#IPHONE 13 PRO MAX GEEKBENCH PLUS#The iPhone 14 and iPhone 14 Plus are still using the A15 chip from last year, but with the 5-core GPU that was originally limited to the iPhone 13 Pro models. Multi-core performance could perhaps even be somewhat higher if the iPhone that was benchmarked is still going through its initial setup process and uploading content to iCloud.Īpple's A16 chip is limited to the iPhone 14 Pro and iPhone 14 Pro Max, and we'll need additional benchmarks to get a better average for what we can expect in terms of performance improvements. Given that the A16 is running on an updated 4-nanometer process compared to the 5-nanometer process of the A15, the latest score shared today is more in line with expectations. The result that we saw earlier this week from an iPhone 14 Pro Max suggested that multi-core performance was at around 4664, which would put the A16 barely over the A15 in terms of performance. The A16 earned a multi-core score of 5455, up 17.1 percent from the 4659 score earned by the A15 chip. The A16 chip in the iPhone 14 Pro that was benchmarked earned a single core score of 1887, a 10.5 percent improvement over the 1707 score earned by the A15 in the iPhone 13 Pro.Īs for multi-core performance, there are notable speed gains. In Apple’s case, it’s clear that the A15 Bionic chip is still a leader in both performance and efficiency.įor more on the latest Galaxy S22 lineup, check out our colleagues over at 9to5Google.An early benchmark for the A16 chip in the iPhone 14 Pro and Pro Max suggested only modest speed improvements, but an additional score uploaded to Geekbench today indicates that we could see a more significant jump in performance compared to the A15 chip. #IPHONE 13 PRO MAX GEEKBENCH FULL#During the benchmark testing, the Galaxy S22 Ultra reportedly “quickly became warm, and as soon as it became warm it returned much lower results.”Īs always it’s important to keep in mind that benchmark results don’t tell the full story, but they can serve as a good indicator of year-over-year improvements and other performance trends. The testing also notes that there could be some heating and performance throttling issues plaguing Samsung’s Galaxy S22 series. #IPHONE 13 PRO MAX GEEKBENCH ANDROID#But the iPhone 13 Pro Max got double any Samsung model’s score, as we’ve seen in the past, because of the differences between Apple’s Safari browser and the Google Chrome browser on Android phones. #IPHONE 13 PRO MAX GEEKBENCH SERIES#On Basemark Web, a comprehensive web benchmark, the Galaxy S22 series scored about 8% better than the Galaxy S21 Ultra. Meanwhile, in web benchmarking using Basemark Web, PCMag tests found that the Galaxy S22 series performed 8% better than last year, but the iPhone 13 Pro Max still doubled the Samsung score: On the GFXBench graphics benchmark, we saw an improvement of 20% or more depending on circumstances. We saw a 13% rise in Geekbench single-core scores and a 9% rise in Geekbench multi-core scores. The 6.7-inch screen makes for a phone that requires two hands for comfortable use and the boxy, squared-off design feels. There is definitely improvement from last year’s Snapdragon 888 to this year’s Snapdragon 8 Gen 1. Apple’s Max version of the 13 Pro is a big device. PCMag notes that this is a noticeable improvement for Qualcomm over last year’s Snapdragon 888, but it’s still not enough to catch up to Apple. On the flip side, the iPhone 13 Pro Max scored 4647 in multi-core tests, 1735 in single-core testing, and 948 in machine learning tests. In Geekbench 5 tests, the Galaxy S22 Ultra, which is powered by Qualcomm’s Snapdragon 8 Gen 1 processor, scored 3433 in multi-core testing, 1232 in single-core testing, and 448 in machine learning testing. While PCMag notes that the Galaxy S22 is the “most powerful Android phone” it’s tested so far, its benchmark results still fall behind the iPhone 13 Pro and iPhone 13 Pro Max. New benchmarks conducted by PCMagindicate that Samsung’s latest Galaxy S22 still can’t keep up with the A15 Bionic chip in the iPhone 13 Pro. Apple continues to show its chip prowess not only in the latest Apple Silicon-powered Macs, but also in the iPhone.
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