Remember that moment of frustration when your phone lags during an important video call? Or the joy of playing graphics-intensive games without a single stutter? Thanks to the processor, the silent conductor orchestrating the entire smartphone experience, it’s all thanks. Choosing the right one isn’t just about specs; it’s about choosing a phone that makes you feel empowered, connected, and in control. Whether you crave lightning-fast performance for work or seamless entertainment for relaxation, a perfect processor is waiting to match your unique rhythm. Dive into our curated ranking list, discover the power within, and find the smartphone that truly resonates with you!
Table of Contents
Choosing the “best” smartphone processor depends entirely on what you value most. Are you a hardcore gamer seeking buttery-smooth frame rates? A photography enthusiast craving professional-grade image quality? Or someone who simply wants a reliable phone for everyday tasks?
This article ditches the one-size-fits-all approach and explores the latest mobile processors based on real user needs. We’ll delve into their strengths, weaknesses, and ideal use cases to help you find the perfect match for your smartphone lifestyle.
What is a Mobile Processor or Mobile CPU?
Remember the days when phones were just for calls and texts? Today, they’re pocket-sized powerhouses juggling everything from high-def photos to lightning-fast gaming. The brains behind this magic? The mobile processor!
Think of it as the tiny conductor in your phone’s orchestra, directing a complex symphony of tasks. It crunches numbers for calculations, processes voice calls, renders stunning visuals, and powers your camera’s magic tricks. These intricate chips, called System-on-Chip (SoC) processors, are packed with features like AI engines and image processors, making them the true superstars of your smartphone.
But how do we know these tiny maestros are living up to their potential? That’s where benchmarking comes in, like putting the processors through real-world challenges to see how they perform. So next time you snap a breathtaking photo or enjoy a lag-free game, remember it’s all thanks to the incredible (and constantly evolving) mobile processor!
What is Benchmarking in Processors?
Benchmarking in processors is like a report card for your device’s brainpower. It’s a way of testing and comparing how well a processor performs in real-life tasks. Think of it as a series of challenges for your phone or computer’s brain, measuring speed and efficiency. These tests help us see which processors are the speed demons, easily handling tasks like gaming or multitasking. So, when you hear about benchmark scores, it’s telling you how smart and fast your device’s brain is compared to others. It’s like a friendly competition among processors to see who’s the top performer!
Apple A17 Pro Bionic is currently the best processor available for mobile devices. The same chip powers the iPhone 15 Pro and 15 Pro max series.
You can also read: Ranking list of Best Graphic Cards (GPU)
100 Best Processor for Mobile In 2024
Choosing the “Best Processor for Mobile” can feel overwhelming, especially with all the technical jargon. But fear not! We’ve compiled a curated list of the 100 best mobile processors, taking into account real-world performance, user reviews, and your specific needs. Whether you’re a gamer seeking lightning-fast graphics or a casual user prioritizing battery life, we’ve got you covered. Ditch the confusing benchmarks and make an informed choice you’ll be happy with!”
