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Ryzen 7 2700x Vs Ryzen 5 3600

AMD Ryzen 7 2700XCPU1 vs CPU2AMD Ryzen 5 3600
AMD Ryzen 7 2700XAMD Ryzen 5 3600

CPU comparison

Ryzen 5 3600 or AMD Ryzen 7 2700X? We examine which of these two CPUs is superior in this comparison. We contrast the benchmark results with technical data.

With 8 cores and 16 threads, the AMD Ryzen 7 2700X can run at a top speed of 4.30 GHz. Memory is supported in 2 (Dual Channel) memory channels up to 64 GB. In Q2 of 2018, AMD Ryzen 7 2700X became available. There are many competitors of AMD Ryzen 5 3600 like AMD Ryzen 7 2700X. One of the deadly comparisons we have done between AMD Ryzen 5 3600 Vs 5600x is to help you guys pick the best GPU in your range.

The AMD Ryzen 5 3600 has six cores, twelve threads, and a maximum clock speed of 4.20 GHz. The CPU can accommodate 2 (Dual Channel) memory channels with a total capacity of 128 GB. In Q3 of 2019, AMD Ryzen 5 3600 became available. If you are confused between several GPUs while having AMD Ryzen 5 3600 then don’t worry we have picked some best GPUs for AMD Ryzen 5 3600 that are highly compatible with this processor and can give you an amazing gaming experience.

AMD Ryzen 7FamilyAMD Ryzen 5
AMD Ryzen 2000CPU groupAMD Ryzen 3000
2Generation3
Pinnacle Ridge (Zen+)ArchitectureMatisse (Zen 2)
Desktop / ServerSegmentDesktop / Server
PredecessorAMD Ryzen 5 2600
AMD Ryzen 7 3700XSuccessor

CPU Cores and Base Frequency

You can see here whether the AMD Ryzen 7 2700X or AMD Ryzen 5 3600 can be overclocked in addition to the number of CPU cores and threads. Additionally, you may discover here the processor’s single-core and multi-core clock frequencies. The processor’s speed is significantly influenced by the number of CPU cores.

8Cores6
16Threads12
normalCore architecturenormal
YesHyperthreadingYes
YesOverclocking ?Yes
3.70 GHzFrequency3.60 GHz
4.30 GHzTurbo Frequency (1 Core)4.20 GHz
3.85 GHzTurbo Frequency (All Cores)4.00 GHz

Internal Graphics

Integrated graphics, or iGPU for short, are present in the AMD Ryzen 7 2700X or AMD Ryzen 5 3600 processors. The iGPU, which resides on the processor’s die, uses the system’s main memory as graphics memory. APU is another name for a processor with integrated graphics (Accelerated Processing Unit).

no iGPUGPUno iGPU
GPU frequency
GPU (Turbo)
GPU Generation
Technology
Max. displays
Execution units
Shader
Max. GPU Memory
DirectX Version

Hardware codec support

When playing videos, a photo or video codec that is hardware accelerated can significantly increase a processor’s working speed and prolong the battery life of laptops or smartphones.

NoCodec h265 / HEVC (8 bit)No
NoCodec h265 / HEVC (10 bit)No
NoCodec h264No
NoCodec VP9No
NoCodec VP8No
NoCodec AV1No
NoCodec AVCNo
NoCodec VC-1No
NoCodec JPEGNo

Memory & PCIe

The amount and type of memory have a significant impact on the processor’s speed. The memory bandwidth, which is measured in gigabytes per second, depends on a number of variables.

DDR4-2933MemoryDDR4-3200
64 GBMax. Memory128 GB
2 (Dual Channel)Memory channels2 (Dual Channel)
46.9 GB/sBandwidth51.2 GB/s
YesECCYes
L2 Cache
16.00 MBL3 Cache32.00 MB
3.0PCIe version4.0
20PCIe lanes20

Thermal Management

The cooling system required to keep the processor cool enough is specified by the Thermal Design Power, or TDP. The TDP typically only provides a general idea of a CPU’s actual consumption.

