What is Processor? Here’s Everything You Need to Know

What is Processor

The processor is a logical circuit located inside a CPU that performs a variety of functions for the computer. The processor is in charge of performing mathematical, logical, and input/output operations, as well as performing and assisting in the execution of a variety of other activities.

To produce a final result, the processor first retrieves the instruction from memory, decodes it, and then executes it.

What is CPU?

CPU stands for Central Processing Unit. It is the brain of the Computer, Tablets which is found in almost every electronic device in some or other form to carry out a general task or to carry out a specific task. Very common in the devices which we use nowadays like mobile phones, laptops, desktops, etc.

Some of the basic parts of processors are

Address Bus: (for carrying memory address information where data is to be stored)

Data Bus: (for carrying data information to and out from the processor)

ALU: (Arithmetic and Logic Unit for carrying out all the arithmetic and logical operations inside the CPU).

There are control lines (read and write) that tell the processor whether take input from or give output to memory or IO device.

The Core of a Processor:

When processors were slower and couldn’t do several jobs at the same time, scientists developed the multi-core design of CPUs. To make the CPU operate, these cores are made up of millions and billions of micro transistors.

What do Cores mean in CPU?

A single-core design can only handle one job at a time and cannot multitask. A dual-core CPU, on the other hand, can do at least two tasks at once, giving it multitasking capabilities.

Similarly, when the number of cores in the CPU increases (for example, quad-core, octa-core, etc. ), the processor grows quicker and faster, and multitasking becomes smoother and more efficient. You may get the answer of What is dual-core and quad-core.

The details of these different cores are discussed in this article below.



The CPU may have various types of processors based on the number of cores or processors available on it.

(i) Single Core Processor:

The earliest sort of processor is a single-core processor, which has only one processor. This processor can only do one operation at a time. It is based on the FIFO (First In, First Out) concept, which indicates that the first action in the queue is given precedence. These CPUs aren’t particularly fast, and multitasking isn’t achievable with them.

Example: Celeron.

(ii) Dual Core/ Multi Core Processor:

Dual-core processors have two processors or cores embedded in the CPU. These two processors have their own local cache and their controllers. As there are two processors, dual-core processors can perform multitasking and carry out different operations faster than a single-core CPU.

Example: Intel Core Duo, AMD X2, etc.

(iii) Quad-Core Processor:

As the name suggests, this type of processor has four cores present inside which are embedded together in a single chip.

These types of processors are very comfortable for multitasking as compared to single and dual-core processors. Every core in the processor has the ability to perform tasks individually without depending on the other cores.

These processors are designed to make the CPU faster and perform different operations at the same time efficiently and smoothly.

Example: AMD Ryzen 5, Intel Xeon W, etc.

(iv) Hexa Core Processor:

This CPU contains six cores on the chip, allowing it to complete functions more quickly. These CPUs make multitasking a lot simpler. Playing games, watching films, and performing a variety of other tasks may all be done quickly and efficiently.

Example Intel Core I7 etc.

(v) Octa Core Processor:

Having eight cores inside the processor chip, these type of processors produces higher speeds while processing. Multitasking can be done on another level in these types of CPUs. Nowadays, smartphones have the greatest application of these processors which allow performing various tasks like playing games with live streaming, handling multiple tasks at a time, and executing the processes sweetly and efficiently.

Example: AMD Ryzen 7 etc.

(vi) Deca Core Processor:

The CPU of this processor contains 10 processors. This processor chip has eight independent processors, which aid in the efficient and smooth execution of tasks. It outperforms all of the other types of CPU processors in terms of execution speed and power.

Example: Intel Core i9, Intel Xeon Silver, etc

Thread of a Processor:

A thread is a logical split of a CPU core that improves the processor’s performance. A Processor core generally has two threads, each of which may logically do a specialized task, increasing the processor’s efficiency and aiding multitasking.

A CPU contains physical cores, but there are no physical threads inside the processor’s core because it’s only a logical divide to execute tasks quickly and smoothly.

A dual-core processor has four threads; similarly, a quad-core processor has eight threads, an octa-core processor has sixteen threads, and so on.

Laptop CPU
Image Credit: Unsplash

Generation of a Processors:

Let’s have a look at the INTEL CPU. These CPUs can now be classified as i3, i5, i7, or i9. And we see an improvement in generations in each of these sorts of processors, resulting in higher performance than the preceding generation.

