Welcome to the mobile SoC chip quick check and ranking on March 15, 2024.

In 2023, there will be Kirin 9000S, Apple A17 Pro, Google Tensor G3, Snapdragon 8 Gen 3, and Tianji 9300. In March 2024, there will be Snapdragon 7+Gen 3 and Snapdragon 8s Gen 3. It is expected that in October, there will be Snapdragon 8 Gen 4 (Qualcomm will return to the self-developed architecture) and Tianji 9400 (which may increase the proportion of super cores again).

SoC is the core component of mobile phones, which is also popularly known as "processor/chip". But the number of SoCs is so large that it is easy to see.

We list the SoC of the models on sale in 2024 in the order of ladder, Sort by GeekBench 5/GeekBench 6 CPU multi-core performance ， Single core and GPU performance for multi-core approach 。 When new SoCs are encountered in the future, their approximate ranking can be known by comparing the architecture and frequency.

PS: Make good use of ctrl+F page search to quickly jump to the target model

PSS： Attention should be paid to avoiding the "Gen 1" suffix (such as Snapdragon 8 Gen 1/Snapdragon 7 Gen 1) and Samsung 4nm process. MediaTek changed its name to four digits in May 23, resulting in a proliferation of waistcoats.

PSSS： Qualcomm's Snapdragon 7 series was named in confusion, Snapdragon 7+Gen 3>Snapdragon 7+Gen 2>Snapdragon 7 Gen 3>Snapdragon 7s Gen 2>Snapdragon 7 Gen 1 (Their release time and architecture are not in order, and the Gen 2 generation has only 7s and 7+, and there is no "standard version" without suffix)

PSSSS： Snapdragon 8 Gen "X" is the "X" generation Snapdragon 8. The most complicated situation is "Snapdragon 8+", which is Snapdragon 8+Gen 1, the first generation Snapdragon 8+, but we generally use its shortest name - Snapdragon 8+.

Streaming saving table version

Basic description

• SoC is the abbreviation of System on Chip, including CPU (affecting daily response speed), GPU (affecting game/graphics performance), baseband (affecting network) and other core components.

• CPU mainly depends on architecture, frequency and number of large cores. In terms of performance X4>X 3> X2≈X1> A720> A715>A78≈A710 > A77>A76>>A75>A73 >> A510/A510 refreshed>A55>A53 ）。 For architecture above A76, there are cache differences in large cores, and there will be significant performance differences in the same frequency.

• Apple A series is a performance core+energy efficiency core (P core+E core, equivalent to Android's super core+big core). The energy efficiency core is Android's big core level, which cannot be directly compared with the Android camp.

• The Snapdragon 8 Gen 3 and Tianji 9300 have all turned to 64 bit and no longer natively support 32-bit Apps, but both sides have 32-bit App translation solutions. The new machine can actually run the old 32-bit applications, but the compatibility of 64 bit and 32-bit apps is really worse than that of the previous generation.
  

• The new products marked in bold are "recent" ones, and some familiar old friends SoC are put in at the same time, so that you can compare the machines of different ages. Apple M1/M2/M3 series and other super platform SoCs will not be entered temporarily.

Part of transistor number information:

Tianji 9300 is 22.7 billion transistors, and Tianji 9200 is 17 billion transistors; Apple's A17 Pro is 19 billion and A16 is 16 billion; Qualcomm has not announced the number of transistors for several generations.

Apple M2 is 20 billion, Apple M3 is 25 billion, M2 Pro is 40 billion, and M2 Max is 67 billion.

NVIDIA Thor is 77 billion, RTX 4090 is 76.3 billion, RTX 4080 16G is 45.9 billion, RTX 4080 12G is 35.8 billion.

Ultra flat SoC:

1. Apple M3 25 billion transistors, TSMC 3nm, N3B process. 4x4.05GHz performance core+4x2.75GHz energy efficiency core. P core 16MB L2+E core 4MB L2+8MB system cache. The 8-core 128EU/1024ALU and the 10 core 160EU/1280ALU version of the 1.38GHz 7th generation self-developed GPU finally support optical traceback. Equipped with 8GB/16GB/24GB dual channel 64bit 6400MHz LPDDR5 memory.

   Released on November 7, 2023, see MacBook Pro 14 inch (2023), MacBook Air 13 and 15 inch (2024), iMac 24 inch (2023) (on March 18, 2023, the corresponding iPad Pro has not yet been released).

2. Apple M2 20 billion transistors, TSMC 5nm, N5P process. 4x3.5GHz Avalanche performance core+4x2.42GHz Blizzard energy efficiency core. P core 12MB L2+E core 4MB L2+8MB system cache. There are 8-core 32EU/1024ALU and 10 core 40EU/1280ALU versions of the 1.398GHz 5th generation self-developed GPU. Equipped with 8GB/16GB/24GB dual channel 64bit 6400MHz LPDDR5 memory.

   Released in June 2022, see the 4th generation 11 inch iPad Pro (2022), 6th generation 12.9 inch iPad Pro (2022), ultra expensive Vision Pro (2024), Mac mini (2023), MacBook Air 13 inch (2022), MacBook Air 15 inch (2023), MacBook Pro 13 inch (2022)

3. Apple M1 , 16 billion transistors, TSMC 5nm, N5 process. 4x3.2GHz Firestorm performance core+4x2.06GHz Icestorm energy efficiency core. P core 16MB L2+E core 4MB L2+8MB system cache. There are 7-core 28EU/896ALU and 8-core 32EU/1024ALU versions of the 1.278GHz fourth generation self-developed GPU. Equipped with 8GB/16GB dual channel 64bit 4266MHz LPDDR4x memory.

