AMD Ryzen V1756b Review | 78 Data compared

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  • Avg. price in UK: ~£150
  • Avg. price in US: ~$220
  • PassMark benchmark result: 8022
  • N. of physical cores: 4
  • CPU boost clock speed: 3.6 GHz

AMD Ryzen V1756b review. Compare 78 technical specifications and user reviews to see how it ranks among processors and if it is worth buying.

5.0

Overall score

What it is: An overall evaluation of the processor's quality, based on technical analyses and user reviews.

When it matters: When you need a quick reference to identify the best processors on the market.

Score components:

90.0%

5.0

Technical Score

10.0%

?

User score

Good
5.0

Technical Score

What it is: An assessment of the processor's technical performance, covering key areas such as processing performance, core configuration, efficiency, platform support, integrated features, and thermal behavior.

When it matters: When you want to compare processors based on technical performance and available features.

Score components:

60.0%

4.4

Performance

18.0%

5.6

Cache & Architecture

10.0%

5.0

Memory & PCIe

7.0%

6.6

Power & Thermal

4.0%

8.0

Platform

1.0%

7.8

Integrated Graphics

Good
?

User score

What it is: A rating that combines user reviews and the total number of reviews received by the processor.

When it matters: When you want to know how a processor performs in real workloads and how reliable it is for gaming, productivity, and efficiency according to user feedback.

Score components:

70.0%

?

User reviews

30.0%

?

Popularity

  • 4.3
    Gaming

    Score components:

    30.0%

    3.1

    PassMark single-core benchmark score

    25.0%

    9.0

    Geekbench 6 single-core benchmark score

    20.0%

    3.4

    CPU boost clock speed

    17.0%

    1.6

    L3 cache

    8.0%

    1.8

    N. of physical cores

  • 2.0
    Video editing

    Score components:

    45.0%

    1.8

    Geekbench 6 multi-core benchmark score

    20.0%

    1.8

    N. of physical cores

    20.0%

    2.8

    CPU threads

    15.0%

    1.6

    L3 cache

  • No image
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Best prices in UK

    N/A~ £150

Best rankings

?

Available: ranking among products currently available (including other versions of this product).
All: ranking among all products in the database.

    Verdict

    The AMD Ryzen Embedded V1756B is a 14nm quad-core, eight-thread SoC based on the Zen microarchitecture (Great Horned Owl), featuring a base clock of 3.25 GHz and a boost speed of up to 3.6 GHz. Designed for embedded systems like thin clients, it integrates Radeon Vega 8 graphics and supports up to 32GB of dual-channel DDR4-3200 memory with a configurable TDP ranging from 35W to 54W. Its main pros include efficient multi-threaded performance for compact form factors, the ability to drive up to four independent 4K displays, and a long-lifecycle support roadmap. However, its primary cons are the aging 14nm process compared to modern chips, a lack of ECC memory support in some configurations, and lower single-thread performance compared to its desktop-class Ryzen counterparts.

    Technical Specifications of processor AMD Ryzen V1756b

    Technical Score

    What it is: An assessment of the processor's technical performance, covering key areas such as processing performance, core configuration, efficiency, platform support, integrated features, and thermal behavior.

    When it matters: When you want to compare processors based on technical performance and available features.

    Score components:

    60.0%

    ?

    Performance

    18.0%

    ?

    Cache & Architecture

    10.0%

    ?

    Memory & PCIe

    7.0%

    ?

    Power & Thermal

    4.0%

    ?

    Platform

    1.0%

    ?

    Integrated Graphics

    5.0
    AMD Ryzen V1756b has a technical score of 5.01 points, which is lower than that of 54.3% of products in this category.
    User score

    What it is: A rating that combines user reviews and the total number of reviews received by the processor.

    When it matters: When you want to know how a processor performs in real workloads and how reliable it is for gaming, productivity, and efficiency according to user feedback.

    Score components:

    70.0%

    0.0

    User reviews

    30.0%

    1.0

    Popularity

    ?
    Popularity
    What it is: An indicator based on the number of reviews received by the processor.
    When it matters: When you prefer to choose a processor reviewed and selected by many other buyers.
    1.0
    AMD Ryzen V1756b has a popularity of 1 points, which is higher than 0% of products in this category.
    Ratio quality/price

    What it is: An indicator that combines the processor's overall rating with its cost.

