Why choose Intel CPU?

Today, Intel and AMD processors dominate the CPU market. Obviously, the range of options is very wide, and determining which brand is the best is a really hard task. Depending on what you are looking for, as well as your budget, you should opt for some processor models more than others.

However, although it is not possible to analyze each of the possibilities offered by Intel Core and AMD processors, we can offer you the next best thing. We bring together information on why you should choose Intel. Use this as a starting point when deciding to invest in one of the best processors. But first the basics…

What is intel for?

What is a processor?

A CPU (Central Processing Unit), or processor, is a central element of all computer equipment. He’s responsible for running the whole system, much like a conductor. If we stick to the literal nature of its nomenclature, its task is essentially to deal with all the functions of the device it manages.

Intel CPU being used on motherboard

Without a processor, it would be impossible to use a computer. As a central element, it is responsible for storing information but also constantly monitoring the state of the operating system. On the other hand, it receives instructions for all installed components and applications, as well as output information.

How does the CPU affect games and applications?

PC Games

The basic calculations that supply the graphics card with data run on the processor. Among other things, the processor loads the level data in a game. So if it is too slow, the graphics card can still be so fast, a slow CPU will slow it down and you will continue to get too low fps numbers (frames per second: the number of images that are sent to the screen per second. If it is too low, the image becomes jerky (for example, in a fast shooter, the minimum fps number reached should be 90) – simply because the CPU of the graphics card tells the structure of the next image comparatively at a snail’s pace. There is also a CPU limit. The greater the difference in performance between the processor and the graphics card, the more visible the braking effect.

So if you want to play new and possibly fast-paced and graphically demanding games, you should make sure that your PC’s processor is up to the task. It is also important that this is primarily about the clock frequency – most games work, no matter how many cores your processor has, preferably with eight cores.

Programs & applications

If you mainly use your PC for computing-intensive applications such as image processing programs, the criteria look different. The performance of the graphics card is of little or no relevance for the applications, so the braking effect described above cannot occur here. Modern programs benefit from a higher -speed core, as they are designed to use these services.

In contrast to games in which too low a fps number leads to unplayability at worst, in applications a better or worse processor is mainly a question of the patience of the user: the slower the processor gets after the calculation of individual work steps, the longer the waiting time for those who work with the program. In the business field, longer or shorter waiting times for the execution of programs can have direct financial effects – a point that should not be neglected. Of course, an inadequate CPU, even for applications – if they are brand new and require a lot of computing effort – will at some point mean that they can no longer be operated smoothly and therefore not effective.

Why Intel?

While Intel’s main competitor AMD (Advanced Micro Devices) offers aggressively priced, high-quality components, there are a few reasons why an Intel processor may be better for your particular needs. Especially in the gaming world, Intel is a legend. Intel processors are the best and they are ahead of AMD with 15 to 20%.

Power Consumption

Intel’s Atom processor consumes very little power – as little as 5 watts. A comparable AMD processor can use two to three times as much power, which has a noticeable effect on a laptop’s battery.

Heat Generation

While AMD and Intel regularly trade places depending on what performance benchmark you use, Intel processors have a reputation for generating less heat, which is in part due to lower power requirements… In a compact environment like a minicomputer, Intel may be a better choice.

Compatibility

Intel processors are more common in the market, a wide range of motherboards are available. That means you can choose from a wide variety of features, and it’s easier to find a lower price than a comparable compatible AMD motherboard.

Integrated memory control

Technology allows a processor to coordinate the activity of all of its cores, and it improves the way instructions are temporarily stored and retrieved. The Intel QuickPath Interconnect initiative put on par with AMD memory. The powerful Intel Core i7 processors coupled with this technology allows for a higher performance cap.

Manufacturing Capacity

Intel operates 15 CPU manufacturing plants around the world, while AMD has spun its small handful of plants into a separate organization that is essentially owned by a third party. Higher production capacity from Intel allows them to bring a greater amount of processors to the market in a short period of time, making you more likely to be able to find the CPU you want.

Gaming

For gamers, CPUs with a maximum of 6 cores are a good future investment. Most games support a maximum of 4 cores, a few already support 6 cores – and in the future, there will be quite a few titles. Even if some eight-core CPUs are cheaper, they have so far been of no use in a gaming PC.