   Released in November 2020, see the 3rd generation 11 inch iPad Pro (2021), the 5th generation 12.9 inch iPad Pro (2021), iPad Air (2022), Mac mini (2020), MacBook Air (2020), MacBook Pro 13 inch (2020), iMac 24 inch (2021).

flagship

1. Tianji 9300, TSMC's third-generation 4nm process, 22.7 billion transistors, one 3.25GHz X4 (64KB L1 cache, 1MB L2 cache)+3x2.85GHz X4 (64KB L1 cache, 512KB L2 cache)+four 2.0GHz A720 (32KB L1 cache, 256KB L2 cache) (cancel the small core), 8MB L3 cache, 10MB system cache (Tianji 9200 is 8MB L3, 6MB system cache). GPU is Immortalis-G720 MC12 1.3GHz (The strongest SoC on today's mobile platform, the light of true Fage, CPU/GPU/energy efficiency three kill Qualcomm. Released on November 6, 2013, the first release of vivo X100/X100 Pro)

2. Snapdragon 8 Gen 3 for Galaxy , the X4 super core rises to 3.4GHz, and the GPU rises to 1000MHz (the ash overclocking version, exclusively owned by Samsung S24 series released on January 18, 24)
   

3. Snapdragon 8 Gen 3 (The third generation Snapdragon 8), TSMC N4P, 1+5+2 CPU structure, one 3.3GHz X4+three 3.15GHz A720+two 2.96GHz A720+two 2.27GHz A520 (the X4 has 2MB L2 cache, and the A720 and A520 are 512KB), the system cache is 6MB, and the L3 increases from 8MB to 12MB. The GPU is Adreno 750 903MHz (the default frequency is 770MHz, the core size is increased by 20%, and one more group of CU, 1792ALUs, optical tracking+grid coloring) (the single core is at Apple A15 level, the CPU multi-core is at A17 Pro level, and the GPU is increased by 25%. It is not weak in itself, but this generation is too strong).

4. Apple A17 Pro， TSMC launched its 3nm, N3B, 19 billion transistors. 2x3.78GHz performance core+4x2.11G energy efficiency core, maintaining the previous generation of performance core 16MB L2+energy efficiency core 4MB L2+system cache 24MB. 1.4GHz 6 core 7th generation GPU, 24 groups of EU, 768 ALUs. The first 15 Pro/Pro Max with 8GB of memory (architecture improvement is weak, 3nm is lonely. CPU improvement is 10%, single core is imperial. GPU improvement is 20%, just catching up with Snapdragon 8 Gen 2. Released on September 22, 23, see iPhone 15 Pro/15 Pro Max)

Secondary flagship

1. Apple A16, TSMC N4 process, 2x3.46GHz performance core+4x2.02G energy efficiency core. Performance core 16MB L2+energy efficiency core 4MB L2+system cache 24MB. GPUs are in place, 1.4GHz 5-core 6th generation GPUs, 20 groups of EU, 640 ALUs. Use 6400Mbps of LPDDR5 memory (called A15+, which is more suitable for changing process x overclocking x reducing power consumption. Compared with A15, CPU single core is 8% stronger and multi-core is 12% stronger. GPU toothpaste is not crowded, and the original frame rate has not been improved. However, it is still the first in the same generation due to its thick family background. It was released on September 16, 22, and can be seen in iPhone 14 Pro/14 Pro Max)

2. Snapdragon 8 Gen 2 Advanced/Snapdragon 8 Gen 2 for Galaxy (HF version of the second generation Snapdragon 8) ， The ultra large core frequency has increased from 3.2GHz to 3.36GHz, and the GPU frequency has increased from 680MHz to 719MHz.
   

3. Snapdragon 8 Gen 2 (The second generation Snapdragon 8), TSMC N4 process, 1+2+2+3 CPU structure, 3.2GHz X3+2x2.8GHz A715+2x2.8GHz A710+3 2GHz A510 Refreshed, 8MB L3+6MB SLC cache. Adreno 740@680MHz , 6CU, 1536 ALUs (the daily load energy efficiency is higher than that of peers, and two A710s and three A510 Refreshed are used to run 32-bit applications)

4. Snapdragon 8s Gen 3 (The third generation Snapdragon 8s), SM8635, TSMC 4nm, 3.0GHz X4+4x2.8GHz A720+3x2GHz A520, Adreno 735 1.1GHz, and also 4MB L3+3.5MB SLC cache (released on March 18, 24, CPU part is "Snapdragon 8 Gen 2.5", and Xiaomi Civi 4 Pro debuted)

5. Tianji 9200+ TSMC N4P process. 3.35GHz X3 + 3x3GHz A715 + 4x2GHz A510 refreshed，Immortalis-G715 [email protected] (For the violent frequency raising version, the theoretical peak value of GPU has exceeded that of Snapdragon 8 Gen 2, but the CPU is still close)

6. Tianji 9200 TSMC N4P process. 3.05GHz X3 + 3x2.85GHz A715 + 4x1.8GHz A510 refreshed，Immortalis-G715 MC11@981MHz (The frequency is relatively conservative, the CPU improvement is weak, and it beats Snapdragon 8+. The GPU peak also exceeds A16, which is weaker than Snapdragon 8 Gen 2. The four A510 Refreshed support 32-bit, and running 32-bit old APP will be difficult)

7. Snapdragon 7+Gen 3 SM7675, TSMC 4nm, 2.8GHz X4+4x2.6GHz A720+3x1.9GHz A520, Adreno 732 950MHz. 4MB L3+3.5MB SLC cache (new product in March 24. The CPU peak is slightly weaker than that of Snapdragon 8G2, and the energy efficiency is slightly better than that of 8G2. The GPU peak and energy efficiency are slightly stronger than that of Snapdragon 8+, Snapdragon 8G2, and Tianji 9200. With Ace 3V's debut, Genuine GT Neo6 SE is the first batch)

8. A15 full blood version, TSMC N5P process, 2x3.24GHz performance core+4x2.02G energy efficiency core, full blood 5-core 1.338GHz 5th generation self-developed GPU. P core 12MB L2+E core 4MB L2+extremely exaggerated 32MB system cache. 4266Mbps of LPDDR4x memory (2 performance cores with 128K L1, 12M L2 cache, 4 energy efficiency cores with 64K L1, 4M L2, and doubled 32MB system cache. The press conference is really not too boastful of PC level. See iPhone 14/14 Plus/13 Pro/13 Pro Max)

9. A15 4-core GPU version, TSMC N5P process, 2x3.24GHz performance core+4x2.02G energy efficiency core, 4-core 1.338GHz 5th generation self-developed GPU (iPhone 13/13 mini/SE 3 exclusive)

10. Apple A12Z (flat SoC), TSMC 7nm, 4x2.49G Vortex performance core+4x1.59G Tempest energy efficiency core, 8 core 1.125GHz second-generation self-developed GPU. P core 8MB L2+E core 2MB L2+8MB system cache (released in 2020, GPU has one more core than A12X, which can be seen in the second generation of 11 inch iPad Pro, the fourth generation of 12.9 inch iPad Pro, and the historic Mac mini development kit)

