best android Smartphone Processor:- In this tech-filled world, there are different Android smartphones from different companies, and all of them are powered by different types of chipsets. The performance of each chipset is crucial for those smartphones, this chipset gives every smartphone user a great experience and also leaves a long-lasting positive impression. So, if you all want to make sure that you are buying a new smartphone with the right SoC, then check out our best android Smartphone Processor Ranking List below.
best android Smartphone Processor Ranking
Are you looking for an “Android Smartphone Processor Ranking List”. So, your search is over as we have come up with a list of total 100 mobile processors with their ranking and benchmark scores from the most trusted benchmarking websites: Centurion Mark, AnTuTu 10 and Geekbench 6*. This list will help you identify the best processor for mobile and make a wise buying decision.
Rank | Processor Name | Phone | Centurion Mark | AnTuTu 10 | GeekBench 6* |
---|---|---|---|---|---|
1 | Dimensity 9300 | Vivo X100 series | 2257733 | 2239 / 7538 | |
2 | Snapdragon 8 Gen 3 | Samsung Galaxy S24 Ultra, OnePlus 12 | 1771106 | 2563 / 7256 | |
3 | Apple A17 Pro | Apple iPhone 15 Pro Max | 1549189 | 3269 / 7666 | |
4 | Exynos 2400 | Samsung Galaxy S24, Samsung Galaxy S24 Plus | 1777263 | 2196 / 6964 | |
5 | Snapdragon 8s Gen 3 | Redmi Turbo 3, iQOO Z9 Turbo, Xiaomi Civi 14 Pro | 1554839 | 2019/5570 | |
6 | Apple A16 Bionic | Apple iPhone 15 | 1339596 | 1887 / 5455 | |
7 | Dimensity 9200 Plus | Xiaomi 13T Pro | 1520871 | 2090 / 5532 | |
8 | Snapdragon 8 Gen 2 | Samsung Galaxy S23 Ultra | 1227562 | 1485 / 4918 | |
9 | Snapdragon 7 Plus Gen 3 | OnePlus Ace 3v | 1,366,982 | 2019/5570 | |
10 | Snapdragon 8 Plus Gen 1 | Samsung Galaxy Z Fold 4 | 1,024,312 | 1351 / 3808 | |
11 | Dimensity 9200 | Vivo X90 5G | 1,260,549 | 1296 / 4958 | |
12 | Apple A15 Bionic | Apple iPhone 13 | 1299090 | 1722 / 4685 | |
13 | Snapdragon 7 Plus Gen 3 | OnePlus Ace 3v | 1366982 | 1913 / 5098 | |
14 | Dimensity 8300 | Poco X6 Pro | 1373164 | 1505 / 4829 | |
15 | Snapdragon 8 Plus Gen 1 | iQOO Neo 7 Pro, Nothing Phone (2), OnePlus 11R | 1292839 | 1767 / 4591 | |
16 | Dimensity 9000 Plus | Oppo Find N2 Flip | 1,149,845 | 1349 / 4342 | |
17 | Google Tensor G3 | Google Pixel 8 Pro | 1142697 | 1760 / 4442 | |
18 | Dimensity 9000 | Vivo X80 | 1,049,081 | 1179/4189 | |
19 | Snapdragon 8 Gen 1 | OnePlus 10 Pro | 1,029,556 | 1259/4189 | |
20 | Snapdragon 7 Plus Gen 2 | Poco F5 | 1120902 | 1697 / 4404 | |
21 | Apple A14 Bionic | Apple iPhone 12 | 165 | 611843 | 1613 / 3909 |
22 | Snapdragon 888 Plus | Asus ROG Phone 5S | 863552 | 1160 / 2834 | |
