Google’s Ambitious Plans: In-House Chips for Pixel Watches
2024-10-29
Google’s Pixel Watch series has been making strides in the smartwatch market, and the tech giant is now taking things a step further by exploring in-house chip development. This strategic move could significantly impact the future of wearable technology.
A Glimpse into the Future
Recent reports suggest that Google is gearing up to introduce its own custom Tensor chips specifically designed for wearable devices. The first such chip, codenamed NPT, is expected to power the Pixel Watch 5 in 2026. This chip, similar to Samsung’s Exynos W1000, will likely feature a tri-core CPU configuration prioritizing power efficiency over raw performance, a crucial aspect for wearable devices.
A Shift to RISC-V Architecture
In a bold move, Google is also considering a transition from ARM architecture to the open-source RISC-V architecture for its future chips. This shift could offer greater flexibility and control over hardware design, potentially leading to more innovative and efficient wearable devices.
The Modem Conundrum
While Google has the expertise to develop custom processors, it will need to rely on external partners for modems. Samsung’s Exynos modems have been a popular choice in the past, but future collaborations with other modem providers remain a possibility.
What Undercode Says:
Google’s foray into in-house chip development for wearables is a significant step. By designing custom chips, Google can tailor hardware to its specific software needs, potentially leading to improved performance, battery life, and user experience. The shift to RISC-V architecture is also an intriguing development, as it could open up new possibilities for customization and innovation.
However, challenges remain, particularly in the area of modem integration. While Samsung’s Exynos modems have been a reliable option, Google may need to explore alternative solutions to ensure seamless connectivity in its future wearable devices.
Overall,
References:
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