AMD Ryzen 7 4700 vs Intel Celeron N3150

Which to select

What to choose and what is the difference between AMD Ryzen 7 4700 and Intel Celeron N3150? Which processor is more powerful and faster to accomplish your task? The processor with the best specifications and a winner in benchmarks is your choice!

CPU generation and family

Processor nomenclature, family, group and segment.

AMD Ryzen 7 4700

Name

no data

Desktop / Server

Segment

no data

AMD Ryzen 4000G

CPU group

no data

AMD Ryzen 7

Family

no data

Generation

no data

Predecessor

no data

Successor

no data

CPU Cores and Base Frequency

What to choose AMD Ryzen 7 4700 or Intel Celeron N3150? The greater the value of the characteristic (highlighted in green), the better.

3.60 GHz

Frequency

1.60 GHz

no data

CPU Cores

no data

Turbo (1 Core)

2.08 GHz

no data

CPU Threads

no data

Hyperthreading

Yes

Overclocking

no data

Turbo (4 Cores)

2.08 GHz

normal

Core architecture

no data

8 / 16

CPU Cores / Threads

no data

Yes

Hyperthreading / SMT

no data

8x Zen 2

Cores

no data

4.40 GHz

Turbo Frequency (1 Core)

no data

Turbo Frequency (8 Cores)

no data

Internal Graphics

The graphics chip allows the processor to perform complex calculation and display tasks. The more memory and the higher the clock frequency, the better. Determine the winner, who has the better chip? AMD Ryzen 7 4700 or Intel Celeron N3150.

no iGPU

GPU name

Intel HD Graphics 400

GPU frequency

0.32 GHz

No turbo

GPU (Turbo)

0.64 GHz

Generation

no data

DirectX Version

Execution units

Shader

no data

Max. Memory

8 GB

Max. displays

Technology

14 nm

Release date

Q1/2015

Max. GPU Memory

no data

Direct X

no data

Hardware codec support

Technical information that will be of interest to specialists and does not affect the performance of the processor. It can be skipped in the comparison.

h264

Decode / Encode

JPEG

Decode

no data

h265 8bit

no data

h265 10bit

VP8

Decode

VP9

VC-1

Decode

AVC

Decode / Encode

h265 / HEVC (8 bit)

no data

h265 / HEVC (10 bit)

no data

AV1

no data

Memory & PCIe

The interfaces and standards of RAM that the processor supports. The more modern the standard and the larger the memory capacity, the better.

DDR4-3200

Memory type

DDR3L-1600 SO-DIMM

64 GB

Max. Memory

2 (Dual Channel)

Memory channels

ECC

no data

PCIe version

2.0

no data

PCIe lanes

51.2 GB/s

Bandwidth

no data

3.0 x 12

PCIe

no data

Yes

AES-NI

no data

Memory & PCIe

Encryption

Data encryption standards supported by CPUs

no data

AES-NI

Yes

Thermal Management

TDP is the maximum amount of heat generated by the processor. It is used when selecting a cooling system. The higher the TDP, the more heat the cooling system will have to dissipate.

no data

TDP

6 W

100 °C

Tjunction max.

TDP up

45 W

TDP down

TDP (PL2)

no data

65 W

TDP (PL1 / PBP)

no data

Technical details

These are key parameters that will help you determine which CPU is better. Pay special attention to the release date, technological aspects of the manufacturing process (measured in nanometers), and the third-level cache (L3).

8.00 MB

L3-Cache

2.00 MB

7 nm

Technology

14 nm

Renoir (Zen 2)

Architecture

Braswell

AMD-V, SVM

Virtualization

VT-x, VT-x EPT