What is the most powerful mobile processor. Processors for smartphones - main characteristics and manufacturers. What processors are on the market?
It's time to sum up the results of the year and determine what mobile processor is the most productive. Over the past 12 months, the gap between Kirin and Snapdragon chipsets has been reduced to a minimum, so we can expect that Qualcomm and Huawei will fight even more desperately next year, but for now, let's look at our rating of smartphone processors. Let's go.
#10 – Snapdragon 636
Qualcomm released the Snapdragon 636 late last year and the chipset immediately became a bestseller and a hit. The solution is intended for mid-range smartphones and is a compromise between performance and energy efficiency. The processor is based on a Kryo 260 cluster of 8 cores, divided equally into two blocks. Difficult tasks are solved first, which consists of Cortex A73 cores with 1.8 GHz, and everyday processes are a headache for the Cortex A53 quartet with 1.6 GHz.
The performance of the chipset is enough for smartphones built on its basis to not experience any problems in modern games and work reliably when surfing the Internet and in instant messengers.
№9 – Samsung Exynos 7885
Samsung Exynos 7885 is a processor that, at the beginning of this year, was one of the most productive on the market. It is manufactured using 14nm technology and also guarantees support for Wi-Fi wireless communications, as well as Bluetooth 5.0 - the most advanced protocol on the market. at the moment.
The chipset platform consists of eight cores. Two of them are Cortex-A73 with a frequency of 2.2 GHz, the remaining six are Cortex-A53 with 1.6 GHz. The processor supports video playback in 4K resolution, but it slows down and is not stable. Things are completely different with Full HD+ - no flaws, everything is smooth and without lags. The Samsung Exynos 7885 contains a fairly powerful LTE board that limits the speed mobile internet value of 600 Mbit/s. The processor does not have any power potential in the coming year; a solution based on it will most likely need to be upgraded, but for now it is enough to play any game without lags or throttling.
No. 8 – MediaTek Helio X30
MediaTek Helio X30 received a 10nm process technology and 10 cores. The architecture consists of three stages and a similar number of clusters. The main one is two Corte-A73 cores with a frequency of 2.5 GHz, complemented by a pair of quartets in the form of Cortex-A53 with 2.2 GHz and 1.9 GHz, respectively.
The platform’s capabilities include video decoding in 4K and 2K formats, and due to the presence of several image processors in the architecture, it can work with two 16+16 MP cameras. Thanks to the efforts of the developer, MediaTek Helio X30 is 25% more economical and almost twice as powerful as its predecessor. True, if at the beginning of the year this was still relevant and allowed the chipset to be used as an argument in disputes about “which processor is better than Mediatek or Snapdragon,” now this is enough for exactly the eighth line of our rating.
#7 – Qualcomm Snapdragon 660
The Snapdragon 660 consists of the Adreno 512 graphics core and the Snapdragon X12 LTE modem. The latter component guarantees smartphones based on the chipset stable and fast operation of the mobile Internet at speeds of up to 600 Mbit/s. The processor architecture is represented by 8 cores, four of which are Kryo 260 with 1.8 GHz and the same number of Kryo 280 with a frequency of 2.8 GHz. The first solve everyday problems, and the second quartet comes to the rescue when launching demanding applications and games.
The main competitor of the Snapdragon 660 is the Snapdragon 653, although the seventh position in our top smartphone processors looks much more preferable, since its throughput is twice as high. Almost any modern game will run on a smartphone with a Snapdragon 660 maximum settings, confirmation of these words is 118,000 points in the AnTuTu benchmark.
#6 – Snapdragon 845
One of the most common chipsets in flagships, the Snapdragon 845, is content with only sixth place in our top list of best processors for smartphones. It is based on the 10nm FinFET process. The processor architecture is represented by 4 Cortex-A75 cores and the same number of Cortex-A65. Weak cores with a frequency of 1.8 GHz are activated when the user performs simple tasks, and their “big brothers” turn on during demanding games.
One of the main features of the Snapdragon 845 is the 3 MB system cache. This significantly saves inventory RAM smartphone and allows you to use it in other tasks. The Adreno 630 graphics core allows you to set maximum graphic settings in absolutely any existing game, while the design does not overheat and does not upset the user with throttling.
No. 5 – Huawei Kirin 970
The main feature of the single-chip Huawei Kirin 970, made using 10nm technology, is a neuromorphic processor with an open ecosystem. This provides smartphones built on the chipset with excellent performance and the ability to run any modern games at maximum graphics settings. The NPU technology presented in the chipset platform allows it to be not only powerful, but also economical.
The processor consists of two clusters of 4 cores. The first contains Cortex-A73 with a frequency of 2.4 GHz, the second contains Cortex-A53 with 1.8 GHz. The package is complemented by the GPU Mali G72MP12 graphics core. The capabilities of the chipset allow gadgets based on it to capture video in 4K format, as well as shooting in motion and hybrid autofocus.
No. 4 – Samsung Exynos 9820
The latest solution from the South Korean developer was released specifically for flagship smartphones of 2018-2019. The chipset architecture contains four Mongoose M4 cores with a frequency of 2 GHz, two Cortex-A75 with a similar frequency and a quartet of Cortex-A55 at half the speed. This entire platform is built on the 8nm LPP FinFET process. The company itself states that this allows the Samsung Exynos 9820 to be almost a quarter more productive than its predecessor. As for energy efficiency, this figure has been doubled.
The role of the video accelerator is given to the Mali-G76 MP12, it is 40% more powerful than its predecessor and 30% more economical. The Samsung Exynos 9820 chipset allows smartphones built on its base to support 4K displays and shoot video in 8K resolution. It's surprising that 5G support is not included in its arsenal.
No. 3 – HiSilicon Kirin 980
HiSilicon Kirin 980 became the world's first processor created using the 7 nm process technology. The chipset is also interesting for its architecture - it debuted Cortex-A76 cores, a dual NPU, a Mali-G76 graphics accelerator and a fast LTE Cat.21 modem. The performance of the chipset is ensured by the presence of 7 billion transistors per square centimeter. This value is twice as much as that of its predecessor, the Kirin 710.
The Kirin 980 platform consists of the aforementioned Cortex-A76, four in number. At the same time, the first two cores operate at a frequency of 2.6 GHz, and the rest - 1.92 GHz. The quartet is complemented by four Cortex-A55 with a frequency of 1.8 GHz. In order to ensure optimal power distribution, the developer introduced Flex-Scheduling technology into the chipset architecture. Thanks to it, solutions with Kirin 980 on board are distinguished by their autonomy.
#2 – Snapdragon 855
Snapdragon 855 is the first commercially available platform in the world to support 5G networks. True, it is provided using the same modem that was used in its predecessor – Snapdragon X50. It is mounted in addition to the main Snapdragon with an integrated 4G modem Snapdragon X24 LTE. This combination will provide throughput LTE Cat 20 at speeds up to 2 Gbps. The Snapdragon 855 supports Wi-Fi 6 with WPA3, as well as Bluetooth 5.0, which is still the fastest protocol available right now.
The most important feature of the model is its manufacturing using the 7nm process technology. By moving from a 10 nm process, engineers were able to increase the frequencies of all cores and also reduce their power consumption. Based on this, we can expect that 2018-2019 will see a huge leap forward in terms of smartphone performance. It will be most noticeable in tasks using AI and photography.
The Snapdragon 855 architecture consists of 8 cores and has a 1+3+4 design. The top core has a frequency of 2.84 GHz, the slightly less productive triple runs at 2.42 GHz, and the weakest quartet, intended for household processes, runs at 1.8 GHz. Each core has its own cache and a shared L3 cache for efficient operation.
#1 – Apple A12 Bionic
Apple A12 Bionic was introduced to the world along with the new generation of iPhones and overnight became the most powerful mobile processor in the world. It is made using a 7nm process technology and has six cores. At the same time, the distribution of their forces is very interesting, since the first four are 50% more economical than those used in the predecessor, and the remaining two are 15% more productive.
