This article claims that each register has an intended purpose and more importantly,

When the engineers at Intel designed the original 8086 processor, they had a special purpose in mind for each register. As they designed the instruction set, they created many optimizations and special instructions based on the function they expected each register to perform. Using registers according to Intel's original plan allows the code to take full advantage of these optimizations. Unfortunately, this seems to be a lost art. Few coders are aware of Intel's overall design, and most compilers are too the simplistic or focused on execution speed to use the registers properly. Understanding how the registers and instruction set fit together, however, is an important step on the road to effortless size-coding.

Are there any other sources to corroborate this article? If so, I'd really like to check it out.

Please note I'm not talking about situations where fast operations like STOS uses edi - I'm just wondering if there is any performance degradation if I use eax and esi as counters instead of ecx or is it just about readability?


No, not really anymore -- or at least not very often anyway. Using ECX as a counter lets you use the LOOP instruction. At one time, that was a significant advantage, but on most recent CPUs, a LOOP takes longer to execute than the combination of DEC ECX/JNZ wherever. The possible advantage is that it reduces memory bandwidth usage, which is a bottleneck more and more often. It can also be an advantage when/if you can use the other forms like LOOPNZ, which can be relatively complex to simulate with separate instructions.


There are instructions in the instruction set which use specific registers, which are smaller (and often faster) than the equivalent functions which target any register.

  • 2
    Most notably references to AX vs. others. – Brian Knoblauch Dec 14 '09 at 20:05

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