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Things to Note and know about Mobile Processors (SoC)
Hello Everyone, hope we are all doing good, So today we are gonna be taking a sneak peek at the Best Mobile Processor Companies.
Presently in the 21st century, 70% of the world population has a mobile phone, and this is due to many factors such as communication, and also career pursuits like gaming, and also photography.
What is an SoC? One of the first things that you should know about a Smartphone Processor (or just a phone), is that it’s a device used to enhance the performance of your smartphone.
A mobile phone processor is the core of your mobile phone. It is the device that performs all the tasks a signal requires to carry out the functions you require.
That could include turning off your phone or sending messages and notifications to other people, downloading applications, playing multimedia content, processing photographs and so on.
Smartphone processors are a vital component to the success and performance of smartphones. They enable these devices to have the computing power and processing capability that they need to work best.
The ins and outs of a processor aren’t something that should be disclosed in great length on its own, but it is essential that you choose the right SoC if you want smooth and flawless performance from your smartphone.
The advantages of using a Smartphone processor are numerous – and not just for larger and more expensive smartphones.
SoC stands for System on Chip. The SoC is the integrated circuit created by the smartphone manufacturer. Many of these chips are powered by the Qualcomm Snapdragon processor chips.
These chips provide the smartphone with extraordinary performance and smooth user interfaces.
Having a better smartphone means that it can help you with your daily activities and is able to fulfil the requirements of the professional who needs to work with moving pictures or high-quality video clips.
Although, a lot of individuals don’t know what SoC is present in their mobiles.
A smartphone processor is the heart of the smartphone. It can be the processor in your smartphone that takes calls, plays games and enables other features that we take for granted.
A smartphone without a good processor will be unable to play high-definition video produced by apps such as Instagram or Eyefinity or run demanding apps such as 3D-photo or gaming.
Processor speed is different for different types of smartphones. For example, the iPhone 11 has a faster processor than the Samsung Galaxy S7.
The best smartphone processors is designed with the mobile devices in mind. This will allow the smartphone to be more intuitive and playful while also giving users the performance they need at an affordable price.
It seems that every day it is a new processor company joining the game of Next Generation Mobile. These processors are designed to increase the performance of mobile devices by almost 12 times.
If you want to strengthen your argument, why not try to learn a little about these processors?
What is a Smartphone Processor (SoC)?
The SoC, also known as Smartphone Processor is a core component of your smartphone. The SoC is one of the silicon chips in smartphones.
These chips help convert digital signals into analogue ones and vice versa and are responsible for processing calculations and data from various sensors and cameras in your device, converting the digital signal into analogue signals required by the hardware components in the device like cameras and microphones, and even managing data and holding it onto your phone.
A smartphone processor is a piece of hardware integrated into the phone that controls the basic functions of the device such as displaying and handling information.
An SoC typically performs some of the functions needed to process images and video, record sound, and calculate motion.
A smartphone usually comes with a processor. There is a huge variety of processors as there are different kinds of tasks that can be done by a smartphone. The processor or the SoC contains the software which helps with the processing of information in the device.
For example, there could be a processor which handles the graphics processing, a processor which supports 4G networks and also performs some other functions that are required for the normal functioning of the device.
In computers or laptops, we’re using the CPU Central Processing Unit which consists of a chip or Processor, but in mobile phones, we’re using GPU Graphics Processing Unit, which is an octa core-based Processor.
However, processor can come with quad-core or dual-core and also hexa-core, but most mobile processor manufacturing companies make use of the octa-based processor due the power and efficiency it gives.
An Octa-core processor means that it has 8 cores as the name implies, it also says it has 8 chips or CPU’s and the clock speed is set at the requirements of the mobile manufacturing companies by the mobile phone processor manufactureers
The influence of the speed of the mobile device is linked to the clock speed of the 8 cores, the manufacturers may use full powerful cores or may add a few low powered cores.
The Mobile Processors (SoC) is a combination of a CPU and GPU. The SoC is currently being used in smartphones, tablets and wearable devices. As the name suggests, they are used for processing tasks done on the device itself without any need for an external hardware processing power.
Examples include gaming, VoIP, video conferencing applications, etc. The SoC in these devices can be either Exynos 7420 or Qualcomm Snapdragon 660 SoCs
This Processor or SoC holds over billions of transistors which are nanometers in size, variety of 14nm, 10nm, 7nm, and 5nm, 3nm are presently under manufacturing by processor companies, and that we may even see 5nm within the coming years.
The 7nm Mobile processors are already seen and used in some flagship smartphones. Mathematically, one nanometre(nm) translates to 10^-9 or a single part during a billion or one-billionth of a metre.
This shows how small the size of transistors are implemented in the processor chips and these SoCs comes with a 64bit CPU.