11. Apple A12X (flat SoC), TSMC 7nm, 4x2.49G Vortex performance core+4x1.59G Tempest energy efficiency core, 7-core 1.125GHz second-generation self-developed GPU. P core 8MB L2+E core 2MB L2+8MB system cache (from the ancient monster in 2018, see the first generation 11 inch iPad Pro and the third generation 12.9 inch iPad Pro of Laoshouxing)

12. CPU frequency reduction version of A15 (exclusive to iPad mini 6) TSMC N5P process, 2x2.93GHz performance core+4x2.02G energy efficiency core, 5-core 1.338GHz 5th generation self-developed GPU

    
    

Second flagship

1. Tianji 8300/8300-Ultra, TSMC N4P process, the CPU is one 3.35GHz A715 super core+three 3.2GHz A715 big cores+four 2.2GHz A510 small cores, and the GPU is Mali-G615MC6 1.4GHz. Support LPDDR5x 8533Mbps memory+UFS 4.0 flash memory. Large core 512KB L2, 128KB shared by every two cores, 256KB in total. 4MB L3+4MB system cache (released on November 21, 23, Redmi K70E was launched for the first time. The frequency is crazy, slightly stronger than the single core CPU performance of Snapdragon 7+Gen 2, and better than the multi-core CPU and GPU performance of Snapdragon 8+)

2. Snapdragon 8+ (i.e. Snapdragon 8+Gen 1, the first generation Snapdragon 8+) ， TSMC 4nm process, 3.2GHz X2+3x2.75GHz A710+2.0GHz A510, 6MB L3+4MB SLC cache. Adreno  730@900MHz , 4CU, 1024 ALUs (released in May 22, Qualcomm's shameless work, 23 year flagship standard configuration)
   

3. Tianji 9000+ However, the CPU super core exceeds 3.2GHz from 3.05GHz, and Mali-G710MC10 exceeds 955MHz. 8MB L3+6MB SLC cache (compared with Tianji 9000, the actual improvement is extremely limited).

4. Tianji 9000 , MT6983, TSMC 4nm, 3.05G X2+3x2.85G A710+1.8G A510, Mali-G710 MP10@850MHz 。 8MB L3+6MB SLC cache (the only true flagship core at the beginning of the 22nd year, the CPU and power control are linked to 8 Gen 1, and the GPU is slightly weak. The energy consumption ratio and peak power consumption are both high)

5. Apple A14 TSMC 5nm, 2x3.09GHz performance core+4x1.82G energy efficiency core, 4-core 1.4625GHz fourth generation self-developed GPU. P core 8MB L2+E core 4MB L2+16M system cache (stronger than the single core performance of Snapdragon 8 Gen 2, slightly weaker than the multi-core performance of Tianji 9000, which will be true in 2023)

6. 3GHz Snapdragon 8+ (i.e. low-frequency version Snapdragon 8+Gen 1/first generation Snapdragon 8+) ， TSMC 4nm process, 3.0GHz X2+3x2.5GHz A710+1.8GHz A510. 6MB L3+4MB SLC cache. Adreno  730@900MHz , 4CU, 1024 ALUs (the frequency of Snapdragon 8 Gen 1, the technology of TSMC, and the GPU of Snapdragon 8+. The frequency is exactly the same as that of the broken chip below, which tells you that TSMC is the master of dragon training. It is said that TSMC is much cheaper than the full blood version, and it will appear frequently in the second flagship in 2023)

7. Snapdragon 8 Gen 1 (i.e. Snapdragon 8 Gen 1, first generation Snapdragon 8), poor Samsung 4nm LPE process, 3G X2+3x2.5G A710+1.8G A510, Adreno 730@818 MHz, 4CU, 1024 ALUs. 6MB L3+4MB SLC cache (shame of flagship SoC, don't touch it

8. Snapdragon 7+Gen 2 (The second generation Snapdragon 7+), TSMC 4nm process, 2.91GHz X2+3 2.49GHz A710+4 1.8GHz A510, 6MB L3, 2MB SLC cache, from 4-channel memory to dual channel memory. GPU is Adreno 725@580MHz (A huge amount of toothpaste that makes Qualcomm regretful. The 3GHz version of Snapdragon 8+'s GPU frequency reduction version is similar to the frequency and energy efficiency. The GPU frequency is extremely sweet, the upper limit is not high, but the power consumption is much lower, and the game experience is not much worse. It was released in the first quarter of 23 years, but only the Redmi Note 12 Turbo and the real GT Neo5 SE are equipped.)

9. Tianji 8200/8200 Ultra, MT6896Z, TSMC N4 process, 3.1GHz A78+3x3.0G A78+4x2G A55, Mali-G610 MC6@950MHz (The process upgraded overclocking version is not as efficient as the previous generation, but it is also environmentally friendly. The CPU single core performance wins the Snapdragon 870, the multi-core frequency reduced version Snapdragon 8+, and the GPU is better than the Snapdragon 888) (Tianji 8200 Ultra is seen in Xiaomi Civi 3 and Redmi Note 12T Pro, mainly due to different image drivers)

10. Tianji 8100/8100-MAX, MT6895Z, TSMC 5nm, 4x 2.85G A78+4x2G A55，Mali-G610 MC6@850MHz (22 year annual dark horse SoC, Snapdragon 888 level CPU multi-core and GPU, Snapdragon 865 level power consumption)

11. Kirin 9000S As we all know, the technology of 7nm level cannot be said. The 1+3+4 structure is mixed from the server. There is a super threaded Taishan V120 architecture, with a total of 8 cores and 12 threads. 1 2.62GHz Taishan super core+3 2.15GHz Taishan super core+4 1.53GHz A510, GPU is Maliang 910 MP4@750MHz , LPDDR4x-4266 and LPDDR5-5500（ Significantly monumental SoC. Due to the process limitation, the frequency and energy efficiency are low. The peak value of the CPU multi-core limit is close to Tianji 8100/Snapdragon 7+Gen 2. The GPU is weaker than Tianji 8200. The performance/energy efficiency of the daily CPU and GPU is close to Snapdragon 888. Hongmeng exclusive optimization+low no-load power, and the actual smoothness and endurance are OK) (On August 29, 23, Huawei Mate 60 Pro suddenly went on sale, and the press conference did not start until September 25, "see the press conference with new machines" achievements get √)