The graphics module received an increase of almost two times. Thanks to this, the Apple A12 Bionic has crazy potential for which there are no barriers. In all benchmarks and games, the “new iPhones” demonstrate the best performance and break all records.
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A series of articles about choice good smartphone, taking into account the characteristics. Mobile ARM processor for smartphones - more precisely, a single-chip SoC system (system on a chip - system on a chip) - all the components of a full-fledged mobile computer on one crystal (chipset).
The SoC crystal of a smartphone or tablet includes: CPU processor cores, memory controller, input/output ports, GPU graphics accelerator, audio-video decoding module, image processor, Wi-Fi wireless communication modules, GPS, modem... Processors for mobile devices - this is somewhat more than a CPU unit - it is a real computer squeezed into a small chipset.
The rating of mobile processors, device performance, and place in the rating are influenced by a number of interrelated factors. In order to form a correct understanding, the comparison of the performance of mobile processors should be linked to the following information and characteristics.
The developer of the microprocessor architecture is ARM Limited, the main licensees and manufacturers are Qualcomm (), MediaTek (), Samsung (), HiSilicon (). When producing SoC crystals, the core architecture of ARM Cortex-A (CPU), ARM Mali (GPU) is taken as the basis. The number, class, generation of cores, quantitative and qualitative content of auxiliary modules are determined by the manufacturer. For example, based Qualcomm processor Snapdragon 845 contains four high-performance Cortex-A75 cores and 4 energy-efficient Cortex-A55 cores; instead of ARM Mali, a 630 graphics accelerator is integrated, as well as Spectra ISP, Aqstic Audio, and Mobile Security modules of our own design. Samsung Exynos 9810 has the same set - Cortex-A75 + Cortex-A55, but with the G72 MP18 video accelerator and a list of additional features. modules of our own and third-party developments.
“Earlier” or cheaper mobile processors for smartphones may contain cores of outdated Cortex-A72, Cortex-A73 architecture, may not have high-performance ones at all and are packaged only with low-performance Cortex-A53, in conjunction with slower memory and a video card. The characteristics of the integrated modules have an impact on the power consumption, heat dissipation and performance rating of the smartphone.
The set of basic, declared characteristics of a mobile processor always depends on heating and is subject to adjustment during production specific model smartphone. Dimensions of the gadget, screen resolution, OS version, pre-installed software, heat-dissipating properties of the case, mediocre or well-designed protection mechanisms. It is difficult to implement a typical PC cooling system with a fan in a smartphone; the total heat dissipation of the crystal modules leads to throttling - skipping clock cycles, reducing the voltage and frequency of the module (computing cores), in order to protect against thermal damage (overheating).
All smartphones and tablets are susceptible to throttling, to varying degrees, but all of them. The manufacturer's contribution to solving this problem reflects the performance rating of the smartphone's mobile processor as a whole. Mobile devices with identical processors being equal only on paper, test results often confirm the opposite. Run the AnTuTu Benchmark stress test on your smartphone; the diagram with frequency indicators for each CPU core is very indicative. At the same time, you can join in a useful activity, take part in the rating, and supplement the comparison of mobile processors with test results for your device. Perhaps it is your example that will help a good person, suggest a direction, or warn against a rash purchase. How to take a screenshot and add test results - quick guide in the first comment.
Smartphone model | CPU | GPU | CPU + GPU model |
Asus ROG Phone | 95630 | 126820 | Snapdragon 845 + Adreno 630 |
Vivo NEX S | 92141 | 126105 | Snapdragon 845 + Adreno 630 |
Xiaomi Mi 8 | 92025 | 112442 | Snapdragon 845 + Adreno 630 |
OnePlus 6 | 91767 | 126213 | Snapdragon 845 + Adreno 630 |
Xiaomi Black Shark | 91581 | 127035 | Snapdragon 845 + Adreno 630 |
Xiaomi Pocophone F1 | 91556 | 106902 | Snapdragon 845 + Adreno 630 |
Asus ZenFone 5Z | 91286 | 107389 | Snapdragon 845 + Adreno 630 |
Sony Xperia XZ2 Compact | 91010 | 106327 | Snapdragon 845 + Adreno 630 |
Sony Xperia XZ2 Premium | 91004 | 106612 | Snapdragon 845 + Adreno 630 |
Samsung S9+ | 89716 | 107089 | Snapdragon 845 + Adreno 630 |
Samsung Note 9 | 89430 | 126066 | Snapdragon 845 + Adreno 630 |
Samsung S9+ | 89363 | 94036 | Exynos 9810 + Mali-G72 MP18 |
Samsung S9 | 89359 | 106377 | Snapdragon 845 + Adreno 630 |
Samsung S9 | 89056 | 92300 | Exynos 9810 + Mali-G72 MP18 |
OPPO Find X | 87442 | 125745 | Snapdragon 845 + Adreno 630 |
Sony Xperia XZ2 | 86124 | 106544 | Snapdragon 845 + Adreno 630 |
Xiaomi Mi Mix 2S | 85939 | 109071 | Snapdragon 845 + Adreno 630 |
LG G7 ThinQ | 85280 | 105888 | Snapdragon 845 + Adreno 630 |
Samsung Note 9 | 84438 | 96382 | Exynos 9810 + Mali-G72 MP18 |
Ulefone T2 Pro | 74527 | 30859 | Helio P70 + Mali-G72 MP4 |
Motorola Moto Z2 Force | 72567 | 84170 | Snapdragon 835 + Adreno 540 |
Nokia 8 | 72157 | 81940 | Kirin 970 + Mali-G72 MP12 |
Sony XZ1 Compact | 72039 | 82022 | Snapdragon 835 + Adreno 540 |
Huawei P20 Pro | 71881 | 77765 | Kirin 970 + Mali-G72 MP12 |
Razer Phone | 71487 | 83884 | Snapdragon 835 + Adreno 540 |
Huawei P20 | 71448 | 76261 | Kirin 970 + Mali-G72 MP12 |
Google Pixel 2 | 71391 | 83476 | Snapdragon 835 + Adreno 540 |
Xiaomi Mi Mix 2 | 71142 | 83746 | Snapdragon 835 + Adreno 540 |
Google Pixel 2 XL | 70981 | 85344 | Snapdragon 835 + Adreno 540 |
Huawei Mate 10 Pro | 70815 | 80162 | Kirin 970 + Mali-G72 MP12 |
Smartphone model | CPU | GPU | SoC chip model |
Honor Play | 70541 | 75867 | Kirin 970 + Mali-G72 MP12 |
Samsung Note 8 | 70185 | 79376 | Exynos 8895 + Mali-G71 MP20 |
Huawei Mate 10 | 70128 | 79530 | Kirin 970 + Mali-G72 MP12 |
Huawei Nova 3 | 69927 | 76274 | Kirin 970 + Mali-G72 MP12 |
Essential Phone | 69796 | 75257 | Snapdragon 835 + Adreno 540 |
Samsung Note 8 | 69432 | 82242 | Snapdragon 835 + Adreno 540 |
Honor V10 | 69404 | 80616 | Kirin 970 + Mali-G72 MP12 |
Samsung S8+ | 68860 | 79405 | Snapdragon 835 + Adreno 540 |
Samsung S8 | 68611 | 78738 | Snapdragon 835 + Adreno 540 |
Meizu 16X | 68036 | 47734 | Snapdragon 710 + Adreno 616 |
