I wonder ... if someone's ability can be measured by the number of variables a person can see in a particular situation. For example, a dumb and ignorant person might only able to see one variable, thus getting things wrong most of the times. A dumb but slightly experienced person or person without much experience but of average intelligence might see 2-3 variables and able to get things right 50%-60% of the times.
A highly intelligent person with great knowledge will get things right 90+% of the times. While as genius with expert knowledge will be able to accurately predict the outcome 99+% of the times and able to see a few steps ahead.
Thus a dumb uneducated person is more liable to be brainwashed. It would take a lot more trying to convince an intelligent, well learned individual who have seen many things through travel and reading.
The Andromeda–Milky Way collision is a galactic collision predicted to occur in about 3.75 billion years between two galaxies in the Local Group—the Milky Way (which contains the Solar System and Earth) and the Andromeda Galaxy. The stars involved are sufficiently far apart that it is improbable that any of them will individually collide. Some stars will be ejected from the resulting galaxy, nicknamed Milkomeda or Milkdromeda.
== Certainty ==
The Andromeda Galaxy is approaching the Milky Way at about 110 kilometres per second (68 mi/s) as indicated by blueshift. However, the lateral velocity is...
I can't be the only one who does not this ...
Now the good news:
As a tolerant person, it's okay to be bigger than me ... as long as you are a vegetable!
This video has made me angrier than anything I've seen in a very long time
On one hand I understand why its evidence in a trial, on the other hand imagine a world where they could say “I love titration, and that's not a problem!"
@JerryCoffin The truth is that, people tend to sell their happiness and freedom for short way too often then they realise. If you have that kind of attitude, you are mostly likely having to surround people as shit as you in order to achieve a filthy level of wealth. There is a good chance your life is going to be miserable.
If you want to be happy, the trick is to cut things or people who make you unhappy out of your life. This trick works perfectly well for me, but then again, I am fiercely independent.
Also your taste in ... err ... 'art', is as good as this. But in a different way ...
There's one about Cpp vs C# and the author actually says : "Compiler warnings: C++ will let you do almost anything provided the syntax is right. It’s a flexible language, but you can cause some real damage to the operating system."
You can cause some real damage to the OS, what is that even supposed to mean
Why is it sooooo complicated to get a decent flight to London when the UK is literally the closest country from where I live
I need to wake up at 6am, go to Paris, wait for 6 fucking hours there before I get a flight to Heathrow and then I can finally take a try or something to get to London 1 hour later
There is an equivalent flight a 7am except I only have to wait 5 hours instead of 6, but also to change airports in Paris because why fucking not
In the meantime England is so close that when I try to find people on OkCupid I get results in Plymouth
It's really frustrating
In the meantime my airport has direct flights to Spain, Morocco and the Canary Islands, but not a single flight to England
This was a known bug with VS2015's condition_variable which unfortunately is ABI-breaking to fix. I fixed it in our next major release (I completely rewrote the condition variable implementation from scratch), but I don't know when that will happen next. Note that VS2017 was a minor release as fa...
@Mikhail I had the discussion with Raymond Chen awhile back, I don't recall the specifics. Only that the semantics are wrong for a few reasons
@Mikhail I need to try measuring these at some point. Because to date, I still don't know why Windows is so much better than Linux for my particular work-load using the same thread library written with pure C++.
Condition variables having slow response times might be a good thing if all the vcores are busy. But certainly a bad thing if there are idle cores.
*good thing in terms of throughput, but not latency.
@Mysticial Take a look at: thesycon.de/eng/latency_check.shtml, I've found this tool extremely useful for identifying incompatible/fucked up drivers for the kind of high-throughput applications I work on.
Many server boards have latencies on the order of 800 us, while some single sockets can be as low as 50 us.
I'll interpret that as you saying I have no clue what I'm talking about :-)
@Mysticial Basically, some drivers can hold the kernel for longer than you'd like. For example, the I had a CD-ROM that fucked with my DPC times, disabling that hardware device (Windows) brought the latency down.
If you don't believe me take a look at "Analysing drop-out problems with DPC Latency Checker"
@Mikhail Sigh... I'm not trying to get better realtime performance on Windows. For me, everything is great on Windows. It's Linux that I'm trying to find out why it sucks.