Rank | Processor Name | Phone Name | Centurion Mark | AnTuTu 8 | GeekBench 5 |
1 | Apple A17 Bionic | Apple iPhone 15 Pro Max | 3269 / 7666 | ||
2 | Dimensity 9300 | Vivo X100 series | 6244/2622 | ||
3 | Apple A16 Bionic | Apple iPhone 15 | 967942 | 1887 / 5455 | |
4 | Snapdragon 8 Gen 3 | Samsung Galaxy S24 Ultra, OnePlus 12 | 1771106 | 2563 / 7256 | |
5 | Snapdragon 8 Gen 2 | Samsung Galaxy S23 Ultra | 1227562 | 1485 / 4918 | |
6 | Snapdragon 8 Plus Gen 1 | Samsung Galaxy Z Fold 4 | 1,024,312 | 1351 / 3808 | |
7 | Dimensity 9200 | Vivo X90 5G | 1,260,549 | 1296 / 4958 | |
8 | Dimensity 9000 Plus | Oppo Find N2 Flip | 1,149,845 | 1349 / 4342 | |
9 | Apple A15 Bionic | Apple iPhone 13 | 801199 | 1722 / 4685 | |
10 | Dimensity 9000 | Vivo X80 | 1,049,081 | 1179/4189 | |
11 | Snapdragon 8 Gen 1 | OnePlus 10 Pro | 1,029,556 | 1259/4189 | |
12 | Apple A14 Bionic | Apple iPhone 12 | 165 | 611843 | 1613 / 3909 |
13 | Snapdragon 888 Plus | Asus ROG Phone 5S | 863552 | 1160 / 2834 | |
14 | Exynos 2200 | Samsung Galaxy S22 Ultra | 965,874 | 934/2925 | |
15 | Snapdragon 888 | OnePlus 9 | 158 | 722907 | 1140 / 3745 |
16 | Dimensity 8100 | Realme GT Neo 3 | 809443 | 1003/2607 | |
17 | Tensor G2 | Google Pixel 7 Pro | 801,116 | 1054 / 3138 | |
18 | Exynos 2100 | Samsung Galaxy S21 | 156 | 698965 | 1085 / 3654 |
19 | Google Tensor | Google Pixel 6 Pro | 676789 | 1056 / 2855 | |
20 | Apple A13 Bionic | Apple iPhone 11 | 154 | 524846 | 1345 / 3568 |
21 | Snapdragon 6 Gen 1 | Realme 12 Pro 5G | 581109 | 952/2749 | |
22 | Kirin 9000 | Huawei Mate 40 Pro | 152 | 698795 | 1067 / 3764 |
23 | Kirin 9000E | Huawei Mate 40 | 151 | 633255 | 1077 / 3772 |
24 | Exynos 1080 | Vivo X60 Pro | 151 | 637232 | 850 / 2989 |
25 | Snapdragon 870 | Xiaomi Poco F3 | 151 | 647509 | 1010 / 3423 |
26 | Snapdragon 865+ | Asus ROG Phone 3 | 150 | 620268 | 926 / 3342 |
27 | Dimensity 1200 | 150 | 625102 | 939 / 3367 | |
28 | Snapdragon 865 | OnePlus 8 | 149 | 597297 | 944 / 3454 |
29 | Dimensity 1100 | Vivo S9 | 149 | 612309 | 866 / 3487 |
30 | Snapdragon 780G | Xiaomi Mi 11 Lite 5G | 147 | 512084 | 813 / 2926 |
31 | Dimensity 1000+ | Xiaomi Redmi K30 Ultra | 146 | 486043 | 804 / 2808 |
32 | Apple A12 Bionic | iPhone XS Max | 146 | 401359 | 1139 / 2944 |
33 | Snapdragon 855+ | Asus ROG Phone II | 145 | 488150 | 792 / 2816 |
34 | Snapdragon 860 | POCO X3 Pro | 145 | 461385 | 750 / 2582 |
35 | Exynos 990 | Samsung Galaxy S20 Ultra | 144 | 532769 | 939 / 2772 |
36 | Snapdragon 778G Plus | Motorola Edge 30 | 144 | 821/2353 | |
37 | Snapdragon 855 | OnePlus 7 Pro | 144 | 433903 | 755 / 2640 |
38 | Snapdragon 778G | Realme GT Master Edition | 144 | 539766 | 785/2872 |
39 | Kirin 990 5G | Huawei Mate 30 Pro 5G | 144 | 505723 | 782 / 3097 |
40 | Kirin 990E 5G | Huawei Mate 30E Pro 5G | 143 | 433,894 | 765/3089 |
41 | Exynos 9825 | Galaxy Note 10+ | 142 | 455130 | 774 / 2434 |
