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ARMv8-A Power Management

Many ARM systems are mobile devices and powered by batteries. In such systems, optimization of power use, and total energy use, is a key design constraint. Programmers often spend significant amounts of time trying to save battery life in such systems. Built into ARM cores are many hardware design methods that are aimed at reducing power use.

Power-saving can also be of concern even in systems that do not use batteries. For example, you might want to minimize energy use for reduction of electricity costs to the consumer, for environmental reasons, or to minimize the heat that the device generates.

Energy use can be divided into two components:

Static
Static power consumption, also often called leakage, occurs whenever the core logic or RAM blocks have power applied to them. In general terms, the leakage currents are proportional to the total silicon area, meaning that the bigger the chip, the higher the leakage. The proportion of power consumption from leakage gets higher as you move to smaller fabrication geometries.
Dynamic
Dynamic power consumption occurs because of transistor switching and is a function of the core clock speed and the numbers of transistors that change state per cycle. Clearly, higher clock speeds and more complex cores consume more power

Power management-aware operating systems dynamically change the power states of cores, balancing the available compute capacity to the current workload, while attempting to use the minimum amount of power. Some of these techniques dynamically switch cores on and off, or place them into quiescent states, where they no longer perform computation. This means that they consume little power.

Note

The types of power management described here are not architectural in origin. The methods described here are examples of common practice in software methods of power management.

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