![]() The A16 Bionic has more transistors, 50% more memory bandwidth, and a new ISP. This means that the battery life on the iPhone 14 Pro and the iPhone 14 Pro Max will improve further. Here we compared two flagship smartphones: the 6.7-inch Google Pixel 6 Pro (with Google Tensor) that was. The A16 Bionic is more power-efficient than its predecessor, thanks to a smaller 4nm fabrication process. Google Pixel 6 Pro vs Apple iPhone 13 Pro Max. While it may seem like Apple has reintroduced the A15 Bionic with a new name, it is not true. Apple is not focusing on raw performance with the A16 Bionic but on efficiency and better camera capabilities. While the A16 Bionic has the same CPU as the A15 Bionic, the GPU with 50% more bandwidth is better on the A16 Bionic. We Spotted on Geekbench Source Codeĭespite the minor improvements over the last gen, Apple says the A16 Bionic is ‘the fastest chip ever in a smartphone.’ And don’t forget that GeekBench is focused on the CPU performance of a chip, not the GPU. This again is outperformed significantly by the iPhone 13. Talking about the memory, iPhone 14 Pro has 6GB of RAM. Qualcomm’s neural unit is dubbed Hexagon and has seemingly aided the S22 Ultra to reach 448 points on Geekbench’s machine learning test. which has been confirmed in Geekbench benchmarks pitting that say iPhone 13 Pro's. The Geekbench listing also reveals Apple 16 Bionic’s maximum CPU frequency as 3458MHz (3.46GHz), which is 228 MHz more than the A15 Bionic’s maximum CPU frequency 3230MHz (3.23GHz). The Chip A15 in the iPhone 13 Pro and Pro Max features a 5-core GPU. However, the A15 also shares very similar scores, with 1709 in single-core performance and 4659 in multi-core performance. These scores are undeniably impressive and so far ahead of the competition. A full suite of benchmarks and real-world tests will need to be run to paint a complete picture of where the A16 Bionic sits compared to last year's model and competing Android handsets.Īpple's iPhone 14 Pro and Pro Max go up for pre-order on September 9 and ship on September 16 with pricing starting at $999.The GeekBench test result of “iPhone 15,3,” the code name for the iPhone 14 Pro, reveals that the new iPhone 14 Pro with A16 scores 1879 in single-core performance and 4664 in multi-core performance. ![]() There's also a new 16-core Neural Engine capable of nearly 17 trillion operations per second for advanced machine learning tasks. The iPhone 13 Pro Max blows both devices right out of the water, though, with a single-core score of 1,735 (+40.8) and a multi-core score of 4,647 (+34.7). The A16 Bionic's five-core GPU is said to have 50 percent more memory bandwidth compared to the A15 Bionic. According to Cupertino, the CPU is up to 40 percent faster than the competition.įor comparison, the A15 Bionic as well as the Apple M1 and M2 chips are built using a 5nm manufacturing process. Built on a smaller 4nm process with nearly 16 billion transistors, it features two high-performance cores alongside four efficiency cores. Put another way, the A16 Bionic is roughly 10.1 percent faster than the A15 Bionic in the single-core test and only 0.1 percent faster in the multi-core benchmark.Īpple during its iPhone 14 Pro keynote billed the A16 Bionic as the fastest chip ever in a smartphone. The test in question was uploaded on September 8 at 1:46 a.m. As MacRumors highlights, an iPhone 13 Pro with last year's A15 Bionic chip is capable of 1707 in the single-core test and 4659 in the multi-core assessment. Geekbench test results from an iPhone 14 Pro (model iPhone15,3) reveal a single-core score of 1879 and a multi-core score of 4664. Turns out, sheer performance may have factored into the decision as well. The big picture: When Apple confirmed the new iPhone 14 and iPhone 14 Plus would ship with last year's A15 Bionic SoC instead of its latest chip, some assumed it was a cost-cutting measure, a way to skirt ongoing component shortages or perhaps a tactic to further differentiate between the mainstream and Pro line. ![]()
0 Comments
Leave a Reply. |