Xiaomi Mi 8Se | 67299 | 47731 | Snapdragon 710 + Adreno 616 |
Vivo X20 Plus UD | 66537 | 30477 | Snapdragon 660 + Adreno 512 |
OPPO R15 Pro | 66405 | 30431 | Snapdragon 660 + Adreno 512 |
Huawei Mate 20 Lite | 66147 | 22385 | Kirin 710 + Mali-G51 MP4 |
Sony Xperia XZ Premium | 66042 | 80924 | Snapdragon 835 + Adreno 540 |
Huawei Nova 3i | 65338 | 22272 | Kirin 710 + Mali-G51 MP4 |
Vivo Z1 | 65168 | 30405 | Snapdragon 660 + Adreno 512 |
Sony Xperia XZ1 | 64516 | 82016 | Snapdragon 835 + Adreno 540 |
ZTE Nubia Z17 | 64489 | 77275 | Snapdragon 835 + Adreno 540 |
Samsung Galaxy A8 | 64536 | 30582 | Snapdragon 660 + Adreno 512 |
Nokia 7 Plus | 64370 | 30119 | Snapdragon 660 + Adreno 512 |
Vivo X21 | 64227 | 30238 | Snapdragon 660 + Adreno 512 |
Xiaomi Mi Note 3 | 64193 | 30307 | Snapdragon 660 + Adreno 512 |
Meizu 15 | 63935 | 30174 | Snapdragon 660 + Adreno 512 |
Samsung S8 | 63291 | 77013 | Exynos 8895 + Mali-G71 MP20 |
Asus ZenFone 5 | 62874 | 21140 | Atom Z2560 + PVR SGX 544 |
OPPO F7 Youth | 62537 | 29723 | Helio P60 + Mali-G72 MP3 |
Nokia 5.1 Plus | 62105 | 29738 | Helio P60 + Mali-G72 MP3 |
Umidigi Z2 Pro | 62073 | 29697 | Helio P60 + Mali-G72 MP3 |
Samsung Galaxy S7 | 61348 | 52752 | Exynos 8890 + Mali-T880 MP12 |
Smartphone model | CPU | GPU | CPU + GPU model |
OPPO R11s | 60597 | 30703 | Snapdragon 660 + Adreno 512 |
LG V30 | 57810 | 80645 | Snapdragon 835 + Adreno 540 |
Samsung S8+ | 57516 | 78530 | Exynos 8895 + Mali-G71 MP20 |
Xiaomi Redmi Note 5 | 56863 | 20880 | Snapdragon 636 + Adreno 509 |
Meizu Pro 6 Plus | 56835 | 52394 | Exynos 8890 + Mali-T880 MP12 |
Xiaomi Mi Max 3 | 56791 | 21237 | Snapdragon 636 + Adreno 509 |
Nokia 6.1 Plus | 56247 | 21329 | Snapdragon 636 + Adreno 509 |
Asus Zenfone 5 | 55964 | 21203 | Snapdragon 636 + Adreno 509 |
Huawei Mate 9 Pro | 53559 | 47822 | Kirin 960 + Mali-G71 MP8 |
Huawei P10 | 52723 | 45455 | Kirin 960 + Mali-G71 MP8 |
LeEco Le 2 (X527) | 52710 | 18681 | Snapdragon 652 + Adreno 510 |
LeEco Le Pro 3 (x727) | 52687 | 64204 | Snapdragon 821 + Adreno 530 |
LeEco Cool Changer S1 | 52261 | 56460 | Snapdragon 821 + Adreno 530 |
LG G6 | 51785 | 59326 | Snapdragon 821 + Adreno 530 |
Xiaomi Mi 5s | 50452 | 63578 | Snapdragon 821 + Adreno 530 |
LeEco Cool1 | 51683 | 19032 | Snapdragon 652 + Adreno 510 |
Lenovo ZUK Z2 | 51537 | 53417 | Snapdragon 820 + Adreno 530 |
Umidigi Z Pro | 51362 | 19294 | Helio X27 + Mali-T880 MP4 |
Archos Diamond Alpha | 50396 | 17592 | Snapdragon 652 + Adreno 510 |
LeEco Le S3 (X522) | 50344 | 18306 | Snapdragon 652 + Adreno 510 |
LG G5 | 50291 | 50045 | Snapdragon 820 + Adreno 530 |
LeEco Le Pro 3 AI | 49248 | 15276 | Helio X23 + Mali-T880 MP4 |
Xiaomi Redmi Pro | 47523 | 18351 | Helio X23 + Mali-T880 MP4 |
Meizu M6s | 43157 | 13528 | Exynos 7872 + Mali-G71 MP1 |
Huawei M5 Lite 10 | 41382 | 13369 | Kirin 659 + Mali-T830 MP2 |
Huawei P20 Lite | 41129 | 13173 | Kirin 659 + Mali-T830 MP2 |
Honor 9 Lite | 41005 | 13204 | Kirin 659 + Mali-T830 MP2 |
Xiaomi Redmi Note 3 | 40528 | 18467 | Snapdragon 650 + Adreno 510 |
Vivo V9 | 39396 | 12426 | Snapdragon 626 + Adreno 506 |
Sharp Aquos S2 | 39337 | 18199 | Snapdragon 630 + Adreno 508 |
Smartphone model | CPU | GPU | SoC chip model |
Santin N1 | 39308 | 17524 | Helio P25 + Mali-T880 MP2 |
BQ-6000L Aurora | 39244 | 17235 | Helio P25 + Mali-T880 MP2 |
Asus ZenFone 5Q | 39219 | 18142 | Snapdragon 630 + Adreno 508 |
Doogee S70 | 39188 | 16256 | Helio P23 + Mali-G71 MP2 |
Nokia 6 2018 | 39021 | 17861 | Snapdragon 630 + Adreno 508 |
Xiaomi Redmi 4 Pro | 38457 | 12483 | Snapdragon 625 + Adreno 506 |
Xiaomi Mi3 | 38362 | 6685 | Snapdragon 800 + Adreno 330 |
Redmi Note 4X | 38216 | 12394 | Snapdragon 625 + Adreno 506 |
Samsung Galaxy S6 | 38158 | 22254 | Exynos 7420 + Mali-T760 MP8 |
Motorola Moto X Force | 38124 | 40935 | Snapdragon 810 + Adreno 430 |
Xiaomi Mi A1 | 38093 | 12502 | Snapdragon 625 + Adreno 506 |
Lenovo S5 | 38007 | 12357 | Snapdragon 625 + Adreno 506 |
Freetel Rei 2 Dual | 37988 | 13038 | Snapdragon 625 + Adreno 506 |
Meizu M6 Note | 37905 | 12396 | Snapdragon 625 + Adreno 506 |
Xiaomi Redmi S2 | 37863 | 12709 | Snapdragon 625 + Adreno 506 |
Xiaomi Redmi 5+ | 37834 | 12492 | Snapdragon 625 + Adreno 506 |
Samsung Galaxy Note 3 | 37225 | 6473 | Snapdragon 800 + Adreno 330 |
Umidigi Z2 | 36981 | 16738 | Helio P23 + Mali-G71 MP2 |
OPPO A83 | 36504 | 15185 | Helio P23 + Mali-G71 MP2 |
Xiaomi Redmi 6 | 36814 | 11917 | Helio P22 + PowerVR GE8320 |
Nokia 3.1 Plus | 36742 | 11984 | Helio P22 + PowerVR GE8320 |
Alcatel 5V | 36538 | 11956 | Helio P22 + PowerVR GE8320 |
Samsung Galaxy J8 | 34787 | 12091 | Snapdragon 450 + Adreno 506 |
Lenovo K5 Note 2018 | 34702 | 12074 | Snapdragon 450 + Adreno 506 |
Ulefone Armor 5 | 34655 | 16178 | Helio P23 + Mali-G71 MP2 |
Honor 7C | 34607 | 12125 | Snapdragon 450 + Adreno 506 |
Xiaomi Redmi 5 | 34538 | 12093 | Snapdragon 450 + Adreno 506 |
Samsung Galaxy A6+ | 33965 | 12134 | Snapdragon 450 + Adreno 506 |
Meizu M3 Note | 30936 | 5132 | Helio P10 + Mali-T860 MP2 |
Meizu M5 Note | 29905 | 6957 | Helio P10 + Mali-T860 MP2 |
Smartphone model | CPU | GPU | CPU + GPU model |
Xiaomi Redmi 6A | 29874 | 8056 | Helio A22 + PowerVR GE8320 |
BQ-6015L Universe | 27967 | 9704 | Snapdragon 435 + Adreno 505 |
Nokia 5 | 27846 | 7153 | Snapdragon 430 + Adreno 505 |
Honor 7A Pro | 27521 | 9076 | Snapdragon 430 + Adreno 505 |
ZTE Blade V8 Mini | 26729 | 9535 | Snapdragon 435 + Adreno 505 |
Lenovo K6 Power | 26257 | 8905 | Snapdragon 430 + Adreno 505 |
HomTom S9 Plus | 25942 | 11041 | MT6750 + Mali-T860 MP2 |
Bluboo S3 | 25257 | 11103 | MT6750 + Mali-T860 MP2 |
Umidigi S2 Lite | 25093 | 10676 | MT6750 + Mali-T860 MP2 |
Oukitel U18 X | 24307 | 10084 | MT6750 + Mali-T860 MP2 |
ASUS Zenfone 3s Max | 24276 | 9138 | MT6750 + Mali-T860 MP2 |
Meizu M6T | 23839 | 8979 | MT6750 + Mali-T860 MP2 |
Cubot X18 Plus | 23764 | 11095 | MT6750 + Mali-T860 MP2 |
Sigma X-Treme PQ39 | 23295 | 3176 | MT6753 + Mali T720 MP4 |
Samsung Galaxy J4 | 23180 | 1973 | Exynos 7570 + Mali-T720 MP1 |
Xiaomi Redmi 5A | 22968 | 4197 | Snapdragon 425 + Adreno 308 |
Huawei Y6 Prime 2018 | 22926 | 4134 | Snapdragon 425 + Adreno 308 |
Samsung Galaxy J2 2018 | 22873 | 4215 | Snapdragon 425 + Adreno 308 |
Meizu M8C | 22761 | 1872 | Snapdragon 425 + Adreno 308 |
Samsung Galaxy J6+ | 22395 | 4176 | Snapdragon 425 + Adreno 308 |
ASUS Zenfone Max M1 | 22052 | 1833 | Snapdragon 425 + Adreno 308 |
HTC Desire 12 | 21387 | 3128 | MT6739 + PowerVR GE8100 |
Elephone A4 | 19548 | 2571 | MT6739 + PowerVR GE8100 |
BQ 5508L Next LTE | 19391 | 2504 | MT6739 + PowerVR GE8100 |
Blackview S6 | 18353 | 1925 | MT6737 + Mali-T720 MP2 |