No compromises are made with the Intel Core i7-8700K – games are guaranteed to run smoothly with this 6-core. At the same time, overclocking can get a little more speed out of this processor. An alternative: the slightly lower clocked Core i7-8700. It does not have the overclocking potential of the Core i7-8700K, but it is cheaper.

The Intel Core i5-8400 delivers high gaming performance at a budget price, which does not give the Core i7-8700K a big head start in terms of speed. In terms of gaming performance, the two eight-core Ryzen 7 2700 and Ryzen 7 2700X or the successors can keep up on the AMD side, but cannot quite match the Intel CPUs. The six-core Ryzen 5 3600x is also top value for money but Intel is still the best for gaming.

Best multifunction processor

Intel Core meets your needs with the introduction of the 9th generation of processors and the Core i7 9700K. The strengths of this generation are higher Turbo frequencies, more Core, and more cache. Thanks to improved thermal performance and energy efficiency of CPUs, this made it possible to achieve higher frequencies for an always moderate TDP. Your computer will be more efficient with these specificities.

This 9th Generation Intel Core Processor – i7 9700K is perfect for all types of use, whether gaming, ultra-immersive VR, creative creation, watching movies and heavy-duty tasks. High performance is delivered with Intel Turbo Boost 2.0 to easily manage your daily and creative uses in the best conditions of fluidity.

Best processor with a long lifespan

Here is the Core i7-8700. It usually exceeds 300 €, and this price is justified if you take into account its advantages and its long lifespan. It’s one of the best options for gaming equipment today. And its twelve logic cores deliver a toughness that few processors can match.

It is, therefore, the ideal purchase if you want to build a successful team. Also, due to its high quality and high compatibility, it presents little problem when paired with lower range motherboards. Here is, without a doubt, something that makes up for its high price tag.

Best processor for content creators

Whether you’re making a new movie or the next episode in a YouTube series, Intel® Core ™ X-Series processors with overclocking capabilities have been designed to meet your performance needs using the two most powerful cores. fast at higher frequencies, and up to 18 cores if super-versatility is required.

Spend more time creating and less waiting. The Intel® Core X-Series processor can handle the most demanding workloads.

The 10 Best Intel Processors in 2020

Over the years, Intel has been able to revolutionize the world of Hardware by releasing ever more efficient processors.

Today, Intel is in the tenth generation of the Intel Core processor, and we have decided to give you a comparison of the best models available on the market today. For each model, we will list their technical specifications.

We have also prepared a sort of “buying guide” for you showing you how to choose your Intel CPU in 2020.

So without further delay, here are the best Intel processors in 2020!

Intel® Core™ i9-10900K Processor

  • Cores: 10
  • Threads: 20
  • Processor Base Frequency: 3.70 GHz
  • Max Turbo Frequency: 5.30 GHz
  • Intel® Thermal Velocity Boost Frequency: 5.30 GHz
  • Cache: 20 MB Intel® Smart Cache
  • Bus Speed: 8 GT/s
  • Intel® Turbo Boost Max Technology 3.0 Frequency: 5.20 GHz
  • Intel® Turbo Boost Technology 2.0 Frequency: 5.10 GHz
  • TDP: 125 W
  • Configurable TDP-down Frequency: 3.30 GHz
  • Configurable TDP-down: 95 W
  • Max Memory Size (dependent on memory type): 128 GB
  • Memory Types: DDR4-2933
  • Max number of Memory Channels: 2
  • Processor Graphics: Intel® UHD Graphics 630
  • Graphics Base Frequency: 350 MHz
  • Graphics Max Dynamic Frequency: 1.20 GHz
  • Graphics Video Max Memory: 64 GB
  • 4K Support: Yes, at 60Hz
  • DirectX* Support: 12

Source

Intel® Core™ i9-9900K Processor

  • Cores: 8
  • Threads: 16
  • Processor Base Frequency: 3.60 GHz
  • Max Turbo Frequency: 5.00 GHz
  • Cache: 16 MB Intel® Smart Cache
  • Bus Speed: 8 GT/s
  • Intel® Turbo Boost Technology 2.0 Frequency: 5.00 GHz
  • TDP: 95 W
  • Max Memory Size (dependent on memory type): 128 GB
  • Memory Types: DDR4-2666
  • Max number of Memory Channels: 2
  • Processor Graphics: Intel® UHD Graphics 630
  • Graphics Base Frequency: 350 MHz
  • Graphics Max Dynamic Frequency: 1.20 GHz
  • Graphics Video Max Memory: 64 GB
  • 4K Support: Yes, at 60Hz
  • DirectX* Support: 12

