Since the Microsoft default behavior change for Core Parking is designed to maximize CPU performance, there is no built in method to re-enable core parking once it is disabled, as doing so can introduce degradation in CPU performance.
Due to the potential for performance degradation, modification of the default behavior of Windows Core Parking in Windows Server 2012 is not recommended nor supported. It was not designed/intended for OEMs to change the configuration in the current implementation of core parking in Windows Server 2012.
Currently by default, Windows Server 2012 disables core parking for Intel based processors to maximize energy efficiency and CPU performance.
How Core Parking works:
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Windows Core parking for Windows Server 2012 works by Parking and unparking of cores as needed to adjust to changing workloads for efficiency reasons. Parking a core, by itself, does not save power. Parking a core alters the behavior of the scheduler to target threads at other cores. This allows the parked core to stay idle more (decreasing its power consumption), at the cost of placing additional work on unparked cores (increasing their power consumption). Whether or not this tradeoff results in a more or less efficient system is highly dependent on the processor. Windows is tuned to select optimal settings (core parking on or off) depending on which processor is installed and for Windows Server 2012 is considered the most efficient.
Due to the potential for performance degradation, modification of the default behavior of Windows Core Parking in Windows Server 2012 is not recommended nor supported. It was not designed/intended for OEMs to change the configuration in the current implementation of core parking in Windows Server 2012.
Currently by default, Windows Server 2012 disables core parking for Intel based processors to maximize energy efficiency and CPU performance.
How Core Parking works:
=======================
Windows Core parking for Windows Server 2012 works by Parking and unparking of cores as needed to adjust to changing workloads for efficiency reasons. Parking a core, by itself, does not save power. Parking a core alters the behavior of the scheduler to target threads at other cores. This allows the parked core to stay idle more (decreasing its power consumption), at the cost of placing additional work on unparked cores (increasing their power consumption). Whether or not this tradeoff results in a more or less efficient system is highly dependent on the processor. Windows is tuned to select optimal settings (core parking on or off) depending on which processor is installed and for Windows Server 2012 is considered the most efficient.
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