12. Kirin 9000S reduced frequency version 1 2.49GHz Taishan super core+3 2.15GHz Taishan super core+4 1.53GHz A510, and the GPU is Malion 910 (see Huawei MatePad Pro 11 inch 2024 released on November 28)

13. Kirin 8000 (On December 27, 23, the performance was still unknown, but it must be much weaker than the Kirin 9000S, so I want to put it here for convenience first). The CPU is a 2.4GHz super core+3 2.2GHz large cores+4 1.84GHz small cores, and the GPU is the Mali-G610 GPU 864MHz (first launched by nova 12/12 Pro on December 26, 23)

14. Snapdragon 888/888+ The same pathetic Samsung 5nm LPE, 2.84G class X1+3x Kirin 9000S2.42G class A78+1.8G class A55 (888+is a 3GHz super core), Adreno 660@840MHz (The landmark SoC that has permanently changed the cooling scale of Android, just don't touch it)

15. Kirin 9000, TSMC 5nm, 3.13G+3x2.54G A77+4x2.05G A55, Mali-G78 MP24@759MHz (The single core is slightly stronger than the Snapdragon 870, and the multi-core small wins the Snapdragon 888. The GPU and 888 are 50% open. It is a legend that its inventory at the bottom of Songshan Lake was once an unsolved mystery in the world.)

16. Kirin 9000E (The GPU has two fewer cores, the Mali-G78 MP22, and the NPU has changed from two big and one small to one big and one small. See Huawei Mate 40, MatePad Pro 12.6, and other few models)

17. Apple A13 TSMC N7P, 2x2.65GHz performance core+4x1.8G energy efficiency core, 16M system cache, 4-core 1.35GHz third-generation self-developed GPU (single core performance needs Tianji 9000 to catch up, multi-core Xiaosheng Snapdragon 870/Tianji 1200, and GPU is above Tianji 8100/Snapdragon 870. Hot, continuous output suffers. See iPhone 11 series, SE 2, 9th generation iPad, and Studio Display display of Tiansha!)

18. Tianji 8000/8000 MAX, MT6895, TSMC 5nm, 4x2.75G A78+4x2G A55, Mali-G610 MC6

19. Exynos 1480 Samsung 4LPP+process, 4x2.78GHz A78+4x2GHz A55, AMD RDNA architecture XClipse 530 GPU, performance 53% better than the previous generation Mali-G68 MP5 (see Samsung Galaxy A55 in March 24)

20. Snapdragon 865+/Snapdragon 870 TSMC N7P, 3.1/3.2G A77+3x2.42G A77+4x1.8G A55. Adreno 650@670MHz , 3CU, 768 ALUs (all are Snapdragon 865 overclocking version)

21. Snapdragon 865 TSMC N7P, 2.84G A77+3x2.42G A77+4x1.8G A55. Adreno 650@587MHz , 3CU, 768 ALUs (a generation of classic, needless to say)

22. Exynos 2200, Samsung 4nm LPE, 2.8G X2+3x2.52G A710+1.82G A510, from AMD's 3-core RDNA 2 Xclip [email protected] (The 22 year champion of the annual crotch pulling event "beat" 8 Gen 1, and the Korean S22 series did not dare to use it, resulting in a world where only the European version was injured. The CPU was standing still, and the AMD GPU only brought 20% improvement, and the GPU performance was between Tianji 9000 and 888.)

23. Google Tensor G3， 4nm process, extremely special 9-core design, 1+4+4. One 2.91GHz X3+four 2.37GHz A715+four 1.7GHz A510, Mali-G715 MC10, LPDDR5x memory with UFS 3.1 (performance and energy efficiency pull the hip, not as good as the second flagship new product of Fage and Qualcomm. The CPU single core does not work as well as Exynos 2200, and its energy efficiency refresh is low, not as good as its own G1, Exynos 2200, and Snapdragon 8 Gen 1. The GPU also cannot win the Exynos 2200, which is about the level of Tianji 9000. Released on October 4, 2023, see Google Pixel 8 series)
    

24. Exynos 2100, Samsung 5nm LPE, 2.91G X1+2.81G A78+2.2G A55, Mali G78 MP14@845MHz (The Samsung flagship that no one remembers can be seen in the Korean and European S21 series, with high scores, hot and hot, and daily use counseling)

25. Tianji 8050/Tianji 1300/Tianji 1200 (MT6893), TSMC 6nm, 3G A78+3x2.6G A78+4x2G A55, Mali-G77 MC9@886MHz (The core specifications of the two brothers are identical. MediaTek version of Snapdragon 870, but the CPU single core and GPU are slightly weaker) (the renamed Majia Tianji 8050 in May 23 was seen in vivo S17)

26. Samsung Exynos 1080, Samsung 5nm LPE, 2.8G+3x2.6G A78+4x2G A55, Mali G78 MP10 (only a few models such as vivo X60/X70 Pro are in use, Snapdragon 865 performance, but the energy efficiency ratio is low)

27. Google Tensor G2 , GS201/S5P9855, Samsung 5nm, 2x 2.85GHz X1+2x of 2.35G A78 +4x1.8G A55, Mali-G710 MP7 (CPU architecture is upgraded, but it is not fully upgraded, and the improvement is limited. It will be released on October 6, 2022, and can be seen in Pixel 7 series)

28. Tianji 8020/Tianji 1100 TSMC 6nm, 4x2.6G A78+4x2G A55, Mali-G77 MC9@836MHz
    

29. Xun Kun 1300T (flat SoC), MT8797, TSMC 6nm, 4x2.6G A78+4x2G A55, Mali-G77 MC9 (actually the baseband free version of Tianji 1100 derived vest. Xun Kun is a domestic brand, with only two official websites, namely, Xun Kun 1300T and 900T. It is a tablet and Chromebook chip owned by overseas Kompanio, as well as several models, such as Kompanio 1380/1200/828/820/528/520/500, which can be understood as baseband free versions of Tianji and P series)

30. Google Tensor GS101/S5P9845, Samsung 5nm LPE, 2x2.8GHz X1+2x2.25G A76+4x1.8G A55, Mali-G78 MP20@848MHz (Double X1 large nuclear bombs, Samsung technology pulls the crotch, resulting in ugly multi-core results)

Middle end line

1. Snapdragon 7 Gen 3 SM7550-AB, TSMC 4nm, 1 2.63GHz A715+3 2.4GHz A715+4 1.8GHz A510, Adreno 720 GPU (released on November 17, 2003, the first launch of Glory 100)

2. Tianji 1000+/Tianji 1000, MT6889Z, TSMC 7nm, 4x2.6G A77+4x2G A55, Mali-G77 MC9@836MHz 。 The GPU of Tianji 1000 is 850MHz (basically delisted at the beginning of 2021)

3. Snapdragon 782G, TSMC 6nm, 2.71G+3x2.4G A78+4 * 1.8G A55, Adreno 642L

4. Kirin 990 5G, TSMC 7nm+EUV (slightly stronger than N7P), 2x2.86G+2x2.36G A76+4x1.95G A55, Mali-G76 MP16, NPU with two large cores and one small core (single core slightly stronger than Tianji 1000+, multi-core close to early Snapdragon 865, GPU close to 855+. See Mate 30/P40 series, Glory V30 series, etc.)

