There are two types of people who purposely get very close to forest fires - those who try to extinguish the fire, and those who just want to watch the forest burn.
The next comment was the OP's which is preserved above.
After that all hell broke loose.
I posted something like, "Wow, this is hilarious. Apologies if I offended you. If you're really that bad at detecting jokes/sarcasm, I can't really help you."
This solution isn't C++ specific, but I think commonly used languages, especially those that are popular in the academic setting simply need higher standards that might be dismissed for other languages.
We should actively reconsider positions on things like:
Geographic regions that are frequen...
Lol, some people voted to delete my answer...
Reading some of the responses to the stuff I wrote on meta is pretty funny:
I disagree. Stack Overflow is not a company. We do not require a specific format to our questions. We are a question and answer site. By forcing users to take a test, you're distracting them from the goal. Low quality posts can be edited and improved or closed. Consistent low quality users clearl...
User with 114k rep thinks "Stack Overflow is not a company."
How many backs does a person have? I know there are two “sections”, Thoracic and Lumbar Curve. But can someone say “my backs”, when referring to the upper back “thoracic” and lower back “lumbar”?
@traducerad By design, but obviously you could make a lens to do wacky stuff. For example, there are lenses that form 2x2 copies (tiles) of the image where you would otherwise have a single image. Also the sensor could be located offset from the center.
Although normal people would call most of the wacky stuff prisms.
user7659542
8:32 AM
@Mikhail ok so normally both are perfectly alignted
@traducerad There is a point where light is focused, they call it the "image center". Nobody should be surprised that it changes as the system changes. Indeed, it even changes for each color, unless you compensate.
But, as I mentioned, you can make an optical system that produces 4 focused points, so saying that there is only one image center isn't quite right either.
Taken to the extreme you get something like a Hartmann-Shack array
i all i am trying to create an opengl project with glfw. in the example code there is #include<glad/glad.h> and on compiling i am getting no such file or directory found. i downloaded the required files & got an include folder & src folder .
include folder has glad/ and KHR/ subfolders & src has glad.c . now how am i supposed to link to these files . itried using g++ -std=c++11 maina.cpp -o out -I/include/glad -lGL -lGLU -lglfw3 -lX11 -lXxf86vm -lXrandr -lpthread -lXi -ldl . but i am getting the same error
@Mgetz So I've been running a new test framework for my code for about a week now. Needless to say, nothing ran through either the 1st, 2nd or nth times. While I did catch some very trivial programming errors, I'm also discovering that neither of the overclocks on my 14-core Skylake nor my Ryzen are stable. Not even remotely so.
Both boxes have held up for all other use cases as well as my existing set of unit/integration tests. lol
And they both had 100 - 200MHz OC headroom under stress testing.
@Mysticial I've suspected for awhile that both Intel and AMD are running on the bare edges of disaster. Forced clock increases basically push over that.
@Mysticial I'd be very very curious to get die level heat maps on that, it's one of the things that I think AMD is being very smart about in Rome... they are spreading out their hot points more
Not sure. But there are 5 domains that need to be stable for it to be stable: 1. Non-AVX at non-AVX speed. 2. Light-AVX at non-AVX speed. 3. Heavy AVX at AVX speed. 4. Light AVX512 at AVX speed. 5. Heavy AVX512 at AVX512 speed.
but without knowing what the CPU does when it fails I can't say
@Mysticial KNL last I checked is sequential in order, even for AVX512. That means it can make assumptions about things like power delivery that you can't make on SKX. It also runs at a lower base clock last I heard
so that alleviates a lot of pain points (power, memory etc.) that would show up at higher clocks
without looking at a godbolt compare it'd be hard to guess. But I have hunches that I can't prove. I suspect the scheduling issue could manifest as either a GP/BI fault depending on how big the issue is. Alternatively if it's a deep power delivery issue it could cause the system to think it hits TJ and reset
because fundamentally that's how a deep power delivery would potentially manifest
it might not even be triggering that circuitry, just drawing enough from the init circuitry to cause it to lose state
I honestly don't think any of this is provable without watching voltages on traces
@Mysticial hence why unless we worked for intel or AMD I doubt we'd really understand what we were looking at. There will be maximum durations of minimum voltage/amperages that they would know
If the thing is still running when I get home tonight, I'll have ruled out #5. Then I'll raise the AVX speed from 3.8 back to 4.0. And that will test #3 and #4. I'm almost certain that #3 is stable. So if that fails, then #4 it is.
@Mgetz Not really. They always land on the same "Coefficient is too Large" error which basically means something went wrong in some massive FFT computation.
That error has like 90% code coverage.
So everything that goes wrong tends to trigger the same redundancy check and hit the same error.
@Mgetz I haven't tested it at stock. But when I dropped down to 4.4/3.8/3.4 (non-AVX/AVX/AVX512), it survived overnight. Whereas it almost always fails within 1 or 2 hours.
Problem is that this mobo doesn't support per-core voltage. So I can't up the vcore on the cores that I think need it the most. And I can't increase the global vcore offset because that pushes the other cores into the dangerous range. (> 1.4v)
@Mgetz I can. The problem is that the vcore table varies by as much as 0.200v across the different cores. And I can't override it. So some of the cores are severely getting undervolted.
And I can't bump them up because it causes the remaining cores to enter danger zone.
Yeah. I've found that the most "stressful" stress-tests don't catch much beyond the obvious and steady-state instabilities.
It's always the heterogeneous tests that fail.
IOW, the test frameworks for my Pi program are "more stressful" than the built-in stress-test or any of other synthetic stress-testers even though the heat and power-consumption it pulls is much lower.