Curious to know the best mobile processor rankings in 2023? Then see the list below.
Confused about which mobile processor to choose? Here We’ve done the research and rounded up the best processor for mobile phones ranking in 2023. What’s the best processor for mobiles? There are dozens of different processors that are designed specifically to run on smartphones, but not all of them are created equally. In fact, some of them can only be found in higher-end devices because they aren’t as efficient or affordable as other processors on the market. If you’re in the market for a new phone, and you want to make sure it has an excellent processor, take a look at this mobile processor ranking list for mobiles.
Also Check: Latest Mobiles Phones in 2024
Top 10 Best Processor For Mobile in 2023
Processor | AnTuTu 9 | Geekbench 5* |
---|---|---|
Apple A10 Bionic | 947554 | 1891 / 5419 |
MediaTek Dimensity 9200 Plus | 1377122 | 1504 / 5421 |
Qualcomm Snapdragon 8 Gen 2 | 1288860 | 1493 / 4991 |
MediaTek Dimensity 9200 | 1148554 | 1438 / 5019 |
Qualcomm Snapdragon 8 Plus Gen 1 | 1058031 | 1323 / 4175 |
MediaTek Dimensity 9000 Plus | 1150098 | 1347 / 4375 |
Apple A15 Bionic | 805699 | 1757 / 4820 |
Qualcomm Snapdragon 7 Plus Gen 2 | 965979 | 1434 / 4189 |
MediaTek Dimensity 9000 | 1002974 | 1275 / 4302 |
Qualcomm Snapdragon 8 Gen 1 | 976057 | 1285 / 3878 |
Table of Contents
What is a Processor or CPU?
A CPU is the processor that controls what happens in a device, such as a smartphone. A smartphone CPU uses data to figure out tasks and events that happen with the device. The more complex these tasks become, the faster and more powerful the processor needs to be. Keeping this need for power and speed in mind, there are four major types of mobile CPUs: 1) Dual Core; 2) Quad Core; 3) Octa-core; 4) Hexa-core.
A processor or Central Processing Unit (CPU) is a vital component of any electronic device as it functions as the brain of the device. However, unlike the human brain which processes thoughts and information simultaneously, a mobile processor only performs one task at a time by executing instructions one at a time. These instructions are typically stored in different parts of the system such as within the ROM (read-only memory) and RAM (random-access memory).
Best Processor for Mobiles, Processor Ranking List in 2023
Look out for the processor ranking list – best processor for Mobiles in 2023.
Rank | Processor | AnTuTu 9 | Geekbench 5 * | Cores | Clock ** | GPU |
---|---|---|---|---|---|---|
1 | Apple A16 Bionic | 947554 | 1891 / 5419 | 6 | 3460 MHz | Apple A16 GPU |
2 | MediaTek Dimensity 9200 Plus | 1377122 | 1504 / 5421 | 8 | 3350 MHz | Mali-G715 MP11 |
3 | Qualcomm Snapdragon 8 Gen 2 | 1288860 | 1493 / 4991 | 8 | 3200 MHz | Adreno 740 |
4 | MediaTek Dimensity 9200 | 1148554 | 1438 / 5019 | 8 | 3050 MHz | Mali-G715 MP11 |
5 | Qualcomm Snapdragon 8 Plus Gen 1 | 1058031 | 1323 / 4175 | 8 | 3200 MHz | Adreno 730 |