So lets take look depper, to know the companies that really put in the work and effort into manufacturing these mobile processors used on smartphones.
There are several companies that work into manufacturing mobile processors or SoCs, some also stand to be big-tech smartphone firms (companies or brands)
Top 7 Best Lists of Mobile Processor (SoC’s) Manufacturing Companies:
There are over 7 unique types of mobile Processor Companies, and they are;
- Apple Bionic SoC
- Qualcomm Snapdragon SoCs
- MediaTek Helio SoCs
- HiSilicon Kirin SoCs
- Samsung Exynos SoCs
- Nvidia (Tegra) SoCs
- Intel (Atom) SoCs
Which processor goes into your phone these days? Is it a Qualcomm, Samsung, Mediatek or Tegra? These are just some of the companies you have to choose from. So if you’re looking for an in-depth article on mobile processors, this is it.
1. Apple Bionic SoC
The Prominent Class of mobile phones supporting their respective Operating System is the iOS and the other Android.
The iOS commonly iPhones have a different software and hardware build from that of the android mobile phones.
iPhones have their own unique and specific hardware and software build, this tells us why processors for iPhone are only manufactured by Apple.
Apple Bionic is a custom SoC developed by apple inc. Its power design will ultimately be used in an Apple iPhone, but more on that later.
Throughout the years, the SoC was once eco-developed by Apple along with several other companies e.g. TMSC.
Apple’s Bionic SoC (below) is the first processor to power an iOS device at 10GHz, and the first to support Apple’s new Metal-based Universal Connector.
The new connector enables faster data transfer speeds for data-heavy applications like 4K video and high-resolution photos, and enables support for higher-performance accessories with the addition of a single wired port — no wireless dongles needed!
And that they named their SoC as Bionic A-series chips and that they are the foremost powerful chips within the mobile world. And that they use ARM Cortex CPU cores in their Processors.
Currently, in the mobile processor market, Apple bionic chips have the highest value in performance and rank, they are very good for gaming, hence handed over the fastest mobile processor for smartphones.
Lets take a look at the Mobile Processor companies for android smartphones
2. Qualcomm Snapdragon SoCs
Qualcomm Snapdragon SoCs are the most advanced mobile processor that you can get. These mobile processors combine various super-capacitors, transistors, optical decoding, digital signal processing chips and other technologies that are used in various mobile devices.
Snapdragon processors have a wide range of applications ranging from tablets, smartphones to embedded systems. They are used in the digital camera, smartwatch, automotive electronics etc and are designed for the highest performance level achievable.
The SoC is a subsystem of or a core component of a Qualcomm Snapdragon SoC. Like the other standards, the SoC standard defines performance characteristics for CPU and GPU circuits. In a smartphone chipset, each SoC is made up of several components. A wide range of features are available on some, but not all, SoCs.
We were excited to learn that the Qualcomm Snapdragon SoC has surpassed 15 billion transistors. This milestone represents a significant increase in power efficiency and feature range.
This means that Snapdragon powered devices will continue to get better and better with each generation.
Greater efficiency makes it possible for devices to be among the most powerful in the world, offering incredible performance at a fraction of the price.
As said earlier the Qualcomm is the top best mobile processors manufacturing company presently, as several android smartphones use the Qualcomm Snapdragon SoCs
Snapdragon chips implemnt the ARM Cortex cpu with a compensation ogf high powered Kyro Cores.
The Snapdragon processors contain very powerful Adreno GPU when being compared to other chips, and so the performance and function of those chips are remarkably awesome and top-notch for gamers.
Currently, Snapdragon processors are highly ranked as the best mobile processors for Android devices.
3. MediaTek Helio SoCs
MediaTek has enjoyed phenomenal success in the smartphone market for quite some time. The company entered the chip industry with its MT6752 SoC in 2014. Since then, it has gained competitive momentum with chipsets such as the Helio P60 that came out in 2018.
MediaTek may be taking a breather at the moment, but no one can ignore their achievements. The company is now taking on more mature markets like tablet computing as well as automotive electronics.
Being a mobile Soc manufacturing company also, however, these MediaTek chips aren’t as power engaged as the bionic and snapdragon, but gives a clear performance and has a lower price value compared to Qualcomm chipset.
However, the New Series of Mediatek Chips for Gaming smartphones has its pricing at midrange. The Qualcomm Snapdragon beats the MediaTek Soc in gaming performance
The Helio SoCs also implements the octa-core ARM Cortex CPU cores, alongside Mali GPU (Graphics processing unit)
Mediatek although has its pros and cons respectively, as it is awesome in gaming, and also one may face up issues with heating of the mobile devices due to the build of the chipsets.
4. HiSilicon Kirin SoCs
Did you know that there are several companies that specialize in manufacturing and marketing mobile processors? These companies work tirelessly to bring high-performance processors to market at affordable prices.
