UNISOC T616
UNISOC T710
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UNISOC T616 vs UNISOC T710. Specifications, performance, tests

Overall score
star star star star star
Released
Q3/2021
UNISOC T616
UNISOC T616
Released
Q3/2019
Overall score
star star star star star
UNISOC T710
UNISOC T710

Compare UNISOC T616 VS UNISOC T710. Which processor delivers superior performance?

In this detailed comparison, we evaluate the specifications and benchmarks of both processors to determine the best choice for your needs. We analyze their core counts, maximum frequencies, and power consumption.

UNISOC T616 boasts a maximum frequency of 2.00 GHz GHz. 8 / 8 cores that enhance multitasking capabilities.Released in Q3/2021, it incorporates the latest technology for optimal efficiency.

UNISOC T710 features a maximum frequency of 1.80 GHz GHz. 8 / 8 cores designed for high-performance tasks.Launched in Q3/2019, it is built to handle demanding applications.

Differences

UNISOC T616 Reasons to consider
UNISOC T616
Report a bug
  • Higher clock speed

    Around 10% better clock speed

    2.00 GHz left arrow 1.80 GHz

Positions in all rankings

Common positions UNISOC T616 CPU in popular benchmarks, for comparison with other models.

  • iGPU - FP32 Performance (Single-precision GFLOPS)
    1583 place
UNISOC T710 Reasons to consider
UNISOC T710
Report a bug

Positions in all rankings

Common positions UNISOC T710 CPU in popular benchmarks, for comparison with other models.

  • iGPU - FP32 Performance (Single-precision GFLOPS)
    1781 place

Specifications

Technical data
UNISOC T616 UNISOC T616
UNISOC T710 UNISOC T710
CPU family and group

Comprehensive background on the processors being compared, detailing their series, generation, and targeted market segment.

  • Family
    UNISOC 4G left arrow UNISOC 4G
  • CPU group
    UNISOC 4G 12nm left arrow UNISOC 4G 12nm
  • Segment
    Mobile left arrow Mobile
CPU Technical specs

Essential parameters including the number of cores, threads, base and turbo frequencies, and cache size. These metrics provide insight into the processor’s speed—higher values generally indicate better performance.

  • CPU Cores / Threads
    8 / 8 left arrow 8 / 8
  • Core architecture
    hybrid (big.LITTLE) left arrow hybrid (big.LITTLE)
  • A-Core
    2x Cortex-A75 left arrow 4x Cortex-A75
  • B-Core
    6x Cortex-A55 left arrow 4x Cortex-A55
  • Hyperthreading / SMT
    No left arrow No
  • Overclocking
    No left arrow No
  • A-Core Frequency
    2.00 GHz left arrow 1.80 GHz
  • B-Core Frequency
    1.80 GHz left arrow 1.80 GHz
IGPU

The integrated graphics (iGPU) do not influence the CPU performance significantly; they serve as a substitute for a dedicated graphics card in the absence of one or are utilized in mobile devices.

  • GPU name
    ARM Mali-G57 MP1 left arrow PowerVR GM 9446
  • GPU frequency
    0.75 GHz left arrow 0.80 GHz
  • GPU (Turbo)
    No turbo left arrow No turbo
  • Execution units
    2 left arrow 3
  • Shader
    32 left arrow 12
  • Max. GPU Memory
    4 GB left arrow 2 GB
  • Max. displays
    2 left arrow --
  • Generation
    Vallhall 1 left arrow 1
  • Direct X
    12 left arrow --
  • Technology
    7 nm left arrow 12
  • Release date
    Q2/2020 left arrow Q3/2017
Hardware codec support

This section details the built-in codecs used for encoding and decoding media content, which significantly enhance processing speed and efficiency.

  • h265 / HEVC (8 bit)
    Decode / Encode left arrow Decode / Encode
  • h265 / HEVC (10 bit)
    Decode / Encode left arrow Decode
  • h264
    Decode / Encode left arrow Decode / Encode
  • VP8
    Decode / Encode left arrow No
  • VP9
    Decode / Encode left arrow No
  • AV1
    Decode left arrow No
  • AVC
    Decode / Encode left arrow No
  • VC-1
    Decode / Encode left arrow No
  • JPEG
    Decode / Encode left arrow Decode / Encode
Memory specs & PCI

Overview of the types and quantities of RAM supported by UNISOC T710 and UNISOC T616. The supported memory frequencies may vary depending on the motherboard configuration.

  • Memory type
    LPDDR4X-1866 left arrow LPDDR4-1866LPDDR4X-1866
  • ECC
    No left arrow No
  • AES-NI
    No left arrow No
Thermal Management

Analyze the TDP (Thermal Design Power) requirements of UNISOC T616 and UNISOC T710 to make an informed decision on the appropriate cooling system. Remember that TDP refers to thermal watts, not electrical watts.

Technologies and extensions

Information on architecture, interfaces, and additional instructions supported by UNISOC T616 and UNISOC T710, including virtual machine technologies and fabrication processes.

  • Technology
    12 nm left arrow 12 nm
  • Operating systems
    Android left arrow Android
  • Virtualization
    None left arrow None
  • Instruction set (ISA)
    ARMv8-A64 (64 bit) left arrow ARMv8-A64 (64 bit)
  • Release date
    Q3/2021 left arrow Q3/2019
  • Documents
    Technical data sheet left arrow Technical data sheet

Benchmarks

Performance tests CPUs

By analyzing the results from various benchmarks, you can gain a clearer understanding of the performance differences between UNISOC T616 and UNISOC T710.

Compare the synthetic benchmark scores and make an informed decision on the best processor for your needs!

iGPU - FP32 Performance (Single-precision GFLOPS)
The performance of the iGPU - the internal GPU in games
96
UNISOC T616
--
UNISOC T710

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