    When it matters: When you are looking for a processor with a good balance between performance, efficiency, and price.

    Score components:

    60.0%

    5.0

    Overall score

    40.0%

    9.7

    Price

    6.4
    AMD Ryzen V1756b has a quality-to-price ratio of 6.4 points, which is higher than 49.1% of products in this category.
    Brand name
    What it is: The manufacturer or brand of the product.
    When it matters: When you prefer a specific ecosystem, support network, or design philosophy.

    Importance: MEDIUM

    AMD
    Processor type
    What it is: The kind of system the processor is built for, such as desktop PCs, laptops, workstations, or servers.
    When it matters: When you want a processor meant for the kind of machine you are actually building or buying, rather than a chip aimed at a different class of system.

    Importance: HIGH

    embedded
    AMD Ryzen V1756b belongs to the embedded processor class, which is less advanced than that of 92.7% of processors and equal to that of 7.3% of processors.
    industrial/edge
    CPU socket
    What it is: The physical socket the processor fits into on the motherboard.
    When it matters: When you need to make sure the CPU can actually be installed on a specific motherboard.

    Importance: HIGH

    FP5
    AMD Ryzen V1756b uses the FP5 CPU socket, which is older than that of 56.4% of processors and equal to that of 3.3% of processors.
    Chipset
    What it is: The motherboard chipset families officially meant to work with the processor.
    When it matters: When you are checking whether a CPU will work with the motherboard features and platform you plan to use.

    Importance: HIGH

    N/A
    CPU architecture
    What it is: The processor family or design generation behind the chip, such as Zen 4 or Raptor Lake.
    When it matters: When you are comparing CPUs across generations and want a clearer sense of their design age, feature level, and expected performance class.

    Importance: HIGH

    x86-64
    AMD Ryzen V1756b uses the x86-64 architecture, which is more advanced than that of 1.7% of processors and equal to that of 98.3% of processors.
    Show more
    N. of physical cores
    What it is: The number of physical CPU cores on the processor.
    When it matters: When you run workloads that benefit from more real cores.

    Importance: HIGH

    Good value: 8+

    4
    AMD Ryzen V1756b has 4 CPU cores, which is fewer than 50.7% of processors and equal to 28.5% of processors.
    CPU threads
    What it is: The total number of processing threads the CPU can handle at once.
    When it matters: When you run heavily threaded workloads or multitask a lot.

    Importance: HIGH

    Good value: 16+

    8
    AMD Ryzen V1756b offers 8 CPU threads, which is more than 35.3% of processors and equal to 19% of processors.
    Threads per core
    What it is: The number of threads each physical core can handle at once.
    When it matters: When you want to understand how much thread-level parallelism each core can provide in multitasking or heavily threaded work.

    Importance: MEDIUM

    Good value: 2

    2
    AMD Ryzen V1756b offers 2 threads per core, which is more than 30.4% of processors and equal to 69.6% of processors.
    CPU boost clock speed
    What it is: The highest clock speed the processor can reach under boost conditions.
    When it matters: When you care about peak speed in short bursts.

    Importance: HIGH

    Good value: >4.7 GHz

    3.6 GHz
    AMD Ryzen V1756b reaches a boost clock of 3.6 GHz which is lower than that of 76.7% of processors and equal to that of 3.6% of processors.
    CPU base clock speed
    What it is: The processor's normal all-core starting frequency before boost behavior raises clocks temporarily.
    When it matters: When you care about steadier performance in longer workloads rather than short burst speed alone.

    Importance: MEDIUM

    4 x 3.25 GHz
    AMD Ryzen V1756b has a base clock of 4x3.25 GHz which is equal to that of 100% of processors.
    Show more
    Semiconductor size
    What it is: The manufacturing process node used to produce the processor, usually expressed in nanometers.
    When it matters: When efficiency, heat, and the relative modernity of the chip-making process matter to your comparison.

    Importance: HIGH

    Good value: <10 nm

    14 nm
    AMD Ryzen V1756b uses a 14 nm process node, which is older than that of 50.8% of processors and equal to that of 33.7% of processors.
    Foundry
    What it is: The semiconductor manufacturer that physically fabricates the processor chip.
    When it matters: When process source, manufacturing generation, or foundry differences matter to your comparison more than day-to-day performance alone.