Pixelphone M1 | 18064 | 1903 | MT6737 + Mali-T720 MP2 |
BQ-5005L Intense | 17931 | 1609 | MT6737 + Mali-T720 MP2 |
Allcall Rio S | 17855 | 1238 | MT6735 + Mali-T720 MP2 |
Nokia 3 | 16582 | 1685 | MT6737 + Mali-T720 MP2 |
BQ 5500L Advance | 14875 | 1502 | MT6737 + Mali-T720 MP2 |
Smartphone model | CPU | GPU | CPU + GPU model |
Purpose this comparison smartphones are not - achieving absolute accuracy of ranking, identifying the leader in individual disciplines, search the best manufacturer, a call to purchase a specific model. The market is changing - carefully study the characteristics of gadgets; performance assessment is only a tool to help you draw conclusions. The table of mobile processors demonstrates the level of progress today and the minimum below which is better than nothing.
Now smartphones can process a mountain of information if desired. Their processor power is enough to solve absolutely any problem. At the same time, modern chipsets consume a minimal amount of electricity, for which we should thank the improved technical process. Our rating of smartphone processors will tell you about the most powerful and interesting models. Devices based on them can be blamed for anything, but certainly not for lack of power!
Good to know!
Samsung Exynos 9820
- Year of manufacture: 2019
- Technical process: 8 nm
- Architecture: 2*Custom + 2*Cortex A75+ 4*Cortex A55
- Video accelerator: Mali-G76 MP12
Geekbench result: 4382/9570 points
An interesting fact was the appearance of the Samsung chipset in third place as the most powerful processor. Previously, the company’s solutions in synthetic tests were inferior not only to Qualcomm, but also to Huawei, but in this case the Koreans’ numbers were higher.
The new product is built on an 8-nanometer technical process, the cores are divided into 3 groups - two proprietary fourth-generation cores, two productive Cortex A75 and four energy-efficient Cortex A55. Like other manufacturers, the company has focused on improving the performance of neural networks, the security of user data, as well as improving the performance of the camera and supporting a large number of sensors. So the new product can work with 5 cameras including infrared for face scanning and a resolution of no more than 22 megapixels or two front cameras 16 MP each. In addition, the chipset supports 4K displays, shooting in 8K at 30 fps, 4K up to 120 fps.
Advantages:
- Instantly configure camera settings for working with AR and VR.
- Supports shooting in 8K.
- Work with 5 cameras.
- Economical battery consumption.
- Improved encoding of users' personal data.
- 4K video processing up to 150 fps.
- Support for 4K displays.
- Works with UFS 2.1/3.0 SSDs.
Flaws:
- 8 nm process technology – even with the most ideal optimization, these chipsets cannot compete with 7 nm models in energy efficiency.
- Of the 8 cores, only the first two can be called new; the remaining 6 cores were migrated from previous processors without any changes, that is, the new product can hardly be fully considered as such - rather, it is an improved old processor.
Samsung S10, S10+, S10e
Huawei KIRIN 980
- Year of manufacture: 2018
- Technical process: 7 nm
- Architecture: 2*Cortex-A76 + 2*Cortex A76 + 4*Cortex A55
- Video accelerator: Mali-G76 MP10
Geekbench result: 3390/10318 points
The new processor from Huawei was technically the first created using the 7 nm process technology, however, having presented it to the world, the company was late with the release, giving the laurels to Apple. The cores are divided into three groups - two high-performance, two energy-efficient and four medium-performance. To ensure that exactly the cores needed are used in a particular task, the company has implemented Flex-Scheduling technology, thanks to which performance has increased by 37% compared to last year’s Kirin 970. Not without a new graphics accelerator, which is not only more powerful, but also automatically increases the clock speed in games.
Just like Huawei's competitors have improved the machine unit, it is 120% faster than its predecessor. In this case, these are not just words. Every year, all manufacturers focus on cameras and the fact that thanks to the work of AI, the pictures really turn out better in any conditions is difficult to dispute. This is best seen from Huawei. Already with last year's Kirin 970, the company achieved first place in the most prestigious camera rating from DxOMark. With the new processor, we can expect to surpass the previous level. A lot has been written about the photographic capabilities of the chipset, or more precisely its neural unit. To simplify, Huawei does the following - it does not chase top performance in tests, but it makes really excellent chipsets for photos and videos, and again there will be no difficulties with launching games or any other tasks. In many cases, this is what is required by users who look at real possibilities, not numbers.
Advantages:
- The best processor for photos and videos.
- Two neural network modules.
- Supports high-speed LPDDR4X RAM up to 16GB.
- Flex-Scheduling is a technology for choosing the “right” cores for specific tasks, which results in excellent energy efficiency and fast loading of any applications.
- HDR10+ support.
- Support for the new standard - Wi-Fi 802.11ay.
- Work with 48 MP cameras or dual 22 MP modules.
- 4K recording at 60 fps.
Flaws:
- The graphics coprocessor is weaker than its competitors - this is not a minus for users, since there is GPU Turbo technology for automatic overclocking, which compensates for the difference.
- The company used “old” cores and improved them, that is, in fact, this is an updated processor, and not a fundamentally new development.
- No 5G support.
The most popular smartphones: Honor View 20, Huawei P30, Huawei Mate 20
Mediatek Helio P90
- Year of manufacture: 2018
- Technical process: 12 nm
- Architecture: 2* Cortex-A75 + 6*Cortex A55
- Video accelerator: PowerVR GM 9446
Geekbench result: 2025/6831 points
MediaTek has long been associated among users with processors for budget and occasionally mid-price smartphones. The company is struggling to create a competitive flagship-level model, but is not doing it very well. So MediaTek did not make it into the top 10 most productive chipsets, but took 11th place with the Helio P90 released in 2019. The model has an eight-core structure, which, although it is divided into two and six cores, is in fact all of them high-performance. Not surprisingly, the P90 was able to outperform the Snapdragon 710 described below, which has exactly the same cores, but with six cores focusing on energy efficiency.
