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AMD Turbo Core a.k.a. AMD Core Performance Boost (CPB) is a dynamic frequency scaling technology implemented by AMD that allows the processor to dynamically adjust and control the processor operating frequency in certain versions of its processors which allows for increased performance when needed while maintaining lower power and thermal parameters during normal operation. [1]
Turbo Core 2 performance boost to increase clock frequency up to 500 MHz with all threads active (for most workloads) and up to 1 GHz with the half of the thread active, within the TDP limit. [25] The chip operates at 0.775 to 1.425 V, achieving clock frequencies of 3.6 GHz or more [20] Min-Max TDP: 25 – 140 watts
The TDP of a CPU has been underestimated in some cases, leading to certain real applications (typically strenuous, such as video encoding or games) causing the CPU to exceed its specified TDP and resulting in overloading the computer's cooling system. In this case, CPUs either cause a system failure (a "therm-trip") or throttle their speed down ...
^ All models support AMD Turbo Core, v2.0 for BULLDOZER and v3.0 for PILEDRIVER. ^ The clock multiplier is applied to the 200 MHz HyperTransport base clock. ^ A line of Socket F and Socket AM2 processors launched in 2006 were named Athlon 64 FX, the first being the AMD FX-60.
A bidirectional turbo core mode was also introduced. AMD announced the Brazos-T platform on 9 October 2012. It comprised the 4.5-watt AMD Z-Series APU (codenamed Hondo) and the A55T Fusion Controller Hub (FCH), designed for the tablet computer market. [42] [43] The Hondo APU is a redesign of the Desna APU. AMD lowered energy use by optimizing ...
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The purpose of overclocking is to increase the operating speed of a given component. [3] Normally, on modern systems, the target of overclocking is increasing the performance of a major chip or subsystem, such as the main processor or graphics controller, but other components, such as system memory or system buses (generally on the motherboard), are commonly involved.