HiSilicon Kirin 930
Qualcomm Snapdragon 660
Comparision HiSilicon Kirin 930 vs Qualcomm Snapdragon 660
Grade
HiSilicon Kirin 930
Qualcomm Snapdragon 660
Interfaces and communications
6
9
Memory specification
2
3
Performance
10
10
Benchmark tests
1
2
Top specs and features
AnTuTu test score
HiSilicon Kirin 930: 133876
Qualcomm Snapdragon 660: 211832
Memory frequency
HiSilicon Kirin 930: 1600 MHz
Qualcomm Snapdragon 660: 1866 MHz
4G support
HiSilicon Kirin 930: Available
Qualcomm Snapdragon 660: Available
Technological process
HiSilicon Kirin 930: 28 nm
Qualcomm Snapdragon 660: 14 nm
GPU base clock
HiSilicon Kirin 930: 600 MHz
Qualcomm Snapdragon 660: 850 MHz
Description
HiSilicon Kirin 930 - 8 - core processor, clocked at 2000 GHz. Qualcomm Snapdragon 660 is equipped with 8 cores clocked at 2200 MHz. The maximum frequency of the first processor is 2 GHz. The second is capable of overclocking to 2.2 GHz.
HiSilicon Kirin 930 consumes There is no data Watt and Qualcomm Snapdragon 660 9 Watt.
As for the graphics core. HiSilicon Kirin 930 is equipped with Mali-T628 MP4. The second uses Adreno 512. The first operates at a frequency of 600 MHz. Qualcomm Snapdragon 660 operates at 850 MHz.
Regarding processor memory. HiSilicon Kirin 930 may support DDR3. The maximum memory capacity is 6 GB. And its throughput is 13 GB/s. Qualcomm Snapdragon 660 works with DDR4. The maximum amount of memory can be 8. At the same time, the throughput reaches 30 GB/s
Let's move on to performance testing in benchmarks. In the AnTuTu benchmark, HiSilicon Kirin 930 scored 133876 points out of 988414 possible points. In the GeekBench 5 (Multi-Core) benchmark, it scored 878 points out of a possible 16511 points. Qualcomm Snapdragon 660 in Antutu received 211832 points. And GeekBench 5 (Multi-Core) scored 1398 points .
Results.
Why Qualcomm Snapdragon 660 is better than HiSilicon Kirin 930
HiSilicon Kirin 930 vs Qualcomm Snapdragon 660: highlights
HiSilicon Kirin 930
Qualcomm Snapdragon 660
Interfaces and communications
Vulcan version
The Vulkan version indicates supported features and functionality, and may include bug fixes and performance improvements introduced in recent API updates.
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1
Average: 1.1
1
Average: 1.1
Camera resolution (max)
32
Average: 69
48
Average: 69
4K video recording
30 FPS
Average: 44.3 FPS
30 FPS
Average: 44.3 FPS
H.265
Supports a video compression standard that provides more efficient use of bandwidth and higher video quality than previous standards such as H.264.
Available
Available
H.264
H.264 (or AVC) is a video coding standard that provides efficient, high quality video compression.
Available
Available
MP3
lossy audio format that allows you to compress audio files with minimal loss in sound quality. Mobile processors support decoding and playback of MP3 files, allowing the user to enjoy music and audio files on their devices.
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Available
Available
WAV
An uncompressed audio file format that provides high quality audio and preserves all the details of the audio recording. Mobile processors support playback and processing of WAV files, which allows users to listen and record audio without losing quality.
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Available
There is no data
AIFF
An uncompressed audio file format that provides high quality sound and retains all the details of the original recording.
Available
There is no data
MP4
A media container format used to store video, audio, and other media files.
Available
There is no data
CAF
Available
There is no data
GPS
Available
Available
GLONASS
GLONASS is a global navigation and positioning system developed by Russia.
Available
Available
Beidou
A global navigation and positioning system developed by China.
Available
Available
UFC version
5.1
Average:
Average:
eMMC version
standard flash memory format that is integrated directly into the SoC. Newer versions of eMMC provide faster data transfer speeds, faster app loading, and better overall device performance.
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2
Average: 2.7
2.1
Average: 2.7
WiFi Version
Indicates the supported version of the Wi-Fi wireless standard. Newer versions of Wi-Fi provide faster data transfer rates, more stable connections, and improved Wi-Fi network performance.
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5
Average: 5.2
5
Average: 5.2
4G support
LTE is located on a system on a chip (SoC). Built-in cellular-type LTE allows you to download much faster than older 3G technologies.
Available
Available
Intel® AES-NI Commands
AES is needed to speed up encryption and decryption.
Available
Available
Memory specification
Memory frequency
RAM may be faster to increase system performance.
1600 MHz
Average: 1701 MHz
1866 MHz
Average: 1701 MHz
Memory Bandwidth
This is the rate at which the device stores or reads information.
13 GB/s
Average: 24.1 GB/s
30 GB/s
Average: 24.1 GB/s
Max. Memory
The largest amount of RAM memory.
