AMD Epyc 7702 Benchmark, Test and specs

Processor Name: AMD Epyc 7702

Technology: 7 nm

Architecture: Rome (Zen 2)

CPU Cores: 64

Memory Type: DDR4-3200

Memory Channels: 8

PCI Version: 4.0

Cores Threads: 128

Frequency: 2.00 GHz

Turbo-One-Core: 3.35 GHz

Socket: SP3

L2-Cache:

L3-Cache: 256.00 MB

Release Date: Q3/2019

PCIe Lanes: 128

Max. Memory:

AMD Epyc 7702 is a powerful processor that offers superb performance for a variety of tasks, including gaming, video editing, and content creation. It features 64 cores and 128 threads, which provide the power to multitask with ease. AMD Epyc 7702 also has a high clock speed of 2.00 GHz, which ensures smooth and responsive performance. For even more performance, AMD Epyc 7702 can be overclocked to 3.35 GHz.

AMD Epyc 7702 is built on the 7 nm process, which makes it highly efficient and power-saving. It also supports the latest 4.0 PCI standard, which ensures compatibility with the latest hardware. AMD Epyc 7702 is available in the SP3 socket, which is widely supported by motherboards.

AMD Epyc 7702 is the perfect processor for anyone looking for a powerful and versatile option for their PC. It offers superb performance for a variety of tasks, and it is built on the latest technology for efficiency and compatibility.

AMD Epyc 7702 Benefits:

  • Powerful performance for gaming, video editing, and content creation
  • 64 cores and 128 threads for multitasking
  • High clock speed of 2.00 GHz for smooth and responsive performance
  • Overclockable to 3.35 GHz for even more performance
  • Built on the 7 nm process for efficiency and power-saving
  • Supports the latest 4.0 PCI standard for compatibility with the latest hardware
  • Available in the SP3 socket for wide motherboard compatibility

If you are looking for a powerful and versatile processor for your PC, AMD Epyc 7702 is the perfect choice. It offers superb performance for a variety of tasks, and it is built on the latest technology for efficiency and compatibility.

AMD Epyc 7702 specs and benchmark performance

The official technical specifications of the AMD Epyc 7702 CPU can be used to determine its speed and efficiency, as well as the system requirements for games and other applications. Please learn more about the specs and benchmark results.

CPU Cores and Base Frequency AMD Epyc 7702

  • Cores are the number of processing units in a CPU. The CPU cores are responsible for executing tasks. The more cores a CPU has, the more tasks it can execute simultaneously.
  • Base frequency is the CPU's clock speed. It is measured in gigahertz (GHz). The higher the base frequency, the faster the CPU can run.
Frequency: 2.00 GHz   CPU Cores: 64
Turbo (1 Core): 3.35 GHz   CPU Threads: 128
Hyperthreading: Yes   Overclocking: No
Turbo (64 Cores): 2.50 GHz  

Internal Graphics AMD Epyc 7702

GPU (Turbo): No turbo   Max. Memory: --

Hardware codec support AMD Epyc 7702

h264: No
JPEG: No
h265 8bit: No
h265 10bit: No
VP8: No
VP9: No
VC-1: No
AVC: No

RAM and PCIe AMD Epyc 7702

The memory and PCIe specifications allow users to choose a configuration that meets their needs. For example, a user who needs high performance for gaming can choose a processor with a large amount of memory and a high memory clock speed.

Memory type: DDR4-3200   Memory channels: 8
ECC: Yes   PCIe version: 4.0
PCIe lanes: 128  

Encryption AMD Epyc 7702

AES-NI: Yes  

Thermal Management AMD Epyc 7702

Thermal Design Power (TDP) is a measure of the amount of heat that a processor produces. TDP is important because it determines the type of cooling that is required for a processor. Processors with a higher TDP require more powerful cooling to prevent them from overheating.

TDP is measured in watts (W). The TDP of a processor is typically specified by the manufacturer.

When choosing a AMD Epyc 7702 processor, it is important to consider the TDP of the processor and the type of cooling that is available. Processors with a higher TDP will require more powerful cooling, which may require a more expensive motherboard or case.

