Intel Core i5-3470S
VS
AMD Epyc 7551P

Intel Core i5-3470S vs AMD Epyc 7551P Comparison by technical specs (TDP, performance, memory, compatibility). CPU performance analysis in the benchmark comparison (in the mode of a single core and all the cores).

VS

Which CPU is better for gaming and apps?

A comparative analysis of the technical specifications of Intel Core i5-3470S and AMD Epyc 7551P reveals which model is better suited for gaming and operational apps. We recommend paying attention to the yellow-highlighted specs, as these are the most important factors to consider when choosing a CPU for these purposes.

CPU Cores and Base Frequency

The number of cores and the base frequency are two important factors that affect the CPU's performance. A CPU with more cores can simultaneously execute more tasks, and a CPU with a higher base frequency can execute tasks faster.

2.90 GHz
Frequency
2.00 GHz
4
CPU Cores
32
3.60 GHz
Turbo (1 Core)
3.00 GHz
4
CPU Threads
64
No
Hyperthreading
Yes
No
Overclocking
No
No turbo
Turbo (4 Cores)
no data
no data
Turbo (32 Cores)
2.55 GHz

Internal Graphics

Intel HD Graphics 2500
GPU name
0.65 GHz
GPU frequency
1.10 GHz
GPU (Turbo)
No turbo
7
Generation
11.0
DirectX Version
6
Execution units
48
Shader
--
Max. Memory
--
3
Max. displays
22 nm
Technology
Q2/2012
Release date

Hardware codec support

Decode / Encode
h264
No
Decode
JPEG
No
No
h265 8bit
No
No
h265 10bit
No
No
VP8
No
No
VP9
No
Decode
VC-1
No
Decode / Encode
AVC
No

RAM and PCIe

The memory and PCIe specifications of a processor are important factors to consider when choosing a processor for your needs. If you need a processor with high memory capacity and a fast memory clock speed for gaming or other demanding applications, then you should choose a processor with a high-end memory and PCIe configuration.

DDR3-1600
Memory type
DDR4-2666
32 GB
Max. Memory
2
Memory channels
8
No
ECC
Yes
3.0
PCIe version
3.0
16
PCIe lanes
128

Encryption

Yes
AES-NI
Yes

Thermal Management

Thermal Design Power (TDP) is a measure of the amount of heat that a processor dissipates when operating. The higher the TDP, the more heat the processor dissipates and the more powerful the cooling system needs to be to prevent it from overheating.

When choosing a processor, it is important to consider the TDP 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 measures the heat a processor dissipates. Higher TDP requires more powerful cooling.

65 W
TDP
180 W
--
Tjunction max.
--
--
TDP up
--
--
TDP down
--

Technical details

6.00 MB
L3-Cache
64.00 MB
22 nm
Technology
14 nm
Ivy Bridge
Architecture
Zen
VT-x, VT-x EPT, VT-d
Virtualization
AMD-V, SEV
LGA 1155
Socket
SP3
Q2/2012
Release date
Q3/2017
ca. 184 $
Market price
ca. 2750 $

Devices using this processor

Unknown
Used in
Unknown

CPU generation and family

Intel Core i5-3470S vs AMD Epyc 7551P

Which to buy

The benchmark comparison of Intel Core i5-3470S and AMD Epyc 7551P allows defining which CPU is currently better, more modern and efficient. The more points, the better.

Compare Benchmarks

Real world tests of Intel Core i5-3470S vs AMD Epyc 7551P:

Cinebench R15 (Single-Core)

Cinebench R15 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 R15 is a reliable and accurate benchmark that can be used to compare the performance of different CPUs. The single-core test in Cinebench R15 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 R15 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. Here are some of the factors that can affect the Cinebench R15 single-core score: The CPU's clock speed The CPU's cache size The CPU's architecture The CPU's thermal throttling The Cinebench R15 single-core score is a good way to compare the performance of different CPUs, but it is important to note that it is not the only factor that affects CPU performance. Other factors, such as the CPU's multi-core performance, memory bandwidth, and storage performance, can also affect overall system performance.

Cinebench R15 (Multi-Core)

Cinebench R15 is a multi-core CPU benchmark based on the Cinema 4D rendering engine. It measures the performance of all CPU cores. The higher the score, the better the CPU's performance.

iGPU - FP32 Performance (Single-precision GFLOPS)

FP32 Performance (Single-precision GFLOPS) is a measure of the floating-point performance of an integrated graphics processing unit (iGPU). It is measured in gigaflops (GFLOPs), which is a billion floating-point operations per second. The higher the GFLOPs, the better the iGPU's floating-point performance. Floating-point performance is important for tasks that require a lot of calculations, such as video editing, 3D rendering, and scientific computing.

Geekbench 5, 64bit (Single-Core)

Measures the performance of a single CPU core. Higher score means better performance. Used to compare the performance of different CPUs.

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.

Geekbench 3, 64bit (Single-Core)

Geekbench 3, 64bit (Single-Core) is a benchmark that measures the single-core performance of a processor. It is a cross-platform benchmark that is available for Windows, macOS, and Linux. The benchmark uses a set of real-world tasks to measure the performance of the processor, and it reports the results in points. 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.

Geekbench 3, 64bit (Multi-Core)

Geekbench 3, 64bit (Multi-Core) is a cross-platform benchmark that measures the multi-core performance of a processor. It uses a set of real-world tasks to measure the performance of the processor, and it reports the results in points. 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.

Cinebench R11.5, 64bit (Single-Core)

Cinebench R11.5, 64bit (Single-Core) is a free and open-source benchmark tool that measures the performance of a single CPU core. It is based on the Cinema 4D Suite, a popular 3D animation software. Cinebench R11.5, 64bit (Single-Core) is a good way to compare the single-core performance of different CPUs. It can also be used to test the stability of a CPU.

Cinebench R11.5, 64bit (Multi-Core)

Cinebench R11.5, 64bit (Multi-Core) is a free cross platform 3D benchmark. It is based on the Cinema 4D animation software and it evaluates the rendering performance of a computer. Cinebench R11.5, 64bit (Multi-Core) is a good way to compare the performance of different CPUs and GPUs.

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.