The market for HiSilicon Kirin SoCs has exploded over the last few years as manufacturers have gotten better at creating their own custom cores for lower-cost SoC design boards.
Kirin chips are widely used and seen in Huawei and honour mobile smartphones as they manufacture their own system on chips and give it the name “Kirin” as these chips are so powerful and they may give Qualcomm chips a tough contest.
The Kirin system on chips also uses ARM Cortex based CPU and are powered with high capacity cores with Mali GPU. the performance rank in kirin is tremendously great, although the GPU powerful doesn’t beat that of the Qualcomm SoCs.
They are one of Qualcomm SoCs competition in regards to standard of performance.
5. Samsung Exynos SoCs
Samsung processors are finally here. After years of rumours, the South Korean company is finally launching their first mobile SoC in a few months. Nearly every flagship smartphone from Samsung has an Exynos chip inside it.
These chips are designed to be more efficient than the chips found in other phones. This makes them more powerful in everyday use and they’re the foundation of much of Samsung’s advertising.
Samsung is arguably the largest consumer electronics company in the world. It makes a wide variety of smartphones, tablets, servers and computer accessories. The Exynos line of SoCs (system on a chip) is responsible for over 60% of Samsung’s mobile SoC sales in 2016.
Samsung is famous for producing some of the most powerful smartphones on the planet. It doesn’t matter if you want to purchase one of these devices or upgrade your current one, you can be sure that it will run lightning-quick, but also feature top performance levels from its chipset.
The Exynos 7420 SoC is no exception to this rule; it’s one of the most powerful chipsets yet found in a smartphone.
Samsung is well known for the quality of its mobile processors, and the Exynos 7420 in particular.
It has consistently delivered on expectations with both its high-end products and mid-range ones. As a result, it has emerged as one of the top smartphone vendors.
All you need to know about Samsung Exynos 7420 processors is that it’s one of the fastest in the world. How does it stack up against other top mobile processors? Read on to find out!
As said earlier samsung is leading the mobile market in the world and with that, they use and manufacture their own System on Chips with the name “Exynos” formerly called “HummingBird”
The Exynos SoCs power grade doesn’t really stand a chance when being compares to other mobile processor chips listed above, but the overall all time performance is a magnificient view.
But Exynos SoCs doesn’t have that power firm grip for gaming. Samsung mobile processor aims at the camera and display function in their own mobiles, as they use Exynos chips in all major flagship samsumg mobile smartphones
However, looking at some countries like the united states, they usually launch their mobile devices with the Snapdragon SoCs, most habitants of the country do not buy mobile smartphones hoarding less powerful SoC for gaming and HEAVY performance.
The Exynos System on Chip also holds an octa-core ARM cortex CPU cores and Mali Graphic processing unit
6. Nvidia (Tegra) SoCs
Nvidia (Tegra) SoCs: What are they? Tegra devices are special silicon chipsets designed by Nvidia to handle specific tasks in mobile devices. These chips utilize Cortex-A53 cores running at 1GHz for tons of processing power and graphics.
Nvidia (Tegra) SoCs are designed for high-performance computing and automotive applications. The Tegra K1 in particular is an extremely powerful chip that can be used to power a variety of automotive infotainment systems and autonomous driving systems.
As more smartphones move to quad-core processors, Tesla (TSLA) is positioning its automotive tech for use in these high-end vehicles.
Nvidia is the world’s leading provider of autonomous driving technology. From professional racing drivers to Silicon Valley startups and Fortune 500 companies, we are driving the commercialization of autonomous driving. We’re accelerating the transition to a safe and efficient world with Tegra, our first 28-nanometer SoC.
7. Intel (Atom) SoCs
Have you ever wondered what Intel (Atom) SoCs are? These silicon chips are the heart of an Intel (Atom) processor, and also contain the processors instruction set.
They determine how well your device, graphics card and other equipment will perform using clock speeds, power management and other technology.
The Intel (Atom) processors have been around since 2013. The current flagship product processor is known as the Core i9 microprocessor, which is based on a combination of components from Intel’s previous 48-core Ivy Bridge series and new silicon, to maximize performance and energy efficiency.
With Intel (Atom) becoming increasingly popular in specialty-processor chipsets and integration into embedded systems, it’s now common to find some Intel (Atom) SoCs in tablets and smartphones.
Currently, the top SoC vendors include Qualcomm (QCO) with 96.2% share, followed by Spreadtrum Communications – 2.7% with 2.2 million units sold to date.
The Intel (Atom) SoC is a set of architectural enhancements that Intel first introduced in 2012.
They were designed to go into Intel’s next-generation tablets for gaming and other applications.
A lot has changed since the days of Intel (Atom). Today’s SoCs, being more modular and energy efficient, look to be the logical progression from Intel’s first microarchitecture back in the day.
