Google’s upcoming Pixel 10 and 11 smartphones are set to feature impressive new chips that should greatly improve performance and battery life. By moving from Samsung to TSMC for chip production and using advanced technology, Google aims to enhance its smartphones significantly.
A recent leak has revealed exciting details about Google’s upcoming Pixel 10 and 11 smartphones (discovered by Android Authority), particularly about their new chips. For the past few years, Google has used its own Tensor chips in the Pixel lineup. However, many users have been unhappy with these chips due to issues like poor battery life and overheating.
This was partly because Google partnered with Samsung to make these chips, and Samsung’s manufacturing technology hasn’t been as advanced as that of their competitor, TSMC.
Now, Google is making a big change. They will stop using Samsung for chip production and instead design their chips in-house while also switching to TSMC, which is known for producing high-quality chips. This move is expected to lead to significant improvements in performance and battery efficiency.
What We Know About the New Chips:
According to leaked documents from Google’s gChips division, the upcoming Tensor G5 chip, codenamed “laguna,” will be built using TSMC’s 3 nm-class N3E technology. This is the same manufacturing process used for Apple’s latest chips, like the A18 Pro in the iPhone 16 Pro.
Switching to this technology is a big deal because it should enhance both performance and battery life compared to the previous Tensor G4 chip, which was made using Samsung’s less efficient 4 nm-class technology.
The leak also mentioned the Tensor G6 chip, codenamed “malibu,” which will be released in 2026. This chip will be built on TSMC’s upcoming N3P process, also rumored for Apple’s A19 chip. Although it’s still a 3 nm-class chip, the N3P technology offers some improvements over the N3E process.
The leaked documents included some technical details about how these new chips will perform. They talked about three main factors: Power, Performance, and Area (PPA). Here’s a simple breakdown of what these mean:
Power: This refers to how much energy the chip uses. The N3P chip will consume about 7% less power if it operates at the same speed. This means better battery life for your device.
Performance: This indicates how fast the chip can run. The N3P chip is expected to allow a 5% increase in speed without causing extra power loss. This translates to better overall performance for your phone.
Area: This describes the size of the chip itself. The new process will allow the chip to be about 4% smaller, which can help in fitting more technology into the phone without making it larger.
This shift could lead to a better user experience, making the next Pixels much more appealing. Fans of the Pixel series can look forward to these changes in the coming years!