In general, the new product from MediaTek is quite interesting - it supports the fastest RAM up to 8 GB and UFS 2.1 solid-state drives, like its competitors it can work with a single 48 MP camera or a dual-module solution of 24 and 16 MP. An interesting feature is support for displays with a resolution of 2520*1080 and an aspect ratio of 21:9. The chipset has three image processing units and updated AI with support for AI Fusion function is responsible for ensuring that tasks are distributed among all units - this increases the speed of data processing. One of the features of this technology is the adaptation of the screen in real time to the selected application - in particular, when making a video call and switching from full screen mode users will not notice delays in the preview video.
Advantages:
- Eight powerful cores for maximum performance.
- Updated AI block for working with photos.
- Supports high-speed LPDDRX memory up to 8 GB.
- Supports modern cameras up to 48 MP.
- Shooting slow-motion video with fps 480 in HD format.
Flaws:
- Not the best energy efficiency.
- No 4K shooting.
- Old generation graphics coprocessor.
The most popular smartphones: Blackview BV9800
Qualcomm Snapdragon 710
- Year of manufacture: 2018
- Technical process: 10 nm
- Architecture: 2* Cortex-A75 + 6*Cortex A55
- Video accelerator: Adreno 616
Geekbench result: 1897 / 5909 points
A mid-level processor that took 12th place in the ranking of the most powerful chipsets. The model became the first in the 700 series. Before this, Qualcomm had a clear division: the 800 series is a flagship level with maximum capabilities, the 600 series is a mid-level with cut-down GPU and CPU cores, and the 400 series is a budget line with a minimum of capabilities. The 700 series processors and in particular the Snapdragon 710 are all the latest chips from the main line and at the same time a fairly affordable price.
The new product runs on two high-performance cores and six energy-efficient ones. Taking into account the new graphics system The model shows excellent performance in games and at the same time low energy consumption. In addition, it can process photos with high quality - it reduces noise, supports two dual cameras up to 16 MP, and 4K video. The company did not forget about AI, in this case the manufacturer did not waste time on trifles and installed Hexagon 685 machine cores, that is, the same as in the 2018 flagship - Snapdragon 845. The result is a fairly inexpensive chipset, which, if inferior to flagships, is completely A little. For those who are looking for a mid-price smartphone with excellent performance In performance, energy efficiency and photo processing, the Snapdragon 710 will be a real find.
Advantages:
- Affordable price.
- Supports two cameras up to 16 MP.
- Low power consumption.
- Powerful AI for photo creation.
- Supports 4K at 30 fps and HDR.
- Working with biometric sensors.
- Quick Charge 4+ support.
Flaws:
- No support optical stabilization cameras.
The most popular smartphones: Samsung Galaxy A8s, Meizu 16, Xiaomi Mi8 SE
Conclusion
It is worth noting that our rating did not include the Snapdragon 845 and 660, Kirin 970, Apple A11, Exynos 8895, Helio X30 chipsets due to the fact that they were all released at the end of 2017 or the beginning of 2018. Despite their relevance, many readers are familiar with them, and there are a huge number of smartphones based on them. For this reason, we chose powerful new products, which does not entail recommendations for purchasing devices based solely on them. But if you want a smartphone with the latest and most powerful chipset, then the models presented above are the best of their kind.
Removed from selection
Samsung Exynos 8 Octa 8890
- Year of manufacture: 2016
- Technical process: 14 nm
- Architecture: Samsung Exynos M1 + ARM Cortex-A53 (ARMv8-A)
- Video accelerator: Mali-T880, 12 cores, 650 MHz
Geekbench result: 5940 points
If not best processor for a smartphone, then at least one of those who is worthy of this title. It’s not for nothing that all variations of the South Korean Galaxy S7 are equipped with it. Is it possible to blame this flagship for lack of power? The chipset can easily handle 4K video at 60 fps. It consists of eight cores. The maximum frequency is 2290 MHz. But it rarely comes to raising it to such a level, since lower frequencies are quite enough to solve most problems.
Unfortunately, the processor also has certain problems. It just so happens that South Korean chipsets are not equipped with the best video accelerator (GPU). Here too, the Mali-T880, despite its 12 cores, performs strictly to the “good” rating, but nothing more. This is proven by tests in GFXBench, where in terms of graphics, the Samsung Exynos 8 Octa 8890 is ahead of some other chipsets reviewed today.
Advantages
- Supports video in 2160p resolution at 60 frames/s;
- Not very hot;
- Low energy consumption;
- High scores in benchmarks.
Flaws
- The memory test does not show the best results;
- The graphics accelerator could perform better.
The most popular smartphones: Samsung Galaxy S7, Samsung Galaxy S7 Edge, Samsung Galaxy Golden 4
Qualcomm Snapdragon 820 MSM8996
- Year of manufacture: 2015
- Technical process: 14 nm FinFET
- Architecture: Qualcomm Kryo
- Video accelerator: Adreno 530, 624 MHz
Geekbench result: 4890 points
Qualcomm does not have its own production facilities. However, it has many patents at its disposal. And with them, developing a processor close to ideal is not difficult, after which all that remains is to place an order for production from other companies. Qualcomm Snapdragon 820 pleases with both computing power and graphics processing capabilities. Many flagships released in 2016 were equipped with this chipset. And none of their customers complained about the graphics in mobile games!
The chip consists of only four cores. However, this did not stop it from scoring record scores in benchmarks - not least thanks to the graphics accelerator. The maximum frequency of this processor is 2150 MHz. At the hardware level, the chipset supports HDMI 2.0, USB 3.0, and Bluetooth 4.1. In short, the processor could easily cope even with the tasks assigned to a laptop! It also features support for a camera with a resolution of up to 28 megapixels - which is why Sony chose this processor, whose flagship smartphones have just such a sensor.
Advantages
- Very high resolution camera support;
- Capable of processing Full HD video at up to 240 frames/s;
- Supports 10-bit 4K video;
- Windows devices use DirectX 11.2;
- Very high clock speed;
- Not very high energy consumption;
- High scores in benchmarks;
- The memory test leads to high results;
- Excellent performance in games.
Flaws
- Sometimes it gets quite hot.
The most popular smartphones: Motorola Moto Z Force, Elite X3, ASUS ZenFone 3, HTC 10, Samsung Galaxy S7, Samsung Galaxy S7 Edge, Sony Xperia X Performance, Sony Xperia XR, Xiaomi Mi5 Pro, ZTE Nubia Z11
HiSilicon Kirin 95
- Year of manufacture: 2016
- Technical process: 16 nm
- Architecture:
- Video accelerator: Mali-T880, 4 cores
Geekbench result: 6000 points
This chipset is manufactured using a 16-nanometer process technology, which indicates its decent energy efficiency. The maximum frequency here has been increased to 2.5 GHz. The creators had to take this step because of the Mali-T880 graphics accelerator, which does not cope with its task in the best way.
The Chinese chipset consists of eight cores, four of which can be called auxiliary. Paired with a GPU, it is capable of playing 4K video at 60 fps. But the processor is only capable of playing back - independently creating video recordings - in 1080p resolution. And this despite the fact that the chip even supports dual cameras, the total resolution of which is 42 megapixels. It is also able to recognize Bluetooth 4.2 and USB 3.0 modules.
Advantages
- Support for many modern wireless technologies;
- Almost record clock speed;
- There are no big problems with overheating;
- Can decode 4K video at 60fps;
- Supports dual high definition cameras.
Flaws
- The graphics accelerator shows poor results.
The most popular smartphones: Huawei P9, Huawei P9 Plus, Huawei Honor V8, Huawei Honor Note 8.
HiSilicon Kirin 950
- Year of manufacture: 2015
- Technical process: 16 nm
- Architecture: 4x ARM Cortex-A72 + 4x ARM Cortex-A53
- Video accelerator: Mali-T880, 4 cores, 900 MHz
Geekbench result: 5950 points
In 2015-2016, this processor was used by many Huawei smartphones. The chipset consists of eight cores, the power of four of them can reach 2300 MHz. It would seem that the result is quite good. But not everything is so simple. The weak point of the chip is the graphics accelerator. The first version of Mali-T880 is used here. It copes well with video decoding - in theory, you can even run 4K video at 60 frames/s. But in games this GPU performs disgustingly, especially by flagship standards.