Today’s SoCs are more energy efficient and can empower another level of innovation. While SoCs can seem intimidating to the uninitiated, they are the logical progression from Intel’s first microarchitecture back in the day to bring us cutting edge embedded technology
Here on this Platform REPDEX, we were able to implement the RepDex Mark which is amongst the top-notch benchmarking techniques used to measure the efficiency and performance power of a processor.
RepDex Mark gives you the measure of Gaming performance (GPU Performance), CPU Performance and also the battery capacity and efficiency of a chip in regards to real-time word records, we gather all data gotten from world usage data of these chips and appoints a score to each SOC.
You could also look up for gaming performance on smartphones by checking out its Mobile GPU Rankings.
“RepDex Mark is way bigger than a regular benchmark. As we put in real-time world usage statistics and performance into research while ranking SOCs.“
RepDex Mark doesn’t only put into the record the normal benchmarks of processor SOCs, but it takes real-time world data usage statistics and performance into the record.
Hereby, this makes our information very precise and accurate, and it helps mobile users to have a superficial knowledge of a mobile phone’s performance with little or no technical stress.
Looking into December, in the year 2020, Apple A14 Bionic was the best mobile processor that fuels the Apple iPhone 12 series, with the Snapdragon 888 taking the second rank as the best processor on the ranking list leading from behind Samsung Exynos 2100, the Apple A13 Bionic and Kirin 9000 respectively.
Following next, on the ranking list we would introduce the Exynos 1080, Kirin 9000E, and the Sanpdragon870/865+.
Mediatek Dimensity 1200 and 11000 also aligns itself on the path. Making the Apple A12 Bionic the 14th position (14th best SOCs processor on the mobile processor ranking list) doing a little bit better than the Snapdragon 855+
We could also check out the best ranking lists of desktop and laptop CPUs from AMD and Intel
Best Mobile Processor Ranking List in May 2021
We are able to deliver to you the top 30 ranking lists of the best smartphone processors as of May 2021
Looking at the win by the iPhone 12’s A14 Bionic chip in the contest, carrying the tag as the HIGHEST PERFORMING CPU(which also includes Both Multi-core and Single-core tasks) and it carries the fastest GPU.
The iPhone 12’s A14 Bionic chip is the most powerful and best performance chip due to it being the first mainstream chip to be invented on TSMC’s 5 nm Process.
Kirin 9000 SoCs is also made on the TSMC’s 5nm process, however, the Snapdragon 888 and also the Exynos 1080 are fabricated using the Samsung 5nm Process.
Below is a well-constructed table that’ll curtail all the rankings of all processor with the RepDex Mark.
Smartphone Processors Ranking
|#||Processor Name||Mobile Phone||RepDex Mark|
|1||Apple A14 Bionic||Apple iPhone 12||165|
|2||Snapdragon 888||OnePlus 9||158|
|3||Exynos 2100||Samsung Galaxy S21||156|
|4||Apple A13 Bionic||Apple iPhone 11||154|
|5||Kirin 9000||Huawei Mate 40 Pro||152|
|6||Kirin 9000E||Huawei Mate 40||151|
|7||Exynos 1080||Vivo X60 Pro||151|
|8||Snapdragon 870||Xiaomi Poco F3||151|
|9||Snapdragon 865+||Asus ROG Phone 3||150|
|11||Snapdragon 865||OnePlus 8||149|
|12||Dimensity 1100||Vivo S9||149|
|13||Snapdragon 780G||Xiaomi Mi 11 Lite 5G||147|
|14||Dimensity 1000+||Xiaomi Redmi K30 Ultra||146|
|15||Apple A12 Bionic||iPhone XS Max||146|
|17||Snapdragon 855+||Asus ROG Phone II||145|
|18||Snapdragon 860||POCO X3 Pro||145|
|19||Exynos 990||Samsung Galaxy S20 Ultra||144|
|20||Snapdragon 855||OnePlus 7 Pro||144|
|21||Kirin 990 5G||Huawei Mate 30 Pro 5G||144|
|22||Kirin 990 4G||Huawei Mate 30 Pro 4G||143|