5. Kirin 990E 5G, TSMC 7nm+, 2x2.86G+2x2.36G A76+4x1.95G A55, Mali-G76 MP14 (990 5G with less than two GPU cores. See Mate 30E Pro, Mate 40E, etc.)

6. Kirin 990 4G, TSMC 7nm, 2x2.86G+2x2.09G A76+4x1.86G A55, Mali-G76 MP16, one big core and one small core NPU (with the 5G baseband removed, the frequency of the middle core and small core is lower, which can only be opened to Tianji 1000+50)

7. Snapdragon 7s Gen 2 , model SM7435-AB, Samsung 4nm process, CPU is 4 2.4GHz A78+4 1.96GHz A55, Adreno 710 @ 940MHz, supporting up to 3200MHz LPDDR5 memory and UFS 4.0 flash memory, X62 5G baseband (released on September 15, 23, the first release of Redmi Note 13 Pro)
   

8. Snapdragon 7 Gen 1/Snapdragon 7 Gen 1 Plus, Samsung 4nm, 2.4GHz A710 large core+3x2.36GHz A710 medium core+4x1.8GHz A510 small core, Adreno 644 @ 443MHz (debuff master, spicy chicken technology+spicy chicken architecture, energy efficiency inverted)

9. Exynos 1380， Samsung 5nm, 4x2.4G A78+4 * 2G A55, Mali-G68 MP5 (released on 23-02-23)

10. Snapdragon 778G+ TSMC 6nm, 2.5G+3x2.4G class A78+4 * 1.8G class A55, Adreno 642L

11. Snapdragon 778G, TSMC 6nm, 2.4G+3x2.2G A78+4 * 1.8G A55, Adreno 642L

12. Snapdragon 780G, Samsung 5nm LPE, 2.4G+3x2.2G A78+4 * 1.9G A55, Adreno 642

13. Apple A12, TSMC 7nm, 2x2.49GHz performance core+4x1.59G energy efficiency core, 8M system cache, 4-core 1125MHz second-generation self-developed GPU (Apple products in 2018, seen in iPhone XR/XS/XS Max and other models

14. Exynos 990 Samsung 7nm LPP, Exynos M5 of 2x2.73G+A76+4 * 2GA55 of 2x2.5G, Mali G77 MP11@800MHz (Released in 2019, Samsung's last self-developed architecture, which can be seen in the European Galaxy S20 series and Note20 series in 2020)
    

15. Snapdragon 855+/Snapdragon 860, TSMC 7nm, 2.96G+3x2.42G category A76+4x1.8G category A55, Adreno 640@675MHz (The Snapdragon 860 has replaced the 4G baseband to enhance the screen/memory/flash memory support, but the CPU specifications are the same)

16. Kirin 9000L 1x3.13GHz A77+2x2.54GHz A77+3x2.05GHz A55, Mali-G78 MP22

17. Xiaolong 855, TSMC 7nm, 2.84G+3x2.42G category A76+4x1.8G category A55, Adreno 640@585MHz (2019 flagship standard configuration, CPU multi-core slightly weaker than Snapdragon 778G, but GPU kills 778G)

18. Apple A11, TSMC 10nm, 2x2.39GHz performance core+4x1.19G energy efficiency core, 4M system cache, 3-core 1066MHz first generation self-developed GPU (carried by the iPhone 8/8 Plus/X in 2017. Snapdragon 865 single core, multi-core slightly better than Snapdragon 845, GPU and Snapdragon 845 five in five)

19. Tianji 820, MT6875, TSMC 7nm, 4 × 2.6G A76+4 × 2G A55, Mali-G57 MC5@902MHz (Tianji 8100/8000 is the father of Tianji 8100/8000. It used to be the most powerful in the mid tier. It only appears on a few machines, such as Redmi 10X and vivo S7t, and has a small amount of memory. Its multi-core performance is better than Kirin 980 and Apple A11, but its CPU single core and GPU are significantly weaker than those of Snapdragon 845 and Kirin 980.)

20. Snapdragon 6 Gen 1 , SM6450, Samsung 4nm LPE, 4x2.2G class A78+4 * 1.8G class A55, Adreno 710 (successor to Snapdragon 695, released in the first quarter of 23 years)

21. Kirin 980, TSMC 7nm, 2x2.6G A76+2x1.92G A76+4x1.8G A55, Mali-G76 MP10@720MHz (Released at the end of 2018, it can be seen in Mate20/P30/Glory 20/Glory V20 and other models, and the stock is still huge. The single core is above the Snapdragon 768G, the multi-core is slightly weaker than Tianji 820, and the GPU is smaller than the Snapdragon 845.)

22. Kirin 985, TSMC 7nm, 2.58G+3x2.4G A76+4x1.8G A55, Mali-G77 MP8@700MHz (On the basis of the Kirin 980, the frequency increase of the core+core logic modification+half of the core cache to 256KB+half of the three buffer to 2MB. The GPU theory is stronger, but the matching memory bandwidth of some models is cut by half, resulting in the GPU performance discount. See the glory 30, nova7/8 series and other models.)