6 | MediaTek Dimensity 9000 Plus | 1150098 | 1347 / 4375 | 8 | 3200 MHz | Mali-G710 MP10 |
7 | Apple A15 Bionic | 805699 | 1757 / 4820 | 6 | 3230 MHz | Apple A15 GPU |
8 | Qualcomm Snapdragon 7 Plus Gen 2 | 965979 | 1434 / 4189 | 8 | 2910 MHz | Adreno 725 |
9 | MediaTek Dimensity 9000 | 1002974 | 1275 / 4302 | 8 | 3050 MHz | Mali-G710 MP10 |
10 | Qualcomm Snapdragon 8 Gen 1 | 976057 | 1285 / 3878 | 8 | 3000 MHz | Adreno 730 |
11 | Samsung Exynos 2200 | 925416 | 1162 / 3575 | 8 | 2800 MHz | Samsung Xclipse 920 |
12 | Apple A14 Bionic | 726796 | 1609 / 4137 | 6 | 3100 MHz | Apple A14 GPU |
13 | MediaTek Dimensity 8200 | 840650 | 995 / 4055 | 8 | 3100 MHz | Mali-G610 MP6 |
14 | Qualcomm Snapdragon 888 Plus | 838084 | 1173 / 3672 | 8 | 2995 MHz | Adreno 660 |
15 | Qualcomm Snapdragon 888 | 816280 | 1129 / 3713 | 8 | 2840 MHz | Adreno 660 |
16 | MediaTek Dimensity 8100 | 812557 | 955 / 3858 | 8 | 2850 MHz | Mali-G610 MP6 |
17 | Google Tensor G2 | 791462 | 1064 / 3239 | 8 | 2850 MHz | Mali-G710 MP7 |
18 | HiSilicon Kirin 9000 | 765726 | 1052 / 3717 | 8 | 3130 MHz | Mali-G78 MP24 |
19 | MediaTek Dimensity 8000 | 774052 | 843 / 3512 | 8 | 2750 MHz | Mali-G610 MP6 |
20 | Samsung Exynos 2100 | 754127 | 1093 / 3612 | 8 | 2900 MHz | Mali-G78 MP14 |
21 | Google Google Tensor | 719539 | 1053 / 2856 | 8 | 2800 MHz | Mali-G78 MP20 |
22 | Apple A13 Bionic | 633541 | 1334 / 3507 | 6 | 2650 MHz | Apple A13 GPU |
23 | HiSilicon Kirin 9000E | 731993 | 1073 / 3783 | 8 | 3130 MHz | Mali-G78 MP22 |
24 | MediaTek Dimensity 1200 | 687535 | 1015 / 3575 | 8 | 3000 MHz | Mali-G77 MP9 |
25 | Samsung Exynos 1080 | 711157 | 842 / 2921 | 8 | 2800 MHz | Mali-G78 MP10 |
26 | Qualcomm Snapdragon 870 | 709818 | 1009 / 3392 | 8 | 3200 MHz | Adreno 650 |
27 | MediaTek Dimensity 1300 | 681831 | 949 / 3208 | 8 | 3000 MHz | Mali-G77 MP9 |
28 | MediaTek Dimensity 8050 | 654630 | 955 / 3218 | 8 | 3000 MHz | Mali-G77 MP9 |
29 | Qualcomm Snapdragon 865 Plus | 652037 | 925 / 3502 | 8 | 3100 MHz | Adreno 650 |
30 | MediaTek Dimensity 1100 | 672780 | 794 / 3049 | 8 | 2600 MHz | Mali-G77 MP9 |
31 | Qualcomm Snapdragon 865 | 659307 | 937 / 3452 | 8 | 2840 MHz | Adreno 650 |
32 | MediaTek Dimensity 7200 | 617771 | 857 / 2305 | 8 | 2800 MHz | Mali-G610 MP4 |
33 | MediaTek Dimensity 8020 | 519650 | 842 / 3326 | 8 | 2600 MHz | Mali-G77 MP9 |
34 | Samsung Exynos 990 | 636918 | 942 / 2752 | 8 | 2730 MHz | Mali-G77 MP11 |
35 | MediaTek Dimensity 1000 Plus | 601632 | 798 / 2909 | 8 | 2600 MHz | Mali-G77 MP9 |
36 | Apple A12 Bionic | 531749 | 1128 / 2933 | 6 | 2490 MHz | Apple A12 GPU |
37 | Qualcomm Snapdragon 782G | 595382 | 778 / 2915 | 8 | 2700 MHz | Adreno 642 |
38 | Qualcomm Snapdragon 7 Gen 1 | 566060 | 843 / 3093 | 8 | 2400 MHz | Adreno 644 |
39 | Qualcomm Snapdragon 778G Plus | 582536 | 816 / 2971 | 8 | 2500 MHz | Adreno 642 |
40 | Qualcomm Snapdragon 780G | 546259 | 814 / 3006 | 8 | 2400 MHz | Adreno 642 |
41 | Qualcomm Snapdragon 860 | 570668 | 741 / 2600 | 8 | 2960 MHz | Adreno 640 |
