We will provide complete information about the Best Mobile Phone Processor in 2024: ( New Edition 2024)
Welcome to our “Best Mobile Phone Processors Ranking List”, an edition that is your ultimate resource for staying on the cutting edge of smartphone technology. We are constantly updating this ranking list, which provides information about the top 20+ best mobile phone processors compared to the latest smartphone devices.
This site delves deep into the world of mobile processor technology, checking benchmark scores from various reputable companies. Through this version of our site, you can make informed decisions about the core of your smartphone’s performance, ensuring you stay at the forefront of the ever-evolving landscape of mobile technology.
Explore the rankings, compare scores, and discover the powerhouses playing on your favorite devices.
Best Mobile Phone Processor List
# | Processor | Rating | Smartphone Device | AnTuTu V10 | Geekbench 6 | Cores | Clock | GPU |
---|---|---|---|---|---|---|---|---|
1 | Qualcomm SM8550 Snapdragon 8 Gen 2 | 99 A+ | Red Magic 8 Pro+ | 1607837 | 1625 / 5104 | 8 (1+2+2+3) | 3200 MHz | Adreno 740 |
2 | Qualcomm SM8475 Snapdragon 8+ Gen 1 | 96 A+ | Legion Y70 | 1339770 | 1789 / 4640 | 8 (1+3+4) | 3000 MHz | Adreno 730 |
3 | Qualcomm SM7475 Snapdragon 7+ Gen 2 | 96 A+ | Xiaomi Poco F5 | 1311889 | 1701 / 4176 | 8 (1+3+4) | 2910 MHz | Adreno 725 |
4 | Apple A16 Bionic | 95 A+ | iPhone 14 Pro | 948258 | 2514 / 6362 | 6 (2+4) | 3460 MHz | Apple A16 GPU |
5 | Mediatek Dimensity 9000 | 95 A+ | OnePlus Nord 3 5G | 932839 | 1011 / 3254 | 8 (1+3+4) | 3050 MHz | Mali-G710 MP10 |
6 | Qualcomm SM8350 Snapdragon 888 5G | 94 A+ | Huawei Honor X40 gt | 863489 | 1114 / 3676 | 8 (1+3+4) | 2840 MHz | Adreno 660 |
7 | Apple A15 Bionic | 94 A+ | iPhone 13 Pro Max | 840483 | 2262 / 5438 | 6 (2+4) | 3230 MHz | Apple A15 Bionic |
8 | Mediatek Dimensity 8100 | 93 A+ | Mi 12T | 835913 | 1146 / 3798 | 8 (4+4) | 2850 MHz | Mali-G610 MC6 |
9 | Samsung Exynos 2200 | 93 A+ | Samsung Galaxy S22 | 835672 | 1390 / 3375 | 8 (1+3+4) | 2800 MHz | Samsung Xclipse 920 |
10 | Mediatek Dimensity 8100 | 93 A+ | Poco X4 GT | 820061 | 1073 / 3364 | 8 (4+4) | 2850 MHz | Mali-G610 MC6 |
11 | Qualcomm SM8250 Snapdragon 870 5G | 92 A+ | iQOO Neo6 SE | 802545 | 892 / 3122 | 8 (1+3+4) | 3200 MHz | Adreno 650 |
12 | Google Tensor G2 | 92 A+ | Google Pixel 7a | 789983 | 1380 / 3701 | 8 (2+2+4) | 2850 MHz | Mali-G610 MC6 |
13 | MediaTek Dimensity 7000 | 93 A+ | Poco F4 | 743884 | 967 / 3458 | 8 (4+4) | 3200 MHz | Mali G77MC |
