Intel Celeron N4020 in 3 Benchmarks. 14 nm, 1.10 GHz

Intel Celeron N4020 Testing in 3 Benchmarks. Intel Celeron N4020 Specifications: The architecture is Gemini Lake Refresh , the number of cores is 2, and the number of threads is 2. The base clock speed of Intel Celeron N4020 is 1.10 GHz. The model supports motherboards with a socket of BGA 1090. The Supported Memory Type is DDR4-2400 LPDDR4-2400 (maximum ).  PCIe version is 6.

Basic specifications Intel Celeron N4020

Intel Celeron N4020 technical specifications and performance testing in benchmarks will open you to all the advantages and disadvantages of Intel Celeron N4020. Please learn the key figures of the clock speed and L2/L3 cache and make the right decision.

Essentials Specifications Intel Celeron N4020

The general technical information depicts the base data of a CPU’s number of cores and threads, and base and turbo-boost clock speed. Here are key features influencing the performance.

CPU Cores / Threads: 2 / 2
Hyperthreading: No
Overclocking: No
Frequency: 1.10 GHz
Turbo Frequency (1 Core): 2.80 GHz
Turbo Frequency (2 Cores): 2.70 GHz

CPU generation and family Intel Celeron N4020

The generation of a Intel Celeron N4020 CPU, the segment of usage (computer, server or mobile type), the preceding model of a CPU, and its successor.

Generation: 9.5

Processor Graphics Intel Celeron N4020

Not every CPU is equipped with a built-in graphic core. However, if Intel Celeron N4020 has internal graphics, it is another advantage. Please pay attention to the base and turbo clock speed of the graphic core.

GPU name: Intel UHD Graphics 600
GPU frequency: 0.20 GHz
GPU (Turbo): 0.65 GHz
Execution units: 12
Shader: 96
Max. displays: 3
Generation: 9.5
Direct X: 12
Technology: 14 nm
Release date: Q4/2017

Hardware codec support Intel Celeron N4020

Technical information that does not affect the final performance.

h265 8bit: Decode / Encode
h265 10bit: Decode / Encode
h264: Decode / Encode
VP8: Decode / Encode
VP9: Decode / Encode
AVC: Decode / Encode
VC-1: Decode
JPEG: Decode / Encode

Memory Specifications Intel Celeron N4020

Which memory does Intel Celeron N4020 support? How many channels are operated and how large the memory capacity can be to build in the motherboard? Here are the general data on the capacity and other technology.

Memory type: DDR4-2400 LPDDR4-2400
Memory channels: 2
ECC: No
AES-NI: Yes

Thermal Management (TDP) Intel Celeron N4020

TDP shows which cooling system is necessary for a Intel Celeron N4020 CPU. It stands for Thermal Design Power. Here are all the CPU specifications: the maximum temperature, the approximate thermal calculation for power supply and others.

TDP: 6 W
TDP up: --
TDP down: --
Tjunction max.: --

Additional specifications Intel Celeron N4020

Intel Celeron N4020 technical specifications contain the general data on the technological process of chip production (in nanometer), the cache of L2/L3, the architecture of the central core and ISA extension.

L3-Cache: 4.00 MB
Architecture: Gemini Lake Refresh
Technology: 14 nm
Virtualization: VT-x, VT-x EPT, VT-d
Socket: BGA 1090
Release date: Q4/2019

Use Conditions Intel Celeron N4020

Used in: Unknown

Cinebench R15 (Single-Core) - Intel Celeron N4020

It is the Cinebench R15 benchmark for testing CPUs upon using a single core not given hyperthreading. The real performance in testing rendering is perfectly suitable for all the CPU segments. Learn Cinebench R15’s results and the number of scores below.

Cinebench R15 (Multi-Core) - Intel Celeron N4020

Cinebench R15 Benchmark supports all the CPU cores in testing and takes into account hyperthreading. It was developed on the brand software company Cinema 4 Suite of Maxon. The Cinebench R15 scores are presented below.

iGPU - FP32 Performance - Intel Celeron N4020

The testing benchmark iGPU is integrated graphics cores in the central processor. The general graphics performance to benchmark the high-speed performance of the video chip is tested. The evaluation scores are presented below. Pay attention that not every manufacturer builds in an inner graphics core. Thus, the general results of the performance do not depend on this parameter, that is considered of good advantage.

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