23 | Exynos 2200 | Samsung Galaxy S22 Ultra | 965,874 | 934/2925 | |
24 | Snapdragon 888 | OnePlus 9 | 158 | 722907 | 1140 / 3745 |
25 | Dimensity 8100 | Realme GT Neo 3 | 809443 | 1003/2607 | |
26 | Tensor G2 | Google Pixel 7 Pro | 801,116 | 1054 / 3138 | |
27 | Exynos 2100 | Samsung Galaxy S21 | 156 | 698965 | 1085 / 3654 |
28 | Google Tensor | Google Pixel 6 Pro | 676789 | 1056 / 2855 | |
29 | Apple A13 Bionic | Apple iPhone 11 | 154 | 524846 | 1345 / 3568 |
30 | Snapdragon 6 Gen 1 | Realme 12 Pro 5G | 581109 | 952/2749 | |
31 | Kirin 9000 | Huawei Mate 40 Pro | 152 | 698795 | 1067 / 3764 |
32 | Kirin 9000E | Huawei Mate 40 | 151 | 633255 | 1077 / 3772 |
33 | Exynos 1080 | Vivo X60 Pro | 151 | 637232 | 850 / 2989 |
34 | Snapdragon 870 | Xiaomi Poco F3 | 151 | 647509 | 1010 / 3423 |
35 | Snapdragon 865+ | Asus ROG Phone 3 | 150 | 620268 | 926 / 3342 |
36 | Dimensity 1200 | 150* | 625102 | 939 / 3367 | |
37 | Snapdragon 865 | OnePlus 8 | 149 | 597297 | 944 / 3454 |
38 | Dimensity 1100 | Vivo S9 | 149 | 612309 | 866 / 3487 |
39 | Snapdragon 780G | Xiaomi Mi 11 Lite 5G | 147 | 512084 | 813 / 2926 |
40 | Dimensity 1000+ | Xiaomi Redmi K30 Ultra | 146 | 486043 | 804 / 2808 |
41 | Apple A12 Bionic | iPhone XS Max | 146 | 401359 | 1139 / 2944 |
42 | Dimensity 1000 | 146* | 511357 | 811 / 3084 | |
43 | Snapdragon 855+ | Asus ROG Phone II | 145 | 488150 | 792 / 2816 |
44 | Snapdragon 860 | POCO X3 Pro | 145 | 461385 | 750 / 2582 |
45 | Exynos 990 | Samsung Galaxy S20 Ultra | 144 | 532769 | 939 / 2772 |
46 | Snapdragon 778G Plus | Motorola Edge 30 | 821/2353 | ||
47 | Snapdragon 855 | OnePlus 7 Pro | 144 | 433903 | 755 / 2640 |
48 | Snapdragon 778G | Realme GT Master Edition | 539766 | 785/2872 | |
49 | Kirin 990 5G | Huawei Mate 30 Pro 5G | 144 | 505723 | 782 / 3097 |
50 | Kirin 990 4G | Huawei Mate 30 Pro 4G | 143 | ||
51 | Kirin 990E 5G | Huawei Mate 30E Pro 5G | 143 | 433,894 | 765/3089 |
52 | Exynos 9825 | Galaxy Note 10+ | 142 | 455130 | 774 / 2434 |
53 | Exynos 9820 | Samsung Galaxy S10 | 140 | 392201 | 851 / 2307 |
54 | Dimensity 1080 | Xiaomi Redmi Note 12 Pro 5G | 492959 | 813 / 2284 | |
55 | Dimensity 920 | Infinix Zero Ultra | 497481 | 806 / 2282 | |
56 | Dimensity 1000L | Oppo Reno3 5G | 140 | 342107 | 313 / 1380 |
57 | Kirin 985 5G | Huawei Honor 30 | 139 | 421071 | 691 / 2612 |
58 | Kirin 980 | Huawei Mate 20 Pro | 137 | 404883 | 709 / 2488 |
59 | Dimensity 1000C | T-Mobile LG Velvet 5G | 137 | ||
60 | Exynos 1280 | Samsung Galaxy A53 5G | 405264 | 735 / 1860 | |
61 | Snapdragon 768G | Redmi K30 5G Racing | 136 | 350914 | 704 / 2031 |
62 | Dimensity 820 | Redmi 10X Pro 5G | 136 | 410416 | 661 / 2677 |
63 | Exynos 980 | Samsung Galaxy A71 5G | 135 | 337721 | 706 / 1864 |
64 | Snapdragon 765G | Oppo Reno 3 Vitality | 134 | 318917 | 598 / 1829 |
