Google Tensor
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Libéré
Q4/2021
Google Tensor

Processeur Google Tensor, spécifications et caractéristiques de référence

659 place dans le classement général des processeurs !
Le processeur Google Tensor est installé sur des cartes avec un socket N/A et fonctionne à une fréquence de 2.80 GHz. Le Google Tensor compte un total de 8 / 8 cœurs. Date de sortie : Q4/2021. Le TDP est de 10 W. Cet aperçu vous donnera toutes les spécifications techniques et des données détaillées sur le processeur Google Tensor. Découvrez tout pour savoir si un jeu ou un logiciel fonctionnera sur le Google Tensor.

Spécifications

Données techniques
CPU Family and Group

This section provides a comprehensive overview of the processors generation and family, explaining the specific market segment it is designed for. It covers key details such as the CPUs position within its product lineup, its intended use cases (e.g., consumer, server, or workstation), and how its generation compares to previous models.

  • Série
  • Groupe de CPU
    Google Tensor
  • Segment
    Mobile
  • Génération
    1
  • Modèle précédent
    --
  • Successor
    --
CPU Technical Specs

Google Tensor. This section highlights key performance parameters of the processor, including the number of cores, threads, and clock speeds (base and boost frequencies). These metrics directly impact multitasking capabilities and overall system performance in both single-threaded and multi-threaded applications.

  • CPU Cores / Threads
    8 / 8
  • Architecture de base
    hybrid (Prime / big.LITTLE)
  • A-Core
    2x Cortex-X1
  • B-Core
    2x Cortex-A76
  • C-Core
    4x Cortex-A55
  • Fréquence
    2.80 GHz
  • Turbo (1 cœur)
    Pas de turbo
  • Turbo (8 Cores)
    Pas de turbo
  • Hyperthreading
    Non
  • Overclocking
    Non
IGPU

This section provides details on the integrated graphics capabilities of the processor. It covers the architecture, performance characteristics, and supported technologies (e.g., DirectX, OpenGL), which are essential for systems without dedicated GPUs or for mobile devices that require energy-efficient graphics processing.

  • Nom du GPU
    ARM Mali-G78 MP20
  • GPU frequency
    0.76 GHz
  • GPU (Turbo)
    Pas de turbo
  • Unités d'exécution
    20
  • Shader
    320
  • Max. GPU Memory
    --
  • Max. displays
    1
  • Génération
    Vallhall 2
  • Direct X
    12
  • Processus technologique
    5 nm
  • Date de sortie
    Q4/2021
Prise en charge des codecs matériels

This section covers the built-in hardware codec support for video and image processing. The processor’s ability to handle codecs like H.264, HEVC, and VP9 directly influences its performance in tasks such as video playback, editing, and streaming. This hardware acceleration ensures smoother media handling with lower CPU utilization.

  • h265 / HEVC (8 bit)
    Decode / Encode
  • h265 / HEVC (10 bit)
    Decode / Encode
  • h264
    Decode / Encode
  • VP8
    Decode / Encode
  • VP9
    Decode / Encode
  • AV1
    Decode
  • AVC
    Decode / Encode
  • VC-1
    Decode / Encode
  • JPEG
    Decode / Encode
Memory Specs & PCI

This section breaks down the technical characteristics of the memory supported by the processor, including the types (e.g., DDR4, DDR5), number of memory channels, and maximum supported memory speed. It also covers PCI Express support, which determines the bandwidth available for GPUs, SSDs, and other peripherals, critical for high-performance systems.

  • Type de mémoire
    LPDDR5-5500
  • Max. Mémoire
    12 GB
  • Canaux de mémoire
    2
  • ECC
    Non
  • PCIe
  • AES-NI
    Non
Consommation d'énergie
  • TDP (PL1)
    10 W
  • TDP (PL2)
    --
  • TDP up
    --
  • TDP down
    --
  • Température maximale
    --
* voir ci-dessous
Technologies and Extensions

This section explains the underlying technologies that enable the processor to deliver high performance. It includes details about the manufacturing process (e.g., 7nm, 10nm), supported instruction sets (e.g., AVX, SSE), and virtual machine extensions that enhance compatibility and efficiency across various workloads.

  • Jeu d'instructions (ISA)
    ARMv8-A64 (64 bit)
  • Extensions ISA
  • L2-Cache
    8.00 MB
  • L3-Cache
    --
  • Architecture
  • Processus technologique
    5 nm
  • Virtualization
    None
  • Socket
    N/A
  • Date de sortie
    Q4/2021
  • Part Number
    --
Positions dans tous les classements

Positions communes Google Tensor CPU dans des benchmarks populaires, pour comparaison avec d'autres modèles.

  • Geekbench 5, 64bit (Single-Core)
    496 place
  • Geekbench 5, 64bit (Multi-Core)
    810 place
  • iGPU - FP32 Performance (Single-precision GFLOPS)
    118 place
  • AnTuTu 9 Benchmark
    10 place

Benchmarks

Tests de performance CPU

Compare the benchmark scores of Google Tensor with other processors to gauge its real-world performance across various tasks..

These tests encompass tasks such as mathematical calculations, 3D rendering, cryptocurrency mining, and performance evaluations in both single-core and multi-core modes.

Geekbench 5, 64bit (Single-Core)
Geekbench 5 SC is a popular cross-platform performance test for desktop or mobile processors that uses system memory intensively
1049
1048
1042
1038
Google Tensor
1038
Google Tensor
Geekbench 5, 64bit (Multi-Core)
Geekbench 5 MC is a popular cross-platform performance test for desktop or mobile processors that uses system memory intensively
2819
2816
2814
2810
Google Tensor
2810
Google Tensor
iGPU - FP32 Performance (Single-precision GFLOPS)
Les performances de l'iGPU - le GPU interne dans les jeux.
1946
1946
1946
1943
Google Tensor
1943
Google Tensor

Synonymes

Processeurs similaires en termes de performances.

Similaire dans les processeurs de données techniques avec Google Tensor.

Intel Xeon E5-2648L v3 Voir
Intel Core i5-11260H Voir
Intel Core i5-9500 Voir
Intel Core i7-10510U Voir
Intel Pentium Gold 8505 Voir
Intel Core i5-9400 Voir
Intel Pentium Gold G5600F Voir
Intel Core i7-4770R Voir

*

PL1 - The power limit (in watts) generated by the processor (or GPU) during sustained, standard operation. It represents the typical thermal output during normal workloads.

PL2 - Represents the maximum power limit under heavy load or overclocking conditions. It indicates the thermal output during peak performance.

These values are essential for determining the optimal cooling system and power supply required to maintain stable performance.

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Google Tensor

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