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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.
 
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.
  
[[Intel]] attempts to exploit those "superior cores" with Turbo Boost Max Technology. During the manufacturing process, Intel is able to test each die and determine which cores possess the best overclocking capabilities. That information is then stored in the CPU in order from best to worth.
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[[Intel]] attempts to exploit those "superior cores" with Turbo Boost Max Technology. During the manufacturing process, Intel is able to test each die and determine which cores possess the best overclocking capabilities. That information is then stored in the CPU in order from best to worst.
  
 
With the help of the [[BIOS]] and the Intel driver for [[Windows]] or [[Linux]], demanding workloads will be migrated to the best available core. The processor will then attempt to temporary increase the frequency to TBMT range (somewhere around 200 MHz higher than {{intel|Turbo Boost}} maximum frequency). '''demanding workloads''' is workload that exceeds the configured utilization threshold (the default value given by Intel is 90%). Certain software can be manually tagged which will automatically affinitize them to the superior cores.
 
With the help of the [[BIOS]] and the Intel driver for [[Windows]] or [[Linux]], demanding workloads will be migrated to the best available core. The processor will then attempt to temporary increase the frequency to TBMT range (somewhere around 200 MHz higher than {{intel|Turbo Boost}} maximum frequency). '''demanding workloads''' is workload that exceeds the configured utilization threshold (the default value given by Intel is 90%). Certain software can be manually tagged which will automatically affinitize them to the superior cores.

Revision as of 15:14, 1 June 2017

Not to be confused with Turbo Boost Technology (TBT).

Turbo Boost Max Technology (TBMT) 3.0 is a microprocessor technology developed by Intel that provides additional single-thread performance through higher clock speed of "superior cores" based on the specific die characteristics. Despite its namesake, this feature is unrelated to Intel's Turbo Boost Technology.

History

Turbo Boost Max Technology 3.0 was announced around 2014 but it was only first introduced with the Broadwell E processors in 2016. In 2017, Intel expanded their offering with the introduction of the Core X series family.

Mechanism

The Intel software that is used to assign affinities to various software to take advantage of TBMT.

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.

Intel attempts to exploit those "superior cores" with Turbo Boost Max Technology. During the manufacturing process, Intel is able to test each die and determine which cores possess the best overclocking capabilities. That information is then stored in the CPU in order from best to worst.

With the help of the BIOS and the Intel driver for Windows or Linux, demanding workloads will be migrated to the best available core. The processor will then attempt to temporary increase the frequency to TBMT range (somewhere around 200 MHz higher than Turbo Boost maximum frequency). demanding workloads is workload that exceeds the configured utilization threshold (the default value given by Intel is 90%). Certain software can be manually tagged which will automatically affinitize them to the superior cores.

Compatibility

TBMT was originally only supported on Window. In earlier 2016 Intel announced that they do not intend on supporting Linux at all. In August Intel started patching the Linux kernel, reversing that decision.

Vendor OS Version Notes
Microsoft Windows Windows 7 Support
Windows 8.1 Support
Windows 10 Support
Linux Linux Kernel 4.10 Initial Support; only worked for systems that exposed hardware P-States.
With the release of 4.11, support for non-HWP systems was added.