This cookie is set by GDPR Cookie Consent plugin. These cookies ensure basic functionalities and security features of the website, anonymously. Necessary cookies are absolutely essential for the website to function properly. Apple’s new A15 chip has a 16-core Neural Engine that can perform 15.8 trillion operations per second for machine learning tasks, such as Siri processing on-device.Īpple will try to increase its performance lead with an even faster A16 processor for the iPhone 14 series later in the year. This is more than twice the score of the Galaxy S22 Ultra’s 448. PCMag ran Geekbench ML to test machine learning performance. However, iPhone 13 models continue to perform well. Geekbench 5 Exynos 2200 model results still show multi-core scores in the mid-3,000s. These results show that the iPhone 13 Pro Max’s CPU performance is 35% better than the Galaxy S22 Ultra.Īll Galaxy S22 models in the United States are equipped with the Snapdragon 8 Gen 1 chip, but models in Europe have the Exynos 2200 chip. Geekbench 5 benchmark tests showed by PCmag that the Galaxy S22 Ultra’s Snapdragon 8 Gen1 processor scored 3,433, while the iPhone 13 Pro Max’s A15 Bionic chip scored 4,647. Having said that, performance could be different in the real world and we can't wait to see how the iPhone 13 performs in real life.Samsung’s Galaxy S22 smartphones are among the fastest Android smartphones, but Apple’s mobile processor is still the fastest in the world. It’s no secret that Apple develops its silicon keeping iOS in mindand that results in the most powerful and efficient smartphone of the year. The iPhone 13 Pro gets a slight bump though as it currently has 6GB of RAM.Īpple tends to have faster and more efficient performing smartphones than its competition simply because of the software optimisations the company does. It’s also worth pointing out that Apple has not increased the onboard RAM on the iPhone 13 and it continues to be powered by 4GB of RAM. Even last year, the iPhone 12 beat every Android device in benchmarks and performance by a huge margin and it seems the case remains the same with the iPhone 13 as well. This does not come as a surprise though as Apple’s chipsets have been beating the best SoCs from the likes of Samsung and Qualcomm. Apple promised a 30% performance and graphics improvement over its competition and it seems like the results back the company’s claims. That’s considerably higher than any Android flagship smartphone that has launched this year. According to the results shared by IceUniverse, the iPhone 13’s A15 Bionic chipset scored 1734 (single-core) and 4818 (multi-core) on Geekbench 5. Now, the Geekbench 5 results for the iPhone 13 have surfaced online and it shows how powerful the new chipset really is. The ASUS ROG 5 is powered by Qualcomm’s Snapdragon 888 SoC which is currently the chipset most Android flagship smartphones use. The top Android flagship smartphones of the year such as the ASUS ROG 5 scored 1112 (single-core) and 3703 (multi-core) in a simple Geekbench 5 test. The A15 Bionic chipset is Apple’s latest 5nm SoC with 15 billion transistors where it is powered by 2 high performance and 4 efficiency cores. the A15 Bionic chipset that is said to be faster than any other mobile SoC in the market. The new iPhone is powered by Apple’s latest silicon i.e. Apple announced the latest iPhone 13 series earlier this week and now the benchmark results for the new smartphone are out.
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