23. Kirin 820 5G, TSMC 7nm, 2.36G+3x2.22G A76+4x1.84G A55, Mali-G57 MP6 (conscience product, stronger than Snapdragon 768G, weaker than Tianji 820)

24. Tianji 1000L, MT6885Z, TSMC 7nm, 4x2.2G A77+4x2G A55, Mali-G77 MC7@695MHz (A flash in the pan in 2020)

25. Tianji 1000C, MT6885Z, TSMC 7nm, 4x2G A77+4x2G A55, Mali-G57 MC5

Xiaokang Line (2+6 architecture army)

1. Snapdragon 845, Samsung 10nm, 4 * 2.8G class A75+4x1.8G class A55, Adreno 630 710 MHz (the heart of a large amount of "foreign garbage" worth 100 yuan in 2018. The single core even the following MediaTek G90 can't beat, and the multi-core is slightly stronger than the Snapdragon 768G. However, GPU hangs all products of this line, more than twice the G90, and twice the Snapdragon 765G)

2. Exynos 9825, Samsung 7nm, 2x2.73G Exynos M4+2x2.4G A75+4 * 1.95GA55, Mali G76 MP12@754MHz (Harmful, it was a generation behind Qualcomm at that time. See the Korean version and international version of Samsung Galaxy Note10 series, Galaxy F62/M62 and other models in 2019)

3. Exynos 9820, Samsung 8nm LPP, 2x2.73G Exynos M4+2x2.31G A75+4 * 1.95GA55, Mali G76 MP12@702MHz (See the Korean version and international version of Samsung Galaxy S10 series in 2019)

4. Apple A10X (flat SoC), 10nm, 3x2.38GHz Hurricane core+3x1.3G Zephyr core, PowerVR GT7600 Plus@1000MHz (See iPad Pro 10.5 "/12.9" for veteran fighters in 2017)

5. Ziguang Zhanrui T820 TSMC 6nm, 2.7G A76+3x2.3G A76+4x2.1G A55, ARM Mali G57

6. Tianji 7200/Tianji 7200 Ultra, TSMC N4P process, 2x2.8G A715+6x2G A510 Refreshed, Mali G610 MC4 (released on February 16, 23, and first launched by vivo S17e on May 15, the same year. Tianji 7200 Ultra is a customized version of Redmi Note 13 series)

7. Tianji 7050 (Tianji 1080 vest), TSMC 6nm, 2x2.6G A78+6x2G A55, Mali-G68 MC4, supporting LPDDR5 and 200 million pixel cameras (released in May 23)
   

8. Tianji 1080 , MT6877V, TSMC 6nm, 2x 2.6G A78+6x2G A55, Mali-G68 MC4 (released in the middle of 22 years, Fage randomly named x overclock vest, which is the same as Tianji 900 series. See Redmi Note 12 Pro series, True Self 10 Pro+, etc.)

9. Ziguang Zhanrui T770 (formerly known as Huben T7520), TSMC 6nm, 2.5G A76+3x2.2G A76+4x2G A55, Mali-G57MC4 @ 750MHz (still an unpopular SoC, with 5G baseband, China Telecom Tianyi No.1 2022 model will be launched for the first time)

10. Tianji 7030/1050, TSMC 6nm, 2x 2.5G A55 of A78+6x2G, Mali-G610 MC3 @1000MHz (23-0717 was renamed Tianji 7030. Tianji 1050 was released in May 22, and overseas moto edge 2022 was launched for the first time)
    

11. Tianji 920 , MT6877T, TSMC 6nm, 2x 2.5G A78+6x2G A55, Mali-G68 MC4@950MHz (It is mostly seen in offline midrange models, and the performance is basically adequate. The gap between Tianji 920/900 and Tianji 1000+single core is small, and the multi-core performance is about 70% of the Snapdragon 778G, and the GPU performance is about 60% to 70% of the 778G.)

12. Tianji 900 , MT6877, TSMC 6nm, 2x 2.4G A78+6x2G A55, Mali-G68 MC4@900MHz

13. Xun Kun 900T (Flat SoC), MT8791, TSMC 6nm, 2x 2.4G A78+6x2G A55, Mali-G68 MC4 (just like Tianji 900 without 5G baseband)

14. Exynos 1280 Samsung 5nm LPE, 2x2.4G A78+6x2G A55, Mali-G68 MC4@1000MHz (22 year new product, quite popular, seen in Samsung Galaxy A33/A53/M33 and other models)

15. Exynos 1330， Samsung 5nm, 2x2.4G A78+6x2G A55, Mali-G68 MC2 (released on 23-02-23, see Samsung's own models such as Galaxy A14)

16. Snapdragon 4 Gen 2 (SM4450), Samsung 4nm, 2 × 2.2G A78+6 × 2G A55, Adreno 613@955MHz (Released on June 27, 2013, Redmi Note 12R was launched for the first time)

17. Ziguang Zhanrui T760 TSMC 6nm, 4x2.2G A76+4x1.8G A55, ARM Mali G57 (mainly used by Hisense in China)

18. Tianji 7020（ Updated GPU of Tianji 930), TSMC 6nm, 2x2.2G A78+6x2G A55, GPU replaced with IMG BXM-8-256 (the first quarter of 23 years)

19. Tianji 7020/Tianji 930, MT6855, TSMC 6nm, 2x 2.2G A78+6x2G A55

20. Tianji 800, TSMC 7nm, 4 × 2G A76+4 × 2G A55, Mali-G57 MC4@650MHz (The non overclocking version of Tianji 820 is hard to find 4 large cores. Unfortunately, the frequency is too low. The multi-core version is better than the 750G version of Snapdragon, but the single core performance of Tianji 700 has lagged behind.)

21. Snapdragon 695, TSMC 6nm, 2x 2.2G Class A78+6x1.7G Class A55, Adreno 619 (although the serial number is slightly different from Snapdragon 690, the more advanced TSMC 6nm and A78 are used)

22. Exynos 9810, 10nm LPP, 4x2.9G Exynos M3+4 * 1.9GA55, Mali G72 MP18@572MHz (See the Korean version and international version of Samsung Galaxy S9/Note9 series, Note10 Lite and other models in 2018)

23. Snapdragon 750G, Samsung 8nm, 2x2.2G class A77+6x1.8G class A55, Adreno 619 (with A77 architecture, single core is slightly weaker than 768G, multi-core is better than 765G/768G, but GPU can't even win 765G)

24. Snapdragon 768G, Samsung 7nm LPP, 2.8G+2.4G class A76+6x1.8G class A55, Adreno 620 (used to be the strongest single core performance of mid end/Xiaokang line)