14 | Qualcomm SM8250 Snapdragon 865 5G | 91 A+ | Galaxy S20 FE 4G | 721040 | 924 / 2611 | 8 (1+3+4) | 2840 MHz | Adreno 650 |
15 | Google Tensor | 90 A+ | Google Pixel 6 Pro | 719833 | 1039 / 3726 | 8 (2+2+4) | 2800 MHz | Mali-G78 MP20 |
16 | Mediatek Dimensity 8020 | 90 A+ | Motorola Edge 40 | 718721 | 1105 / 3542 | 8 (4+4) | 2600 MHz | Mali-G77 MC9 |
17 | MediaTek Dimensity 1200 | 89 A+ | Vivo x70 Pro 5G | 710054 | 948 / 3294 | 8 (1+3+4) | 3000 MHz | Mali-G77 MC9 |
18 | Mediatek Dimensity 8100 | 88 A+ | Realme GT Neo | 706011 | 993 / 2975 | 8 (4+4) | 2850 MHz | Mali-G610 MC6 |
19 | MediaTek Dimensity 1100 | 88 A+ | Vivo S9 | 697833 | 881 / 3601 | 8 (4+4) | 2600 MHz | Mali-G77 MC9 |
20 | Huawei HiSilicon Kirin 9000 | 87 A+ | Huawei P50 Pro | 691535 | 1042 / 3785 | 8 (1+3+4) | 3130 MHz | Mali-G78 MP24 |
21 | Samsung Exynos 1080 | 87 A+ | Vivo X60 | 689773 | 849 / 2938 | 8 (1+3+4) | 2800 MHz | Mali-G78 MP10 |
22 | Apple A14 Bionic | 86 A+ | Apple iPhone 12 | 665733 | 1592 / 4211 | 6 (2+4) | 3100 MHz | Apple A14 Bionic |
23 | Huawei HiSilicon Kirin 9000E | 86 A+ | Huawei Mate 40 | 654778 | 982 / 3606 | 8 (1+3+4) | 3130 MHz | Mali-G78 MP22 |
24 | Qualcomm Snapdragon 865 Plus | 85 A+ | Asus ROG Phone 3 | 647884 | 980 / 3675 | 8 (1+3+4) | 3100 MHz | Adreno 650 |
25 | Samsung Exynos 2100 | 85 A+ | Samsung Galaxy S21 | 647553 | 1096 / 3723 | 8 (1+3+4) | 2900 MHz | Mali-G78 MP14 |
26 | Apple A13 Bionic | 85 A+ | iPhone 11 Pro Max | 636060 | 1704 / 3725 | 6 (2+4) | 2650 MHz | Apple A13 Bionic GPU |
27 | Qualcomm Snapdragon 7 Gen 1 | 84 A | Samsung Galaxy A74 | 628622 | 839 / 3102 | 8 (1+3+4) | 2400 MHz | Adreno 644 |
28 | Qualcomm Snapdragon 860 | 84 A | Poco X3 Pro | 627870 | 969 / 2435 | 8 (1+3+4) | 2960 MHz | Adreno 640 |
29 | Qualcomm QCM6490AGM | 83 A | AGM G2 | 589774 | 901 / 2977 | 8 (1+3+4) | 3200 MHz | Qualcomm Adreno 643L |
30 | Huawei HiSilicon Kirin 990 | 84 A | Huawei Honor Play 4 Pro | 585388 | 778 / 3190 | 8 (2+2+4) | 2860 MHz | ARM Mali-G76 MP16 |
31 | MediaTek Dimensity 1050 | 82 A | Vivo X80T Pro 5G | 574234 | 2144 / 748 | 8 (2+6) | 2500 MHz | Mali-G610 MC3 |
32 | Qualcomm Snapdragon 780G | 82 A | Xiaomi Mi 11 Lite 5G | 567442 | 920 / 2903 | 8 (1+3+4) | 2400 MHz | Adreno 642 |
33 | Qualcomm Snapdragon 782G | 81 A | Honor 80 | 565255 | 893 / 3004 | 8 (1+3+4) | 2700 MHz | Adreno 642L |
34 | Qualcomm Snapdragon 778G+ | 82 A | Honor 70 | 551266 | 878 / 2926 | 8 (1+3+4) | 2500 MHz | Adreno 642L |
35 | MediaTek Dimensity 930 | 80 A | Vivo V27 | 544730 | 807 / 2776 | 8 (2+6) | 2200 MHz | IMG BXM-8-256 |
36 | MediaTek Dimensity 1000+ | 79 A | Xiaomi Redmi K30 Ultra | 533627 | 808 / 3147 | 8 (4+4) | 2600 MHz | Mali-G77 MP9 |