However, you can’t find fault with the computing power of this chipset, which is why it made it into our top processors. The product supports Bluetooth 4.2 and USB 3.0 standards, although the Chinese giant has not really produced smartphones with such high-speed interfaces, preferring to save. Also, in theory, the processor copes with the data stream from a dual camera with a total resolution of 42 megapixels.
Advantages
- Supports USB 3.0 and Bluetooth 4.2;
- High computing power;
- Support for modern memory formats;
- Not very expensive to produce;
- Decodes video into high resolution;
- Capable of handling a dual 42-megapixel camera.
Flaws
- The graphics accelerator could be much better;
- Cannot provide the camera with 4K video recording.
The most popular smartphones: Huawei Honor 8, Huawei Honor Note 8, Huawei Mate 8, Huawei Honor V8.
Apple A9X APL1021
- Year of manufacture: 2015
- Technical process: 16 nm
- Architecture: Apple Twister 64-bit ARMv8-compatible
- Video accelerator: PowerVR Series 7X, 12 cores
Geekbench result : 5400 points
Why are game developers primarily targeting smartphones and Apple tablets? Is it really only their owners who can afford to buy a toy? No, everything is much simpler. This is the technique that games work best on. The Apple A9X APL1021 processor is equipped with an almost ideal graphics accelerator, which can solve absolutely any problem! If Apple wanted, it could even implement a 4K video recording feature at 60 frames per second!
As for computing power, everything is fine here, although the processor still does not score record scores in benchmarks. It would seem that only two cores are used here. But for solving everyday problems this is quite enough. Not least because of the better optimized operating system.
Advantages
- High power of two cores;
- Excellent 12-core graphics accelerator;
- Full support for 4K video at 60 fps;
- Support from many modern technologies;
- Recognizes modern memory formats.
Flaws
Apple iPad Pro
MediaTek MT6797 Helio X25
- Year of manufacture: 2016
- Technical process: 20 nm
- Architecture: 2x ARM Cortex-A72 + 4x ARM Coptex-A53 + 4x ARM Coptex-A53
- Video accelerator: Mali-T880MP4, 4 cores, 850 MHz
Geekbench result: 4920 points
A processor with a fairly complex structure. It consists of ten nuclei belonging to two varieties. The two cores are the most powerful - they belong to the Cortex-A72 type, and their clock speed can reach 2500 MHz. The remaining computing cores belong to the Cortex-A53 type. Moreover, half of them are overclocked to a frequency of 2000 MHz, while the rest are limited to 1550 MHz.
All this allows the processor to score a lot of points in benchmarks. And the result would have been even higher if not for the graphics accelerator. This element here is seriously limited in its capabilities. Yes, it supports full work with 4K video, including its creation, but only at 30 fps. And in games the GPU copes with its task even worse. As for other characteristics, we should highlight support for 32-megapixel cameras and Bluetooth standard 4.1. The maximum display resolution of a smartphone with such a chipset can reach 2560 x 1600 pixels.
Advantages
- Support for 32 MP camera;
- Very high computing power;
- Relatively low energy consumption;
- Although limited, there is support for 4K video;
- Low cost chipset.
Flaws
- The GPU performs poorly in games;
- No Bluetooth 4.2 support.
The most popular smartphones: Meizu Pro 6, Oukitel K6000 Premium, Xiaomi Redmi Pro, Zopo Speed 8, Vernee Apollo.
Qualcomm Snapdragon 625 MSM8953
- Year of manufacture: 2016
- Technical process: 14 nm
- Architecture: ARM Cortex-A53 (ARMv8)
- Video accelerator: Adreno 506
Geekbench result: 4900 points
One of Qualcomm's most popular creations. It is endowed with a huge number of smartphones from the mid-budget and even top segments. The manufacturer did not bother with the architecture, giving the chipset eight identical cores. The maximum clock frequency is 2000 MHz, which is quite enough for the average user.
The graphics accelerator here is optimized for processing video content. Theoretically, a smartphone built on the basis of this processor is capable of playing and recording 4K video at 60 frames per second. But in games some problems begin. Although their presence is surprising, because the GPU even has support for DirectX 12, which is activated on devices with Windows on board. The chipset also supports a dual camera, the total resolution of which does not exceed 24 megapixels. The only thing missing here is USB 3.0 support. However, smartphone creators do not like to integrate such high-speed connectors into their creations.
Advantages
- Dual camera supported;
- Well implemented technology fast charging;
- High power of all eight cores;
- Full support for 4K video content at 60 fps;
- Relatively low cost.
Flaws
- Camera resolution cannot exceed 24 megapixels;
- No Bluetooth 4.2 support;
- Display resolution cannot exceed 1920 x 1200 pixels;
- In games, the chipset does not perform well.
The most popular smartphones: Huawei G9 Plus, ASUS ZenFone 3, Fujitsu Easy, Huawei Maimang 5, Lenovo Vibe P2, Motorola Moto Z Play, Samsung Galaxy C7.
Qualcomm Snapdragon 620 APQ8076
- Year of manufacture: 2016
- Technical process: 28 nm
- Architecture: 4x ARM Cortex-A72 + 4x ARM Cortex-A53
- Video accelerator: Adreno 510
Geekbench result: 4886 points
This chipset is also known as the Snapdragon 652. It is one of the last processors that is still produced on the 28nm process. The creators are not at all embarrassed by the relatively large size of the chip, since it is built mainly into tablets.
The processor consists of eight computing cores. The clock frequency of four of them can reach 1800 MHz. This is quite enough for the tablet to solve basic tasks without any hesitation. The chipset also includes the Adreno 510 graphics accelerator. There are no special complaints about it, because no one will expect excellent graphics performance from the tablet. It should be noted that theoretically the chip supports video processing in 2160p resolution at 30 frames/s. It also boasts support for Bluetooth 4.1 and proprietary Quick Charge 3.0 fast charging technology.
Advantages
- Supports devices with high resolution screen;
- Great computing power;
- Albeit limited, but still support for 4K video;
- Built-in fast charging technology.
Flaws
- No Bluetooth 4.2 support;
- Still not the best graphics accelerator.
Most popular devices: Samsung Galaxy Tab S2 Plus 8.0, Samsung Galaxy Tab S2 Plus 9.7.
MediaTek MT6797M Helio X20
- Year of manufacture: 2016
- Technical process: 20 nm
- Architecture: 2x ARM Cortex-A72 + 4x ARM Cortex-A53 + 4x ARM Cortex-A53
- Video accelerator: Mali-T880MP4, 4 cores, 780 MHz
Geekbench result: 5130 points
Many mobile processors have four or even eight cores. In the case of the MediaTek MT6797M Helio X20, their number has been increased to ten. As a result, the performance of the chipset is very high. Especially in applications that do not require serious graphics processing. It should be noted that only two computing cores are particularly powerful here - their clock frequency reaches 2300 MHz. The remaining nuclei are divided into two groups. One can please you with a frequency of 1850 MHz, while the other has this parameter fixed at 1400 MHz. But the result in any case is very good, which is confirmed by synthetic tests, and by the smartphones themselves - the interface on them does not slow down at all thanks to the chipset.
As for the graphics accelerator, everything is much worse here. Theoretically, it copes with viewing and recording 4K video at 30 frames per second. But in games you immediately feel a lack of power. Modern games They will work on a smartphone with such a processor, but with simplified graphics. Especially if the device has a screen with Full HD resolution or higher. It should also be noted that the processor supports almost any mobile camera - as long as the module resolution does not exceed 32 megapixels.
Advantages
- Maximum resolution display - 2560 x 1600 pixels;
- Supported cameras even include modules with a resolution of 32 megapixels;
- High power of most cores;
- It is considered not a very expensive processor;
- Limited but still support for 4K video content.
Flaws
- In games, the GPU does not perform well.