42 | Exynos 9820 | Samsung Galaxy S10 | 140 | 392201 | 851 / 2307 |
43 | Dimensity 1080 | Xiaomi Redmi Note 12 Pro 5G | 492959 | 813 / 2284 | |
44 | Dimensity 920 | Infinix Zero Ultra | 497481 | 806 / 2282 | |
45 | Dimensity 1000L | Oppo Reno3 5G | 140 | 342107 | 313 / 1380 |
46 | Kirin 985 5G | Huawei Honor 30 | 139 | 421071 | 691 / 2612 |
47 | Kirin 980 | Huawei Mate 20 Pro | 137 | 404883 | 709 / 2488 |
48 | Exynos 1280 | Samsung Galaxy A53 5G | 137 | 405264 | 735 / 1860 |
49 | Snapdragon 768G | Redmi K30 5G Racing | 136 | 350914 | 704 / 2031 |
50 | Dimensity 820 | Redmi 10X Pro 5G | 136 | 410416 | 661 / 2677 |
51 | Exynos 980 | Samsung Galaxy A71 5G | 135 | 337721 | 706 / 1864 |
52 | Snapdragon 765G | Oppo Reno 3 Vitality | 134 | 318917 | 598 / 1829 |
53 | Dimensity 800U | Xiaomi Redmi Note 9T | 134 | 326476 | 626 / 1931 |
54 | Snapdragon 4 Gen 1 | iQOO Z6 Lite | 383065 | 619 / 1852 | |
55 | Helio G99 | Realme 10 | 378814 | 557 / 1815 | |
56 | Exynos 880 | Vivo Y70s | 134 | 292377 | 659 / 1833 |
57 | Snapdragon 765 | Motorola One 5G | 133 | 290380 | 482 / 1818 |
58 | Dimensity 800 | Honor Play 4 | 133 | 321253 | 554 / 2220 |
59 | Snapdragon 750G | Motorola Moto G 5G | 132 | 332300 | 667 / 1999 |
60 | Snapdragon 690 | OnePlus Nord N10 5G | 131 | 291148 | 613 / 1859 |
61 | Dimensity 720 | Realme v3 | 131 | 293743 | 524 / 1687 |
62 | Dimensity 700 | Realme 8 5G | 131 | 293419 | 540 / 1717 |
63 | Apple A11 Bionic | iPhone X | 130 | 316524 | 926 / 2362 |
64 | Snapdragon 695 | OnePlus Nord CE 2 Lite 5G | 406,221 | 690/1742 | |
65 | Snapdragon 845 | OnePlus 6T | 127 | 362476 | 515 / 2221 |
66 | Exynos 9810 | Samsung Galaxy Note 9 | 125 | 321500 | 693 / 2040 |
67 | Snapdragon 732G | Poco X3 | 125 | 282502 | 576 / 1811 |
68 | Snapdragon 730G | Oppo Reno 2 | 124 | 282999 | 545 / 1748 |
69 | Kirin 810 | Honor 9X | 124 | 323660 | 622 / 2040 |
70 | Snapdragon 730 | Redmi K20 | 123 | 255340 | 545 / 1778 |
71 | Snapdragon 720G | Realme 6 Pro | 123 | 277832 | 572 / 1707 |
72 | Snapdragon 480 | Vivo Y31s | 122 | 262534 | 520 / 1666 |
73 | Kirin 970 | Huawei Mate 10 Pro | 121 | 239440 | 391 / 1375 |
74 | Helio G95 | Realme 7 | 120 | 300476 | 521 / 1608 |
75 | Helio G90T | Redmi Note 8 Pro | 119 | 285824 | 497 / 1627 |
76 | Apple A10 Fusion | iPhone 7 Plus | 118 | 253993 | 780 / 1419 |
77 | Helio G90 | 118 | 226901 | 517 / 1642 | |
78 | Snapdragon 835 | Google Pixel 2 XL | 117 | 280101 | 390 / 1720 |
79 | Exynos 8895 | Samsung Galaxy S8+ | 114 | 176078 | 384 / 1577 |
80 | Snapdragon 712 | Vivo Z5 | 114 | 225485 | 409 / 1528 |
81 | Snapdragon 710 | Xiaomi Mi 8 SE | 113 | 221286 | 396 / 1469 |
82 | Snapdragon 678 | Xiaomi Redmi Note 10 | 113 | 236291 | 520 / 1492 |
83 | Snapdragon 675 | Redmi Note 7 Pro | 112 | 205121 | 426 / 1386 |
84 | Snapdragon 670 | Oppo R17 | 111 | 180984 | 351 / 1347 |
85 | Helio P95 | Oppo Reno 3 Pro 4G | 111 | 212556 | 403 / 1526 |