37 | Mediatek Dimensity 7050 | 79 A | realme 11 pro 5G | 529557 | 946 / 2403 | 8 (2+6) | 2600 MHz | Mali-G68 MC4 |
38 | MediaTek Dimensity 1000 | 79 A | realme X7 Pro | 533627 | 797 / 3033 | 8 (4+4) | 2200 MHz | Mali-G57 MC2 |
39 | Qualcomm Snapdragon 778G | 78 A | Realme GT Master Edition | 529557 | 873 / 2875 | 8 (1+3+4) | 2400 MHz | Adreno 642L |
40 | Apple A12 Bionic | 78 A | iPhone XS | 524463 | 1269 / 2538 | 6 (2+4) | 2490 MHz | Apple A12 GPU |
41 | MediaTek Dimensity 1080 | 77 A | Xiaomi Redmi Note 12 Pro 5G | 518799 | 820 / 2922 | 8 (2+6) | 2600 MHz | Mali-G68 MC4 |
42 | Samsung Exynos 990 | 77 A | Samsung Galaxy S20 Ultra | 517699 | 944 / 3128 | 8 (2+2+4) | 2730 MHz | Mali-G77 MP11 |
43 | MediaTek Dimensity 920 | 76 A | realme Narzo 50 Pro 5G | 508711 | 876 / 3287 | 8 (2+6) | 2500 MHz | Mali-G68 MC4 |
44 | Samsung Exynos 1280 | 76 A | Samsung Galaxy A53 5G | 498711 | 748 / 2188 | 8 (2+6) | 2400 MHz | Mali-G68 MP4 |
45 | MediaTek Dimensity 900 | 75 A | OnePlus Nord CE 2 5G | 489663 | 778 / 2844 | 8 (2+6) | 2400 MHz | Mali-G68 MC4 |
46 | Qualcomm Snapdragon 765GOppo | 75 A | Oppo Reno 3 Vitality | 481227 | 675 / 2529 | 8 (1+1+6) | 2400 MHz | Adreno 620 |
47 | Qualcomm Snapdragon 855 Plus | 74 A | Asus ROG Phone II | 478212 | 767 / 2697 | 8 (1+3+4) | 2960 MHz | Adreno 640 |
48 | Samsung Exynos 9825 | 74 A | Samsung Galaxy Note 10+ | 466272 | 782 / 2418 | 8 (2+2+4) | 2730 MHz | Mali-G76 MP12 |
49 | Qualcomm Snapdragon 855 | 73 A | OnePlus 8 | 452117 | 765 / 2856 | 8 (1+3+4) | 2840 MHz | Adreno 640 |
50 | Huawei HiSilicon Kirin 990E | 74 A | Huawei Mate 40E | 439886 | 765 / 3089 | 8 (2+2+4) | 2860 MHz | Mali-G76 MP |
Mobile Processor Brands: Pioneers in Smartphone Power
Leader in mobile processing
In today’s technology-filled world, the heartbeat of a smartphone device is the processor. Mobile processors in mobile phones dictate performance, efficiency, and overall user experience. Several major brands have emerged as prominent in the mobile processor industry, each with its own unique contributions and innovations.
1. Qualcomm Snapdragon: Powering Innovation
Qualcomm Snapdragon: setting the pace in mobile technology
This Qualcomm Snapdragon company was established in 1985. , and it has also been at the forefront of Qualcomm mobile processor development. The Snapdragon series, introduced in 2007, has become synonymous with cutting-edge technology. These processors are known for their exceptional CPU and GPU performance, energy efficiency, and support for advanced features like 5G connectivity and AI enhancements.