    Importance: MEDIUM

    GlobalFoundries 14 nm
    AMD Ryzen V1756b is built on the GlobalFoundries 14 nm foundry process, which is less advanced than that of 50.8% of processors and equal to that of 4.4% of processors.
    L3 cache
    What it is: The total amount of L3 cache available on the processor.
    When it matters: When you want better performance in cache-sensitive workloads and games.

    Importance: MEDIUM

    Good value: >=16 MB

    4 MB
    AMD Ryzen V1756b has an L3 cache of 4 MB which is smaller than that of 70.2% of processors and equal to that of 14.6% of processors.
    L2 cache
    What it is: The total amount of L2 cache available across the processor.
    When it matters: When you want to compare CPU design efficiency and how much fast intermediate cache the cores have available.

    Importance: MEDIUM

    Good value: >=6 MB

    2 MB
    AMD Ryzen V1756b has an L2 cache of 2 MB which is smaller than that of 51.3% of processors and equal to that of 11.1% of processors.
    L1 cache
    What it is: The total amount of L1 cache built into the processor, which sits closest to the cores.
    When it matters: When you are comparing low-level CPU design details rather than the broader performance picture buyers usually notice first.

    Importance: MEDIUM

    Good value: >=512 KB

    384 KB
    AMD Ryzen V1756b has an L1 cache of 384 KB which is larger than that of 45% of processors and equal to that of 15.8% of processors.
    Show more
    DDR memory version
    What it is: The RAM generation the processor is designed to support, such as DDR4 or DDR5.
    When it matters: When you need the CPU to match the kind of memory platform you want to buy or reuse.

    Importance: MEDIUM

    Good value: DDR5

    DDR4
    AMD Ryzen V1756b supports DDR DDR4, which is newer than that of 26.3% of processors and equal to that of 31.7% of processors.
    Maximum memory speed
    What it is: The highest official memory speed supported by the processor.
    When it matters: When you choose RAM and want to know the supported speed ceiling.

    Importance: HIGH

    Good value: >=4800 MHz

    3,200 MHz
    AMD Ryzen V1756b supports memory speeds up to 3200 MHz, which is higher than that of 51.5% of processors and equal to 8.3% of processors.
    Max memory speed (JEDEC)
    What it is: The highest official RAM speed the processor supports under standard JEDEC settings, before any memory overclocking profiles are applied.
    When it matters: When officially supported stock RAM speed matters more than XMP, EXPO, or manual memory tuning.

    Importance: MEDIUM

    Good value: >=5600 MHz

    DDR4-3200 MHz
    AMD Ryzen V1756b supports JEDEC memory speeds up to DDR4-3200 MHz, which is higher than that of 51.1% of processors and equal to 8.4% of processors.
    Max memory speed (XMP / EXPO)
    What it is: The highest memory speed supported through XMP or EXPO profiles.
    When it matters: When you want faster RAM through memory profiles.

    Importance: MEDIUM

    Good value: >=5200 MHz

    N/A
    Maximum memory capacity
    What it is: The largest total amount of memory officially supported by the processor.
    When it matters: When you plan a system with very large RAM capacity.

    Importance: HIGH

    Good value: >=128 GB

    32 GB
    AMD Ryzen V1756b supports up to 32 GB of memory, which is less than 71.9% of processors and equal to 19.5% of processors.
    Show more
    Integrated graphics
    What it is: Includes built-in graphics, so the system can output video without a separate graphics card.
    When it matters: When you want the PC to work without a dedicated GPU, or you are building an office, media, compact, or troubleshooting-friendly system.

    Importance: HIGH

    yes
    AMD Ryzen V1756b includes integrated graphics. 87.6% of processors include integrated graphics.
    AMD Radeon Vega 8
    Integrated GPU model
    What it is: The model name of the integrated graphics processor, if present.
    When it matters: When you plan to use the CPU's built-in graphics.

    Importance: MEDIUM

    Radeon Vega 8
    AMD Ryzen V1756b uses the Radeon Vega 8 integrated GPU, which is more advanced than that in 72.8% of processors and equal to that in 3.4% of processors.
    Integrated GPU execution units
    What it is: The number of execution units available in the integrated graphics part of the processor.
    When it matters: When you plan to rely on built-in graphics and want a better sense of its light gaming, display, or media capability.