25. Snapdragon 765G Samsung 7nm LPP, 2.4+2.3G A76+6x1.8G A55, Adreno 620

26. Snapdragon 4 Gen 1 TSMC 6nm, 2x2G A78+6x1.8G A55

27. Exynos 980, Samsung 8nm LPP, 2x2.2G class A77+6x1.8G class A55, Mali G76 MP5@728MHz (Vivo S6/X30 series, Samsung A51/A71 and other minority models are equipped)
    

28. Snapdragon 690, Samsung 8nm LPP, 2x2G class A77+6x1.7G class A55, Adreno 619L (also a 5G chip, but it was not found by MediaTek in the same year, and there were few models carried)

29. Tianji 800U TSMC 7nm, 2 × 2.4G A76+6 × 2G A55, Mali-G57 MC3@950MHz (Fage 765G)

30. Tianji 6080 (Tianji 810 vest), TSMC 6nm, 2 × 2.4G A76+6 × 2G A55, Mali-G57 MC2@950MHz (CPU is below Snapdragon 695/765G/Snapdragon 4 Gen 1/and above MediaTek G99/Tianji 700)

31. Ziguang Zhanrui T765, 6nm EUV process, 2 × 2.3G A76+6 × 2.1G A55, Mali G57 MC2 850MHz (new product in January 2023, mainly upgrading 4-core ISP, supporting 100 million pixel main camera)

32. Tianji 810, TSMC 6nm, 2x2.4GHz A76+6x2GHz A55, Mali-G57 MC2 (another new product after castrating the GPU)

33. Snapdragon 732G/730G/720G three brothers, Samsung 8nm LPP, 2x class A76+6x1.8G class A55, three brothers' big cores are 2.3/2.2/2.3 GHz respectively (720G cuts off the cache), GPUs are Adreno 618 (frequency is 800/700/750 MHz respectively), but the first two support 2K screens (not much)

34. MediaTek G99 TSMC 6nm, 2 × 2.2G A76+6 × 2GHz A55, Mali-G57 MC2@1100MHz (It would be nice to consider the overclocking version of Tianji 700 GPU less than 5G. See Redmi Pad and Redmi/True Self's overseas entry models)

35. Tianji 6100+, 6nm process ， 2 × 2.2G A76+6 × 2GHz A55, Mali-G57 MC2
    

36. Tianji 6020 /Tianji 700, TSMC 7nm, 2 × 2.2G A76+6 × 2GHz A55, Mali-G57 MC2@950HMz (The CPU performance is better than Tianji 720, but the GPU lacks a core, Surprise!)

37. Kirin 810, TSMC 7nm, 2x2.27G A76+6x1.9G A55, Mali-G52 MP6@820MHz (Tianji 700, with a huge shipment in the past)

38. Kirin 820E 5G, TSMC 7nm, 3x2.22G A76+3x1.84G A55, Mali-G57 MP6 (Kirin 820 core shielded version, rare 6-core CPU)

39. Snapdragon 480/480+ Samsung 8nm LPP, 2x2G class A76+6x1.8G class A55 (the big core of 480+is 2.2G), Adreno 619 650MHz (Qualcomm 5G entry-level product, accurately benchmarking Tianji 700/720. It was launched in March 22, and iQOO U5x, overseas OPPO K10, etc.)

40. Tianji 720, TSMC 7nm, 2 × 2G A76+6 × 2GHz A55, Mali-G57 MC3@850MHz (Blue Green Factory used to be very popular, and it was everywhere offline)

41. MediaTek G96, TSMC 12nm FFC, 2x2.05G A76+6x2G A55, Mali-G57MC2@950MHz (The product in the third quarter of 2021. It is common in offline portal machines with the following brothers. The "water here is very deep" series is shamelessly called the game chip. The CPU and GPU are about 70% to 80% of the performance of Tianji 900.)
    

42. MediaTek G95, TSMC 12nm FFC, 2x2.05G A76+6x2G A55, Mali-G76MC4@900MHz

43. MediaTek G90T, TSMC 12nm FFC, 2x2.05G A76+6x2G A55, Mali-G76MC4@800MHz

44. MediaTek G90, TSMC 12nm FFC, 2x2.05G A76+6x2G A55, Mali-G76MC4@720MHz

45. Snapdragon 678, Samsung 11nm LPP, 2x2.2GHz class A76+6x1.7G class A55, Adreno 612 895MHz (see overseas version of Redmi Note 10)

46. Snapdragon 675, Samsung 11nm LPP, 2x2GHz class A76+6x1.7G class A55, Adreno 612 845MHz (see Meizu Note9, Hongmi Note7 Pro and other models in 2019)

47. Purple Light Zhanrui T750 TSMC 6nm, 2x2G A76+6x1.8G A55, ARM Mali G57MC2@680MHz (Issued in April 23)

Food and clothing line (100 yuan level, slightly tired of running WeChat)

1. Ziguang Zhanrui T740 , original T7510. 12nm, 4x2G A75+4x1.8G A53, PowerVR GM 9444@800MHz (The selling point is that there is 5G baseband, and Hisense and operators use more customized computers)

2. Snapdragon 835, Samsung 10nm, 4x2.4G A73+4x1.9G A53, Adreno 540@710 /670MHz

3. Xiaolong 685, TSMC 6nm, 4x2.8G A73+4x1.9G A53, Adreno 610@1260MHz (The substantially overclocked version of Snapdragon 680 is a new product in the first quarter of 2023.)
   

4. Snapdragon 680 TSMC 6nm, 4x2.4G A73+4x1.9G A53, Adreno 610@1115MHz (The Snapdragon 680 at the end of 2021 will not win the Snapdragon 480 at the beginning of 2021, making people unable to touch their hair. The CPU is a 6nm reset version of the Snapdragon 835, but its performance is not enough. See Redmi Note 11 International Edition, Huawei nova 10 SE, OPPO Pad Air, Glory Tablet 8 and other models. The famous one is the nova 11 SE in 2023.)

