Bent motherboard pins will generally not burn the CPU. The possibility of burning the CPU is very small, no more than one percent. Because the CPU has an automatic protection function, if the pins are bent, the CPU may not be installed; and if there is a problem with the motherboard pins, the host may not start normally.
CPU pins often refer to the interface provided by the hardware chip. Since it uses a pin interface, it is called a pin.
The CPU pins reflect the interface type. The CPU needs to be connected to the motherboard through a certain interface to work. After so many years of development, the interface methods used include pin type, card type, and contact type. Dot type, pin type, etc. The most commonly used CPU interface is a pin-type interface, which corresponds to the corresponding slot type on the motherboard.
Most CPUs use pin-type interfaces to connect to the motherboard, and CPUs with different interfaces have different pin numbers. (Recommended learning: PHP video tutorial)
The naming of the CPU interface type is usually expressed by the number of pins. For example, the 775-pin interface used by the Core 2 series processors has the number of CPU pins. It is 775 pins; and the Socket 938 pin interface used by AMD's latest AM3 series processors has a CPU pin number of 938 pins.
Pin is just a form of processor interface. As the processor frequency increases and its functions increase, the number of processor pins also increases.
But when the processor frequency increases to a certain level and the number of pins increases to a certain level, the processor will generate a lot of signal noise when running at high frequency, causing signal interference, and these interferences will affect the normal operation of the processor. Work.
In order to effectively overcome the signal interference caused by pin contact, Intel released a processor with the Socket 775 interface. There are no traditional pins at the bottom of the Socket 775 interface processor. Instead, there are 775 contacts that transmit signals by contacting the 775 contact pins in the Socket 775 slot on the corresponding motherboard. This reduces interference. CPUs can be designed to be more powerful and have higher frequencies.
In principle, the performance of the CPU has nothing to do with the number of pins, and not every CPU pin is functional. In other words, there are actually some pins on the CPU that do not have any function. The functional "display" is idle.
This is because when CPU manufacturers design CPUs, they will inevitably consider functional expansion and performance improvements in the future, and will reserve some temporarily ineffective pins for future improvements. However, with the development of CPU technology, more and more CPU pins are needed to achieve richer functions and higher performance. For example, the number of pins required to integrate a dual-channel memory controller is higher than that of only integrating a single-channel memory controller. The number of pins required is much higher, so in general, the number of CPU pins is increasing. Basically, it can be considered that the CPU with more pins has a more advanced architecture.
But nothing is absolute. For example, the pin count of Socket S1 used by AMD to replace Socket 754 on the mobile platform has been reduced from 754 to 638.
Will the CPU burn if the motherboard pins are bent?
No, the possibility is very small, no more than one percent.
CPUs have automatic protection functions, and if the pins are bent, you may not be able to press them when installing the CPU. There is no need to install it violently. You will be able to feel it when the CPU is installed normally.
There is a problem with the motherboard pins. The most likely reason is that the host cannot start normally. Generally it will not burn the CPU.
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