Google’s Pixel 7 series is launched with the company’s latest native chip called Tensor 2. We now know that this chip is manufactured using a 5nm process; While the Snapdragon 8 generation 1 chip used in Samsung Galaxy S22 Ultra uses 4 nm architecture.
However, the performance difference between these 2 new process nodes is very small; So much so that even TSMC has introduced its 4nm process, called N4P, as an advanced version of the 5nm node and claims that its efficiency has only increased by 11% compared to the usual 5nm lithography.
However, the question now arises in the mind, how will the Tensor 2 chip perform against the original Tensor version, Qualcomm’s Snapdragon 8 generation 1 chip and the A16 chip used in Apple’s iPhone 14 Pro Max? Phonearena website experts have tried to answer this question and have run a series of benchmark tests on the above chips. Performance test results for Tensor 2, Tensor 1, Snapdragon 8 Gen 1 and Apple A16 chips can be seen below.
According to predictions, Apple’s 4nm A16 chip is far ahead of its competitors in the field of single-core and multi-core CPU processing tests; Because Apple’s native chipset has a very high frequency speed as usual. The new Tensor 2 chip is faster in all areas than the first generation Tensor chip. In addition, this chip competes shoulder-to-shoulder with the Snapdragon 8 generation 1 chip in some areas and even beats Qualcomm’s flagship chip in some scenarios.
In terms of graphics system performance, the Tensor 2 chip stands up well against Qualcomm and Apple chips. Also, in terms of browsing speed, the new Google chip offers a completely admirable performance. Describing the second generation of its native Tensor chip, Google noted: “All aspects of the Tensor G2 chip are designed to improve the performance and efficiency of Pixel devices while ensuring exceptional battery life.
The Tensor G2 chip runs Google’s machine learning models with higher power and lower latency, making Pixel devices faster and more useful than ever. The Tensor G2 GPU works in a more efficient way and supports real-time rendering to create stunning and smooth graphics.
Google Pixel 7 performed brilliantly in all tests and thanks to its stable performance, it managed to get a high score in the 3D rendering stress test. During the 20-minute performance stability test, the temperature of this chip rose to a very high level; But this issue was also observed in other competing chips.
In short, with Google’s Tensor 2 chip, users will never feel weak even in the graphics department. The impressive stability of this chip under stressful conditions means that the Pixel 7 or Pixel 7 Pro phones will have better thermal management and optimal power consumption. This phenomenon will ultimately help to increase the battery charging time in the above handsets. This is exactly what Google promised while introducing its 2022 phones.