2. Apple A-Series: Precision and Performance
Apple A-series: taking iOS devices to new heights
Since this company was established in 1976, it has been continuously progressing in the technology industry. The company’s A-series processors, which are specifically designed for iPhone and iPad, are renowned for their unmatched performance and seamless integration with iOS. Custom-designed by Apple, these processors continually set new standards in processing power and efficiency.
3. MediaTek Dimensity: A Game Changer
MediaTek Dimensity: expanding high-performance access
This company was established in 1997. MediaTek introduced its Dimensity series to democratize high-performance processors. These chips offer competitive pricing and feature-packed designs, making them a popular choice for mid-range and budget smartphones that offer exceptional value for money.
4. Samsung Exynos: Innovation at Its Core
Samsung Exynos: Where innovation meets versatility
Samsung, a company whose history dates back to 1938, is known for its innovative processors. And today in this technology-filled world, Samsung company’s Exynos processor has made its place among the top-tier mobile chips. With a focus on innovation and versatility, Exynos processors power a range of Samsung devices and are recognized for their strong performance, efficient power management, and support for advanced camera technologies.
5. Huawei Kirin: A Commitment to Excellence
Huawei Kirin: excellence in innovation
The Huawei company was established in 1987. And this company is famous for its unwavering commitment to innovation. The company introduced its Kirin processors in 2012, which are today known for their advanced AI capabilities and support for high-end photography and gaming experiences. Huawei’s unique vision for mobile devices is complemented by Kirin processors, making them an integral part of Huawei’s success.
6. Intel: Evolving for Mobile
Intel: Shaping the future of mobile processing
Intel company was established in 1968. Intel is synonymous with computing innovation. Although not as dominant in the smartphone market, Intel processors bring a legacy of reliability and innovation. They are primarily found in a specific segment of smartphones, often associated with specific features such as enhanced security and connectivity.
7. Google Tensor: Powering Pixel Perfection
Google Tensor: Enhancing the Pixel Experience
Google introduced its Google Tensor processor in 2021 Google’s Tensor processors are at the heart of Pixel smartphones, providing a seamless and integrated experience within the Android ecosystem. These processors are optimized for Google’s software, ensuring a smooth and responsive user experience.
8. HiSilicon Kirin: Driving Huawei’s Vision
HiSilicon Kirin: Fusing Technology and Vision
A HiSilicon company founded in 2004, HiSilicon Kirin processors are an integral part of Huawei’s smartphones, combining cutting-edge technology with Huawei’s unique vision for mobile devices. These processors are designed to deliver exceptional performance and efficiency to complement Huawei’s innovative hardware.
7 Important Facts about Smartphone Processors You Should Be Aware of
01. The processor is a crucial component of a smartphone, as it can significantly impact the user experience and is often one of the most expensive parts of the device.
02. There are two primary types of processors: CPUs and GPUs, with CPUs typically handling app and non-graphic-related tasks while GPUs focus on rendering graphics on the screen.
03. While a larger processor can suggest a more powerful device, the number of cores is not as important as the speed of each core.
04. Clock speed, measured in GHz, indicates how quickly the CPU can perform calculations, and a higher clock speed means faster performance.
05. Other factors, such as battery life, camera quality, display size and resolution, and operating system preferences, can also impact the smartphone selection process.
06. Upgrading to a newer device with a more powerful processor can improve device performance, particularly if your current phone is an older model.
07. It’s worth noting that smartphone processors can be more powerful than laptop processors, and choosing the right processor is a critical factor in finding the ideal smartphone.
What is AnTuTu Benchmark?
Antutu Benchmark is a popular mobile benchmarking tool that evaluates the performance of smartphones and tablets. It was developed by a Chinese company called AnTuTu and is available for Android and iOS devices.
The benchmark test consists of several tests that measure the device’s performance in various areas, including CPU, GPU, RAM, storage, and UX (user experience). The overall score is a combination of the scores from each test and provides an indication of the device’s overall performance.