65 | Dimensity 800U | Xiaomi Redmi Note 9T | 134 | 326476 | 626 / 1931 |
66 | Snapdragon 4 Gen 1 | iQOO Z6 Lite | 383065 | 619 / 1852 | |
67 | Helio G99 | Realme 10 | 378814 | 557 / 1815 | |
68 | Exynos 880 | Vivo Y70s | 134 | 292377 | 659 / 1833 |
69 | Snapdragon 765 | Motorola One 5G | 133 | 290380 | 482 / 1818 |
70 | Dimensity 800 | Honor Play 4 | 133 | 321253 | 554 / 2220 |
71 | Snapdragon 750G | Motorola Moto G 5G | 132 | 332300 | 667 / 1999 |
72 | Snapdragon 690 | OnePlus Nord N10 5G | 131 | 291148 | 613 / 1859 |
73 | Dimensity 720 | Realme v3 | 131 | 293743 | 524 / 1687 |
74 | Dimensity 700 | Realme 8 5G | 131 | 293419 | 540 / 1717 |
75 | Apple A11 Bionic | iPhone X | 130 | 316524 | 926 / 2362 |
76 | Snapdragon 695 | OnePlus Nord CE 2 Lite 5G | 406,221 | 690/1742 | |
77 | Snapdragon 845 | OnePlus 6T | 127 | 362476 | 515 / 2221 |
78 | Exynos 9810 | Samsung Galaxy Note 9 | 125 | 321500 | 693 / 2040 |
79 | Snapdragon 732G | Poco X3 | 125 | 282502 | 576 / 1811 |
80 | Snapdragon 730G | Oppo Reno 2 | 124 | 282999 | 545 / 1748 |
81 | Kirin 810 | Honor 9X | 124 | 323660 | 622 / 2040 |
82 | Snapdragon 730 | Redmi K20 | 123 | 255340 | 545 / 1778 |
83 | Snapdragon 720G | Realme 6 Pro | 123 | 277832 | 572 / 1707 |
84 | Snapdragon 480 | Vivo Y31s | 122 | 262534 | 520 / 1666 |
85 | Kirin 970 | Huawei Mate 10 Pro | 121 | 239440 | 391 / 1375 |
86 | Helio G95 | Realme 7 | 120 | 300476 | 521 / 1608 |
87 | Helio G90T | Redmi Note 8 Pro | 119 | 285824 | 497 / 1627 |
88 | Apple A10 Fusion | iPhone 7 Plus | 118 | 253993 | 780 / 1419 |
89 | Helio G90 | 118* | 226901 | 517 / 1642 | |
90 | Snapdragon 835 | Google Pixel 2 XL | 117 | 280101 | 390 / 1720 |
91 | Exynos 8895 | Samsung Galaxy S8+ | 114 | 176078 | 384 / 1577 |
92 | Snapdragon 712 | Vivo Z5 | 114 | 225485 | 409 / 1528 |
93 | Snapdragon 710 | Xiaomi Mi 8 SE | 113 | 221286 | 396 / 1469 |
94 | Snapdragon 678 | Xiaomi Redmi Note 10 | 113 | 236291 | 520 / 1492 |
95 | Snapdragon 675 | Redmi Note 7 Pro | 112 | 205121 | 426 / 1386 |
96 | Snapdragon 670 | Oppo R17 | 111 | 180984 | 351 / 1347 |
97 | Helio P95 | Oppo Reno 3 Pro 4G | 111 | 212556 | 403 / 1526 |
98 | Helio P90 | OPPO Reno Z | 110 | 223312 | 397 / 1510 |
99 | Helio X30 | Meizu Pro 7 Plus | 109 | ||
100 | Apple A9 | iPhone 6S Plus | 109 | 172432 | 546 / 1002 |
How To Understand AnTuTu Benchmark?
AnTuTu scores your SoC on various parameters. Their in-house algorithm tests your system chip and provides an overall score. So naturally, the higher the score, the better the performance is. For example, a processor with 4,00,000 scores will perform twice as fast compared to an SoC with 2,00,000 scores. However, AnTuTu has not mentioned any set standard for their scores.