|23||Kirin 990E 5G||Huawei Mate 30E Pro 5G||143|
|24||Exynos 9825||Galaxy Note 10+||142|
|25||Exynos 9820||Samsung Galaxy S10||140|
|26||Dimensity 1000L||Oppo Reno3 5G||140|
|27||Kirin 985 5G||Huawei Honor 30||139|
|28||Kirin 980||Huawei Mate 20 Pro||137|
|29||Dimensity 1000C||T-Mobile LG Velvet 5G||137|
|30||Snapdragon 768G||Redmi K30 5G Racing||136|
|31||Dimensity 820||Redmi 10X Pro 5G||136|
|32||Exynos 980||Samsung Galaxy A71 5G||135|
|33||Snapdragon 765G||Oppo Reno 3 Vitality||134|
|34||Dimensity 800U||Xiaomi Redmi Note 9T||134|
|35||Exynos 880||Vivo Y70s||134|
|36||Snapdragon 765||Motorola One 5G||133|
|37||Dimensity 800||Honor Play 4||133|
|38||Snapdragon 750G||Motorola Moto G 5G||132|
|39||Snapdragon 690||OnePlus Nord N10 5G||131|
|40||Dimensity 720||Realme v3||131|
|41||Dimensity 700||Realme 8 5G||131|
|42||Apple A11 Bionic||iPhone X||130|
|43||Snapdragon 845||OnePlus 6T||127|
|44||Exynos 9810||Samsung Galaxy Note 9||125|
|45||Snapdragon 732G||Poco X3||125|
|46||Snapdragon 730G||Oppo Reno 2||124|
|#47||Kirin 810||Honor 9X||124|
|48||Snapdragon 730||Redmi K20||123|
|49||Snapdragon 720G||Realme 6 Pro||123|
|50||Snapdragon 480||Vivo Y31s||122|
|51||Kirin 970||Huawei Mate 10 Pro||121|
|52||Helio G95||Realme 7||120|
|53||Helio G90T||Redmi Note 8 Pro||119|
|54||Apple A10 Fusion||iPhone 7 Plus||118|
|56||Snapdragon 835||Google Pixel 2 XL||117|
|57||Exynos 8895||Samsung Galaxy S8+||114|
|58||Snapdragon 712||Vivo Z5||114|
|59||Snapdragon 710||Xiaomi Mi 8 SE||113|
|60||Snapdragon 678||Xiaomi Redmi Note 10||113|
|61||Snapdragon 675||Redmi Note 7 Pro||112|
|62||Snapdragon 670||Oppo R17||111|
|63||Helio P95||Oppo Reno 3 Pro 4G||111|
|64||Helio P90||OPPO Reno Z||110|
|65||Helio X30||Meizu Pro 7 Plus||109|
|66||Apple A9||iPhone 6S Plus||109|
|67||Snapdragon 821||OnePlus 3T||108|
|68||Snapdragon 820||LG G5||107|
|69||Helio G85||Redmi Note 9||107|
|70||Exynos 8890||Samsung Galaxy S7 Edge||106|
|71||Helio G80||Redmi 9||106|
|72||Helio G70||Realme C3||105|
|73||Helio P65||Vivo S1||105|
|74||Kirin 960||Huawei Mate 9 Pro||103|
|75||Exynos 9611||Samsung Galaxy M30s||103|
|76||Exynos 9610||Samsung A50||102|
|77||Snapdragon 660||Xiaomi Mi A2||101|
|78||Exynos 9609||Moto One Vision||101|
|79||Snapdragon 665||Redmi Note 8||101|
|80||Snapdragon 662||Moto G9||101|
|81||Helio P70||Realme U1||99|
|82||Snapdragon 460||Moto E7 Plus||99|
|83||Helio P60||Realme 1||98|
|84||Exynos 7885||Samsung Galaxy A7 (2018)||98|
|85||Kirin 710||Huawei Honor 8X||98|
|86||Snapdragon 636||Nokia X6||97|
|87||Exynos 7904||Galaxy M20||96|
|88||Exynos 850||Samsung Galaxy A21s||96|
|89||Snapdragon 632||Meizu Note 8||92|
|90||Exynos 7884||Samsung Galaxy A20||92|
|91||Exynos 7884A||Samsung Galaxy J3 Orbit||91|
|92||Kirin 955||Huawei Honor V8||89|
|93||Snapdragon 630||Motorola Moto X4||88|
|94||Kirin 950||Huawei Mate 8||88|
|95||Exynos 7872||Meizu M6s||87|
|96||Helio X27||UMIDIGI Z Pro||85|
|97||Exynos 7420||Samsung Galaxy S6 Edge||81|
|98||Helio P35||Infinix Note 6||81|
|99||Helio G35||Realme C11||81|
|100||Snapdragon 810||OnePlus 2||80|
|101||Helio P30||Gionee M7||80|
|102||Helio G25||Redmi 9A||80|
|103||Helio X23||Lenovo K8 Note||79|
|104||Helio P23||OPPO F5||79|
|105||Helio A25||Infinix Smart 4 Plus||78|
|106||Helio X25||Meizu Pro 6||77|
|107||Exynos 7880||Samsung Galaxy A7 (2017)||77|
|108||Helio X20||Sharp Z2||75|
|109||Helio P25||Gionee A1 Plus||75|
|110||Snapdragon 653||Samsung Galaxy C9 Pro||74|
|111||Helio P20||Sony Xperia XA1||74|
|112||Apple A8||iPhone 6 Plus||74|
|113||Snapdragon 626||Motorola Moto Z2 Play||72|
|114||Snapdragon 625||Xiaomi Mi A1||71|
|115||Kirin 659||Huawei Honor 7X||71|
|116||Kirin 658||Huawei P10 Lite||71|
|117||Snapdragon 650||Redmi Note 3 Pro||70|
|118||Kirin 655||Huawei Honor 6X||70|
|119||Kirin 650||Huawei Honor 5C||70|
|120||Snapdragon 439||Vivo Y93||69|
|121||Helio P22||Xiaomi Redmi 6||69|
