As been promised on the post before. Here you go, I will shared to all of you the type of processor and performance of it with the suitable laptop that you can use it. This blog is really useful for student.
In processor world have two type of production which is the famous one is Intel Processor and the other one is AMD Processor. Intel Core have 11 generation for an example Core i3 1st generation - 11th generation. The differences between generation of Intel Core is
INTEL PROCESSOR
1st Generation Intel Processors – Nehalem
Nehalem was the Intel processor micro-architecture which was the successor to the initial Core architecture which had certain limitations like inability to increase the clock speed, inefficient pipeline, etc. Nehalem was released for production in 2010.
Sandy Bridge micro-architecture was introduced in 2011 to replace Nehalem architecture. Sandy Bridge uses the 32-nanometer process as opposed to 45 nm used in Nehalem. Sandy Bridge processor average performance enhancement as compared to Nehalem was about 11.3%.
3rd Generation Intel Processors – Ivy Bridge
Introduced in September 2012, Ivy Bridge processors are faster than Sandy Bridge processors and use the 22-nanometer process as opposed to 32 nm used in Sandy Bridge. This processor model consumes up to 50% less energy and will give 25% to 68% increase in performance as compared to Sandy Bridge processors. The only problem with Ivy Bridge processors is that they may emit more heat as compared to Sandy Bridge processors.
Haswell was released by Intel in June 2013. It uses the same 22-nm process as Ivy Bridge. The performance improvement of Haswell as compared to the Ivy Bridge is from 3% to 8%. Haswell carries a lot of features from Ivy Bridge with some very exciting new features like support for new sockets (LGA 1150, BGA 1364, LGA 2011-3), DDR4 technology, a completely new cache design, etc.The main benefit of Haswell is that it can be used in ultra-portable devices due to its low power consumption.
5th Generation Intel Processors – Broadwell
Broadwell was released by Intel in 2015. It uses 14-nm process technology which is 37% smaller in size than its predecessors. According to Intel, with the Broadwell CPU, the device’s battery life could be improved as long as 1.5 hours.
6th Generation Intel Processors – Skylake
Intel introduced Skylake, the 6th generation processors in August 2015. Skylake is a redesign of the same 14-nm technology which was introduced in Broadwell, the 5th generation architecture.
7th Generation Intel Processors – Kaby Lake
Intel’s 7th generation processors, codenamed Kaby Lake, were introduced in 2016. Kaby Lake is essentially a refresh of Sky Lake architecture with few efficiencies and power improvements. It uses a 14-nm process architecture. Kaby Lake is the first micro-architecture from Intel that does not come with an official driver for Operating Systems older than Windows 10. Kaby Lake introduced a new graphics architecture to improve 3D graphics performance and 4K video playback.
8th Generation Intel Processors – Kaby Lake R
In 2017, Intel introduced a refresh of Kaby Lake processors as their new 8th generation release. The details are the same as mentioned in the 7th Generation Intel Processor but some 8th generation chipsets have support for DDR4-2666 RAM but lack DDR3L RAM support.
9th Generation Intel Processors – Coffee Lake
Coffee Lake processors were introduced by Intel in late 2017. With this architecture, Intel Core i9 processors were introduced. Coffee Lake processors break the limit of 4 cores per CPU. The new processors can now support up to 8 cores per CPU. Since the heat produced in these cores will be enormous, Intel attached the integrated heat spreader (IHS) to the CPU die instead of the thermal paste which is normally used in earlier processors.
10th Generation Intel Processors – Cannon Lake/Ice Lake
Cannon Lake, Intel’s 10th generation architecture, comes with an all-new 10-nm technology. It was released in late 2017 but production properly started in 2018. Ice Lake is produced as the 2nd generation of 10-nm processors. They use BGA1526 sockets and come with DDR4 3200 and LPDDR4X 3733 support. This is the first CPU architecture that comes with integrated support for Wi-Fi 6 (802.11ax) and Thunderbolt 3.
11th Generation Intel Processors – Tiger Lake
The 11th generation Intel, Tiger Lake, is yet to be released. They will be the third generation of 10-nm transistor technology. According to Wikipedia, Tiger Lake architecture will have up to 30% performance gains as compared to Ice Lake. L4 cache will be introduced in this generation for further performance boosts.
The next generations
Sapphire Rapids is a micro-architecture that is being planned by Intel. It will either be a refinement of 10-nm technology or an all-new 7-nm process. It may also introduce all-new DDR5 RAM support.
Core i3 for entry level PCs
For Desktop: Minimum number of Cores: 4
For Laptop: Minimum Number of Cores: 2
- Suitable for Web Browsing
- Work using "Microsoft Word" software
- Play a light game
- Layan Movie
- Listen to music
Core i5 for mid-range PCs
For Desktop: Minimum number of Cores: 6
For Laptop: Minimum Number of Cores: 4
- Lightly rendering of edited videos
- Can play Triple A games (Example Battlefield, Call of Duty, DotA 2 etc)
- Heavy multitasking.
