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Fix typo.
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@ -484,7 +484,7 @@ While the CPU is more-or-less designed to always be able to work at the advertis
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\item Were you lucky in the silicon lottery? Some dies are simply better made and are able to achieve higher frequencies.
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\item Are you running on the best-rated core, or at the worst-rated core? Some cores may be unable to match the performance of other cores in the same processor.
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\item What kind of cooling solution are you using? The cheap one bundled with the CPU, or a beefy chunk of metal that has no problem with heat dissipation?
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\item Do you have complete control over the power profile? Spoiler alert: no. The operating system may run anything at any time on the any of the other cores, which will impact the turbo frequency you're able to achieve.
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\item Do you have complete control over the power profile? Spoiler alert: no. The operating system may run anything at any time on any of the other cores, which will impact the turbo frequency you're able to achieve.
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\end{itemize}
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As you can see, this feature basically screams 'unreliable results!' Best keep it disabled and run at the base frequency. Otherwise your timings won't make much sense. A true example: branchless compression function executing multiple times with the same input data was measured executing at \emph{four} different speeds.
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