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Pixel 10’s Tensor G5 chip: A breakdown of Google’s switch from Samsung to TSMC

Pixel 10’s Tensor G5 chip: A breakdown of Google’s switch from Samsung to TSMC

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As is already widely known, the next generation of Google's tension chips for its phones, Tensor G5, will not be presented in partnership with Samsung. Instead, the search giant will turn into TSMC to manufacture future processors.
But with this transition, Google must replace many ingredients that make up a tensioner set, and A new report now gives us an idea of ​​the new parts that Google chose to replace it Samsung.

What is Google change exactly in Tensor G5?

Here's a quick offer with some different ingredients between Tensor G5 and Tensor G4:

componentTensor G5Tensor G4
GPU processor (GPU)DXT GPU imagination techniquesArm Mali GPU (from Samsung)
Video coding program (processing and recording video)Chips and media wave677dvGoogle "Bigwave" and Samsung MFC
The display console (managing screen photos)Verisilicon Dc9000Samsung DPU
ISP (image signal processor)ISP is completely dedicated by Google itselfGoogle Samsung ISP
Class Class Control Units (different parts of the slide help communicate)Synopsys Designware IP CORSESamsung
SPMI controller and PWM controller (power handle and battery -related tasks)Smartdv (SPMI) and Faraday Technologies (PWM)Samsung
UFS control unit (running internal storage)His name was not revealed by the third party resourceSamsung
Modem (delivery component)Mediaatek modemSamsung modem

What every part does:

  • GPU processor (GPU)- Expatible self -assumption. The graphics processing unit helps your phone to deal with games and heavy applications for graphics and animation smoothly. The new graphics processing unit can enhance performance or battery efficiency, but this will need a real test for confirmation.
  • Video coding program- The coding program helps your phone record and play videos smoothly. A good video coding program can provide battery life and keep your phone great when watching videos.
  • Display control unit- This component controls how pictures appear on your screen. The shift to a Verisilicon solution may help improve the accuracy of colors or update, but the differences may not be noticeable immediately.
  • IspRISP is responsible for calibrating and modifying parameters such as controlling exposure, correcting white balance, automatic control, reducing noise, improving intensity and more. Basically, it is responsible for the area where most of the camera improvements are present today-the program and post-processing program.
  • Physical control units- These components deal with internal contacts within the slide, and most users will not notice any direct difference here.
  • SPMI control unit and PWM console- These small ingredients manage energy and charging. Improvements here can lead to a slightly better battery efficiency, but the dramatic changes are unlikely.
  • UFS control unit- UFS controls your phone helps your phone to read and save data quickly. The change of this component will not significantly affect daily use, unless Google chooses a much faster or slower replacement.
  • modem- The modem runs your phone connection with cellular networks, including 5G. Mediaatek modem can improve signal strength or battery life, but again, there is no certainty of the actual change in the end user experience.
In general, these new parts that Google for Tensor G5 should not affect significantly Pixel 10 performance. However, with more control of the slide, Google may be able to achieve a better battery life, improve camera quality, as well as stabilize a better system with less errors.

However, keep in mind that this is a major and another transformation on the Google phone manufacturing trip, so there may be some strange problems when they are Pixel 10 Launching series. Somehow, the company is almost similar to the first generation of a new product.

Why does Google change how it builds Tensor G5?

Google started working with Samsung because it had already had experience and factories to produce smart phone chips. In addition, the two companies are similar to the comrades of the major companies.

but Reports stated that Samsung has a low return on 3NM chips (about 20 %). Of course, when major technology companies make such important transformations, there is often more than one reason. TSMC has been widely accepted as the best Android chips manufacturer in the world, which may be another reason for Google's decision.

Aleksandar is enthusiastic about technology with a wide range of interests, from smartphones to space exploring. His curiosity extends to DIY process experiences with his tools, and enjoys switching between different brands to try the latest innovations. Before joining Phonearena, Aleksandar worked on the Google Art project, where he numbered valuable artworks and acquired various views on technology. When it is not immersed in technology, Aleksandar is an outdoor man who has long -distance walking in the mountains, depicting wildlife, and preserving nature. His interests also extend to the arts of fighting, running and skiing, which reflects his dynamic approach to life and technology.