Source

Intel® Core™ i7-10700K Processor

  • Cores: 8
  • Threads: 16
  • Processor Base Frequency: 3.80 GHz
  • Max Turbo Frequency: 5.10 GHz
  • Cache: 16 MB Intel® Smart Cache
  • Bus Speed: 8 GT/s
  • Intel® Turbo Boost Max Technology 3.0 Frequency: 5.10 GHz
  • Intel® Turbo Boost Technology 2.0 Frequency: 5.00 GHz
  • TDP: 125 W
  • Configurable TDP-down Frequency: 3.50 GHz
  • Configurable TDP-down: 95 W
  • Max Memory Size (dependent on memory type): 128 GB
  • Memory Types: DDR4-2933
  • Max number of Memory Channels: 2
  • Processor Graphics: Intel® UHD Graphics 630
  • Graphics Base Frequency: 350 MHz
  • Graphics Max Dynamic Frequency: 1.20 GHz
  • Graphics Video Max Memory: 64 GB
  • 4K Support: Yes, at 60Hz
  • DirectX* Support: 12

Source

Intel® Core™ i7-9700K Processor

  • Cores: 8
  • Threads: 8
  • Processor Base Frequency: 3.60 GHz
  • Max Turbo Frequency: 4.90 GHz
  • Cache: 12 MB Intel® Smart Cache
  • Bus Speed: 8 GT/s
  • Intel® Turbo Boost Technology 2.0 Frequency: 4.90 GHz
  • TDP: 95 W
  • Max Memory Size (dependent on memory type): 128 GB
  • Memory Types: DDR4-2666
  • Max number of Memory Channels: 2
  • Processor Graphics: Intel® UHD Graphics 630
  • Graphics Base Frequency: 350 MHz
  • Graphics Max Dynamic Frequency: 1.20 GHz
  • Graphics Video Max Memory: 64 GB
  • 4K Support: Yes, at 60Hz
  • DirectX* Support: 12

Source

Intel® Core™ i5-10600K Processor

  • Cores: 6
  • Threads: 12
  • Processor Base Frequency: 4.10 GHz
  • Max Turbo Frequency: 4.80 GHz
  • Cache: 12 MB Intel® Smart Cache
  • Bus Speed: 8 GT/s
  • Intel® Turbo Boost Technology 2.0 Frequency: 4.80 GHz
  • TDP: 125 W
  • Configurable TDP-down Frequency: 3.80 GHz
  • Configurable TDP-down: 95 W
  • Max Memory Size (dependent on memory type): 128 GB
  • Memory Types: DDR4-2666
  • Max number of Memory Channels: 2
  • Max Memory Size (dependent on memory type): 128 GB
  • Memory Types: DDR4-2666
  • Max number of Memory Channels: 2
  • Processor Graphics: Intel® UHD Graphics 630
  • Graphics Base Frequency: 350 MHz
  • Graphics Max Dynamic Frequency: 1.20 GHz
  • Graphics Video Max Memory: 64 GB
  • 4K Support: Yes, at 60Hz
  • DirectX* Support: 12

Source 

Intel® Core™ i5-9600K Processor

  • Cores: 6
  • Threads: 6
  • Processor Base Frequency: 3.70 GHz
  • Max Turbo Frequency: 4.60 GHz
  • Cache: 9 MB Intel® Smart Cache
  • Bus Speed: 8 GT/s
  • Intel® Turbo Boost Technology 2.0 Frequency: 4.60 GHz
  • TDP: 95 W
  • Max Memory Size (dependent on memory type): 128 GB
  • Memory Types: DDR4-2666
  • Max number of Memory Channels: 2
  • Processor Graphics: Intel® UHD Graphics 630
  • Graphics Base Frequency: 350 MHz
  • Graphics Max Dynamic Frequency: 1.15 GHz
  • Graphics Video Max Memory: 64 GB
  • 4K Support: Yes, at 60Hz
  • DirectX* Support: 12