|122||Snapdragon 652||Samsung Galaxy A9 Pro||69|
|123||Snapdragon 450||Motorola Moto G6||69|
|124||Snapdragon 808||Nexus 5X||68|
|125||Exynos 7870||Samsung Galaxy J7 (2017)||67|
|126||Helio A22||Xiaomi Redmi 6A||66|
|#127||Kirin 935||Huawei Honor 7||66|
|128||Kirin 930||Huawei P8||65|
|129||Apple A7||iPhone 5s||65|
|130||Snapdragon 429||Nokia 3.2||65|
|131||Helio A20||Ulefone Armor X7||63|
|132||Exynos 5433||Samsung Galaxy Note 4||61|
|133||Helio P18||Nokia 5.1||61|
|134||Helio P10||ZTE Nubia N1||59|
|135||Snapdragon 435||Moto E5 Plus||59|
|136||Helio X10||HTC One E9||59|
|137||Exynos 7580||Samsung Galaxy A7 (2016)||58|
|138||Snapdragon 430||Xiaomi Redmi 3s||57|
|139||Snapdragon 617||Motorola Moto G4 Plus||55|
|140||Exynos 7570||Samsung Galaxy J5 Prime||53|
|141||Snapdragon 616||Huawei Honor 7i||52|
|142||Snapdragon 615||Lenovo Vibe P1||51|
|144||Snapdragon 427||Moto G6 Play||50|
|145||MT6739||HTC Desire 12||50|
|146||Snapdragon 425||Nokia 2.1||49|
|147||MT6738||Alcatel A30 Fierce||49|
|148||MT6753||Lenovo K4 Note||49|
|149||MT6752||Lenovo K3 Note||48|
|151||Qualcomm 215||LG K22||48|
|152||Snapdragon 415||Lenovo Vibe K5||47|
|153||Kirin 620||Huawei P8 Lite||47|
|154||Snapdragon 412||BQ Aquaris X5||46|
|155||MT6737T||Samsung Galaxy J2 Prime||46|
|156||Snapdragon 410||Xiaomi Redmi 2||45|
|157||MT6737||Moto E4 Plus||45|
|159||MT6732||Acer Liquid Jade Z||41|
#Performance of the processors tagged with the hash(#) shows an estimate in regards to the specs, speculation, benchmarks that have been leaked, and the usage data statistics gotten upon testing of previous-brand processors. Hence, the scores are liable to a change once tested with phones running on these SOCs.
Really want to make use of these statistics?
SoC processors holding the same or a close score have similar to equal performance. Our data can aid you to made decisions on what processors in a specific brand, be it (MediaTek, Samsung Exynos, Qualcomm Snapdragon, Huawei HiSilicon, and Apple) are similar or equivalent to another.
RepDex Mark Above 125
All processors having a score above 125 in RepDex Mark would give an awesome performance in both huge task usage and gaming. Choosing a mobile smartphone within this category is best for user experience and perfromance.
RepDex Mark Between 100-125
Great performance in usage, as well as real-time gaming. Buying a mid-range smartphone? then you should get one whose SoCs lies within this range.
RepDex Mark Between 70-100
In this category, the performance is kinda above average. But heavy usage and gaming may permit lagging to set in. Although the Snapdragon 810 which holds a low thermal performance may enter this category. If your budget is kinda low, then purchase a phone that lies within this range.
RepDex Mark Between 55-70
The overall performance of the chips in this category is below-average performance. You may suffer lags and slowdowns from time to time. Although, it is permitted in the lower end cheap phones.
RepDex Mark Below 55
The Average Performance of these chips are way below average, they have poor performance, and shouldn’t be considered except you’re are buying a much lower-end phone with a crazy low budget way below $120.
🤗🤗Competition Time: Dimensity 1200 vs Exynos 2100 vs Kirin 9000 vs A14 Bionic vs Snapdragon 888
Let’s get a clearer detailed ranking of the current generation flagship SoCs in some main headings aside from the score given above.
The CPU Performance
- Apple A14 Bionic
- Exynos 2100
- Snapdragon 888
- Dimensity 1200
- Kirin 9000
Looking at both the Multi-threaded and Single-threaded CPU performance, the winner is the A14 Bionic chips as it leads the rest of the other chipsets. Coming after the A14 Bionic is the Exynos 2100 and also the Snapdragon 888 which holds the feature of the Cortex-X1 derived CPU core.