42 | Qualcomm Snapdragon 855 Plus | 560533 | 788 / 2827 | 8 | 2960 MHz | Adreno 640 |
43 | HiSilicon Kirin 990 (5G) | 580673 | 769 / 3086 | 8 | 2860 MHz | Mali-G76 MP16 |
44 | Qualcomm Snapdragon 6 Gen 1 | 502614 | 759 / 2222 | 8 | 2200 MHz | Adreno 710 |
45 | Qualcomm Snapdragon 778G | 532446 | 774 / 2840 | 8 | 2400 MHz | Adreno 642 |
46 | Qualcomm Snapdragon 855 | 520913 | 745 / 2643 | 8 | 2840 MHz | Adreno 640 |
47 | MediaTek Dimensity 7050 | 548549 | 840 / 2325 | 8 | 2600 MHz | Mali-G68 MP4 |
48 | Samsung Exynos 1380 | 517295 | 784 / 2623 | 8 | 2400 MHz | Mali-G68 MP5 |
49 | MediaTek Dimensity 1050 | 524237 | 757 / 2165 | 8 | 2500 MHz | Mali-G610 MP3 |
50 | Samsung Exynos 9825 | 528514 | 773 / 2422 | 8 | 2730 MHz | Mali-G76 MP12 |
51 | MediaTek Dimensity 1080 | 507050 | 843 / 2384 | 8 | 2600 MHz | Mali-G68 MP4 |
52 | MediaTek Dimensity 920 | 505748 | 813 / 2291 | 8 | 2500 MHz | Mali-G68 MP4 |
53 | HiSilicon Kirin 990 (4G) | 497324 | 747 / 3065 | 8 | 2860 MHz | Mali-G76 MP16 |
54 | Samsung Exynos 9820 | 510710 | 837 / 2326 | 8 | 2730 MHz | Mali-G76 MP12 |
55 | MediaTek Dimensity 1000 | 442644 | 678 / 2893 | 8 | 2600 MHz | Mali-G77 MP9 |
56 | MediaTek Dimensity 900 | 480178 | 706 / 2153 | 8 | 2400 MHz | Mali-G68 MP4 |
57 | MediaTek Dimensity 1000L | 434963 | 654 / 2532 | 8 | 2200 MHz | Mali-G77 MP9 |
58 | Qualcomm Snapdragon 4 Gen 2 | 421404 | 792 / 2023 | 8 | 2200 MHz | Adreno 613 |
59 | HiSilicon Kirin 985 | 469816 | 689 / 2586 | 8 | 2580 MHz | Mali-G77 MP8 |
60 | HiSilicon Kirin 980 | 486293 | 700 / 2477 | 8 | 2600 MHz | Mali-G76 MP10 |
61 | HiSilicon Kirin 820 | 437050 | 645 / 2470 | 8 | 2360 MHz | Mali-G57 MP6 |
62 | Unisoc Unisoc T820 | 492253 | 654 / 2283 | 8 | 2700 MHz | Mali-G57 MP4 |
63 | MediaTek Dimensity 930 | 428412 | 704 / 1992 | 8 | 2200 MHz | IMG BXM-8-256 |
64 | Samsung Exynos 1280 | 416162 | 747 / 1886 | 8 | 2400 MHz | Mali-G68 MP4 |
65 | MediaTek Dimensity 820 | 453713 | 521 / 2417 | 8 | 2600 MHz | Mali-G57 MP5 |
66 | Apple A11 Bionic | 401457 | 926 / 2332 | 6 | 2390 MHz | Apple A11 GPU |
67 | MediaTek Dimensity 6080 | 410022 | 757 / 2005 | 8 | 2400 MHz | Mali-G57 MP2 |
68 | Samsung Exynos 1330 | 403669 | 747 / 2519 | 8 | 2400 MHz | Mali-G68 MP2 |
69 | Qualcomm Snapdragon 768G | 448528 | 702 / 2009 | 8 | 2800 MHz | Adreno 620 |
70 | Qualcomm Snapdragon 695 | 400178 | 704 / 2034 | 8 | 2200 MHz | Adreno 619 |
71 | Qualcomm Snapdragon 845 | 404770 | 510 / 2209 | 8 | 2800 MHz | Adreno 630 |
72 | MediaTek Dimensity 810 | 394290 | 629 / 1909 | 8 | 2400 MHz | Mali-G57 MP2 |
73 | Samsung Exynos 980 | 387368 | 698 / 1867 | 8 | 2200 MHz | Mali-G76 MP5 |
74 | Qualcomm Snapdragon 765G | 385111 | 590 / 1812 | 8 | 2400 MHz | Adreno 620 |
75 | Qualcomm Snapdragon 4 Gen 1 | 366446 | 623 / 1872 | 8 | 2000 MHz | Adreno 619 |
76 | MediaTek Dimensity 800U | 396631 | 620 / 1821 | 8 | 2400 MHz | Mali-G57 MP3 |
77 | Qualcomm Snapdragon 765 | 340729 | 593 / 1930 | 8 | 2300 MHz | Adreno 620 |