With an increase in the generation of a specific processor, there are some technological advancements.

Hyper-threading is available on all INTEL dual-core CPUs. The hyper-threading feature allows a single core to behave as a dual-core, allowing it to do tasks quicker and more effectively.

Hyperthreading is not available in the 9th generation core i3 CPU since it is a quad-core processor, and hyperthreading is only enabled in dual-core processors in the INTEL core i3.

When a CPU is upgraded to a newer generation, the transistor size is reduced, graphics are improved, and other technical improvements are possible. The power consumption is lower as a result of the smaller transistor size, and as a result, less heat is created.

Furthermore, more transistors may be placed in a single CPU, boosting the processor’s performance.

The transistor and graphics sizes used in the INTEL CPU, along with their generations, are listed below:

1st generation-> 42nm transistor size and INTEL HD Graphics.

2nd generation-> 32nm transistor size and INTEL HD 3000 Graphics.

3rd generation-> 22nm transistor size and INTEL HD 4000 Graphics.

4th generation-> 22nm transistor size and Inter HD Graphics 4600/4200 Graphics.

5th generation-> 14nm transistor size and Inter Iris Pro 6200 Graphics.

6th generation-> 14nm transistor size and Inter HD Graphics 530.

7th generation-> 14nm transistor size and Inter HD Graphics 630.

8th generation-> 14nm transistor size and Inter UHD Graphics 630.

9th generation-> 14nm transistor size and Inter UHD Graphics 630.

In the 9th generation, i3 and i5 processors have at least 4 cores and there is no concept of dual-core. Hyperthreading is not supported in core i3 9th generation as it is a quad-core processor and not dual-core. Similarly in INTEL core i5, hyper-threading is supported only in a quad-core processor.

CPU Frequency:

We know that the CPU has millions and billions of transistors. Because these transistors serve as switches, they can be ON or OFF at any one time. The transistors that are on are turned off after receiving a clock, and the transistors that are off are switched on.

The CPU frequency is the pace at which transistors are switched off or on in one second after receiving a clock.

If a processor has a clock speed of 1 GHz (gigahertz), the transistors in the computer processor are switched on and off 1 billion times per second, processing the instructions.

It is not true that a processor may perform better than another just by increasing the CPU frequency. The performance of the CPU is affected not only by the frequency of the CPU but also by other variables such as the number of transistors within it.


What does a Processor do?

A processor executes the instructions given to it by the user. A processor is required to process all application programs and instructions and to provide an output. The CPU contains cores, which can be one or more, that allow it to function efficiently, smoothly, and multitask effectively.

How to check which CPU is on my Laptop/PC?

To check the CPU in your PC, right-click on the Taskbar and go to Task Manager. After that go to the Performance section and select CPU. You will get the name as well as the speed of the CPU there.

How to check which CPU is on my Laptop

What does a CPU do for gaming?

The instructions for the game to be played on the device are run by the processor in the CPU. The processor is in charge of all the game’s variables, score points, inputs, and outputs. It also aids the GPU in graphics-related operations, allowing the game to operate more effectively and smoothly.

What is the best processor for a laptop or which processor should I buy?

The answer to this question is contingent on the user’s desire to purchase a laptop. The best available laptop for the customer may be identified based on the user’s needs for specifications and price.

If a user just needs to perform simple activities such as watching movies, saving photographs, using MS Word and MS Office, and so on, the Intel i3 CPU, which is a dual-core processor, may be a viable alternative.

The i5 CPU (quad-core) will be enough for the user to perform even more demanding jobs, such as HD video editing and some games. These provide higher performance and are more costly than laptops with i3 processors.

The i7 and i9 CPUs, respectively, feature 4 or 6 cores and 6 or 8 cores. Many of these high-end laptops are utilized for hardcore gaming, extensive video editing of 4K footage with high graphics, and heavy software. This results in a very good and smooth CPU performance.

The performance of the CPU is also affected by the processor’s generation. A 7th Intel Core i3 CPU is always superior to a 3rd Intel Core i3 processor.


I am Ali, a Software Engineer. I love the latest technology as well as Digital Marketing. Also, I Love to Write about the latest and upcoming technologies and Gadgets. I Love to travel around the world and learn new things. Contact Send email

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