After which we would have Dimensity 1200 with a Cortex-A78 CPU and also Kirin 9000 taking the bottom place with Cortex-A77 CPU.
The GPU Performance
- Apple A14 Bionic
- Snapdragon 888
- Kirin 9000
- Exynos 2100
- Dimensity 1200
The Apple’s A14 Bionic also ranks above others in GPU performance, as Snapdragon 888 also follows back. Third place goes to Kirin 900, coming after which is Exynos 2100 with its Mali-G78 GPU and lastly, Dimensity 1200 which features the Mali-G77 GPU.
The Fabrication Node
- Apple A14 Bionic and Kirin 9000
- Snapdragon 888 and Exynos 2100
- Dimensity 1200
Both the A14 Bionic and Kirin 9000 are all manufactured in relation to the TSMC’s 5nm process (N5), as it ranks higher than others. Coming next is the Exynos 2100 and Snapdragon 888 which uses the Samsung 5nm LPE process superiror to the Dimensity 1200, the Mediatek’s 1200 chipset has its SoCs fabricated using the TSMC’s 6nm (N6) as it is an extraction of their 7nm which isnt a full node shrink.
The TSMC’s 5nm process tends to have a higher density as well as efficiency and power when compared to others.
The AI Performance
- Kirin 9000
- Apple A14 Bionic
- Exynos 2100
- Dimensity 1200
- Snapdragon 888
Based on AI performance sale, the Kirin 9000 takes the lead, coming next is the Apple A14 Bionic and the Exynos. The Density 1200 and Snapdragon 88 follows up respectively
- Snapdragon 888
- Kirin 9000
- Exynos 2100
- Dimensity 1200
- Apple A14 Bionic
The rank listings of the SoCs above is based on Network features and technology, internet speed and network signals strength. All listed processors chipset supports the 5G network.
Full User Experience
- Apple A14 Bionic
- Snapdragon 888
- Exynos 2100, Kirin 9000, Dimensity 1200
Here, the ratings were based on usage statistics on user experience by taking records of real-time usage. These five listed SoCs have a good user experiment close to one another.
The RepDex Mark and its Importance
Aside from just checking its real-time performance, we also look in-depth at the specifications. Processors which may show some symptoms of overheating, or lags during extended usage or in gaming, we take out points from the score, and processors which perform high above the normal results would get higher scores.
Including the User experience is very necessary to eliminate the reliance on the crude performance points. These points are given based on research with zero partiality. All marls and sores given are precise with no excess due to favour on any brand or processor.
The RepDex Mark is amongst the significantly best and accurate ways to measure the performance of a SOC chipset. As we give an equivalent mark to the real-time world using statistics as its crude score. Take a look at some notable factors that have a huge print on the RepDex Mark.
Technical Constants that Controls RepDex Mark
We have over more than 17 factors and parameters in which we score and measure the performance of a processor, although we are just going to list out the six primary parameters. They are:
- Real-Time World Performance Statistics
- Usage Stats: (Long term Phone Usage, Browsing, Gaming, Battery Efficiency, Social Media)
- Its Features, Specs, and Technologies.
- Real GPU Performance.
- The User Experience.
- Full CPU Performance.
Take Note of this in regards to Processors
• Apple makes its own processors which do run on a unique Operating system. Apple inc doesn’t give out full details of specs. So there isn’t a full view or image on an Apple Processor performance when running on another operating system such as the Android.
There is a clear singularity in Kernal, APIs and also its programming language. The full performance of an Apple chip cannot be compared to Qualcomm chips in sustained performance based on real-time world usage statistics.
And this is one of the good reasons why the RepDex Mark of Apple inc processor chipset is kind of different and there may be a chance of having 0 to 5% of an error. However, still, know that moat apple processor, in general, are awesome and the A14 Bionic is one of the best mobile processors presently.
• As our derivation of RepDex Mark is based on over 17 unique parameters and factors, a SOC with a better GPU with s much weaker CPU may hold the same RepDex Mark as another SOC with a stronger CPU and a weaker GPU.
So you may also review the GPU Benchmarks to know which has a much more powerful graphics processor.
• Customized User Interface and Display skins may have a huge influence on the user experience of a smartphone. The User Interface of Samsung, MIUI, and EMUI may have an influence on the experience in comparison to stock android. This factor isn’t really put amongst our parameters. One can always flash an Installed Custom ROM to boost the experience.
• However, points and marls may be altered when we change our ranking algorithm d benchmarking for the RepDex Mark(Score).
The Best Processors in Each Price Ranges and Divisions
The list below holds the best processors in each price range or divisions. So, looking at your budget for your smartphone, make efforts to buy/purchase a phone with the best processors available.