6 GB
Average: 17.1 GB
8 GB
Average: 17.1 GB
Max. number of memory channels
The more their number, the higher the data transfer rate from memory to processor
2
Average: 2.1
2
Average: 2.1
RAM version (DDR)
Indicates the type and speed of RAM used to temporarily store data and perform tasks on the device. Newer versions of DDR, such as DDR4 or DDR5, provide faster data transfer rates and better overall system performance.
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3
Average: 3.5
4
Average: 3.5
Performance
Number of Cores
The more cores, the more parallel tasks can be completed in a shorter time. This improves productivity and multitasking quickly, such as launching applications, performing calculations, and more.
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8
Average: 6.4
8
Average: 6.4
GPU
GPU that is responsible for graphics processing, including displaying images, videos, and performing complex graphics calculations. A more powerful and advanced GPU delivers better graphics performance, higher frame rates, and better visual realism.
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Mali-T628 MP4
Adreno 512
GPU architecture
The architecture of the GPU has an impact on the performance, power consumption, and functionality of the GPU. There are many different GPU architectures developed by different manufacturers such as NVIDIA, Qualcomm, ARM, and others.
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Midgard
Adreno 500
CPU base frequency
The base frequency of a processor in mobile processors (SoCs) indicates its default operating frequency when the load on the processor does not require increased performance. The base frequency determines the base speed of the processor and affects the overall performance of the device.
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2000 MHz
Average: 922.4 MHz
2200 MHz
Average: 922.4 MHz
Data acquisition rate
Refers to the rate at which the processor can retrieve information from memory or other external data sources.
300 MBits/s
Average: 812.6 MBits/s
600 MBits/s
Average: 812.6 MBits/s
Data download speed
Refers to the rate at which data is transferred between various system components such as memory, CPU, GPU, and others.
50 Mbit/s
Average: 176.3 Mbit/s
150 Mbit/s
Average: 176.3 Mbit/s
Hyper-threading
A technology that allows a single physical processor to execute multiple threads of tasks at the same time.
Not available
Not available
64-bit
The processor supports data and instruction processing with 64-bit width. This allows you to process more data and perform more complex calculations compared to 32-bit processors.
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Available
Available
Number of threads
The more threads, the higher the performance of the processor will be, and it will be able to perform several tasks at the same time.
8
Average: 5.7
8
Average: 5.7
Maximum processor frequency
When the processor's speed drops below its limit, it can jump to a higher clock speed to improve performance.
2 GHz
Average: 2.4 GHz
2.2 GHz
Average: 2.4 GHz
Multiplier Unlocked
Some processors have an unlocked multiplier, thanks to which they work faster and improve the quality in games and other applications.
Not available
Not available
FLOPS
The measurement of processing power of a processor is called FLOPS.
73 TFLOPS
Average: 262.9 TFLOPS
209 TFLOPS
Average: 262.9 TFLOPS
Benchmark tests
AnTuTu test score
AnTuTu is a popular mobile benchmark that is used to evaluate the performance and compare various aspects of mobile processors and systems on a chip (SoC).
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133876
Average: 324226.4
211832
Average: 324226.4
GeekBench 5 Single-Core score
The result of testing the performance of the processor in single-threaded mode using the GeekBench 5 benchmark. It measures the performance of a single processor core when performing various tasks.
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180
Average: 490.3
318
Average: 490.3
GeekBench 5 Multi-Core test score
GeekBench 5 Multi-Core is a benchmark that measures the multi-threaded performance of mobile processors and systems on a chip (SoC). The higher the value of this indicator, the more powerful the processor and the better it copes with the execution of several tasks at the same time.
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878
Average: 1759.3
1398
Average: 1759.3
FAQ
How many points does HiSilicon Kirin 930 and Qualcomm Snapdragon 660 score in benchmarks?
In the Antutu benchmark, HiSilicon Kirin 930 scored 133876 points. Qualcomm Snapdragon 660 scored 211832 points.
How many cores does the processor have?
HiSilicon Kirin 930 has 8 cores. Qualcomm Snapdragon 660 has 8 cores.
Does the processor support NAVIC?
HiSilicon Kirin 930 There is no data.
How many transistors are there in processors?
HiSilicon Kirin 930 has 1000 million transistors. Qualcomm Snapdragon 660 has 1750 million transistors.
What GPU is installed on HiSilicon Kirin 930 and Qualcomm Snapdragon 660?
HiSilicon Kirin 930 uses Mali-T628 MP4. Processor Qualcomm Snapdragon 660 has graphics core Adreno 512 installed.
How fast are the processors?
HiSilicon Kirin 930 is clocked at 2000 MHz. Qualcomm Snapdragon 660 operates at 2200 MHz.
What kind of RAM is supported?
HiSilicon Kirin 930 supports DDR3. Qualcomm Snapdragon 660 supports DDR4.
What is the maximum frequency of processors?
HiSilicon Kirin 930 has a maximum frequency of 2 Hz. The maximum frequency for Qualcomm Snapdragon 660 reaches 2.2 GHz.
How much energy do they consume?
The power consumption of HiSilicon Kirin 930 can be up to There is no data Watts. Qualcomm Snapdragon 660 has up to There is no data Watts.