- Emulation
Core i7 for high-end PCs
For Desktop: Minimum number of Cores: 6
For Laptop: Minimum Number of Cores: 2 ~ 6
- Heavy video rendering (4k, high effects)
- Suitable for 3D rendering, art designer
- Can perform heavier multi-tasking at the same time as rendering video while web browsing or playing games.
Core i9 for PC pro
A little info: Core i9 is the highest processor model. In the intel family line
For Desktop: Minimum number of Cores: 8
For Laptop: Minimum Number of Cores: 6
- Heavy video rendering (4k, high effects)
- Real time 3D model rendering
- Play games in the highest "Settings" (ultra)
- Extensive multi-tasking capabilities
AMD PROCESSOR
AMD stands for Advanced Micro Devices. It is an American multinational semiconductor company based in Santa Clara, California. It was invented by Jerry Sanders, Jack Gifford, John Carey. On a scale of 1-10, AMD processors comes at 2-8. It is cheaper than Intel Processors. If you are taking a minimum budget laptop or PC, then preferring AMD processors is a good idea as compare to Intel processors. These processors consume more power in comparison to Intel processors. AMD also runs hotter while using. If you want a good performance and good compatibility, then AMD processor is not preferable.
Best CPU : AMD Ryzen 9 5900x
best CPU for high-end gaming
Specification
- Core : 12
- Threads : 24
- Base Clock : 3.7GHz
- Boost Clock : 4.8GHz
- L3 cache : 64 MB
- TDP : 105W
The AMD Ryzen 9 5900X brings the biggest gen-on-gen jump in a single performance in years, making it a terrific upgrade. This latest release from AMD is not just a stronger processor across the board. It’s also an incredibly powerful processor for gaming and creative work full stop. The fact that you won’t need a new motherboard is just a nice perk.
Best high-end CPU : AMD Ryzen 9 3950X
A mainstream CPU moonlights as an HEDT Processor
Specification
- Core : 16
- Threads : 32
- Base Clock : 3.5GHz
- Boost Clock : 4.7GHz
- L3 cache : 64 MB
- TDP : 105W
Best Mid-Range CPU : AMD Ryzen 5 3600X
Top performance on a budget
Specification
- Core : 6
- Threads : 12
- Base Clock : 3.8GHz
- Boost Clock : 4.4GHz
- L3 cache : 32 MB
- TDP : 95W
With more threads than the Intel Core i5-9600K, this mid-range graphics card delivers impressive multi-threading performance. However, the AMD Ryzen 5 3600X doesn't just stop there: it takes that budget-minded stage of performance to a new level, with its increased IPC (instructions per clock) performance and a higher clock speed while staying at the same price point . It also stays competitive in even the most intense single-threaded applications.
Best Entry - level CPU : AMD Ryzen 3 3100
PC gaming just got cheaper
Specification
- Core : 4
- Threads : 8
- Base Clock : 3.5GHz
- Boost Clock : 3.6GHz
- L3 cache : 16 MB
- TDP : 65W
Budget-minded consumers who missed out on all the 3rd-generation Ryzen excitement the first time will appreciate AMD’s latest attempt in the entry-level sphere. There’s no denying that the AMD Ryzen 3 3100 is appealingly cheap, but it does so without compromising on performance. In fact, this chip delivers a performance that could almost rival that of processors double its price, without sucking up much power. And, it’s an excellent choice for budget gamers who are looking for something that can handle 1080p gaming.
Best Gaming CPU : AMD Ryzen 7 5800X
Ryzen to the top
Specification
- Core : 8
- Threads : 16
- Base Clock : 3.8GHz
- Boost Clock : 4.7GHz
- L3 cache : 32 MB
- TDP : 105W
Intel no longer has the monopoly on gaming CPUs. Rocking 8 cores and 16 threads, along with much stronger single-core performance, the AMD Ryzen 7 5800X is among the best CPUs for gaming-as well as less demanding creative work-right now. And it comes with a much more approachable price tag compared to most of Intel’s offerings, making it a much better value.
Best Performance Processor: AMD Ryzen Threadripper 3960X
Perfecting the Threadripper line
Specification
- Core : 24
- Threads : 48
- Base Clock : 3.8GHz
- Boost Clock : 4.5GHz
- L3 cache : 128MB
- TDP : 280W
Launched alongside the even more potent Ryzen Threadripper 3970X, the AMD Ryzen Threadripper 3960X may have the same core count as its predecessor. However, it comes with a brand-new architecture that delivers performance gains as well as PCIe 4.0, making it among the best processors in the Threadripper arena. The 3960X delivers dramatically improved single-threaded performance and has successfully reduced its predecessors ’idiosyncrasies that affect their own performance. It may come with a higher price tag and require the TRX40 motherboard - not to mention, a powerful cooler - but it’s certainly worth the fuss if you can maximize its skills to your advantage.
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