    Importance: MEDIUM

    Good value: >=24

    8
    AMD Ryzen V1756b has 8 GPU execution units, which is fewer than 74.1% of processors and equal to 7.2% of processors.
    Integrated GPU base frequency
    What it is: The base operating frequency of the integrated GPU.
    When it matters: When integrated graphics performance matters to you.

    Importance: MEDIUM

    Good value: >=350 MHz

    ?
    Integrated media encoders/decoders
    What it is: The hardware media formats the processor can encode or decode directly.
    When it matters: When you stream, edit video, or rely on hardware media acceleration.

    Importance: LOW

    H.264 (HW decode/encode), H.265 (HW decode/encode), VP9 (HW decode)
    AMD Ryzen V1756b supports H.264 (HW decode/encode), H.265 (HW decode/encode), VP9 (HW decode) media codecs, which is broader support than 56.2% of processors and equal to 9.5% of processors.
    Show more
    TDP (Thermal design power)
    What it is: The rated thermal design power, which gives a general idea of cooling and power needs.
    When it matters: When you choose a cooler or build in a tighter case.

    Importance: HIGH

    Good value: <30 W

    45 W
    AMD Ryzen V1756b has a TDP of 45 W which is lower than that of 39.9% of processors and equal to that of 11.4% of processors.
    Base power (PL1)
    What it is: The sustained power target used for longer CPU loads.
    When it matters: When you choose cooling and power delivery for sustained workloads.

    Importance: MEDIUM

    Good value: <30 W

    45 W
    AMD Ryzen V1756b has a base power of 45 W which is lower than that of 39.7% of processors and equal to that of 11.6% of processors.
    Boost power (PL2)
    What it is: The short-term boost power limit the processor may draw under heavier turbo loads.
    When it matters: When you size cooling and power delivery for peak turbo behavior.

    Importance: MEDIUM

    Good value: <50 W

    54 W
    AMD Ryzen V1756b has a boost power of 54 W which is lower than that of 62.1% of processors and equal to that of 4% of processors.
    Tau (power duration limit)
    What it is: The time limit the CPU can stay at higher boost power before dropping toward sustained power.
    When it matters: When you want to understand turbo behavior under longer loads.

    Importance: MEDIUM

    Good value: <=28 s

    N/A
    Configurable TDP
    What it is: Allows the processor to run in alternate power modes instead of being fixed to one default TDP target.
    When it matters: When you want more control over heat, noise, and power draw in compact systems, quieter builds, or thermally limited machines.

    Importance: LOW

    yes
    AMD Ryzen V1756b supports configurable TDP. 52.9% of processors support configurable TDP.
    cTDP: 35 W
    Show more

    AMD Ryzen V1756b vs the average processor

    • More advanced microarchitecture
      AMD Ryzen V1756b uses a more advanced microarchitecture than the average processor (Great Horned Owl vs Kaby Lake).
      What it is: The internal core-design codename used for this processor generation.
      When it matters: When you are comparing CPUs at a deeper design level and want to identify the exact architecture behind marketing names.

      Importance: LOW

      AMD Ryzen V1756b uses a more advanced microarchitecture than the average processor (Great Horned Owl vs Kaby Lake).Great Horned Owl vs Kaby Lake
    • 5 °C higher TJ Max
      AMD Ryzen V1756b has a higher TJ Max than the average processor (105 °C vs 100 °C). The average processor has a TJ Max of 100 °C.
      What it is: The highest safe operating junction temperature before the CPU starts throttling or protecting itself.
      When it matters: When you tune cooling or monitor thermals under load.

      Importance: LOW

      Good value: >=100 °C

      AMD Ryzen V1756b has a higher TJ Max than the average processor (105 °C vs 100 °C). The average processor has a TJ Max of 100 °C.105 °C vs 100 °C
    • Supports ECC memory
      AMD Ryzen V1756b supports ECC memory, the average processor does not.
      What it is: Can work with ECC memory, which helps detect and correct certain memory errors on supported platforms.
      When it matters: When long-term stability, uptime, or data integrity matter more than a basic consumer-style setup.

      Importance: MEDIUM

      AMD Ryzen V1756b supports ECC memory, the average processor does not.
    • Includes crypto acceleration
      AMD Ryzen V1756b includes crypto acceleration, the average processor does not.
      What it is: Built-in hardware support for accelerating encryption and cryptographic tasks.
      When it matters: When encryption speed or secure workloads matter to you.

