@Borgleader so it basically means that the timestamp is taken sometime between the instruction getting into the pipeline and sometime before the target register is accessed and written out to memory?
I want to test if a directory doesn't contain any files. If so, I will skip some processing.
I tried the following:
if [ ./* == "./*" ]; then
echo "No new file"
exit 1
fi
That gives the following error:
line 1: [: too many arguments
Is there a solution/alternative?
Searching for a C++ Blockchain Dev who is willing to join our Team, experience with Dashcoin Code is advantageous.
We have a Teamchat in Discord and our website is Dinerocoin.org
We want someone who shares the same vision as we do and
none of the only money and whats your budget in mind! there ...
@TelKitty people inside will throw up uncontrollably, or if you try to negate the effect by spinning room with people inside the UFO in the opposite direction, you probably wont fly anywhere
@Mysticial I didn't expect it to live this long 1) performance people were pissed 2) sales deals were at a loss, and acquired on dubious almost political grounds 3) unlike typical sales deals, they weren't sold for guaranteed performance on a series of standard HPC applications
I think their only success story was for some fintech monte carlo integration
Untill C++11, it was "an integral constant expression rvalue of integer type that evaluates to zero", and since C++11, it is "an integer literal with value zero, or a prvalue of type std::nullptr_t"
@Mysticial So. Explicit prefetching is the norm for Gpu aritechtures. On the other hand their fast local memory (aka shared memory) isn't shared across the whole gpu. I wonder if there is some reason x86 can't do that. The prefetch instruction was only for that core, right?
@Mikhail I don't get it. Prefetching isn't about shared memory. It's about a core pulling in data that it wants later. (though you can have one core prefetch for another core, but the best you can do it bring it into the lowest level of shared cache)
@Mysticial Yes, its pulling data into some faster to access memory (aka a cache)
So, in CUDA you can get a pointer to the "cache" (or rather you can say you're manually managing the cache, you can't get a pointer to the automatic part of the cache...)
@Mysticial But anyways, 50% of the optimization techniques involve reading stuff (optimally) into the cache. Which KNL prefetching instructions were you talking about? Intel had those #pragma prefetch stuff in ICC for KNL?
The use-case that I want to try is in multi-stride algorithms. Even though there's no gather/scatter in the computation, it is working on 8 (or more contiguous strides). So rather than issuing 8 separate prefetches, I do a single gather-prefetch to pull in 8 lines at once.
The interesting part would be what will happen if the cache associativity is less than the # of lanes in the gather/scatter prefetch.
i.e. less than 16
@Mikhail Not with that many strides. And not when the strides start and stop.
The problem is that if I have 8 streams equally spaced out and I access them cyclically, the hardware prefetcher might mistaken it as a strided access pattern and prefetch the 9th, 10th, etc...
yeah it's a fixed length queue and wide instruction issuing with static scheduling
and the instructions are grouped as basic blocks with branches outwards which should help branch prediction because each block has a few branch target instead of each instruction may having other branch targets