It's worth noting that Knuth's original quote came from a paper he wrote promoting the use of
goto in carefully selected and measured areas as a way to eliminate hotspots. His quote was a caveat he added to justify his rationale for using
goto in order to speed up those critical loops.
[...] again, this is a noticeable saving in the overall running speed,
if, say, the average value of n is about 20, and if the search routine
is performed about a million or so times in the program. Such loop
gotos] are not difficult to learn and, as I have
said, they are appropriate in just a small part of a program, yet they
often yield substantial savings. [...]
The conventional wisdom shared by many of today's software engineers
calls for ignoring efficiency in the small; but I believe this is
simply an overreaction to the abuses they see being practiced by
pennywise-and-pound-foolish programmers, who can't debug or maintain
their "optimized" programs. In established engineering disciplines a
12% improvement, easily obtained, is never considered marginal; and I
believe the same viewpoint should prevail in software engineering. Of
course I wouldn't bother making such optimizations on a oneshot job,
but when it's a question of preparing quality programs, I don't want
to restrict myself to tools that deny me such efficiencies [i.e.,
statements in this context].
Keep in mind how he used "optimized" in quotes (the software probably isn't actually efficient). Also note how he isn't just criticizing these "pennywise-and-pound-foolish" programmers, but also the people who react by suggesting you should always ignore small inefficiencies. Finally, to the frequently-quoted part:
There is no doubt that the grail of efficiency leads to abuse.
Programmers waste enormous amounts of time thinking about, or worrying
about, the speed of noncritical parts of their programs, and these
attempts at efficiency actually have a strong negative impact when
debugging and maintenance are considered. We should forgot about small
efficiencies, say 97% of the time; premature optimization is the root
of all evil.
... and then some more about the importance of profiling tools:
It is often a mistake to make a priori judgments about what parts of a
program are really critical, since the universal experience of
programmers who have been using measurement tools has been that their
intuitive guesses fail. After working with such tools for seven years,
I've become convinced that all compilers written from now on should be
designed to provide all programmers with feedback indicating what
parts of their programs are costing the most; indeed, this feedback
should be supplied automatically unless it has been specifically
People have misused his quote all over the place, often suggesting that micro-optimizations are premature when his entire paper was advocating micro-optimizations! One of the groups of people he was criticizing who echo this "conventional wisdom" as he put of always ignoring efficiencies in the small are often misusing his quote which was originally directed, in part, against such types who discourage all forms of micro-optimization.
Yet it was a quote in favor of appropriately applied micro-optimizations when used by an experienced hand holding a profiler. Today's analogical equivalent might be like, "People shouldn't be taking blind stabs at optimizing their software, but custom memory allocators can make a huge difference when applied in key areas to improve locality of reference," or, "Handwritten SIMD code using an SoA rep is really hard to maintain and you shouldn't be using it all over the place, but it can consume memory much faster when applied appropriately by an experienced and guided hand."
Any time you're trying to promote carefully-applied micro-optimizations as Knuth promoted above, it's good to throw in a disclaimer to discourage novices from getting too excited and blindly taking stabs at optimization, like rewriting their entire software to use
goto. That's in part what he was doing. His quote was effectively a part of a big disclaimer, just like someone doing a motorcycle jump over a flaming fire pit might add a disclaimer that amateurs shouldn't try this at home while simultaneously criticizing those who try without proper knowledge and equipment and get hurt.
What he deemed "premature optimizations" were optimizations applied by people who effectively didn't know what they were doing: didn't know if the optimization was really needed, didn't measure with proper tools, maybe didn't understand the nature of their compiler or computer architecture, and most of all, were "pennywise-and-pound-foolish", meaning they overlooked the big opportunities to optimize (save millions of dollars) by trying to pinch pennies, and all while creating code they can no longer effectively debug and maintain.
If you don't fit in the "pennywise-and-pound-foolish" category, then you aren't prematurely optimizing by Knuth's standards, even if you're using a
goto in order to speed up a critical loop (something which is unlikely to help much against today's optimizers, but if it did, and in a genuinely critical area, then you wouldn't be prematurely optimizing). If you're actually applying whatever you're doing in areas that are genuinely needed and they genuinely benefit from it, then you're doing just great in the eyes of Knuth.