Flagship Mobile Processors
High-End Mobile Processors
Mid-Range Mobile Processors
Low-Budget Mobile Processors
RepDex Score Board: Smartphone Processors
|Rank||Processor Name||RepDex Score|
|1||Apple A14 Bionic||
|4||Apple A13 Bionic||
|5||Snapdragon 865 Plus||
|9||Snapdragon 855 Plus||
|10||Apple A12 Bionic||
|11||kirin 990 5G||
|17||Apple A11 Bionic||
|28||Apple A10 Fusion||
Above are the primary smartphone SoC Manufaturigng comapnies with detailed information on theri specifications, this would help onw ehn purchasing a phone to just view the RepDex Mark to know the efficiency of the Processsor. As it is said “Processor (SoC) is the heart of any mobile“.
You could also get some tech knowledge on sensors used in our smartphones here
Your mobile smartphone performance ratio with speed is dependent on these Processors or SoCs chipset, as well as the RAM and ROM ( Internal Storage of the smartphone)
The Software of mobile smartphone is very much important as the hardware on both android and ios devices.
So this should one know before making any purchase of a mobile device. Using a Stock Android or Custom UI or Android one, there would still be some difference in extended usage.
We hope our listings would help any user to find it much easier to buy a new smartphone. We would try our possible best to give constant updayes of the list of best mobile processors as new smartphones are being launched.
How many ranks should you give to RepDex Mark?
RepDex Mark has over three significant categories which we cover in relation to a phone. They are; Gaming, User Experience, and General Performance. Smartphone users and consumers would give tr RepDex Mark a high rank and significance, before going for your own personal preferences such as; Features, Camera, Battery, Colour).
A phone having the best mobile processor doesn’t make it the best phone to use, so it is advised you to make an in-depth review of the smartphone of your choice or interest, so don’t just use the RepDex Mark as a full criterion for your smartphone requirements.
If you have questions regarding SoCs or any Suggestions to the RepDex then make a comment below.
We’ll get back to you as soon as possible.
Frequently Asked Questions
Frequently Asked Questions
Which is the best processor MediaTek or Snapdragon?
The Best processor between these two would go to Snapdragon, as Snapdragon flagship SoCs have a better rank in the flagship mobiles category, However, Mediatek Budget processor chipset serve much better than snapdragon chips
Is Snapdragon better than Exynos?
The answer is Yes, The Qualcomm Snapdragon Processors SoCs do much better than the Samsung Exynos in several ranking factors.
Which companies make mobile processors?
They are several companies, such as; Qualcomm, MediaTek, Apple, Samsung, Hisilicon, Nividia, Intel etc.
Which mobile processor company is best?
The Apple Bionic SoC still takes the lead as the Apple company dies a lot of work on their chipset, following the lead by the Qualcomm Snapdragon chipsets.
Which chipset is best MediaTek or snapdragon?
A good number of the best-ranking snapdragon processors do have a higher performance percentage than the Mediatek, this also applies to their flagship chipsets. Looking at the Snapdragon 865+ which does a better performance than the Mediatek Dimensity 1000+ slightly. A significant factor that Qualcomm’s Adreno GPUs are more power-efficient than Mediatek Mali GPUs.
Which mobile processor is best in 2021?
The best mobile processor currently in 2021 is the iPhone 12’s Apple A14 Bionic, as it is the fastest processor in 2021. the mobile processor is fabricated using TSMC’s 5nm Technology, and this has given it an upper hand against all other mobile processors and has made improvements in multiple dimensions.
Which is a better processor Kirin or snapdragon?
Mobile smartphone processors erupted from booth the Kirin and Snapdragon brands are awesome. However, comparing the top SoCs of their processors to see who is the better contender, the Snapdragon 888 does pretty much better than the Kirin 9000 significantly. The significant performance difference is that the Snapdragon holds a better GPU when compared to Kirin.
What is the fastest smartphone?
Currently, the iPhone 12 is the fastest mobile phone in the world in 2021. Other super fast Android smartphones following up are the Asus ROG Phone III, Xiaomi Mi 11 Ultra, Huawei Mate 40 Pro, and OnePlus 8 Pro.
Which is the best processor for smartphones?
For Android Smartphone Users, the Snapdragon 888 is the best processor, while for Apple iPhone users, the A14 Bionic is the best processor. They do exceedingly great in long term usage and gaming performance. Although, the A14 is the best processor in Single-Core Performance.
Which is the best chipset?
The Apple A14 Bionic chipset is presently the leading and best mobile chipset in the world. Other mobile chipsets follow it up such as the Qualcomm Snapdragon 800, Kirin 9000, A13 Bionic, and Kirin 9000E. We ,may then see the likes of Exynos