Source

Intel® Core™ i5-9400F Processor

  • Cores: 6
  • Threads: 6
  • Processor Base Frequency: 2.90 GHz
  • Max Turbo Frequency: 4.10 GHz
  • Cache: 9 MB Intel® Smart Cache
  • Bus Speed: 8 GT/s
  • Intel® Turbo Boost Technology 2.0 Frequency: 4.10 GHz
  • TDP: 65 W
  • Max Memory Size (dependent on memory type): 128 GB
  • Memory Types: DDR4-2666
  • Max number of Memory Channels: 2

Source

Intel® Core™ i3-10100 Processor

  • Cores: 4
  • Threads:8
  • Processor Base Frequency: 3.60 GHz
  • Max Turbo Frequency: 4.30 GHz
  • Cache: 6 MB Intel® Smart Cache
  • Bus Speed: 8 GT/s
  • Intel® Turbo Boost Technology 2.0 Frequency: 4.30 GHz
  • TDP: 65 W
  • Max Memory Size (dependent on memory type): 128 GB
  • Memory Types: DDR4-2666
  • Max number of Memory Channels: 2
  • Processor Graphics: Intel® UHD Graphics 630
  • Graphics Base Frequency: 350 MHz
  • Graphics Max Dynamic Frequency: 1.10 GHz
  • Graphics Video Max Memory: 64 GB
  • 4K Support: Yes, at 60Hz
  • DirectX* Support: 12

Source

Intel® Core™ i3-9100F Processor

  • Cores: 4
  • Threads: 4
  • Processor Base Frequency: 3.60 GHz
  • Max Turbo Frequency: 4.20 GHz
  • Cache: 6 MB Intel® Smart Cache
  • Bus Speed: 8 GT/s
  • Intel® Turbo Boost Technology 2.0 Frequency: 4.20 GHz
  • TDP: 65 W
  • Max Memory Size (dependent on memory type): 64 GB
  • Memory Types: DDR4-2400
  • Max number of Memory Channels: 2

Source

Intel® Pentium® Gold G5400 Processor

  • Cores: 2
  • Threads: 4
  • Processor Base Frequency: 3.70 GHz
  • Cache: 4 MB Intel® Smart Cache
  • Bus Speed: 8 GT/s
  • TDP: 58 W
  • Max Memory Size (dependent on memory type): 64 GB
  • Memory Types: DDR4-2400
  • Max number of Memory Channels: 2
  • Processor Graphics: Intel® UHD Graphics 610
  • Graphics Base Frequency: 350 MHz
  • Graphics Max Dynamic Frequency: 1.05 GHz
  • Graphics Video Max Memory: 64 GB
  • 4K Support: Yes, at 60Hz
  • DirectX* Support: 12

Source

How to choose your Intel processor?

The choice of a processor should be primarily based on the characteristics of the processor. So, here are the main criteria to check if you want to buy an Intel CPU.

  • The number of cores: In general, the more core a CPU has, the more it will perform. However, this rule is not applicable in video games, as developers tend to optimize their games for high CPU frequencies more than for a large number of cores. In 2020, the less powerful Intel processors generally have at least 4 cores, except the entry-level processors which have 2 cores.
  • Frequency: The frequency of the CPU obviously has a big impact on performance. The higher the frequency, the better the performance, but the more the heating is likely to be too. Thus, it is recommended to have a good cooler if you ever decide to increase the factory frequency on your CPU.
  • The graphics chip: Intel is known to integrate a graphics part into a large number of these processors. This graphics chip is used to avoid having to put additional graphics cards on PCs which are limited to office automation. Indeed, Intel’s graphics chipset is sufficient to provide all the basic functions of a computer, such as Internet searches.
  • The socket: Not all processors are compatible with all motherboards. Each motherboard has what is called a “socket”, it is in a way a sign which indicates the compatible CPU. Currently, Intel processors are compatible with socket 1151 motherboards. A notion of chipset indicating the compatible processors from a software point of view is also to be taken into account, generally, the compatible models are indicated on the manufacturer’s site.
which socket is needed for intel cpu

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