TDP: 200 W   Tjunction max.: --
TDP up: --   TDP down: --

Technical details AMD Epyc 7702

L3-Cache: 256.00 MB   Technology: 7 nm
Architecture: Rome (Zen 2)   Virtualization: AMD-V, SEV
Socket: SP3   Release date: Q3/2019
Market price: ca. 8000 $  

Devices using this processor AMD Epyc 7702

Used in: Unknown

AMD Epyc 7702 CPU in Benchmarks

Please learn the testing results of the AMD Epyc 7702 CPU in synthetic benchmarks. These data can define the closest competitor and its current position in the models’ rating. Here are points in modern benchmarks, in which AMD Epyc 7702 has been tested. Pay attention that the data can differ in testing systems.

Cinebench R20 (Single-Core)

Cinebench R20 is a cross-platform testing tool that measures CPU performance. It is based on the Cinema 4D rendering engine, which is used by professional animators and designers. Cinebench R20 is a reliable and accurate benchmark that can be used to compare the performance of different CPUs. The single-core test in Cinebench R20 measures the performance of a single CPU core. This is a good test for measuring the CPU's raw processing power. The higher the score, the better the CPU's performance. The Cinebench R20 single-core test is a good way to compare the performance of different CPUs. It is a reliable and accurate benchmark that can be used to measure the CPU's raw processing power.

Cinebench R20 (Multi-Core)

Cinebench R20 is a cross-platform testing tool that measures CPU performance. It is based on the Cinema 4D rendering engine, which is used by professional animators and designers. Cinebench R20 is a reliable and accurate benchmark that can be used to compare the performance of different CPUs. The multi-core test in Cinebench R20 measures the performance of all CPU cores. This is a good test for measuring the CPU's ability to handle multiple tasks simultaneously. The higher the score, the better the CPU's performance. The Cinebench R20 multi-core test is a good way to compare the performance of different CPUs. It is a reliable and accurate benchmark that can be used to measure the CPU's ability to handle multiple tasks simultaneously.

Cinebench R23 (Multi-Core)

Cinebench R23 (Multi-Core) is a free cross-platform hardware benchmark that measures the performance of a computer's processor. It is based on Maxon Cinema 4D, a popular 3D rendering software application. Cinebench R23 (Multi-Core) uses a multi-threaded test to measure the performance of all of the cores in a processor. The higher the score, the better the performance.

Geekbench 5, 64bit (Multi-Core)

Geekbench 5, 64bit (Multi-Core) is a cross-platform benchmark that measures the multi-core performance of a processor. It uses a set of tasks that require a lot of resources to get an accurate result. Geekbench 5, 64bit (Multi-Core) is a good way to compare the performance of different processors, as well as to learn how changes to settings can affect performance.

Blender 2.81 (bmw27)

Blender 2.81 (bmw27) is a benchmark that measures the performance of a processor in rendering a 3D model of a BMW 27. It is a cross-platform benchmark that is available for Windows, macOS, and Linux. The benchmark uses the Cycles render engine to render the model, and it measures the time it takes to render the image. The benchmark can be used to compare the performance of different processors, and it can also be used to learn how changes to settings can affect performance.

Estimated results for PassMark CPU Mark

The PassMark CPU Mark is a benchmark that measures the performance of a computer's central processing unit (CPU). The benchmark is based on a variety of tests, including single-threaded performance, multi-threaded performance, and memory performance. The PassMark CPU Mark is a good way to compare the performance of different CPUs, and it can also be used to track the performance of a CPU over time.

Monero Hashrate kH/s

Monero Hashrate kH/s Benchmark Results. This is a benchmark of the hashrate of Monero mining on different CPUs and GPUs. The results show that the AMD Ryzen 9 5950X CPU has the highest hashrate, followed by the NVIDIA GeForce RTX 3090 GPU. The results also show that the hashrate of Monero mining is affected by the memory type used. The hashrate is higher when using DDR4 memory than when using DDR3 memory.

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