105 WTDP (PL1)65 W
TDP (PL2)
TDP up
TDP down
95 °CTjunction max.95 °C

Technical details

Here, you can find details about the AMD Ryzen 7 2700X or AMD Ryzen 5 3600’s level 2 and level 3 cache sizes as well as a list of the processors’ ISA extensions. We have provided you with documentation about the architecture, the manufacturing technology, and the release date.

12 nmTechnology7 nm
ChipletChip designChiplet
x86-64 (64 bit)Instruction set (ISA)x86-64 (64 bit)
SSE4a, SSE4.1, SSE4.2, AVX2, FMA3ISA extensionsSSE4a, SSE4.1, SSE4.2, AVX2, FMA3
AM4 (LGA 1331)SocketAM4 (LGA 1331)
AMD-V, SVMVirtualizationAMD-V, SVM
YesAES-NIYes
Windows 10, Windows 11, LinuxOperating systemsWindows 10, Windows 11, Linux
Q2/2018Release dateQ3/2019
320 $Release price185 $

Cinebench R23 (Single-Core)

The successor to Cinebench R20, Cinebench R23, is also built on the Cinema 4 Suite. A widely used piece of software to create 3D forms is Cinema 4. The number of cores or the capacity for hyperthreading are irrelevant in the single-core test because only one CPU core is used.

Cinebench R23 (Multi-Core)

The sequel to Cinebench R20, Cinebench R23, is also built on the Cinema 4 Suite. A widely used piece of software to build 3D forms is Cinema 4. All CPU cores are used in the multi-core test, which greatly benefits from hyperthreading.

Cinebench R20 (Single-Core)

The replacement for Cinebench R15, Cinebench R20, is built on the Cinema 4 Suite. A widely used piece of software to build 3D forms is Cinema 4. The number of cores or the capacity for hyperthreading are irrelevant in the single-core test because only one CPU core is used.

Cinebench R20 (Multi-Core)

The replacement for Cinebench R15, Cinebench R20, is built on the Cinema 4 Suite. A widely used piece of software to build 3D forms is Cinema 4. All CPU cores are used in the multi-core test, which greatly benefits from hyperthreading.

Geekbench 5, 64bit (Single-Core)

Cross-platform benchmark Geekbench 5 makes heavy use of the computer’s memory. A quick memory will greatly accelerate the outcome. The number of cores or the capacity for hyperthreading are irrelevant in the single-core test because only one CPU core is used.

Geekbench 5, 64bit (Multi-Core)

Cross-platform benchmark Geekbench 5 makes heavy use of the computer’s memory. A quick memory will greatly accelerate the outcome. All CPU cores are used in the multi-core test, which greatly benefits from hyperthreading.

CPU-Z Benchmark 17 (Single-Core)

By tracking how long it takes a system to finish all benchmark calculations, the CPU-Z benchmark gauges a processor’s efficiency. The higher the score, the quicker the benchmark must be completed.

CPU-Z Benchmark 17 (Multi-Core)

By tracking the amount of time it takes a system to complete all benchmark calculations, the CPU-Z benchmark gauges a processor’s performance. The score is based on how quickly the benchmark is completed.

Blender 3.1 Benchmark

The scenes “monster,” “junkshop,” and “classroom” are rendered as part of the Blender Benchmark 3.1, and the system’s rendering time is recorded. In our benchmark, the CPU, not the graphics card, is tested. In March 2022, Blender 3.1 was unveiled as a stand-alone version.

Estimated results for Pass Mark CPU Mark

The CPU-monkey benchmark has been applied to some of the CPUs listed below. The majority of CPUs, however, have not been put to the test, and the results have been calculated using a CPU-monkey proprietary secret formula. As a result, they are not supported by Pass Mark Software Pty Ltd. and do not accurately reflect the actual Pass mark CPU mark values.

Blender 2.81 (bmw27)

Free 3D graphics software called Blender can be used to render (create) 3D bodies, which can then be animated and given textures. The Blender benchmark builds predefined scenes and counts the number of seconds needed to complete each scene. The better, the less time is needed. The benchmark scene that we chose is bmw27.

V-Ray CPU-Render Benchmark

V-Ray is a 3D rendering programme for designers and artists from the company Chaos. Contrary to many other render engines, V-Ray has the ability to perform simultaneous CPU and GPU-based hybrid rendering.

