Subsequent-Gen Pixel Processor May Take Inspiration from iPhone’s Chip

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Google’s customized Tensor chipsets have typically been underwhelming. They’ve confronted criticism for overheating and efficiency points, largely attributed to their manufacturing course of. Nevertheless, plainly the corporate’s upcoming flagship silicon could bear a major improve, doubtlessly sharing know-how with the iPhone 16’s A18 Professional chip.

At the moment, Samsung’s LSI division manufactures the Tensor G chipsets, together with the Tensor G4, which powers the Pixel 9 collection (assessment). Whereas this new chip gives enhancements over earlier Tensor fashions, it hasn’t totally resolved points like thermal throttling and battery effectivity, particularly throughout resource-intensive duties.
Samsung Out, TSMC In
In accordance with paperwork obtained by Android Authority, Google will accomplice with TSMC for the upcoming Tensor G5 chipset, code-named ‘Laguna,’ anticipated to debut with the Pixel 10 collection. This shift confirms earlier studies that Google plans to maneuver away from Samsung.
Intriguingly, the report specifies that the Tensor G5 SoC can be produced utilizing TSMC’s superior 3 nm 3NE node—the identical know-how used to fabricate Apple’s customized A18 Professional chip, which powers the iPhone 16 Professional (assessment). In comparison with Samsung’s present node, TSMC’s 3 nm course of is anticipated to be much more environment friendly, with a better transistor density.
A separate report revealed that the Tensor G5 will retain a 1+5+1 CPU configuration, that includes a higher-clocked Cortex-X4 prime core, 5 new Cortex-A725 efficiency cores, and three Cortex-A520 cores. For graphics, the chip will reportedly swap from an Arm Mali GPU to a dual-core PowerVR GPU.
Tensor G6 to Make the most of Even Smaller Node
Along with the Tensor G5, the Android Authority report additionally talked about the Tensor G6 SoC, internally known as ‘Malibu,’ slated for launch in 2026. This chip is anticipated to make use of TSMC’s extra superior 3NPP node, promising as much as 7% improved effectivity in a 4% smaller bundle.
What are your ideas on Google switching to TSMC? Do you assume it will tackle the present points with its chipsets? Share your ideas within the feedback!

Through: NoteBookCheck
Supply:
Android Authority

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