Here’s a brief explanation of each of the tests that Antutu Benchmark runs:
CPU Benchmarks: This test evaluates the processor’s performance by running several CPU-intensive tasks.
GPU test: This test measures the graphics performance of the device by running a set of 3D graphics tests.
RAM test: This test measures the device’s memory performance by evaluating the read and write speeds of the RAM.
Storage test: This test evaluates the device’s storage performance by measuring the read and write speeds of the internal storage.
UX test: This test evaluates the overall user experience by measuring the device’s responsiveness, smoothness, and multi-tasking capabilities.
After running all the tests, Antutu Benchmark assigns a score to the device based on its performance. The higher the score, the better the performance.
Antutu Benchmark is widely used by users and manufacturers to compare the performance of different devices. However, it’s worth noting that the benchmark results don’t always translate to real-world usage. The benchmark measures the device’s performance in a controlled environment, and actual usage may vary depending on several factors, including the software, apps, and user behavior.
What is Geekbench Benchmark?
Geekbench is a cross-platform benchmarking tool developed by Primate Labs that measures the performance of CPUs, GPUs, and memory in a variety of devices, including desktops, laptops, smartphones, and tablets. It’s available for Windows, macOS, Linux, iOS, and Android platforms. Geekbench uses a set of synthetic tests to measure the performance of a device’s processor, memory, and graphics card.
Here’s a brief explanation of the types of tests that Geekbench runs:
CPU Tests: Geekbench uses a set of tests that measure the performance of a device’s processor. The tests simulate real-world scenarios such as image and video processing, encryption, and compression. The results are provided in single-core and multi-core scores.
GPU Tests: Geekbench’s GPU tests measure the performance of the device’s graphics card by running a set of tests that simulate real-world graphics workloads such as rendering, image manipulation, and game physics.
Memory Tests: Geekbench’s memory tests evaluate the performance of a device’s RAM by measuring the read and write speeds of the memory.
After running the tests, Geekbench provides a single-core and multi-core score for the device. The scores are used to compare the performance of different devices, and the higher the score, the better the performance.
Geekbench is widely used by individuals and manufacturers to evaluate the performance of devices. The tool is particularly useful in comparing the performance of different processors and graphics cards. However, like other synthetic benchmarks, it’s worth noting that the scores don’t always translate to real-world performance, as actual usage may vary depending on several factors, including the software, apps, and user behavior.
FAQs
What exactly is a mobile processor ranking list, and why is it significant?
A mobile processor ranking list is a curated compilation of mobile processors, systematically ordered based on various performance metrics, features, and specifications. It holds immense importance because it empowers consumers to make well-informed decisions when choosing a smartphone. The mobile processor profoundly influences a device’s performance, making the ranking list an essential resource.
How do BestCheck determine the rankings of mobile processors?
The rankings of mobile processors are meticulously determined through a comprehensive evaluation process. We consider an array of factors, including benchmark scores, CPU and GPU performance, power efficiency, thermal management, and real-world usage scenarios. These criteria are assessed to provide consumers with a clear and objective perspective on how different processors compare.
Where can I reliably access up-to-date mobile processor ranking lists?
You can reliably access up-to-date mobile processor ranking lists from various sources, but one of the most dependable options is BestCheck. BestCheck is renowned for providing the latest and most comprehensive information on mobile processors, ensuring that you have access to the most current rankings and comparisons in the smartphone industry.
Which mobile processors currently hold the top positions in these rankings?
While the specific processors occupying the top positions can vary depending on the source and the criteria applied, some consistently top-ranked mobile processors include those from the Qualcomm Snapdragon series, Apple A-series, and MediaTek Dimensity series.
Is it a straightforward fact that a higher-ranked processor guarantees superior performance in smartphones?
Yes, it is indeed a straightforward fact that smartphones equipped with higher-ranked processors generally deliver superior performance. These processors are engineered to handle resource-intensive tasks with efficiency, making them ideal for activities such as gaming, multitasking, and running demanding applications. Nevertheless, it’s vital to consider your individual usage requirements when selecting a smartphone processor.
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