5. Ziguang Zhanrui T710, 12nm，4x1.8G A75+4x1.8G A55，Imagination 9446@800MHz (It even supports 2K screen)

6. Kirin 970, TSMC 10nm, 4x2.36G A73+4x1.84G A53, Mali-G72 MP12@746MHz (The GPU enhanced version of Kirin 960, the first SoC with NPU, is at the same level as Snapdragon 835. See Mate10/P20/Glory 10/Glory V10 in 2017 and 18)

7. Kirin 960, TSMC 16nm, 4x2.36G A73+4x1.84G A53, Mali-G71 [email protected] (See Mate9/P10/Glory 9/Glory V9 in 2016-17)

8. Snapdragon 710/Snapdragon 712, 10nm LPP, 2x2.2G class A75+6x1.7G class A55, Adreno 616. Snapdragon 712 is the first product of Snapdragon 7 series, which was launched in 2018 and is equipped with a large number of midrange computers. It can be seen in Xiaomi 8 SE, vivo R17 Pro, Meizu 16X/X8, vivo Z3, etc

9. Ziguang Zhanrui T618, 12nm，2x2G A75+6x2G A55， G52MP2@850MHz (ZTE used to use medium and low-end mobile phones and some domestic tablets).

10. United Development Section G88 /G85/G80/G70, TSMC 12nm FFC, 2x2G A75+6x1.8G A55. Mali-G52 MC2, G88/G85 is 1GHz, and G80 is 950MHz. G70 small core 1.7G, GPU 820MHz (pure GPU small overclocking+camera support changes, and the water is also very deep. The 799 yuan Redmi 9 and mass offline models are used)

11. Apple A10, 16nm process, 2x2.34G Hurricane big core+2x1.09G Zephyr small core, PowerVR GT7600 Plus (actually, it is a well-off line, the CPU single core is equal to Tianji 900, but only four cores, and the multi-core is only 20% stronger than Snapdragon 821. The heirloom of 2016 can fight again as long as it does not upgrade, as seen in iPhone 7/7 Plus, iPad 2018 and other models)

12. Ziguang Zhanrui T616, 12nm, 2x2G A75+6x1.8G A55, GPU replaced with single core G57

13. Snapdragon 670, 10nm LPP, 2x2G class A75+6x1.7G class A55, Adreno 615

14. Snapdragon 660 , 14nm LPP, 4x2.2G A73+4x1.84G A53, Adreno 512

15. Kirin 710/710F/710A, the first two are 12nm, 4x2.2G A73+4x1.7G A53. The 710A is 14nm, and the frequency of the big core is only 2G. All GPUs are Mali-G51 MP4@1000MHz (It's still on sale, which is exaggerated)

16. Snapdragon 662/Snapdragon 665, 11nm LPP, 4x2G A73+4x1.8G A53, Adreno 610

17. Snapdragon 460 , 11nm, 4x1.8G class A73+4x1.8G class A53, Adreno 610 (this is the product in 2020, superior!)

18. Ziguang Zhanrui T612 , 12nm, 2x1.8G A75+6x1.8G A55, GPU replaced with single core G57 (there are not many models equipped)

19. Ziguang Zhanrui T610 ，12nm，2x1.8G A75+6x1.8G A55， [email protected] (There are still a large number of offline phones customized by operators, which will still pop up from time to time even in 2022)

20. Ziguang Zhanrui T606 ，12nm，2x1.6G A75+2x1.6G A55，Mali-G57MP1

21. Snapdragon 636, 14nm LPP, 4x1.8G class A73+4x1.6G class A53, Adreno 509 (can be used as the main SoC of the reduced frequency castration version of Snapdragon 660, 2018 online 1000 yuan machine)

Survival line (can open WeChat)

1. Snapdragon 820/821, Samsung 14nm LPP process, 2x1.8G to 2.34G large core+2x1.36G to 2.2G small core, Adreno 530@510MHz 653MHz

2. MediaTek G35/G37, TSMC 12nm FFC process, 4x2.3G A53+4x1.8G A53, PowerVR GE8320@680MHz (MediaTek G37 is a new product at the end of 2021. Do you believe it?)

3. United Development Section G36 TSMC 12nm FFC process, 4x2.2G A53+4x1.8G A53, PowerVR GE8320@680MHz (It will be updated in 2023. Do you believe it?)

4. Snapdragon 625, 14nm LPP, 8x2G A53, Adreno 506 650 MHz. Snapdragon 626 is 2.2G A53 (entry god U in 2016)
   

5. MediaTek G25, 12nm FFC, 4x2G A53+4x1.5G A53, PowerVR GE8320 650 MHz (the representative ones are 599 yuan Redmi 9A and 649 yuan Redmi 10A)

6. Snapdragon 450, Samsung 14nm LPP, 8x1.8G A53, Adreno 506 (although it is an antique in 2017, it is better than the updated Snapdragon 439 below)
   

7. Xiaolong 439, TSMC 12nm, 4x1.95G+4x1.45G A53, Adreno 505

8. Quanzhi A523, 22nm, 4-core 1.8GHz+4-core 1.42GHz A55, Mali-G57 MC1 2EE GPU, with a 2TOPS AI accelerator and a 200MHz E906 RISC-V core (it's a new product in 2023, you can believe it? It's mostly seen in counterfeit tablets) (GeekBench 5 single core 170, multi-core 780 or so. GeekBench 6 single core 230, multi-core 850 or so)
   

9. Ziguang Zhanrui SC9863A, 28nm process, 8-core 1.6G A55, PowerVR GE8300 800MHz (mostly seen in the third world countries)

Update records

MediaTek changed its name to four digits in May 23, resulting in a proliferation of vest models:

• 24-0329 Joined Samsung Exynos 1480

• Add 24-0315 Snapdragon 7+Gen 3 and Snapdragon 8s Gen 3 (the latter is still the disclosure stage) Add tabular data
  

• 24-0102 added Ziguang Zhanrui T765, Kirin 8000

• 23-1124 Joined Tianji 8300 And Snapdragon 7 Gen 3, Google Tensor G3

• 23-1123 Joined Tianji 9300, Snapdragon 8 Gen 3, A17 Pro, Kirin 9000S , Xiaolong 685, MediaTek G36 and other SoCs

• 23-0824 Joined Tianji 6100+, 23-0718 Joined Tianji 7050 , 23-0627 New Snapdragon 4 Gen 2

• 23-0605 added Snapdragon 7 Gen 1 Plus 、 Tianji 9200+ Fage is dazzled Tianji 6020/6080, Tianji 7020/7050/7200, Tianji 8020/8050

• 23-0419 Add the newly released Ziguang Zhanrui T750 and modify the product name of Ziguang series (after March 23, Ziguang no longer uses Tanggula, Huben and other sub brand names)

• 23-0224 Join Samsung Exynos 1380/1330

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