10nm has Samsung Orion 8895,14 nm has Qualcomm Snapdragon 653, 626,28 nm has Mediatek H6975 and Snapdragon 615.
The processing process of the processor, from the initial 90nm, to 65nm, 45nm, 32nm, and later the more common 28nm, and gradually improved to 20nm, and then to the current high performance configuration of 16nm, 14nm, and a few 10nm process processes also appeared on the fuselage. This process is different from our conventional thinking that the larger the size, the more powerful the function.
Process as a technology of the processor chip, it plays a role in allowing the processor to carry more electronic components. Generally, processors carry a series of electronic components such as transistors, resistors and capacitors, which are too small to be seen with a microscope. The distance between these sophisticated electronic components is usually calculated in nanometers, and the smaller the nano distance, the more components are carried, so the more comprehensive the function of the phone.
Being able to carry as many electronic components as possible is one thing. Narrowing the spacing of electronic components also has the effect of reducing the current capacity of different transistor terminals, thereby increasing their exchange frequency. Because the dynamic power consumption of each transistor when switching electronic signals is directly related to the current capacity, the operation speed is increased and the energy consumption is reduced.
Understanding this, it is not difficult to understand why the smaller the value of the process, the more advanced the process; The smaller the size of the components, the higher the integration of the processor, so the performance is enhanced, and the power consumption of the processor is lower.