The outstanding performance of the A17 Bionic chip.

According to PhoneArena , information from user @NaveenTechWala on X indicates that the A17 Bionic chip achieved a single-core score of 3,269 and a multi-core score of 7,666 on Geekbench. This is significantly better than the Snapdragon 8 Gen 3 chip for the Galaxy (which will be featured in the Galaxy S24+), manufactured using a 4nm process, which only achieved scores of 2,223 and 6,661 for single-core and multi-core performance, respectively.

This means the A17 Bionic scored 47% higher in single-core tests and 15.1% higher in multi-core tests. The A17 Bionic is the chip Apple will equip in the iPhone 15 Pro and 15 Pro Max models, while the iPhone 15 and 15 Plus will feature the 4nm A16 Bionic chip currently found in the iPhone 14 Pro and 14 Pro Max models.

Compared to the A16 Bionic's Geekbench scores of 2,531 (single-core) and 6,460 (multi-core), the A17 Bionic scored 29% higher in single-core performance and 19% higher in multi-core performance. According to the X post, the A17 Bionic's maximum clock speed is 3.7 GHz, consistent with previous leaks regarding the chip's specifications.

In the Compute Benchmark Score test, the A17 Bionic also achieved a benchmark score of 30,669, higher than the 23,000 achieved by the iPhone 14 Pro with the A16 Bionic chip. This test measures GPU performance by simulating how the GPU performs typical tasks such as image processing, computer vision, and machine learning.

The A16 Bionic is a 4nm chip with 16 billion transistors. With the A17 Bionic using a 3nm process, it means smaller transistors will be used, thus increasing the number of transistors on the chip. This not only makes it more powerful but also more energy efficient.