      Importance: LOW

      AMD Ryzen V1756b includes crypto acceleration, the average processor does not.AES, SHA, RSA/PKA vs AES, SHA
    • 15.6% lower boost power
      AMD Ryzen V1756b has a lower boost power draw than the average processor (54 W vs 64 W). The average processor has a boost power draw of 64 W.
      What it is: The short-term boost power limit the processor may draw under heavier turbo loads.
      When it matters: When you size cooling and power delivery for peak turbo behavior.

      Importance: MEDIUM

      Good value: <50 W

      AMD Ryzen V1756b has a lower boost power draw than the average processor (54 W vs 64 W). The average processor has a boost power draw of 64 W.54 W vs 64 W
    • 1 more supported displays
      AMD Ryzen V1756b has more supported displays than the average processor (4 vs 3). The average processor supports 3 displays.
      What it is: The maximum number of displays the processor can drive at once.
      When it matters: When you plan a multi-monitor setup with integrated graphics.

      Importance: LOW

      Good value: 4

      AMD Ryzen V1756b has more supported displays than the average processor (4 vs 3). The average processor supports 3 displays.4 vs 3
    • Includes crypto acceleration
      AMD Ryzen V1756b includes crypto acceleration, the average processor does not.
    • More advanced microarchitecture
      AMD Ryzen V1756b uses a more advanced microarchitecture than the average processor (Great Horned Owl vs Kaby Lake).
    • Supports ECC memory
      AMD Ryzen V1756b supports ECC memory, the average processor does not.
    • 1 more supported displays
      AMD Ryzen V1756b has more supported displays than the average processor (4 vs 3). The average processor supports 3 displays.
    • 5 °C higher TJ Max
      AMD Ryzen V1756b has a higher TJ Max than the average processor (105 °C vs 100 °C). The average processor has a TJ Max of 100 °C.
    • 15.6% lower boost power
      AMD Ryzen V1756b has a lower boost power draw than the average processor (54 W vs 64 W). The average processor has a boost power draw of 64 W.
    • 2 year/s older release date
      AMD Ryzen V1756b has an older release date than the average processor (2,018 vs 2,020).
      February 2018
    • Older TPM support
      AMD Ryzen V1756b supports an older TPM version than the average processor (fTPM 2.0 vs PTT 2.0).
    • 16.3% lower boost clock
      AMD Ryzen V1756b has a lower boost clock speed than the average processor (3.6 GHz vs 4.3 GHz). The average processor reaches boost clock speed of 4.3 GHz.
    • 18% weaker single-core performance
      AMD Ryzen V1756b has a lower PassMark single-core score than the average processor (2,035 vs 2,483). The average processor scores 2,483 in PassMark single-core.
    • 2 fewer CPU cores
      AMD Ryzen V1756b has fewer CPU cores than the average processor (4 vs 6). The average processor has 6 CPU cores.
    • 46.4% lower multi-core score
      AMD Ryzen V1756b has a lower Geekbench 6 multi-core score than the average processor (2,571 vs 4,793). The average processor scores 4,793 in Geekbench 6 multi-core.
    • 23.8% lower PassMark score
      AMD Ryzen V1756b has a lower PassMark benchmark score than the average processor (8,022 vs 10,532.5). The average processor scores 10,532.5 in PassMark benchmark.
    • 41.7% less L3 per core
      AMD Ryzen V1756b has less L3 cache per core than the average processor (1 MB/core vs 1.714 MB/core). The average processor provides 1.714 MB/core of L3 cache per core.
    • 16.7% larger process node
      AMD Ryzen V1756b has a higher process node than the average processor (14 nm vs 12 nm). The average processor uses a process node of 12 nm.
    • 50% smaller L3 cache
      AMD Ryzen V1756b has a lower L3 cache than the average processor (4 MB vs 8 MB). The average processor has L3 cache of 8 MB.
    • 18% larger die size
      AMD Ryzen V1756b has a higher die size than the average processor (210 mm² vs 178 mm²). The average processor has a die size of 178 mm².
    • 20% smaller L2 cache
      AMD Ryzen V1756b has a lower L2 cache than the average processor (2 MB vs 2.5 MB). The average processor has L2 cache of 2.5 MB.
    • 50% less memory capacity
      AMD Ryzen V1756b has fewer maximum memory capacity than the average processor (32 GB vs 64 GB). The average processor supports 64 GB of memory.
    • 66.7% fewer GPU execution units
      AMD Ryzen V1756b has fewer GPU execution units than the average processor (8 vs 24). The average processor has 24 GPU execution units.
    • Narrower media codec support
      AMD Ryzen V1756b supports fewer media codecs than the average processor (H.264 (HW decode/encode), H.265 (HW decode/encode), VP9 (HW decode) vs H.264 (HW decode/encode), H.265 (HW decode/encode), VP9 (HW decode/encode), AV1 (HW decode)).
    • 5 °C higher CPU temperature
      AMD Ryzen V1756b has a higher CPU temperature than the average processor (105 °C vs 100 °C). The average processor runs at a CPU temperature of 100 °C.
    • 16.3% lower boost clock
      AMD Ryzen V1756b has a lower boost clock speed than the average processor (3.6 GHz vs 4.3 GHz). The average processor reaches boost clock speed of 4.3 GHz.
      What it is: The highest clock speed the processor can reach under boost conditions.
      When it matters: When you care about peak speed in short bursts.

