Your smartphone processor, also known as the chipset, is a component that controls everything going on in your smartphone and ensures it functions correctly. You can compare it to the brain of the human body. Every action you perform on your smartphone goes straight to the processor. These actions are then converted to visual changes on your screen, and all of this happens in a split second. Pretty neat, right?
A CPU chip is designed for portable computers to run fanless, under 10-15W, which is cool enough without a fan. It is typically housed in a smaller chip package, but more importantly, in order to run cooler, it uses lower voltages than its desktop counterpart and has more sleep mode capability. A mobile processor can be throttled down to different power levels or sections of the chip can be turned off entirely when not in use. Further, the clock frequency may be stepped down under low processor loads. This stepping down conserves power and prolongs battery life.
How does a smartphone processor work?
You’re opening a few pictures in an app, for example. This action is registered by the processor and stored in the memory of your device. That’s the fetch phase. The action is then translated to ones and zeros in the decode phase. The instructions are now saved in a language your smartphone understands. It’s ready for the execute phase. The processor transmits the ones and zeros, and you can see it all happen on the screen. Your pictures are opened. Finally, the executed instructions are saved in the register memory during the saving phase. Afterward, the process will restart.
What determines the processor speed?
The speed at which a processor processes a certain action depends on a number of factors, like the number of processor cores. The clock speed is another important aspect. Processors with low clock speeds and (sometimes) a smaller number of processor cores work more slowly than processors with high clock speeds and a large number of processor cores. Makes sense, as that’s what you’re paying for, in the end. Actions performed on a cheaper smartphone will be processed more slowly than on a more expensive model.
The clock speed determines how many instructions the processor can execute per second. A processor with a 1-Gigahertz (GHz) clock speed can process 1 billion instructions per second. The general rule is that higher clock speeds make for faster phones. You can often see this with more expensive smartphones. Their processor cores have higher clock speeds than those of more affordable devices. The number of processor cores also influences the speed of your smartphone.
A processor, also known as CPU, consists of multiple cores: Dual, Quad, Hexa, and Octa-core. What do these cores do exactly? Processor cores distribute the work that comes in when you use your phone. One core has a maximum number of instructions it can process within a certain amount of time. If you perform a lot of actions on your smartphone, a queue of sorts will form. If this queue gets too long, part of it will go to the next core. This ensures your smartphone will keep functioning smoothly.
Let’s list it all. The processor of your smartphone is the component that converts all your actions into visual changes on the screen. It can do this thanks to the number of cores and a certain clock speed. The number of cores ensures actions are always processed on time. The clock speed determines the number of instructions that can be executed per second. The higher the clock speed, the faster the smartphone. My tip: don’t just look at the number of cores, but also at the clock speed.
For more information: Smartphone Processors