![]() Android phones have typically fared poorly on this benchmark but it’s incredible that even against the best-performing Android phone (Galaxy Z Fold3), the new iPhones’ scores were at least 230% better.ĪnTuTu is an all-in-one benchmark that tests CPU, GPU, memory, and storage. Impressively, the iPhone 13 Pro and 13 Pro Max outscored even the M1 iPad Pro. The iPhone 13 and 13 Mini’s scores were about 5% higher than the iPhone 12 Pro Max while the iPhone 13 Pro’s score was about 13% better. It runs a total of 64 subtests, each weighted equally, with multiple iterations, and takes the geometric mean to compute the overall score. It primarily tests for a system’s and browser’s ability in delivering a good web experience. JetStream 2 is a combination of a variety of JavaScript and Web Assembly benchmarks, including benchmarks that came before like SunSpider and Octane. The iPhone 13 and 13 Mini, on the other hand, recorded scores that were at least 19% more than the iPhone 12 Pro Max. Here, the Pro iPhones managed scores that were about 27% higher than the iPhone 13 and 13 Mini. The new iPhones were also put to the test in Geekbench’s Compute benchmark which measures GPU performance. Even against the best Android phones that we’ve tested, the newest iPhones’ single-core scores were at least 50% higher and their multi-core scores were at least 20% better. There’s no doubt that these are the most powerful phones you can buy, but the leap in performance wasn’t as great as going from the A13 Bionic to A14 Bionic.Ĭompared to the competition, there’s no contest. Interestingly, single-core scores of the new iPhones were almost on a par with the M1 chip in the newest iPad Pro. Compared to the A14 Bionic in last year’s iPhone 12 Pro Max, the A15 Bionic in the new iPhones recorded about 6% higher single-core scores and 8% higher multi-core scores. ![]() Geekbench scores are moderately impressive. Geekbench says this benchmark approximates performance in apps such as cameras, image editors, and real-time renderers. ![]() As a result, Geekbench 5 scores are not comparable against those of Geekbench 4, whose baseline score is derived from an Intel Core i7-6600 processor.Īlso included in this analysis are scores from Geekbench 5's Compute benchmark which measures GPU performance across workloads that include image processing, computational photography, machine learning, and more. Geekbench 5 scores are calibrated against a baseline score of 1000, which is the score of an Intel Core i3-8100. Geekbench CPU is a cross-platform processor benchmark that tests both single-core and multi-core performance with workloads that simulate real-world usage. The Neural Engine is critical because the iOS 15 does a lot more processing on-device such as Siri and Live Text. It has a new image signal processor (Smart HDR 4), a new video decoder and encoder, double the system cache, and a new 16-core Neural Engine that is now capable of up to 15.8 trillion operations per second (up from 11 trillion operations per second). Naturally, the extra GPU core will give better graphics performance and Apple says the Pro iPhones will deliver up to 50% more graphics performance than “the competition.” If Apple is referring to the same competition, then we can expect the iPhone 13 Pro and 13 Pro Max to have up to 15% better graphics performance than the iPhone 13 and 13 Mini.Ī15 Bionic also has enhancements in other areas. Though the iPhone 13 Pro and 13 Pro Max have A15 Bionic chips, their chips have five GPU cores instead of the usual four. The GPU still has four cores but Apple says it’s up to 30% faster than “the competition.” Again, no idea who they are referring to.Īnd for the first time, the Pro iPhones will have a slightly different processor. Apple says the CPU is up to 50% faster than “the competition” but didn’t say who the competition specifically was. The CPU core configuration is unchanged so we have a 6-core CPU with two performance cores and four efficiency cores. It has nearly 15 billion transistors, which is roughly 27% more than the A14 Bionic. It’s built on a 5nm process but it has a lot more transistors. And as usual, Apple does not reveal much about the inner workings of its chips so here’s what we know. Powering the new iPhones is Apple’s A15 Bionic chip. Performance & battery life Introducing A15 BionicĪs with every generation of new iPhones, we have a new processor.
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