AMD A10-8700P
AMD A10-8700P
Intel Core i3-7100
Intel Core i3-7100

Comparision AMD A10-8700P vs Intel Core i3-7100

AMD A10-8700P
AMD A10-8700P
242379 points
Intel Core i3-7100
Intel Core i3-7100
282684 points

Top specs and features

Passmark result

Processor thread

Semiconductor size

Number of transistors

Nucleus

Winner Intel Core i3-7100

Advantages
  • Passmark result = 5967. This parameter is higher than that of 73% ;
  • Semiconductor size = 14. This parameter is lower than that of 92% ;
  • Base frequency = 3.9. This parameter is higher than that of 97% ;
Disadvantages
  • Processor thread = 4. This parameter is lower than that of 66%
  • Number of transistors = . This parameter is lower than that of 207%
  • Nucleus = 2. This parameter is lower than that of 88%
  • L2 cache = 0.5. This parameter is lower than that of 99%
  • Turbo clock speed = . This parameter is lower than that of 117%

AMD A10-8700P vs Intel Core i3-7100: highlights

  • Passmark result

    The PassMark benchmark takes read speed, write speed, and seek times into account when benchmarking SSD performance.

    • 3555
      max 85280
    • 5967
      max 85280
  • Производительность
    • 7787
      max
    • 2981
      max
  • Память
    • 9164
      max
    • 10184
      max
  • Функции
    • 350
      max
    • 360
      max
  • Общая информация
    • 3187
      max
    • 3951
      max
  • Processor thread

    The more threads, the better the processor's performance will be, and it will be able to perform multiple tasks at the same time.

    • 4
      max 128
    • 4
      max 128
  • Результаты тестов
    • 13009
      max
    • 19302
      max
  • Semiconductor size

    The small size of the semiconductors means this is a new generation chip.

    • 28 nm
      5 min
    • 14 nm
      5 min
  • Number of transistors

    The higher their number, the more processor power this indicates.

    • 3100 1 миллион
      max 39500
  • Nucleus
    • 4
      max 64
    • 2
      max 64
  • L2 cache

    L2 cache with large amounts of RAM allows for increased processor speed and overall system performance.

    • 2 MB
      max 32
    • 0.5 MB
      max 32
  • Base frequency
    • 1.8 GHz
      max 4.7
    • 3.9 GHz
      max 4.7
  • Turbo clock speed

    When the processor speed drops below its limit, it can upgrade to a higher clock speed for better performance.

    • 3.2 GHz
      max 8
  • Maximum memory bandwidth

    This is the rate at which the device stores or reads information.

    • 34.1 GB/s
      max 204.8
    • 38.4 GB/s
      max 204.8
  • RAM speed

    The RAM can be faster to increase system performance.

    • 2133 MHz
      max 4267
    • 2400 MHz
      max 4267
  • Memory channels

    The larger their number, the higher the speed of data transfer from memory to the processor.

    • 2
      max 8
    • 2
      max 8
  • Passmark result (single)

    A test that measures processor performance using a thread of execution.

    • 1259
      max 3757
    • 2231
      max 3757
  • L1 cache

    Large amount of L1 memory speeds up results in CPU and system performance tweaks

    • 320 KB
      max 4096
    • 128 KB
      max 4096
  • L2 kernel

    L2 cache makes it possible to store a large amount of information with access to the processor cores.

    • 0.5 MB/core
      max 2.5
    • 0.25 MB/core
      max 2.5
  • Heat dissipation design requirements (tdp)

    Heat Dissipation Requirements (TDP) is the maximum possible amount of energy dissipated by the cooling system. The lower the TDP, the less power will be consumed

    Show more
    • 15 W
      1.4 min
    • 51 W
      1.4 min

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