The CPU test (CPU Render Mode) we utilised, however, solely makes use of the system’s processor. The V-Ray benchmark heavily relies on the working memory used. We use the quickest RAM standard permitted by the vendor for our benchmarks (without overclocking).

V-Ray is a widely used software because of its high level of compatibility, which includes Autodesk 3ds Max, Maya, Cinema 4D, SketchUp, Unreal Engine, and Blender. V-Ray, for instance, may be used to produce photos that are so realistic that the average person cannot tell them apart from regular photographs.

Monero Hashrate kH/s

Since November 2019, the crypto currency Monero has started utilising the RandomX algorithm. Only a processor (CPU) or graphics card can be used to calculate this PoW (proof of work) algorithm effectively (GPU). Up until November 2019, Monero employed the CryptoNight algorithm, although ASICs could calculate it. High CPU core counts, cache, and quick memory connections across as many memory channels as possible are all advantages of RandomX. tested using the HiveOS operating system and XMRig v6.x.

You can sign up with the cryptocurrency broker Kraken.com to trade Monero. We have been patrons there for a while and have thus far been extremely happy.

Cinebench R15 (Single-Core)

The successor to Cinebench 11.5 is Cinebench R15, which is also built on the Cinema 4 Suite. A widely used piece of software to create 3D forms is Cinema 4. The number of cores or the capacity for hyperthreading are irrelevant in the single-core test because only one CPU core is used.

Cinebench R15 (Multi-Core)

The successor to Cinebench 11.5 is Cinebench R15, which is also built on the Cinema 4 Suite. A widely used piece of software to create 3D forms is Cinema 4. All CPU cores are used in the multi-core test, which greatly benefits from hyperthreading.

Geekbench 3, 64bit (Single-Core)

Cross-platform benchmark Geekbench 3 makes heavy use of the computer’s memory. A quick memory will greatly accelerate the outcome. The number of cores or the capacity for hyperthreading are irrelevant in the single-core test because only one CPU core is used.

Geekbench 3, 64bit (Multi-Core)

Cross-platform benchmark Geekbench 3 makes heavy use of the computer’s memory. A quick memory will greatly accelerate the outcome. All CPU cores are used in the multi-core test, which greatly benefits from hyperthreading.

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

The Cinema 4D Suite, a programmed widely used to create forms and other 3D objects, is the foundation for Cinebench 11.5’s functionality. The number of cores or the capacity for hyperthreading are irrelevant in the single-core test because only one CPU core is used.

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

The Cinema 4D Suite, a programmed widely used to create forms and other 3D objects, is the foundation for Cinebench 11.5’s functionality. All CPU cores are used in the multi-core test, which greatly benefits from hyperthreading.

AMD Ryzen 7 2700XAMD Ryzen 5 3600
Captiva Workstation PC Ryzen 7 2700X
Acer Nitro N50-100 Ryzen 7 2700X
HP EliteDesk 705 G4 Workstation Edition MT Ryzen 7 PRO 2700X (6TL46EA#ABD)
One Gaming PC Ryzen 5 3600
Lenono IdeaCentre T540-15AMA G
HP Pavilion Gaming TG01-0201ng schwarz (9HP03EA#ABD)

FAQs

CONCLUSION. In order to put the gaming differences into perspective, either CPU will function in games essentially the same. According to my findings, the R5 3600 performed 5% better in every game. The Ryzen 5 2700x will cost an additional $95, or 51% more money, compared to the Ryzen 5 3600’s $175 USD price tag.

Intel Core i7-9700K

Features

Row 0 – Cell 0Intel Core i7-9700KAMD Ryzen 7 2700X
Socket1151AM4
Cores / Threads8/88/16
Base Frequency (GHz)3.63.7
Boost Frequency(Active Cores – GHz)1 Core – 4.92 Cores – 4.84 Cores – 4.78 Cores – 4.64.3GHz

Would an RTX 3080 be slowed down by a Ryzen 7 2700X? – Quora. Yes, at 1080p resolution. A slight improvement will be made by overclocking the CPU. Compared to the GPU, 1080p is more CPU constrained.

Yes, the new RTX 3070 will function flawlessly with the Ryzen 7 3700X. Any Ryzen processor from generation 3 or later that has at least 6 cores and 12 threads will function flawlessly.

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