Lines Matching full:utilization
75 normalized in a 1024 range, and are comparable with the utilization signals of
77 to capacity and utilization values, EAS is able to estimate how big/busy a
135 for the CPU with the highest spare capacity (CPU capacity - CPU utilization) in
143 looks at the current utilization landscape of the CPUs and adjusts it to
146 the given utilization landscape.
158 The current utilization landscape of the CPUs is depicted on the graph
188 compared to leaving P on CPU0. EAS assumes that OPPs follow utilization
253 bigs, for example. So, if the little CPUs happen to have enough utilization at
274 impact on throughput for high-utilization scenarios, EAS also implements another
275 mechanism called 'over-utilization'.
278 5. Over-utilization
282 involving a light/medium CPU utilization. Whenever long CPU-bound tasks are
295 a. there is some idle time on all CPUs, so the utilization signals used by
372 of CPUs follow their utilization.
377 least _requests_ frequencies calculated using the utilization signals.
385 6.5 Scale-invariant utilization signals