![]() ![]() Additionally, I turned off benchmark boosting mode on the ASUS and Snapdragon Insider devices. Also, the ZTE/Nubia RedMagic 6S Pro has an active cooled fan that automatically runs whenever graphically intensive applications are open, so it did turn on the fan for the 3DMark and PCMark tests but not for the GeekBench results. All benchmarks were run at least 3 times to normalize scores for any kind of variance except for 3DMark Wildlife Stress Test since it runs a 20-loop test. After that, I wanted to run something that was more of a system-level benchmark that considers all the different types of usages a user might have so I ran PCMark for Android. I also chose to use the stress test because thermal throttling is a real problem with some mobile SoCs and sustained performance is more relevant than a 60 second benchmark. 3DMark was important because it is cross-platform and the standard for 3D graphics performance, especially in gaming. This feels like the perfect test to use to compare AI performance across devices, especially since it does multiple types of ML workloads and tests FP32, INT16 and INT8 performance. The important part in choosing GeekBench ML was not to test CPU or GPU performance individually, but instead to test them together using the NNAPI test which is Google’s own API that it uses for ML acceleration. And when you consider how few AI benchmarks are out there and ones that are easy to run, GeekBench ML was an easy decision. To Google’s point, the company has said that it does not actually care about individual SoC component tests but rather a complete system AI test. I chose GeekBench because it’s a simple CPU benchmark and can show how Google’s decision to go with two Cortex X1 cores and two A76 cores instead of one X1 and three A78s affected overall CPU performance. Additionally, the RedMagic 6S Pro that I tested is the only Snapdragon 888+ device.įor my testing, I ran GeekBench, GeekBench ML, 3DMark Wildlife, 3DMark Wildlife Stress Test and PCMark. One note, the Galaxy S21 Ultra in the US ships with a Snapdragon 888 and not an Exynos 2100 like many other parts of the world. However, I still wanted to benchmark the device to assess the chip’s actual performance against some of the most notable Android competition. ![]() I had a chance to use the Pixel 6 Pro and Pixel 6 for the last week or so and the camera performance genuinely lives up to what people expect out of a flagship smartphone. Google hasn’t really given details about the TPU or ISP’s full capabilities, but that’s what benchmarks and reviews are for. ![]() It has been covered numerous times, but just as a refresher the Tensor SoC is a combination of off-the-shelf ARM CPU cores and GPU cores combined with Google’s own TPU and ISP. Google claimed that nobody in the market was creating chips that satisfied Google’s needs for AI performance, so they created their own. Nevertheless, Google’s intentions with the Tensor SoC is to derive some of the AI performance and intelligence that it has created with the TPU and bring that down into a mobile SoC. It seems odd that Google would try to claim the SoC as their own even though Samsung is heavily involved in the manufacturing and modem and likely some of the chip design as well. Many people believe that Google’s Tensor SoC is more akin to a Samsung Exynos semi-custom design and according to some code that Anandtech’s Andrei Frumusanu found, it probably is along those lines. But now the embargo for reviews has lifted and I’ve had an opportunity to test the Pixel 6 and Pixel 6 Pro’s tensor SoC. It comes with the IP68 rating for dust and water resistance and stereo speakers and USB Type-C audio, and an integrated fingerprint sensor to provide security.We recently covered some of the details around Google’s Tensor SoC at the launch of the Pixel 6 and Tensor SoC that Google had. Connectivity options include 5G 4G VoLTE, Wi-Fi 6, Bluetooth 5.2 LE, ultra-wideband (UWB), GPS, USB Type C 3.1 and NFC. The phone comes with a 5,000mAh battery, 30W of fast wired charging, and wireless charging of 23W. It also has a 12MP Sony IMX663 camera with a 94-degree FoV. Pixel 6 Pro features a triple camera setup in the back that includes the Samsung GN1 50MP primary sensor with an f/1.85 aperture and a 12-megapixel ultra-wide-angle Sony sensor IMX386 with f/2.2 aperture, and a 48MP telephoto Sony IMX586 sensor that has the optical zoom of 4X. It’s powered by Google’s internal Tensor chipset, paired with the Mali-G78 GPU with 12GB of LPDDR5 RAM and 512GB of storage. Google Pixel 6 Pro Google Pixel 6 Pro sports a 6.71-inch QHD+ pOLED LTPO 120Hz display, with curves, 3,120×1,440 resolutions, and the Corning Gorilla Glass Vitus security.
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