      Importance: HIGH

      Good value: >4.7 GHz

      AMD Ryzen V1756b has a lower boost clock speed than the average processor (3.6 GHz vs 4.3 GHz). The average processor reaches boost clock speed of 4.3 GHz.3.6 GHz vs 4.3 GHz
    • 41.7% less L3 per core
      AMD Ryzen V1756b has less L3 cache per core than the average processor (1 MB/core vs 1.714 MB/core). The average processor provides 1.714 MB/core of L3 cache per core.
      What it is: The amount of L3 cache effectively available per CPU core.
      When it matters: When you are comparing how much shared cache each core can draw on in deeper technical analysis.

      Importance: MEDIUM

      Good value: >=2 MB/core

      AMD Ryzen V1756b has less L3 cache per core than the average processor (1 MB/core vs 1.714 MB/core). The average processor provides 1.714 MB/core of L3 cache per core.1 MB/core vs 1.714 MB/core
    • 2 fewer CPU cores
      AMD Ryzen V1756b has fewer CPU cores than the average processor (4 vs 6). The average processor has 6 CPU cores.
      What it is: The number of physical CPU cores on the processor.
      When it matters: When you run workloads that benefit from more real cores.

      Importance: HIGH

      Good value: 8+

      AMD Ryzen V1756b has fewer CPU cores than the average processor (4 vs 6). The average processor has 6 CPU cores.4 vs 6
    • 18% weaker single-core performance
      AMD Ryzen V1756b has a lower PassMark single-core score than the average processor (2,035 vs 2,483). The average processor scores 2,483 in PassMark single-core.
      What it is: A benchmark score that reflects single-core CPU performance.
      When it matters: When you care about responsiveness in lighter or older software.

      Importance: HIGH

      Good value: >3200

      AMD Ryzen V1756b has a lower PassMark single-core score than the average processor (2,035 vs 2,483). The average processor scores 2,483 in PassMark single-core.2,035 vs 2,483
    • 46.4% lower multi-core score
      AMD Ryzen V1756b has a lower Geekbench 6 multi-core score than the average processor (2,571 vs 4,793). The average processor scores 4,793 in Geekbench 6 multi-core.
      What it is: A Geekbench 6 score that reflects multi-core CPU performance in mixed modern workloads.
      When it matters: When you want a quick picture of multi-core speed in everyday mixed workloads, multitasking, and broadly optimized software.

      Importance: HIGH

      Good value: >8500

      AMD Ryzen V1756b has a lower Geekbench 6 multi-core score than the average processor (2,571 vs 4,793). The average processor scores 4,793 in Geekbench 6 multi-core.2,571 vs 4,793
    • 16.7% larger process node
      AMD Ryzen V1756b has a higher process node than the average processor (14 nm vs 12 nm). The average processor uses a process node of 12 nm.
      What it is: The manufacturing process node used to produce the processor, usually expressed in nanometers.
      When it matters: When efficiency, heat, and the relative modernity of the chip-making process matter to your comparison.

