I've profiled each in test scenarios and I don't see a meaningful difference in speed, but the yield break version is slightly faster.
I'm going to guess that your profiling tests did not include startup speed. The
yield construct works by generating a class for you. This extra code is great when it provides logic you need, but if not, it just adds to disk I/O, working set size, and JIT time.
If you open a program containing your test methods in ILSpy and turn off enumerator decompilation, you'll find a class named
<GetLessThanNothing>d__0 with a dozen or so members. Its
MoveNext method looks like this:
int num = this.<>1__state;
if (num == 0)
this.<>1__state = -1;
EmptyEnumerable works by lazily creating a static empty array. Perhaps checking whether the array needs to be created is the reason
EmptyEnumerable is slower than
yield break in isolated benchmarking, but it would likely take a whole lot of iterations to overcome the startup penalty, and either way would be unlikely to be noticeable overall, even in a "death by a thousand perf papercuts" scenario.