86 | Helio P90 | OPPO Reno Z | 110 | 223312 | 397 / 1510 |
87 | Apple A9 | iPhone 6S Plus | 109 | 172432 | 546 / 1002 |
88 | Snapdragon 821 | OnePlus 3T | 108 | 177166 | 343 / 754 |
89 | Snapdragon 820 | LG G5 | 107 | 168540 | 325 / 808 |
90 | Helio G85 | Redmi Note 9 | 107 | 195603 | 357 / 1268 |
91 | Exynos 8890 | Samsung Galaxy S7 Edge | 106 | 178154 | 375 / 1328 |
92 | Helio G80 | Redmi 9 | 106 | 203829 | 354 / 1311 |
93 | Helio G70 | Realme C3 | 105 | 196533 | 360 / 1279 |
94 | Helio P65 | Vivo S1 | 105 | 187252 | 352 / 1283 |
95 | Kirin 960 | Huawei Mate 9 Pro | 103 | 209909 | 384 / 1590 |
96 | Exynos 9611 | Samsung Galaxy M30s | 103 | 184673 | 331 / 1218 |
97 | Exynos 9610 | Samsung A50 | 102 | 170293 | 341 / 1152 |
98 | Snapdragon 660 | Xiaomi Mi A2 | 101 | 156817 | 338 / 1334 |
99 | Exynos 9609 | Moto One Vision | 101 | 188890 | 330 / 1259 |
100 | Snapdragon 665 | Redmi Note 8 | 101 | 177906 | 318 / 1370 |
Top 10 Processors for Android in 2024
Android phones rule the world! Millions, from students to CEOs, choose them for their user-friendly interface and budget-friendly prices. But with so many options, picking the right phone can be a head-scratcher. The secret lies in the processor, the brains behind the beauty. Today, we’re diving into the top Android processors, the powerhouses that fuel your favourite apps, games, and everything in between! Get ready to geek out and find your perfect processor match!
S No | Mobile Processor Name | Phone | AnTuTu 8 | Geekbench 5 |
1 | Snapdragon 8 Gen 3 | iQOO 12 5G,Samsung Galaxy S24 | 1771106 | 2563/7526 |
2 | Dimensity 9300 | Vivo X100 Pro 5G, Vivo X100 | 6244/2622 | |
3 | Snapdragon 8 Gen 2 | OnePlus 11, Samsung Galaxy S23 series | 1227562 | 1485 / 4918 |
4 | Dimensity 9200 | Oppo Find N3 Flip, Vivo X90 | 1260549 | 1296 / 4958 |
5 | Dimensity 9000 Plus | OnePlus Nord 3 5G, Samsung Galaxy A15 5G | 1149845 | 1349 / 4342 |
6 | Snapdragon 8 Plus Gen 1 | iQOO 9T 5G, OnePlus 11R, Nothing Phone 2 | 1024312 | 1351 / 3808 |
7 | Dimensity 9000 | Redmi 13C, OnePlus 10R | 1049081 | 1179/4189 |
8 | Exynos 2200 | Samsung Galaxy A25, Samsung Galaxy S22 | 965874 | 934/2925 |
9 | Dimensity 8100 | Realme GT Neo 3, Xiaomi Redmi K50i | 809443 | 1003/2607 |
10 | Tensor G2 | Google Pixel 7, Google Pixel 7A | 801116 | 1054 / 3138 |
Top Processor For iPhone in 2024
Apple processors consistently rank among the best in the mobile world, and for good reason! But with various iPhone models boasting different chipsets, choosing the right one can feel overwhelming. Fear not, iPhone enthusiasts! This deep dive explores the latest and greatest in Apple mobile processors, from the powerhouse A17 Bionic in the iPhone 15 Pro Max to the efficient A15 in the iPhone 13 series. Whether you prioritize raw performance for demanding games or smooth everyday use, we’ll help you find the perfect processor for your digital needs and budget.