The Linux kernel had a big kernel lock (BKL) since the introduction of SMP, until Arnd Bergmann removed it in 2011 in kernel version 2.6.39,[1][2] with the remaining uses of the big lock removed or replaced by finer-grained locking. Linux distributions at or above CentOS 7, Debian 7 (Wheezy) and Ubuntu 11.10 are therefore not using BKL.
If the scheduling in Windows is truly distributed and decentralized, that could explain why my thread pool is so efficient on Windows. But it doesn't say much about Linux.
The thread pool that I wrote in 2016 was designed to be decentralized with no (sustainable) contention on any single component. Fork-join tasks that spawn out to many tasks that need to be sent to different threads are done with exponential fan-out.
But none of that would matter if everything gets sequentialized again by the kernel.
I arguably over-designed the thing back in 2016. Since I wasn't sure if any of the underlying assumptions I made were even remotely correctly.
But my thread pool beat out the Windows built-in thread pool for my purposes. So I called called it a day. Until I tried it on Linux. And found that it sucked - hard.
But as much as it sucked, there weren't very good alternatives either.
I'm a little confused here, so you're talking about the performance of the actual thread creation steps right? Not the runtime in them? I assume once you've made enough threads to fill the number of PEs you're not making any more threads?
I usually configure the pool itself to not limit the threads. So it will create as many threads as there are concurrent tasks. Instead, I do it at the caller/algorithm by controlling how many tasks to decompose.
@Mgetz I've tried that. The problem is that fork-join algorithms with overdecomposition doesn't have good "thread utilization".
The tasks aren't always the same size. And even if there are, there's enough jitter in the system to mess things up. So you have to overdecompose the tasks.
My counter to that has been to remove the thread limit. And have 2x the concurrent tasks as logical cores. Then rely on the OS to efficiently switch out blocked threads to unblocked threads.
I've been teasing the idea of a new framework that is more hardware aware and tries to take over the scheduling as well. I can do all sorts of fancy work-stealing and shit. But I never got around to solving the problem of a blocking thread. One of the things on my to-do is to read into the C++ coroutine stuff.
@Mikhail The high-level problem is that the same code achieves significantly lower CPU utilization on Linux than on Windows. Thus the code runs slower on Linux.
I don't know if it's contention or not. The pool is designed to decentralize and fan out. So under a perfect kernel, the pool will scale to unlimited threads, unlimited concurrent tasks, and unlimited task flow (tasks started/ending per unit time).
One hypothesis that I had is that the kernel might have some sort of broadly-scoped lock that's re-sequentializing all the parallelism that the pool is producing.
If that were the case, then the exponential task fan-outs would be much slower than expected. That would decrease the CPU utilization. But that's just a hypothesis. And even if it were true, it might not even be the primary factor.
Well, he isn't spamming the threads because they are pooled.
Also doesn't resource contention overhead scale (if at all) as something like O(log(n)), which means there shouldn't be too much difference between 32 threads and 64 threads?
@Mikhail I haven't tried on Linux. But on Windows, I can easily run hundreds or thousands of threads without a significant loss of performance. Backwards scaling in performance seems to start at around 4-8x the # of logical cores.
But it's hard to tell if that's because of the large number of threads, or it's because the algorithms are taking on additional computational overhead to expose the extra parallelism.
In a single-core world the notify would cause a context switch to the thread that is waking up. It was designed as a concurrency primitive, not parallelism. I wonder what the overhead is if the notifying thread is pinned to a different core than the wakeup thread.
@StackedCrooked No because it works through std::mutex.
When my threads block on std::mutex, Cilk/TBB seems to be able to re-task that thread.
But yeah, if I can figure out how to do this, then I should have all the tools needed to completely write my own scheduler.
Then I can take complete control of the hardware and bypass all the processor group limitation in Windows.
This implies that I can do it better than the Windows or Linux schedulers, which I don't claim to be able to do. But it's certainly worth a shot at to see what's possible.
Basically, I'd create one thread per logical core. And pin them to those threads and treat them as the cores themselves. With a proper coroutine setup that works with std::mutex, I can do my own scheduler. Use my own data structures for holding live tasks. Pick my own core assignments and utilize knowledge of the hardware topology.
Lots of options here. Not going to be easy do. But the parallel framework interface that my program has does allow for ambitious frameworks like this.