78 | Samsung Exynos 9810 | 407941 | 686 / 2017 | 8 | 2900 MHz | Mali-G72 MP18 |
79 | MediaTek Dimensity 6100 Plus | 346478 | 570 / 1748 | 8 | 2200 MHz | Mali-G57 MP2 |
80 | MediaTek Dimensity 6020 | 373233 | 606 / 1754 | 8 | 2200 MHz | Mali-G57 MP2 |
81 | MediaTek Helio G99 | 376939 | 563 / 1832 | 8 | 2200 MHz | Mali-G57 MP2 |
82 | Qualcomm Snapdragon 750G | 388751 | 658 / 2003 | 8 | 2200 MHz | Adreno 619 |
83 | HiSilicon Kirin 810 | 372214 | 603 / 1925 | 8 | 2270 MHz | Mali-G52 MP6 |
84 | MediaTek Dimensity 700 | 343178 | 569 / 1736 | 8 | 2200 MHz | Mali-G57 MP2 |
85 | Qualcomm Snapdragon 732G | 352316 | 570 / 1794 | 8 | 2300 MHz | Adreno 618 |
86 | MediaTek Dimensity 720 | 333085 | 533 / 1719 | 8 | 2000 MHz | Mali-G57 MP3 |
87 | Samsung Exynos 880 | 318932 | 657 / 1831 | 8 | 2000 MHz | Mali-G76 MP5 |
88 | MediaTek Dimensity 800 | 329980 | 514 / 1903 | 8 | 2000 MHz | Mali-G57 MP4 |
89 | MediaTek Helio G90 | 341941 | 511 / 1648 | 8 | 2050 MHz | Mali-G76 MP4 |
90 | Qualcomm Snapdragon 720G | 342653 | 570 / 1711 | 8 | 2300 MHz | Adreno 618 |
91 | Qualcomm Snapdragon 690 | 353441 | 611 / 1844 | 8 | 2000 MHz | Adreno 619 |
92 | Qualcomm Snapdragon 480 | 329178 | 513 / 1669 | 8 | 2000 MHz | Adreno 619 |
93 | MediaTek Helio G95 | 353084 | 519 / 1616 | 8 | 2050 MHz | Mali-G76 MP4 |
94 | Qualcomm Snapdragon 730G | 335386 | 540 / 1733 | 8 | 2200 MHz | Adreno 618 |
95 | MediaTek Helio G90T | 333129 | 497 / 1626 | 8 | 2050 MHz | Mali-G76 MP4 |
96 | Qualcomm Snapdragon 730 | 322439 | 540 / 1777 | 8 | 2200 MHz | Adreno 618 |
97 | Qualcomm Snapdragon 685 | 313841 | 377 / 1610 | 8 | 2800 MHz | Adreno 610 |
98 | Qualcomm Snapdragon 480 Plus | 317736 | 540 / 1662 | 8 | 2200 MHz | Adreno 619 |
99 | MediaTek Helio G96 | 336653 | 540 / 1896 | 8 | 2050 MHz | Mali-G57 MP2 |
100 | Qualcomm Snapdragon 835 | 312513 | 391 / 1727 | 8 | 2450 MHz | Adreno 540 |
10 things you should know about smartphone processors
- Processors have an important job. In most cases, they’re the single most expensive component in a smartphone, and they can make or break the user experience.
- Understanding how processors work will help you decide which one is best for you.
- There are two main types of processors: central processing units (CPUs) and graphics processing units (GPUs). CPUs typically handle running apps and performing operations that don’t involve graphics, while GPUs are more focused on graphic tasks like rendering images on your screen.
- A big processor can indicate a powerful device. But all things being equal, the number of cores doesn’t matter as much as the speed of each core does. The clock speed is important because it indicates how fast a CPU can perform calculations.
- A 2.8GHz quad-core chip is faster than a 2.2GHz quad-core chip.
- Higher clock speed means that its four cores can crunch numbers at a faster rate. Graphics chips also have their own speeds listed in MHz or GHz, which corresponds to how many pixels they can render per second.
