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I have a function evaluation which is somewhat slow. I'm trying to speed it up by using threading, since there are three things which can be done in parallel. The single-threaded version is

return dEdx_short(E) + dEdx_long(E) + dEdx_quantum(E);

where evaluation of those functions takes ~250us, ~250us, and ~100us respectively. So I implemented a three-thread solution:

double ret_short, ret_long, ret_quantum; // return values for the terms

auto shortF = [this,&E,&ret_short] () {ret_short = this->dEdx_short(E);};
std::thread t1(shortF);
auto longF = [this,&E,&ret_long] () {ret_long = this->dEdx_long(E);};
std::thread t2(longF);
auto quantumF = [this,&E,&ret_quantum] () {ret_quantum = this->dEdx_quantum(E);};
std::thread t3(quantumF);


return ret_short + ret_long + ret_quantum;

Which I expected to take ~300us, yet it actually takes ~600us - basically the same as the single-threaded version! These are all inherently thread-safe so there are no waits for locks. I checked the thread creation time on my system and it's ~25us. I'm not using all of my cores, so I'm a bit baffled as to why the parallel solution is so slow. Is it something to do with the lambda creation?

I tried to bypass the lambda, e.g.:

std::thread t1(&StopPow_BPS::dEdx_short, this, E, ret_short);

after rewriting the function being called, but that gave me an error attempt to use a deleted function...

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Code is often not actually execute-bound. Memory is frequently the throttle. Threading buys you more cores, not more memory busses. Use a good profiler so you can see the cache miss rates. –  Hans Passant Apr 8 at 16:50
Are you doing any IO? For example, if you are reading from a HDD, then you can't really read from it more than once at a time, so you would essentially have threads waiting on eachother still. –  Andrew Apr 8 at 17:07
Have you tried benchmarking a no-op thread ? –  Matthieu M. Apr 8 at 17:09
Good point! Thanks. The two slowest functions are numerical integration, which I assumed would be execute limited without thinking about it...I'll use a profiler –  Alex Z Apr 8 at 17:12
No IO, and a no-op thread spawns and runs pretty quickly (25us) –  Alex Z Apr 8 at 17:13

1 Answer 1

Perhaps you are experiencing false sharing. To verify, store the return values in a type that uses an entire cache line (size depends on CPU).

const int cacheLineSize = 64; // bytes
union CacheFriendly
    double value;
    char dummy[cacheLineSize];
} ret_short, ret_long, ret_quantum; // return values for the terms
// ...
share|improve this answer
wouldn't union cache_friendly { double value; char dummy[CACHE_LINE_SIZE]; }; be better? –  Massa Apr 9 at 0:22
@Massa Yes, that's less verbose and more generally usable. I've updated my answer with your idea. –  D Drmmr Apr 9 at 13:11

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