Google’s upcoming Tensor G5 chipset is poised to shake up the mobile silicon industry with a significant shift in Google’s approach to chip design. After years of relying on Samsung’s Exynos architecture and fabrication processes, Google is gearing up to introduce a fully in-house designed chip, manufactured by TSMC. This move marks a new era for Google’s mobile hardware division, promising improved performance and efficiency for future Pixel devices.
The release of the Google Tensor G5 is expected to coincide with the launch of the Pixel 10 series, which is anticipated to hit the market in late 2025. Following Google’s standard annual release schedule for Pixel devices, the Pixel 10 lineup is likely to debut around October 2025. Recent reports suggest that Google has already begun testing early samples of the Tensor G5, as evidenced by shipping records.
The Tensor G5 will make its debut in the Pixel 10 lineup, succeeding the current Pixel 9 series. The Pixel 10 series is expected to include the standard Pixel 10, the Pixel 10 Pro, the Pixel 10 Pro XL, and the Pixel 10 Pro Fold. With the Tensor G5, Google aims to address previous criticisms of its Tensor models, particularly in areas like thermals, battery efficiency, and raw performance.
One of the most significant changes for the Tensor G5, codenamed ‘laguna,’ is its fabrication at TSMC’s 3nm N3E node. This advanced node manufacturing process, also used in Apple’s A18 Pro chip, promises enhanced efficiency and performance. The shift to TSMC’s 3nm process is expected to boost the G5’s performance and power efficiency, positioning it as a competitive player in the mobile chipset market.
The CPU configuration of the Tensor G5 is rumored to feature an updated cluster design aimed at balancing power and performance. This configuration may include one Arm Cortex-X4 prime core for demanding tasks, five Cortex-A725 cores for improved multi-core performance, and two Cortex-A520 cores for efficiency. This new configuration is expected to deliver a significant boost in multi-core performance and day-to-day efficiency.
In terms of GPU and gaming capabilities, the Tensor G5 is rumored to switch to an Imagination Technologies GPU, specifically the dual-core IMG DXT-48-1536. This upgrade could introduce ray tracing for more realistic graphics and smoother gameplay experiences. Additionally, the GPU might include virtualization support to handle accelerated graphics in virtual machines, aligning with Google’s focus on virtualized applications and productivity tools.
Enhancements in AI processing are also expected for the Tensor G5, with an upgraded TPU that improves machine learning capabilities by approximately 14% over its predecessor. The TPU might also feature embedded RISC-V cores for custom operations, making it more versatile for diverse on-device machine learning tasks. These improvements could enable the Pixel 10 series to offer enhanced real-time personalization and adaptability.
Furthermore, the Tensor G5 is said to utilize TSMC’s InFO_PoP technology to integrate RAM directly on top of the chipset, improving thermal management and electrical efficiency. This integration could lead to thinner packaging and reduced power consumption while maintaining performance. The Pixel 10 series is expected to come with 16GB of RAM, allowing for more efficient multitasking and faster response times.
Overall, the Google Tensor G5 promises to bring significant advancements to Google’s mobile hardware division, setting the stage for a new era of performance and efficiency in the Pixel lineup. Stay tuned for more updates on the Tensor G5 as we continue to learn more about Google’s latest chipset innovation. In the meantime, you can explore the current flagship Pixel 9 series and delve into the history of Pixel phones to see how Google’s devices have evolved over the years.
