Thsi is important informaction for computer user,
CPU stands for C-Intern Processing Unit, translated into Spanish as the central processing unit of a computer.
The CPU is the brain of a digital system that handles the most basic mathematical and logical processes required by the system to process information and required action.
A CPU is a small motherboard or chip attached to a computer's motherboard. A motherboard is a motherboard that contains all the integrated circuits and circuits necessary for the operation of any computer.
The computer can be multiple CPUs, for Example Multiprocessors Multiprocessors formatted to use a single chip or a multiprocessor that integrates two CPUs on the computer Multiple processor CPU chip to accelerate its processing power Of that information.
Today, Intel and AMDC are the major manufacturers of CPUs and due to the fact that their size has been significantly reduced in recent years which is called microprocessor.
You should not make the mistake of using the acronym CPU to refer to a desktop computer monitor or tower, case or cabinet that is not a central processing unit but a place where all the important components, including your card, are present. Mom and CPU.
CPU means "Central Processing Unit" in English, or "Central Processing Unit" in Spanish. It receives this name because, in fact, it is the place where all computer functions are performed. Therefore, the chip where the elements are located is called CPU processor, which is called "computer brain".
Operations are organized into different components according to their nature. Calculations, such as addition, subtraction, multiplication, and division are represented in ALU (Logical Mathematical Unit), as well as Boolean Operation (Logic Test). In addition to controlling the operation of the central operations unit as a whole, UC (Control Unit) is already responsible for dealing with others.
In addition to these two, the CPU still has loggers, a low memory and high capacity. It follows the instructions given in the entries, or the values, which will be used in the execution of each order.
The speed at which information is transmitted is called the "clock". This the cpu is ver important for user knowloage and is always expressed in the processor model. Every 1 Hz is equal to one second per second. Thus, 2 GHz Intel i7-5550U, for example, can perform 2 trillion instructions per second
A very common mistake is to call the cabinet CPU. It is true that the processor is inside the piece, but it also supports hard disk, CD / DVD player and other hardware that does not perform data processing function.
Thanks to a more powerful CPU, we've easily jumped into displaying an image on a computer screen in Netflix, video chat, streaming and fast-paced video games.
CPU is a marvel of engineering, however, the fact is that it still relies on the basic concept of interpreting binary signals (1's and 0's). The difference now is that modern CPUs use tiny transistors to create tick-to-tick videos or fill in numbers on spreadsheets, instead of reading cartoon cards or following instructions on vacuum tube sets.
CPU preparation is complex. The important point is that every CPU contains silicon (either one piece or several) which contains billions of microscopic transistors.
As we have already pointed out, these transistors use a series of electronic signals (current "on" and current "off") to represent the binary code of the machine. Because there are so many of these transistors, CPUs can perform complex tasks faster and faster than ever before.
Counting transistors does not necessarily mean that a CPU will be faster. However, this is still one of the main reasons why the phone you carry in your pocket has so much more computing power, perhaps, when we first went to the moon, the whole planet did.
Before we move on to the CPU's ideological ladder, let's talk about how the CPU carries out instructions based on machine code, called "Instruction Set". Different companies' CPUs may have different instruction sets, but not always.
Most Windows PCs and current Mac processors, for example, use the x86-64 instruction set, whether it's an Intel or AMD CPU. However, Macs debuting at the end of 2020 will have arm-based CPUs, which use a different instruction set. There are also a small number of Windows 10 PCs that use ARM processors
Now that we've seen what's going on under one CPU, let's see how it integrates with the rest of your PC. The CPU sits in what is called a socket on your computer's motherboard.
Once in the socket, other parts of the computer can communicate with the CPU via something called "buses". RAM, for example, connects to the CPU via its own bus, while many PC components use a special type of bus, called a "PCI".
Each CPU has a set of "PCIe lanes" that it can use. AMD's Zen 2 CPUs, for example, have 24 lanes that are directly connected to the CPU. These streets were then separated by motherboard manufacturers under the direction of AMD.
For example, 16 lanes are typically used for an x16 graphics card slot. Next, there are four lanes for storage, such as a fast storage device, such as the M2SSD. Alternatively, these four lanes can also be divided. Can be used for two lane M2 SSD and for two slow Seta drives, such as hard drive or 2.5 inch SSD.
It has 20 lenses, with four others, exclusive to the Chipset. which is the communication center for the material board and the traffic controller. The chip set then has its own set of bus connections, allowing it to add more components to the PC. As you might expect, high performance components are more directly related to the CPU.
As you can see, the CPU does most of the instruction processing, and at times, even the graphics work (if built for it). However, the CPU is not the only way to follow instructions. Other components, such as the graphics card, have their own processing capabilities. The GPU also uses its own processing capabilities to work with the CPU and to play games or perform other graphics tasks.
The big difference is that component processors are made with specific tasks in mind. However, the CPU is a general purpose tool that is capable of doing whatever computing is asked to do. That's why the CPU rules your computer highly, and the rest of the system relies on it to work.
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