Lines Matching refs:priority
324 allows users to define per core priority. This defines a mechanism to distribute
331 service and hence an associated priority. The granularity is at core level not
338 and use a priority type. There is a default per platform priority type, which
347 Clos Enable: Specify priority type with [--priority|-p]
350 There are two types of priority types:
355 CLOS group. Where CLOS0 gets highest priority (throttled last).
362 When proportional priority is used, there is an additional parameter called
364 proportional priority is to provide each core with the requested min., then
366 weight. This proportional priority can be configured using "core-power config"
369 To enable with the platform default priority type, execute::
386 multiple dies. To check if CLOS is enabled and get priority type, "core-power
400 priority-type:proportional
408 priority-type:proportional
466 clos-proportional-priority:0
476 clos-proportional-priority:0
542 the thread at higher base frequency on specific sets of CPUs (high priority
543 CPUs) at the cost of lower base frequency (low priority CPUs) on other CPUs.
544 This feature does not require offline of the low priority CPUs.
635 high-priority-base-frequency(MHz):3000
636 high-priority-cpu-mask:00000216,00002160
637 high-priority-cpu-list:5,6,8,13,33,34,36,41
638 low-priority-base-frequency(MHz):2400
645 via high-priority-cpu-list/high-priority-cpu-mask. But if this Intel(R) SST-BF
647 high-priority-cpu-list) can only offer up to 2400 MHz. As a result, if this
648 clipping of low priority CPUs is acceptable, then the user can enable Intel
650 CPUs are used, they can be scheduled on high priority CPUs and can get boost of
673 also adjusts the priority of cores using Intel(R) Speed Select Technology Core
682 - Discover Intel(R) SST-BF and note low and high priority base frequency
683 - Note the high priority CPU list
689 workload to high priority CPUs (CPU 5 and 6 in this case)::
700 observed that the high priority CPUs reached 3000 MHz compared to 2600 MHz.
732 to cores based on the priority. By using this feature, some cores can be
733 configured to get higher turbo frequency by designating them as high priority at
734 the cost of lower or no turbo frequency on the low priority cores.
855 high-priority-cores-count:2
856 high-priority-max-frequency(MHz):3200
857 high-priority-max-avx2-frequency(MHz):3200
858 high-priority-max-avx512-frequency(MHz):3100
860 high-priority-cores-count:4
861 high-priority-max-frequency(MHz):3100
862 high-priority-max-avx2-frequency(MHz):3000
863 high-priority-max-avx512-frequency(MHz):2900
865 high-priority-cores-count:6
866 high-priority-max-frequency(MHz):3100
867 high-priority-max-avx2-frequency(MHz):3000
868 high-priority-max-avx512-frequency(MHz):2900
870 low-priority-max-frequency(MHz):2600
871 low-priority-max-avx2-frequency(MHz):2400
872 low-priority-max-avx512-frequency(MHz):2100
875 two high priority cores. If only two high priority cores are set, then max.
879 In turn, for the hackbench workload, two CPUs can be set as high priority and
880 rest as low priority. One side effect is that once enabled, the low priority
908 feature and also sets the CPUs to high and low priority using Intel Speed
910 with "-c" arguments are marked as high priority, including its siblings.
915 - Discover Intel(R) SST-TF and note buckets of high priority cores and maximum frequency
919 - Subscribe desired CPUs to CLOS groups making sure that high priority cores are set to the maximum…
922 priority CPUs::