Today's C/C++ compilers are much better than they were 15 or more years ago as they can now consume more memory and CPU cycles (simply because we now have more of them available) while optimizing code increasingly more aggressively.
In contrast, programmers have hardly grown a second brain in their skull in the past 15 years and their optimization abilities likely remain at about the same level now as they were 15 or even 25 years ago.
At the same time CPUs have become more complex and catering to their various caches, prediction mechanisms, bigger register sets, speculative and parallel execution, longer pipelines, resource contention, etc etc has become harder as well. Taking care of all that is mentally taxing and scales poorly while our software and problems we're solving with it never stop growing in size, number and complexity. And then the new versions of the CPUs often times necessitate not only learning new tricks but also unlearning old ones.
Also you're not very productive writing assembly code, especially when you need to write a lot of it. And it's harder to maintain and change assembly code. For economical reasons you may not always have the option of spending lots of money and man-hours to produce high quality optimized assembly code when the compiler can do a reasonably good job quickly, freeing time for testing and speeding up turnaround.
If you take into account just this, if you have been in the industry long enough, then you don't need special studies to see that on the large scale optimizing compilers outperform crafting optimized assembly code.
And then one should remember that assembly can only give you a roughly linear increase in performance, maybe 3-5x of what the compiler can do in tough cases, whereas choosing a more scalable algorithm can give you a much better boost. So, it may be much prudent to invest into scalable algorithms and parallel/distributed systems for those than into finding or training assembler programmers and paying them lots of money for the rare skill.
Speaking of the rare skill... As people increasingly move to less primitive (or should I say less low-level?) languages than C, C++ and assembly, you become less likely to find programmers who can shine in these low-level languages and beat compilers. They still remain and there will always be some, but you shouldn't count on them on a large scale, which leaves you pretty much only with programmers who cannot beat the compiler.
You may count this as a study. :)