How To Understand Geekbench Benchmark?
Geekbench scores are calculated on various matrices. Moreover, according to Geekbench, each score is measured by performing multiple computation tasks on the SoC. Generally, real-world studies are based on Crypto workloads, floating-point, API analysis, etc. In a nutshell, the higher the score is, the more significant the performance of the mobile processor is.
Which Mobile Processor is Best For Gaming?
The key takeaway is that if gaming, video editing, and heavy multitasking make up your primary smartphone usage, the top-grade, highest-scoring chipsets are the way to go.
However, suppose you are a casual user who does not impose much pressure on devices and requires a seamless browsing, texting, and content-viewing experience.
Any of the list’s 70-100 scoring chipsets should be enough in that case. The 55-70 scoring processors are not bad either, but they may lack some performance here and there; that’s why I will recommend it only if you are on a tight budget.
Verdict: best android Smartphone Processor
Choosing the best mobile processor is difficult as each chipset offers varying levels of performance. The correct way to find the best processor for a mobile device is to determine your use case. Some processors offer better power efficiency, ensuring long-lasting battery life, while others provide pure raw performance so that you can get that headshot in BGMI.
If you are a casual user who likes scrolling through social media or checking WhatsApp messages, then most of the mobile processors in the list will suffice for your needs. However, if you are a power user who loves having the highest processing powers in the palms of your hands, then you should pick the processor with the highest benchmark scores that you can find in this list of “best android Smartphone Processor .”
While benchmarking scores are in no way indicative of real-world performance, they are a good parameter in terms of what you can expect from a specific chipset. Any average consumer will benefit from choosing the best android Smartphone Processor.
Understanding Data: best android Smartphone Processor
This list of the best mobile processors aims to give you a better understanding of your smartphone’s SoC (System on a Chip) or help you choose the right one for your next purchase. Knowing the best android Smartphone Processor devices can make it simpler to decide on the brand of smartphone you want, whether it’s from Apple, Samsung, OnePlus, Huawei, or Xiaomi.
The formula for understanding the best processor for mobile data is to look for the highest score for the SoC. However, TechCenturion has its matric to analyze the data.
Less than 55 Score: If the processor’s score is 55, you should avoid using or buying the mentioned chipset’s smartphone.
55-70 Score: It is an acceptable score for an SoC. However, smartphones with these processors will have occasional lagging issues and might not work very smoothly.
70-100 Score: The processor with these scores is a good SoC. They can perform well in day-to-day tasks and will be a champ in handling occasional gaming. However, the older processor might show some heating and throttling issues. Moreover, this can be considered a negative user experience.
100-125 Score: Best in the overall category. Smartphones with these chipsets should be a must-have for any gadget enthusiast. Additionally, these SoC deliver excellent performance and are efficient in managing heavy multitasking workloads.
FaQs
Q- What is the No.1 Processor Mobile Phone?
The current No.1 processor in the mobile industry is the Snapdragon 8 Gen 3 chipset. It is based on a 4nm processor and packs an octa-core CPU and powerful Adreno GPU with ray-tracing support.
Q- Which is the most powerful Snapdragon processor?
The Snapdragon 8 Gen 3 is the most powerful processor from Qualcomm based on a 4nm architecture. It is the first chipset from the company to come with a Qualcomm AI engine and support for 240Hz display.
Q- Which phone has the fastest processor right now?
The iPhone 15 Pro Max has the fastest processor in the mobile industry, with an Apple A17 Pro chipset. The processor can be found on the iPhone 15 Pro and the iPhone 15 Pro Max. It is powerful enough to run AAA games like Resident 4 Evil and Assassin’s Creed Mirage.
Q- Which processor is best, Dimensity or Snapdragon?
Snapdragon is a better choice as most app developers prefer to optimize their games and apps for Qualcomm chipsets. On the other hand, Dimensity processors from MediaTek offer better power efficiency, resulting in longer battery life during day-to-day tasks.