was a bit chilly last night. I thought about using raspberry pi as a source of warmth for the baby chicks. But I wasn't calculating anything or using the pi otherwise so I didn't end up doing it
@LoïcFaure-Lacroix no, just for like 7 days. But the concept of a hatching blastocyst is cute.
The technical limit the artificial placenta, but there are existential challenges like there is no use for an artificial womb when you can just use a real womb. Despite the prospect of growing people in tubes pretty cool.
So to address that, they actually have people working on keeping embryos alive but the target application is more like keeping preterm babies alive. I don't think there is a single grant for the whole process.
@LoïcFaure-Lacroix FYI, there is an old method to transport embryos (that almost worked) where you can move them in another animal, like using a rabbit to move goat embryos. I think it was first used in the 1930s to ship embryos across the Atlantic before air-freight was practical.
Yeah it was solo, two Etude-Tableaux, Skriabin Prelude and Nocturne for the left hand, Skriabin Etude, Brahms Cappricios, Brahms Intermezzi, Brahms Rhapsody Nr. 2
@milleniumbug - We isolated the problem to GCC 8 with -O2 and -fstack-protector-strong on ppc64-le. It is not related to Fedora; GCC 7 is OK; and -O3 with -fstack-protector-strong is OK. It looks like a GCC issue.
we just had some shit at work where some noob who was warned about this did not do that and then surprise surprise, some package updates means you can't build the application any more 6 months later
@BartekBanachewicz We can always update whenever we choose to.
the core issue is that a) NPM can't be trusted to keep all the relevant versions around, and b), package maintainers can't be trusted to properly track their compatibility and stuff
so if you don't do it this way, your project randomly breaks later on
Aaah yes, that seems to be the problem! So many hours wasted on a single space. It's strange that it worked fine for all those months. I will verify it soon and accept the answer if it solved the problem. — N Jacobs1 hour ago
@sehe it does fix some of the problems rand has (well, except the predictability across compilers), but I find it questionable that the "simple" API has no migration path to the "advanced" API
@BartekBanachewicz Have to admit I don't really know what the existing <random> engines do in this case, would have suggested that they also throw, but if they don't UB there's even less reason to UB here.
I think part of the problem for usability of easy random numbers is the fact that the distribution doesn't store the generator, yet it keeps its own state
@Puppy not much reason except that constructing one every time (for example, to create a CDF from a list of probabilities in the case of std::discrete_distribution) may take longer time than reusing it
@sehe With randint, I have to use uniform int distribution with the specific PRNG. If I want a custom distribution, I now can't use that "don't care, just give me what randint uses" engine with it. If I want a custom engine, but I'm fine with randint interface, I can't use it either.
randint(engine, min, max) and random_engine() providing access to that engine would provide that migration path
@milleniumbug I'm not sure whether the "per-thread engine of type std::default_random_engine, initialized to an unpredictable state" is available. Yes, it would be great if they made it so. Perhaps that... could be used to subvert the results though. Mmm. That's Machiavelli
@milleniumbug The randint interface is literally just using uniform_int_distribution so yes you can. It's only the engine that might not be exposed
I think it's a perfect idea that the simple interface is added. It's is a real solution to the factual problem that everyone still uses rand() (this includes me, because I don't want to pollute easy SO demos with multiple lines of <random> code vomit)
@Puppy wrt to my previous inquiry, idk how i got the error I was getting because i havent been able to get it since, and i actually got it to work (though I had to get rid of the ES6 module thing from the react-faux-dom example)
@Mikhail So AMD and Intel keep claiming that they will completely fix Spectre in their next gens. And for a while I've been doubting that's even possible. Though I think it might actually be possible.
You include the cache/branch state as part of the misprediction roll backs.
A simple (but incomplete approach) would that if a misprediction happens, you invalidate any cachelines that were pulled in during speculation.
This will fix the out-of-bounds exploit example. Though it's not a complete fix as you've still evicted something out of the cache - a state change that could still be measurable. Though now the attack is significant harder to pull off.
A complete fix would be a separate cache that buffers all speculative loads from memory and higher-level caches and commits them only once you leave speculation mode.