The rumored 10-core CPU cluster is expected to give the Exynos 2400 a massive advantage in multi-core tests, and according to the latest rumor, that is exactly what we will see. Samsung’s upcoming SoC apparently secures a 30 percent lead against the A16 Bionic, with that difference increasing ever so slightly against the Snapdragon 8 Gen 2. However, where the rumor talks about the upcoming Exynos’ strengths, there is also a weakness that we will discuss here.
Exynos 2400 struggles in single-core performance, losing to Apple’s latest A-series silicon
Against the upgraded Snapdragon 8 Gen 2 found in the Galaxy S23 Ultra, the Exynos 2400 is 31 percent faster in Geekbench 5’s multi-core test run, according to @OreXda. The tipster has mentioned on Twitter that the highest recorded single-core and multi-core score was 1711 and 6967, respectively, though he also states that the average single-core and multi-core score was 1530 and 6210.
High Score :
ST : 1711
MT : 6967 https://t.co/RMm81iMSRc— Connor/코너/コナー (@OreXda) April 23, 2023
Comparing the best score of the Exynos 2400, the SoC unsurprisingly loses to the A16 Bionic in single-core performance, with the image below showing that the iPhone 14 Pro Max is blazing-fast in this category, obtaining a score of 1871 and a nine percent lead. The tweet shared by Golden Retriever reveals that the Snapdragon 8 Gen 2 fails to beat the Exynos 2400 in the single-core run, meaning that Samsung’s latest and hopefully greatest will be a fitting match for Qualcomm’s Snapdragon 8 Gen 3.
Ok , so I got the very first Android device in history to break 1600 single core in Geekbench 5#GalaxyS23Ultra #SnapdragonForGalaxy pic.twitter.com/yMEVbLfF8J
— Golden Reviewer (@Golden_Reviewer) February 9, 2023
While the multi-core performance of the Exynos 2400 has impressed us, there are a few unanswered questions. The first is that the tipster has not mentioned which device the chipset was tested on, so it is likely an engineering sample, meaning that improvements can be made to achieve higher cores. We also do not have a clue regarding temperatures, so for all we know, the tests could have been carried out in a cooler environment, as opposed to being used outdoors, where the power efficiency of the silicon can really be tested.
However, Samsung’s 4LPP+ process is said to be an improved iteration of the Korean giant’s 4nm technology, so at the very least, we expect the Exynos 2400 to perform equivalent to TSMC’s 4nm node that was used to mass produce the Snapdragon 8 Gen 2. Of course, since no screenshots were provided to prove the authenticity of these single-core and multi-core scores, we recommend our readers treat this information with a pinch of salt, and we will be back with more updates. We have yet to see how the Xclipse 940 GPU performs, so fingers crossed for those results.
News Source: @OreXda
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