- When choosing a smartphone, there are other factors that may make a difference including battery life, camera quality, display size and resolution, and whether you prefer an Android or iOS operating system.
- Is your phone an older model? Upgrading to a newer device with a newer, more powerful processor can improve your device’s performance and make it feel more up-to-date.
- Smartphone processors are more powerful than laptop processors.
- Processors can be one of the most important factors in determining what smartphone is right for you.
Factors that influence smartphone processors
If a processor is running at 1 GHz, that means it’s doing something 1000 million times per second. In general, the higher the frequency, the more computing power and performance there is to play with. For example, an iPhone 4S with a 1-GHz processor will outperform an iPhone 4 with a 600-MHz processor by around 70 per cent
Generally speaking, more cores are better because they allow the CPU to split up tasks in order to perform them simultaneously (i.e., multitasking)
While dual-core processors are still quite common, quad-core chipsets have been gaining popularity over the past few years. More recently we’ve seen Hexa-core processors appear on flagship devices such as Samsung’s Galaxy Note II. It remains to be seen whether this trend will continue or if the benefits of additional cores will become marginal.
How do CPUs (Central Processing Units) work?
CPUs are the brains of computers. They execute instructions sent by other parts of the computer, and all CPUs work in a similar manner. CPUs can be modelled as an FSM (Finite State Machine), which is an abstract computational model with two states and three transitions. The ‘states’ represent the power states in which the processor can operate – during powered-on periods, when it executes instructions, or when it needs to go into a low-power state to conserve battery life.
What is GPU (Graphics Processing Unit)?
GPU stands for Graphics Processing Unit, which is one of the most important components in a phone. It is responsible for displaying images on the screen and more powerful GPUs can offer better performance on more complex games. Mobiles usually come with a GPU from the manufacturer or from a third-party company like Qualcomm, and these companies design their own customized CPUs based on what they believe are consumers’ demands at the time.
What is a Dual-core or Quad-Core Processors?
A Dual-core or Quad-Core Processor refers to a type of chip that can execute two or four programs concurrently. This usually means it is more powerful because the processors have to work less hard to complete their tasks, which frees them up to do other tasks while they are working on the first one. The idea is that this allows your phone’s power to be used more efficiently, and you won’t have to wait so long between loading different apps or completing simple tasks.
It all depends on what you use your phone for. For example, if you’re in a hurry but want to quickly check something before running out the door then getting a Quad-Core Processor would be helpful because it will load faster. But if you’re someone who likes to play games, then getting a Dual-core processor might help because it will take longer with Quad-Cores as there would be less space in memory with four cores being used at once.
Also Read: Highest Processor Mobiles
How many cores are enough?
More cores mean a faster processor. The Snapdragon 820 has 4 or 8 cores, while a typical Intel chip only has 2 cores. When deciding on the appropriate number of cores, it’s best to consider what you’ll be using your mobile device for the most. If you use it mostly for internet browsing and app usage, then you would probably benefit from more cores since web pages and apps require more computing power than playing games or watching videos.
How does AnTuTu Benchmark affect the Processor Ranking List – Best Processor For Mobiles List?
To understand which smartphone processor is the best, it’s important to consider how the processor performs under different uses. Phone processors are rated on an AnTuTu Benchmark test which measures the phone’s performance in terms of its CPU, GPU, and RAM. This score will let you know if your smartphone has a powerful enough CPU to keep up with its other hardware.
The higher the number of points scored by the benchmark, the better. A quick search online can provide access to this information so that you can be sure that when purchasing a new device, you’re getting one with a strong processor that’ll handle any tasks thrown at it.
How does Geekbench Benchmark affect the Processor Ranking List – Best Processor For Mobiles List?
Geekbench is the industry standard when it comes to benchmarks. That being said, you don’t have to perform the benchmark yourself, but taking a look at benchmarks can give you an idea of how a phone is performing compared to others.
Geekbench benchmark tests the performance of your processor and compares it to other processors in its database. Your score will change over time as new phone models come out.
Conclusion: Best Processor For Mobiles in 2024
The above list shows the current processor ranking list – best processor for mobiles in 2024. The Rank is based on AnTuTu 9 & Geekbench 5 benchmark scores. Currently Apple iPhone 14 series processor i.e. A16 Bionic is the best in the market. The list is updated with every new processor released to the market.