Lines Matching full:energy

121 Energy-Performance Preference (EPP) knob (if supported) or its
122 Energy-Performance Bias (EPB) knob (otherwise), which means that the processor's
126 (see `Energy vs Performance Hints`_ below).  Moreover, any attempts to change
138 Energy-Performance Preference (EPP) knob (if supported) or its
139 Energy-Performance Bias (EPB) knob (otherwise) to whatever value it was
358 it also leads to excessive energy usage in some important scenarios, like video
362 more energy-efficient ways.
380 utilization of the more performant CPUs which causes the energy usage to be more
381 balanced because the more performant CPUs are generally less energy-efficient
398 Energy-Aware Scheduling Support
403 `CAS <CAS_>`_ it registers an Energy Model for the processor.  This allows the
404 Energy-Aware Scheduling (EAS) support to be enabled in the CPU scheduler if
408 The Energy Model registered by ``intel_pstate`` is artificial (that is, it is
425 which generally leads to reduced energy usage.
427 The Energy Model created by ``intel_pstate`` can be inspected by looking at
541 	Lake or Coffee Lake desktop CPU model. By default, energy-efficiency
543 	Enabling energy-efficiency optimizations may limit maximum operating
547 	attribute to "1" enables the energy-efficiency optimizations and setting
647 Energy vs Performance Hints
653 energy-efficiency, or somewhere between the two extremes, are present in every
657 	Current value of the energy vs performance hint for the given policy
666 	They represent different energy vs performance hints and should be
672 Energy-Performance Preference (EPP) knob (if supported) or its
673 Energy-Performance Bias (EPB) knob. It is also possible to write a positive
680 load-balancing algorithm and if different energy vs performance hints are
682 issues it is better to set the same energy vs performance hint for all CPUs