      Importance: HIGH

      Good value: <10 nm

      AMD Ryzen V1756b has a higher process node than the average processor (14 nm vs 12 nm). The average processor uses a process node of 12 nm.14 nm vs 12 nm
    • 50% smaller L3 cache
      AMD Ryzen V1756b has a lower L3 cache than the average processor (4 MB vs 8 MB). The average processor has L3 cache of 8 MB.
      What it is: The total amount of L3 cache available on the processor.
      When it matters: When you want better performance in cache-sensitive workloads and games.

      Importance: MEDIUM

      Good value: >=16 MB

      AMD Ryzen V1756b has a lower L3 cache than the average processor (4 MB vs 8 MB). The average processor has L3 cache of 8 MB.4 MB vs 8 MB
    • 5 °C higher CPU temperature
      AMD Ryzen V1756b has a higher CPU temperature than the average processor (105 °C vs 100 °C). The average processor runs at a CPU temperature of 100 °C.
      What it is: The reported operating temperature of the processor.
      When it matters: When you monitor thermals, cooling, or system stability.

      Importance: LOW

      Good value: <100 °C

      AMD Ryzen V1756b has a higher CPU temperature than the average processor (105 °C vs 100 °C). The average processor runs at a CPU temperature of 100 °C.105 °C vs 100 °C

    Graphic comparison of AMD Ryzen V1756b and other processors

    Attribute category
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    Third-party reviews

    What customers like about AMD Ryzen V1756b?

    • Integrated Radeon Vega 8 graphics provide capable performance for basic tasks and light gaming without a discrete card.
    • Supports up to four independent 4K displays, making it ideal for digital signage and multi-monitor setups.
    • Efficient power consumption (45W TDP) allows for use in small form factor PCs and potentially passive cooling systems.
    • Long-term industrial support ensures availability and stable supply for enterprise use through 2030.
    • Simultaneous Multithreading (SMT) effectively doubles the 4 cores to 8 threads for better multitasking and virtualization performance.

    What customers dislike about AMD Ryzen V1756b?

    • Uses an outdated 14nm process technology which can lead to high heat generation under sustained peak loads.
    • The 4MB L3 cache is relatively small, which can be a bottleneck in demanding multi-threaded applications.
    • Lacks PCIe 4.0/5.0 support, limiting maximum data transfer speeds for modern NVMe SSDs.
    • The multiplier is locked, preventing users from overclocking to gain extra performance.
    • Generally slower in both single-thread and multi-thread performance compared to newer consumer Ryzen 5 or competing Intel i7 desktop chips.

    Expert reviews

    C
    cpubenchmark.net
    30/03/2026

    The AMD Ryzen Embedded V1756B is a 14nm Zen "Great Horned Owl" SoC with 4 cores, 8 threads, and integrated Radeon Vega 8 graphics, designed for industrial, digital signage, and medical imaging applications with a flexible 35W–54W TDP. PassMark data highlights a CPU mark of approximately 8,022, offering reliable performance for embedded tasks. Key advantages include support for up to...Read more

    S
    servethehome.com
    08/06/2020

    The HP T740 thin client, analyzed by ServeTheHome, stands out in the "TinyMiniMicro" category by utilizing an AMD Ryzen Embedded V1756B quad-core processor to offer server-grade performance, often compared to an Intel Core i5-8500T. A key differentiator is its internal 80mm cooling fan and a low-profile PCIe Gen3 x8 slot (riser card included), enabling high-speed network cards...Read more

    V
    valid.x86.fr
    01/03/2026

    This CPU-Z validation highlights a high-performance system featuring an AMD Ryzen 9 5900X processor paired with 32GB of DDR4 memory and an MSI MPG X570 motherboard. The 12-core, 24-thread configuration demonstrates exceptional multi-threaded performance and high IPC for gaming, characteristic of the Zen 3 architecture. Key pros include the robust X570 platform supporting PCIe 4.0...Read more

    V
    valid.x86.fr
    01/11/2025

    The AMD Ryzen 3 3300X, as shown in CPU-Z benchmark 3305y3, is a 4-core, 8-thread Zen 2 processor that delivers exceptional single-core performance suitable for budget gaming and light productivity. Pros include high single-thread IPC, strong efficiency due to the 7nm process, and an unlocked multiplier for overclocking headroom. However, cons include limited multi-threaded...Read more

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