S.No | iPhone Processor | Phone Model | AnTuTu 8 | Geekbench 6 |
1 | Apple A17 Pro | Apple iPhone 15 Pro Max | 2904/2500 | |
2 | Apple A17 Bionic | Apple iPhone 15 Pro | 2896/2500 | |
3 | Apple A16 Bionic | Apple iPhone 14 Pro Max & Apple iPhone 15 | 2553/2500 | |
4 | Apple A15 Bionic | Apple iPhone 14 | 826635 | |
5 | Apple A15 Bionic | Apple iPhone 13 | 803254 | 2196/2500 |
6 | Apple A14 Bionic | Apple iPhone 12 | 621879 | 2004/2500 |
7 | Apple A13 Bionic | Apple iPhone 11 | 1684/2500 | |
8 | Apple A12 Bionic | Apple iPhone XR | 1238/2500 |
Understanding: which processor for Mobiles in 2024?
Calling all tech geeks and smartphone fanatics! Feeling lost in the jungle of mobile processors? Don’t sweat it! This guide cuts through the jargon and showcases the hottest SoCs on the market – from Apple’s blazing A-series to Qualcomm’s powerhouse Snapdragon chips. Whether you’re a gaming fanatic craving smooth graphics or a photography enthusiast demanding crystal-clear images, I’ve got you covered. Buckle up, grab your metaphorical magnifying glass, and let’s delve into the world of mobile processors like never before!
Focusing on the SoC’s highest score to decode this best processor for mobile ranking. TechCenturion employs its unique metric for analysis:
- Less than 55 Score: Avoid smartphones featuring chipsets with scores below 55; they may not deliver optimal performance.
- 55-70 Score: While acceptable, processors in this range may experience occasional lags, impacting smooth functionality.
- 70-100 Score: Considered good, these processors excel in daily tasks and handle occasional gaming well. Older models may encounter heating and throttling issues.
- 100-125 Score: The crème de la crème. Smartphones equipped with these chipsets are a must-have for gadget enthusiasts, delivering exceptional performance and efficient multitasking capabilities.
How to understand AnTuTu Benchmark?
Understanding the AnTuTu Benchmark is like peeking into your phone’s performance report. It measures your device’s speed and efficiency by running various tests. Higher scores indicate better performance. So, when you hear about AnTuTu scores, it’s like knowing how well your phone can handle tasks and apps – higher score, smoother experience!
How to understand Geekbench Benchmark?
Geekbench scores result from diverse metrics derived from numerous computation tasks executed on the SoC, including Crypto workloads, floating-point operations, and API analysis. A higher score indicates a more impactful performance from the mobile processor in real-world applications.
Which Mobile Processor is Best For Gaming in 2024?
Choosing a phone processor is like picking the engine for your digital adventure. Top-of-the-line chipsets, scoring over 100, are the Ferraris of the phone world – blazing fast for intense gaming and video editing. But if your phone use is more like a leisurely bike ride, browsing Instagram and chatting with friends, a mid-range processor (70-100 score) will do just fine. The 55-70 options are like reliable bicycles – they’ll get you there but might huff and puff on steeper hills (demanding tasks). So, match your phone use to the processor’s power – don’t pay for a race car if you just need a comfy cruiser!
Conclusion: Best Processor for Mobiles in 2024
In 2024, navigating the realm of mobile processors becomes easier with our guide on the Best Processors for Mobile in 2024. Enjoy a frustration-free video call and lag-free gaming – all thanks to the unsung hero, the processor. This article decodes the tech-speak, offering insights into the top processors based on real user needs. From benchmarking to understanding AnTuTu and Geekbench scores, we’ve got you covered. The spotlight is on the Apple A17 Pro Bionic, reigning supreme. Dive into our curated list of the 100 best processors, ensuring your smartphone journey is not just powerful but perfectly tailored to your unique rhythm.
Also read: Why is computing important?
1 Comment
Comments are closed.