The most popular smartphones: LeEco Le2, LeEco Le2 Pro, Meizu MX6, Vernee Apollo Lite, Xiaomi Redmi Pro, Elephone P9000
Qualcomm Snapdragon 620 MSM8976
- Year of manufacture: 2015
- Technical process: 28 nm
- Architecture: ARM Cortex-A72 + ARM Cortex-A53 (ARMv8)
- Video accelerator: Adreno 510
Geekbench result: 4610 points
There are two versions of the Qualcomm Snapdragon 620 processor, also known as the Snapdragon 652. The first is the MSM8976, which was released in 2015. A year later, a slightly more improved version was released - APQ8076, which some samsung tablets. The products are practically no different from each other. They have eight cores, half of which are capable of increasing the frequency to 1800 MHz. Both processors are equipped with a far from ideal Adreno 510 graphics accelerator.
Qualcomm's creation is capable of supporting smartphones whose display has a resolution of no higher than 2560 x 1600 pixels. As for the camera, it is possible to process data coming from a dual module, the total resolution of which does not exceed 21 megapixels. Everything is fine with the module and its capabilities for processing data coming from dual-channel LPDDR3 memory.
Advantages
- High performance;
- View 4K video at 30 fps;
- Theoretical possibility of recording video in 1080p and 120 frames/s;
- Not very high cost;
- Dual camera support;
- Screen resolution can reach 2560 x 1600 pixels.
Flaws
- Bluetooth 4.2 is not supported;
- The maximum camera resolution cannot be very high.
The most popular smartphones: Vivo X6S A, Vivo X7, Vivo X7 Plus, LeEco Le2, G5 SE, Oppo R9 Plus, Samsung Galaxy A9 Pro (2016), ZTE Nubia Z11 Max, Xiaomi Mi Max
Progress does not stand still. This also applies to electronic devices, which are constantly getting smarter, and processors are regularly adding more power. In this article, we will find out the most powerful processors currently available for smartphones. A rating for smartphone processors will be presented. It is subjective, but the values of various indicators were analyzed. Therefore, the rating is not completely accurate for smartphone processors.
The main indicators of these devices are:
- number of cores and threads;
- chip architecture;
- technical process;
- internal memory;
- clock frequency;
- performance;
- RAM;
- support for various technologies;
- much more.
We will focus mainly on these parameters. So, which smartphone processor is the best? Let's start from tenth place.
MediaTek Helio P23 – 10
The process has 8 ARM Cortex A53 cores. The processor clock frequency is 2.3 GHz. The length of the transistor is 16 nanometers. Thanks to its design, MediaTek Helio P23 creates optimal performance and energy efficiency.
Excellent support for smartphones that have two SIM cards. There is a dual Long-Term Evolution (LTE) module available - this allows you to operate two slots with a Long-Term Evolution connection simultaneously.
There is a built-in module that processes images for a dual camera and supports single shooting with a resolution of up to 24 megapixels. MediaTek Helio P23 is capable of encoding and decoding videos that are in 4K format. Using the chipset's Internet card, it makes it possible to download files with a maximum speed of up to 300 Mbit/s. This processor is designed to make high-quality video shooting, which will have high resolution and stabilization.
Qualcomm Snapdragon 625 – 9
Qualcomm is a popular manufacturer that creates microprocessors and occupies a leading position in the market. This is their next development.
This processor received a positive response from both smartphone creators and users. Has 8 A53 cores clocked at 2.0 GHz. The length of the transistor is 14 nanometers. This microprocessor is suitable for fans of “heavy” games, because it has a built-in Adreno 506 graphics adapter.
Qualcomm Snapdragon 625 supports USB 3.0, which ensures high connection speed when working with various accessories. Powerful modem support.
Qualcomm Snapdragon 625 is a thin microprocessor, so it has low power consumption and low heat generation.
The downside is the presence of a modest screen controller that can only function in FullHD. Update frequency – up to 60Hz. If you decide to use your smartphone for virtual reality, then Snapdragon 625 is not best option for this.
Samsung Exynos 7885 – 8
This microprocessor is intended for mid-range gadgets. The Exynos 7885 chip has technology (FinFET) with a standard of 14 nanometers, although before release it was said that there would be 10. There are eight cores:
- Cortex-A73, clocked at up to 2.2 GHz.
- Cortex-A53, clocked at up to 1.6 GHz.
Supports wireless communication Wi-Fi and Bluetooth version 5.0, which is currently the latest. 4K will be slow, Full HD+ will have perfect reproduction. The download speed thanks to the improved LTE board is 600 Mbit/s. The processor is built into devices that have a 22 megapixel camera and a 16 megapixel dual camera.
MediaTek Helio X30 – 7
The platform has a 10 Nm crystal and ten cores. The processor architecture is three-stage, that is, there are 3 clusters:
- The main cluster is two Cortex A73 cores, clocked at 2.5 GHz.
- Two clusters – a total of eight Cortex A53 cores with clock frequencies of 2.2 GHz and 1.9 GHz.
The system can decode video that is in 4K2K format. There are several modules that are responsible for image processing, which allows you to work with dual cameras with a resolution of 16x16 megapixels.
Thanks to new technology nuclear communication creates maximum productivity and a quarter less energy consumption when compared to previous platforms. The first smartphone with this microprocessor went on sale last year.
RAM is 8 GB.
Qualcomm Snapdragon 660 – 6
This is another representative of Qualcomm. The platform has eight cores and supports Quickcharge 4 and fifth-generation Bluetooth standards. The system also includes an Adreno 512 graphics chip. And the Long-Term Evolution chip allows for a maximum speed of 600 Mbit/s.
Compared to the previous platform of this company, this one has significantly greater performance. Energy consumption is halved. Any game will “fly” in 4K format. The processor is so powerful that if you build it into mid-range smartphones, they will be on par with more expensive gadgets. Architecture – Kryo 260.
The advantages include the low cost of this microprocessor and support for dual cameras. The maximum display resolution is 1920×1200. Fast charging available. USB 3.1 support. Productivity increased by approximately 30%. Biometric security has increased.
Qualcomm Snapdragon 835 – 5
Another representative of this technology company. Now it is used in the most advanced devices. Availability of 10nm technology. Qualcomm currently occupies leading positions in all price categories on the market.
Architecture – Kryo 280. Number of cores – 8. Maximum clock frequency – 2.5 GHz. Availability of Adreno 540 graphics module. Supports 4K Ultra HD Premium. The powerful processor used by smartphones for virtual reality processes every texture. Thanks to the developed technology, operating autonomy has increased. Emphasis was placed on the subtlety of the technical processor, as a result, energy consumption and heat generation of the chip were reduced. Five minutes of charging provides five hours of device operation. A quarter of an hour is enough to charge the battery halfway.
Of course, the quality of video recording has increased. 14-bit processors have appeared that process images. Thanks to this, phone manufacturers have the opportunity to build dual cameras with 16 megapixels and single cameras with 32 megapixels into their devices. The performance of hybrid autofocus has been improved, and electronic stabilization has been added when recording video with 4K resolution. Supports HDR.
Quality on time night shooting it got much better. This is all about the functionality of the cameras. The data transfer speed has increased. The level of data security has increased. This became possible thanks to the new software And biometric technologies. A person is now identified using the retina or face, not counting the fingerprint. Moreover, the Qualcomm Snapdragon 835 platform has self-learning capabilities.
Qualcomm Snapdragon 835 is one of the best platforms in the price/quality category.
Huawei Kirin 970 – 4
The Chinese company has created a system that is single-chip. Main distinctive feature of this device is a neuromorphic processor with an open ecosystem. The device has maximum performance on platforms using artificial intelligence. The length of the transistor is 10 nanometers.
Huawei Kirin 970 is the first chipset that has a neural unit in the microprocessor. If compared with ordinary chips, there is simply enormous performance and low energy consumption, which is ten times less.
The chip is also eight-core. The maximum clock frequency is 2.4 GHz. The graphics module is a 12core GPU Mali G72MP12. LTE ADVANCED PRO, according to the manufacturers, makes it possible to reach speeds of more than 1 Gbit/s. For other powerful processors, this speed is the ceiling. The powerful interface supports 4K video.
