Google is expected to officially release the Pixel 11 series of mobile phones in August. If the company follows the release schedule of previous years, this time point will most likely not change. At present, the entire series of CAD-based renderings have been exposed one after another, and now, key information about the Tensor G6 chip equipped with the new machine has also been leaked for the first time.

According to screenshots shared by the tipster, Tensor G6 will use a new ARM CPU architecture compared to the previous generation Tensor G5 and adopt a 7-core design. The screenshots show that this chip includes an ARM C1 Ultra large core with a main frequency of 4.11GHz, four ARM C1 Pro cores with a main frequency of 3.38GHz, and two C1 Pro cores with a main frequency of 2.65GHz, which is higher than the Tensor G5 in terms of frequency configuration.

However, in the graphics department, this revelation is not all good. According to breaking information, Tensor G6 will use the PowerVR C-Series CXTP-48-1536 GPU, which is a graphics core that has been available for several years. Although Google may use an updated or customized version, judging from current clues, the Pixel 11 series will most likely not focus on the "game machine" selling point in terms of gaming performance.

The leaked screenshots also reveal the internal development codenames of each Pixel 11 model: the standard Pixel 11 is called "Cubs," the Pixel 11 Pro is codenamed "Grizzly," and the larger Pixel 11 Pro XL corresponds to "Kodiak." Another leak earlier this year also mentioned that the Tensor G6 SoC will also be equipped with a new Titan M3 security chip to further strengthen the device security level.

Overall, Tensor G6's upgrades in CPU architecture and frequency configuration indicate that Google hopes to achieve significant improvements in daily performance and multi-tasking experience; while the relatively conservative GPU selection shows that the Pixel 11 series is still more oriented towards imaging and intelligent experience rather than ultimate gaming performance.