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As is already widely known, the next generation of Google’s tension chips for its phones, Tensor G5, will not be presented in partnership with Samsung. Instead, the search giant will turn into TSMC to manufacture future processors.

But with this transition, Google must replace many ingredients that make up a tensioner set, and A new report now gives us an idea of ​​the new parts that Google chose to replace it Samsung.

What is Google change exactly in Tensor G5?

Here’s a quick offer with some different ingredients between Tensor G5 and Tensor G4:

componentTensor G5Tensor G4
GPU processor (GPU)DXT GPU imagination techniquesArm Mali GPU (from Samsung)
Video coding program (processing and recording video)Chips and media wave677dvGoogle “Bigwave” and Samsung MFC
The display console (managing screen photos)Verisilicon Dc9000Samsung DPU
ISP (image signal processor)ISP is completely dedicated by Google itselfGoogle Samsung ISP
Class Class Control Units (different parts of the slide help communicate)Synopsys Designware IP CORSESamsung
SPMI controller and PWM controller (power handle and battery -related tasks)Smartdv (SPMI) and Faraday Technologies (PWM)Samsung
UFS control unit (running internal storage)His name was not revealed by the third party resourceSamsung
Modem (delivery component)Mediaatek modemSamsung modem

What every part does:

  • GPU processor (GPU)– Expatible self -assumption. The graphics processing unit helps your phone to deal with games and heavy applications for graphics and animation smoothly. The new graphics processing unit can enhance performance or battery efficiency, but this will need a real test for confirmation.
  • Video coding program– The coding program helps your phone record and play videos smoothly. A good video coding program can provide battery life and keep your phone great when watching videos.
  • Display control unit– This component controls how pictures appear on your screen. The shift to a Verisilicon solution may help improve the accuracy of colors or update, but the differences may not be noticeable immediately.
  • IspRISP is responsible for calibrating and modifying parameters such as controlling exposure, correcting white balance, automatic control, reducing noise, improving intensity and more. Basically, it is responsible for the area where most of the camera improvements are present today-the program and post-processing program.
  • Physical control units– These components deal with internal contacts within the slide, and most users will not notice any direct difference here.
  • SPMI control unit and PWM console– These small ingredients manage energy and charging. Improvements here can lead to a slightly better battery efficiency, but the dramatic changes are unlikely.
  • UFS control unit– UFS controls your phone helps your phone to read and save data quickly. The change of this component will not significantly affect daily use, unless Google chooses a much faster or slower replacement.
  • modem– The modem runs your phone connection with cellular networks, including 5G. Mediaatek modem can improve signal strength or battery life, but again, there is no certainty of the actual change in the end user experience.
In general, these new parts that Google for Tensor G5 should not affect significantly Pixel 10 performance. However, with more control of the slide, Google may be able to achieve a better battery life, improve camera quality, as well as stabilize a better system with less errors.

However, keep in mind that this is a major and another transformation on the Google phone manufacturing trip, so there may be some strange problems when they are Pixel 10 Launching series. Somehow, the company is almost similar to the first generation of a new product.

Why does Google change how it builds Tensor G5?

Google started working with Samsung because it had already had experience and factories to produce smart phone chips. In addition, the two companies are similar to the comrades of the major companies.

but Reports stated that Samsung has a low return on 3NM chips (about 20 %). Of course, when major technology companies make such important transformations, there is often more than one reason. TSMC has been widely accepted as the best Android chips manufacturer in the world, which may be another reason for Google’s decision.


Aleksandar is enthusiastic about technology with a wide range of interests, from smartphones to space exploring. His curiosity extends to DIY process experiences with his tools, and enjoys switching between different brands to try the latest innovations. Before joining Phonearena, Aleksandar worked on the Google Art project, where he numbered valuable artworks and acquired various views on technology. When it is not immersed in technology, Aleksandar is an outdoor man who has long -distance walking in the mountains, depicting wildlife, and preserving nature. His interests also extend to the arts of fighting, running and skiing, which reflects his dynamic approach to life and technology.



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