Other features of this chip include:
- Face detection.
- Motion capture.
- Hybrid autofocus.
- Clear video recording of moving objects.
- Clear video recording in low light conditions.
Huawei Kirin 970 will give your gadget new abilities that it did not have before.
Briefly about the advantages:
- Availability of enormous power.
- Availability.
- Cost in stores.
But still this device could not reach the top three.
Samsung Exynos 9 Octa 8895 – 3
We are considering another representative of Samsung from the same line - Exynos. The transistor length is 10 nanometers. Transistors have a 3D structure. The processor is also eight-core.
There is a GPU that supports processing AI operations, but in this characteristic it is inferior to the previous reviewed chip from Huawei.
Graphics processing is performed by the powerful ARM Mali-G71 module. Thanks to it, video is decoded in 4K format at a speed of 120 frames/s. VR textures can be processed. Network speed thanks to 5CA LTE technology is 1 Gbit/s. The speed of uploading data to the Internet is 150 Mbit/s.
The first smartphone to purchase this microprocessor is the Samsung Galaxy S8, which was released in 2018.
Qualcomm Snapdragon 845 – 2
The silver medal goes to another representative of Qualcomm – Snapdragon 845. This development chip is called a “leap into the future.” Why is this so? There are several reasons:
- High level of productivity. Like the previous chipset model from this company, this one has a 10 nanometer processor. Clock frequencies are 2.8 GHz and 1.8 GHz. This processor can handle absolutely any game. The graphics module is responsible for graphics performance. This will speed up graphics performance by 30%.
- It is worth paying special attention to the data transfer speed. It has increased by 20% and is 1 Gbit/s. To achieve this speed, a combination of bandwidths is created. The previous chip from this company creates a combination of two bands. And the Snapdragon 845 includes eight such bands.
- Consider the camera's photo quality. Image frequency – 60 frames/s. Technologies that process images DSP Hexagon, Spectra ISP. Color reproduction of images thanks to Spectra 280 ISP technology has reached a new level.
- The chip has improved smartphone protection. The security system is called Secure Processing Unit. It has its own batteries, which allows you to increase the speed of saving and processing the user’s biometric data.
This chip is ideal for an Android phone. It occupies a leading position in the price/quality category.
With every new year, Qualcomm is trying to make devices more secure. And make the protection more convenient.
Apple A11 Bionic – 1
Gold in our rating goes to the chipset from the famous company Apple. This mobile processor is integrated into the iPhone X. There is also 10-nanometer technology. Unlike the previous chipset model, performance has increased by 25%. Despite this, energy efficiency has also increased by as much as 50%.
The chip includes GPU technology that runs on three cores. This own development American company. Now the graphics are completely controlled by the manufacturers. Until this point, the purchase of graphics devices was carried out from other manufacturers. Intelligent processing acquired latest features. This was made possible thanks to a dual-core neural accelerator. New smart processing features include AR and Face ID.
Features it has new smartphone– this is all thanks to the A11 Bionic. In general, the chipset is six-core with a clock frequency of 2.4 GHz. There are two energy efficiency cores. The power allows you to launch and play full-fledged console games, and video material can be processed in real time.
All this allows the Apple A11 Bionic to take first place in our ranking.
So, the best processors suitable for smartphones have been presented. Data is current for 2018.
Which processor is better for an Android smartphone?
Some other information! This question cannot be answered unambiguously. It is worth noting that you need to choose a smartphone with a microprocessor that has the best results. Today, of course, it is difficult to chase constant new products. Not everyone can afford to buy a new device every year. But it is recommended to purchase flagships even from previous years, because they have performance (speed) that can last for many years to come.
Therefore, if you need an answer to this question, then purchase. At the moment, it is not possible to purchase a better microprocessor and simply replace the old one.
Conclusion
Let's summarize. Among the chipsets reviewed, it is clear that the leadership among smartphones with operating Android system held by Qualcomm. The main competitors are chipsets from Samsung and Huawei. Their product lines are named Exynos and Kirin. MediaTek is gaining more and more popularity. But Apple, Samsung and Huawei have the largest market share. You can find tables with their characteristics on the Internet.
New applications are emerging every day that require enormous performance. The video format is getting better and better, so the processor must support fantastic detail. Moreover, old applications are updated every time, even social media and messengers began to constantly increase in volume. Therefore, they need to work correctly.
Mobile processors age over time and lag behind progress. Acquisition budget smartphone with a weak chip - no best solution, because it ceases to be relevant after a short period of time. Buy smartphones that are flagships. In fact, you will realize that this was a better purchase.
Which mobile processors will surprise users in 2016? Processors produced by which companies will take first place in terms of performance?
It's no secret that the processor is the key component of any smartphone. In order to choose the best device for yourself, it is extremely important to know about top processors.
Let's try to figure out what 2015 was like in the mobile processor industry and what to expect from 2016 .
Overall effectiveness assessment
In 2015, the first three places were in the top 10 fastest mobile processors occupied Qualcomm Snapdragon 820, Apple A9 And Exynos 8890 from Samsung.
Let's remember the lucky smartphones that managed to get the best processor of 2015 - Snapdragon 820: LeTV Max Pro, Xiaomi Mi5, LG G5, Sony Xperia X.
The gap between the 820th processor from Qualcomm and the one below Apple A9 is only 4000 points.The gap between Snapdragon 820 and Exynos 8890- 6500 points.
Interesting fact: Exynos 8890 became the “heart” of only one smartphone - the Samsung Galaxy S7.
For their leadership, processors from Qualcomm deserve special attention.
Newly released Snapdragon 652 and Snapdragon 650 also have high performance.
652 - similar in performance to the flagship Snapdragon 810 , whose overheating caused a lot of noise in its time. According to the developers, this flaw has been corrected in the new product.
Snapdragon 650 Already outperformed in terms of speed 808 -th processor that won the title of the most successful processor for mid-segment smartphones.
It is noteworthy that MT6797 (aka Helio X20), since at the end of 2015 not a single device had been released that would hide this beast under its hood.
Now it is reliably known that the first Helio X20 will receive . Quite unexpected was the news that a promising processor will be sent to the device several lost former positions of Zopo. Apparently Zopo has high hopes for his productive brainchild.
However, everything turned out to be not so smooth: the results appeared online Geekbench-test, in which the Speed 8 scored 76,266 points, which is slightly worse than the performance of smartphones running more weak processors.
And in fact 10-core Helio X20 turned out to be less productive than the aforementioned 6-core Snapdragon 650.
At the moment, mobile industry experts agree that the most probable cause Bad results are due to poor optimization for the phone.
We will find out very soon whether careful optimization will help change the current unpleasant situation. And there is a very high probability that the title “ fastest mobile processor of 2016” will receive exactly the X20.
One of the most popular smartphones running Snapdragon 652 , is Samsung Galaxy A9. But the most popular device stuffed with Snapdragon 650 became XiaomiRedmi Note 3 Pro.
Don't miss our big review of Xiaomi Redmi Note 3!
GPU Score
The processors received slightly different indicators in the GPU test.
The championship remains Snapdragon 820(Adreno 530 video accelerator) with 55,000 points.
39104 points (note the significant breakaway) received Apple A9 (PowerVR GT7600).
Samsung Exynos 8890 (Mali-T880 MP12) was approximately equal to its competitor one position higher and received 37,545 points.
Quite famous Hisilicon Kirin 950(Mali-T880 MP4) disappointed me - only 18082 points. Snapdragon 808 (Adreno 418) and Snapdragon 652 (Adreno510) received almost identical results and completed the top 10 selection.
It is also important to consider that the GPU test results are directly affected by the display resolution.
The company's leadership is obvious from the above screenshots Qualcomm. Perhaps the greatest hopes are placed on this manufacturer. You shouldn’t discount the Helio X20 - it remains to be seen what successes await the processor after optimization for Zopo Speed 8.
As usual, all that remains is to observe and wait for news from the Middle Kingdom, but for now we advise you to read about other results from AnTuTu-test - TOP10 - popular smartphones in 2016!