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How To Choose Intel Processor? – A Complete Guide

Intel is the world’s giant PC microprocessor and X86 processor manufacturer. But there comes a lot of confusion while choosing the right one according to our needs! So are you aware of How to choose Intel Processor?

This article is all about How to choose Intel Processor, so make sure to have a complete understanding before buying. 

How To Choose Intel Processor

How To Choose Intel Processor?

Any computer you’re buying is embedded with an Intel processor or AMD chips. Other than these two, the newer Macs are infused with an M1 processor. Below are the terms for you to be aware of before choosing an Intel processor that is ideal for you!

What Are Intel Processors?

The Intel processors are the world’s most used CPUs for laptops in the 8th, 9th, 10th, and 11th generations with the families like Xeon, Pentium, and Celeron. Intel introduced a new generation to the market every two years since its first release in 2006. 

There are plenty of Intel processors and types out there in the market. So to distinguish between them, you have to be aware of the brand, brand modifier, generation indicator, SKU numeric digits, and product line suffix of an Intel processor.

Understanding The Parts Of Intel Processors

1. Brand

Every Intel processor starts with stating its brand name, “Intel.” It includes all its cores like Intel Pentium, Intel Celeron, and Intel Xeon.  

2. Brand Modifier  

Brand modifiers follow the brand name of an Intel processor. The higher the brand modifiers, the higher it’s potential to outperform the lower brand modifiers. For example, an i7 brand modifier has tremendous potential compared to i5. Also, remember that brand names like Pentium, Celeron, and Xeon don’t have any brand modifiers! 

3. Generation Indicator 

These generation indicators indicate the manufacturing of the chip. The generation indicator is usually in one digit until the 9th generation. The case might vary slightly after the generation exceeds the 9th generation. 

4. SKU Numerals

The SKU indicates the features of the processor. The higher the SKU, the more features the processor includes. But, these SKU digit numerals are recommended not to compare with different brands, generations, or product lines.

5. SKU Suffix

This Suffix SKU is another indicator of a processor’s potential. Also, a letter-based suffix is indicated to spot the remaining difference. For example, HQ means the processor is capable of high-performance optimized for mobile and quad-core. S represents the processor as a special edition product.

Intel Processor Generations 

1st Generation Processor To 3rd Generation Processor: 

The 1st generation processors are termed Nehalem, which came out as the initial architecture of the present core with specific limitations in 2010. This generation is a 45-nm processor that supports an 1156 LGA socket and dual-channel DDR3 RAM.

The 2nd generation processors are known as Sandy Bridge, which possesses an average performance of 11.3% compared to previous architecture. They came in 2011 that used a 32-nm processor supporting 1155 LGA socket and dual-channel; DDR3-1066 RAM.

The 3rd generation processors were termed Ivy Bridge in 2012 and are faster than the Sandy Bridge processors. They make use of the same 1155 LGA socket with DDR3-1333 to DDR3-1600 RAM. They use a 22-nm processor consuming a minimal amount of energy while elevating the performance upto 68% of than previous architecture.

4th Generation Processor To 7th Generation Processor: 

The 4th generation processors are termed Haswell, released in 2013. They use a 22-nm processor same as the Ivy Bridge processors. They possess many features from the Ivy Bridge processors that support LGA 1150, BGA 1364, LGA 2011-3 with DDR4 technology.

The 5th generation processors are Broadwell Intel processors introduced in 2015. These processors are 37% smaller than the previous versions and claim to improve the device’s battery life and improve graphics performance. They support dual-channel DDR3L-1333/1600 RAM.

The 6th generation processors are Skylake processors were introduced in 2015. They use 14-nm technology recreated architecture of its predecessor. 

The 7th generation processors are Kaby Lake, was introduced in 2016. They are said to be an overcome product of its previous version with lots of improvements in power and few enhancements inefficiencies in the 14-nm process architecture.

8th Generation Processor To 11th Generation Processor: 

The 8th generation processor is a refreshment of Kaby Lake processors. They were introduced as Kaby Lake R in 2017. The only difference of the 8th gen processor is that it supports DDR4-2666 RAM.

The 9th generation processors are introduced as Coffee Lake in the final quadrant of 2017. They were the first generation processors that broke the four core per CPU limitation, supporting upto eight cores per CPU. They support 1151 LGA sockets.

The 10th generation processors are called Cannon Lake and were introduced in the same late 2017’s. They use all new 10-nm technology BGA1526 sockets with DDR4 3200 and LPDDR4X 3733 support. The first-generation processors came up with integrated support for Wi-Fi 5 and Thunderbolt 3.

The 11th generation processors are the recent cores released in the first quarter of 2021. They are termed Tiger Lake processors that use 10-nm transistor technology boosting up to 30% performance compared to their previous processors.     

Intel Processor Suffixes And Their Meanings

BBall Grid Array
Needs discrete graphics
GEmbedded with discrete graphics on the whole package
G1-G7Graphics level integrated with graphics technology 
Mobile optimized for higher performance
HKHigh performance optimized for mobile, unlocked
HQHigh performance optimized for quad-core, and mobile
Special edition
TPower optimized lifestyle
UMobile power-efficient
YMobile extreme low power 
X/XEHigh end, unlocked

Intel Processor Names And Their Purposes

Intel manufactures all of the processors that fall under these categories based on their benefits. Here they are,

  • Intel Celeron – This processor is for entry-level workers and essential works that require minimal workflows
  • Intel Xeon      – This processor is designed especially for some heavy tasks
  • Intel Pentium – This processor is an economic project designed to deliver a higher level of results for budget users

1. Intel Celeron Processor

The Intel Celeron processors are based on a Pentium four-core chip that is budget-friendly. They are advised to use minimal work like browser-based tasks and non-heavy applications. Some of the commonly used Celeron generations are

  • Celeron G6900
  • Celeron G5925
  • Celeron N5105
  • Celeron N4500

2. Intel Xeon Processor

The Intel Xeon processors are focused on business purposes as they are designed for handling complex computations and heavy applications like scientific calculations. These processors have astounding clock speeds and great computational potential. Here are some of the Xeon processor generations,

  • Xeon Gold and Platinum of Cooper Lake
  • Xeon Platinum, Gold, and Silver of Cascade Lake
  • Xeon E of Coffee Lake

3. Intel Pentium Processors  

The Pentium processors are budget-friendly CPUs that manage the clocking speed and turbo boost like premium cores at an economical price. They run a certain amount of applications at the same time. If you are looking for something higher than your budget, Pentium processors are ideal. 

Here are some of the Pentium processors for you to look at,

  • Pentium Silver of Jasper Lake
  • Pentium Gold of Coffee Lake
  • Pentium Gold of Tiger Lake

Which Generation Processor Suits You?

In simple words, these processor generations are named to distinguish them from one another. Each generation processor has its cause.

i3 processors – They are for daily computing. They handle web browsers, low graphics games, and basic office tasks.

i5 processors – The i5 processors are designed for better gaming and to handle video editing, photo work, and some major productivity tasks.

i7 processors – The i7 processors are for heavy tasks and run more creative applications superiorly or to their full potential. 

i9 processors – The i9 processors have the most potent cores on the list. They are designed for high-end photo, CAD applications, massive works, and a turbo speed of 5 GHz.  

Final Words

Above all the terms and definitions, one should choose an ideal processor for their system. Now you know all about the processors. Cheers!

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