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− | {{intel title|Turbo Boost Max Technology | + | {{intel title|Turbo Boost Max Technology (TBMT)}}{{confuse|intel/tbt|l1=Turbo Boost Technology (TBT)}} |
− | '''Turbo Boost Max Technology 3.0''' | + | '''Turbo Boost Max Technology (TBMT) 3.0''' is a microprocessor technology developed by [[Intel]] that provides additional single-thread performance through higher clock speed based on the specific [[die]] characteristics. Despite its namesake, this feature is unrelated to Intel's {{intel|Turbo Boost Technology}}. |
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+ | Due to the manual configuration required, TBMT is almost always disabled by default. | ||
== History == | == History == | ||
− | Turbo Boost Max Technology 3.0 was announced around 2014 but it was only first introduced with the {{intel|Broadwell E|l=core}} processors in 2016. In 2017, Intel expanded their offering with | + | Turbo Boost Max Technology 3.0 was announced around 2014 but it was only first introduced with the {{intel|Broadwell E|l=core}} processors in 2016. In 2017, Intel expanded their offering with |
== Mechanism == | == Mechanism == | ||
− | + | Not two chips are the same; this is true even if both [[dies]] came from the very same [[wafer]]. Likewise, when stretching a processor to its limits, even the individual cores on a single [[monolithic integrated circuit]] produce slightly different performance characteristics. Testing individual cores by disabling all the other [[cores]] will reveal which ones happen to have better thermal and voltage properties and are stable at higher frequencies. They will each slightly differ. Note that this has to be done ''by the user on their very own chip''. | |
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− | + | [[Intel]] attempts to exploit those "better" cores with Turbo Boost Max Technology exploits. | |
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