New Delhi: Samsung has unveiled its latest premium mobile processor, the Exynos 2200 after a short delay due to unknown reasons. The flagship Exynos 2200 is a newly designed mobile processor with a powerful AMD RDNA 2 architecture-based Samsung Xclipse graphics processing unit (GPU). With the most cutting-edge Arm-based CPU cores available in the market today and an upgraded neural processing unit (NPU), the Exynos 2200 will enable the ultimate mobile phone gaming experience, as well as enhance the overall experience in social media apps and photography, according to the company.
Xclipse is the combination of “X” that represents Exynos, and the word “eclipse”. Like an eclipse, the Xclipse GPU will bring an end to the old era of mobile gaming and mark the start of an exciting new chapter. Samsung and AMD’s collaboration has been long in the making and both the brands first inked a licensing deal in 2019. Earlier in 2021, AMD had said that Samsung’s “next flagship mobile processor” would use RDNA 2.
“Built on the most advanced 4-nanometer (nm) EUV (extreme ultraviolet lithography) process, and combined with cutting-edge mobile, GPU and NPU technology, Samsung has crafted the Exynos 2200 to provide the finest experience for smartphone users. With the Xclipse, our new mobile GPU built with RDNA 2 graphics technology from the industry leader AMD, the Exynos 2200 will redefine mobile gaming experience, aided by enhanced graphics and AI performance,” Yongin Park, President of System LSI Business at Samsung Electronics, said in a statement.
“As well as bringing the best mobile experience to the users, Samsung will continue its efforts to lead the journey in logic chip innovation.”
With AMD RDNA 2 architecture as its backbone, the Xclipse GPU inherits advanced graphic features such as hardware-accelerated ray tracing (RT) and variable rate shading (VRS) that were previously only available on PCs, laptops and consoles. According to the South Korean tech giant, Xclipse GPU is a one-of-a-kind hybrid graphic processor that is positioned between the console and the mobile graphic processor.
Variable-rate shading is a technique that optimizes GPU workload by allowing developers to apply lower shading rates in areas where overall quality will not be affected. This gives GPU more room to work on areas that matter most to the gamers and improve frame-rate for smoother gameplay.
“AMD RDNA 2 graphics architecture extends power-efficient, advanced graphics solutions to PCs, laptops, consoles, automobiles and now to mobile phones. Samsung’s Xclipse GPU is the first result of multiple planned generations of AMD RDNA graphics in Exynos SoCs,” said David Wang, Senior Vice President of Radeon Technologies Group at AMD.
“We can’t wait for mobile phone customers to experience the great gaming experiences based on our technology collaboration.”
Samsung Exynos 2200 is one of the first in the market to integrate Arm’s latest Armv9 CPU cores which offer a substantial improvement over Armv8 in terms of security and performance, the two areas that are becoming important in today’s mobile communications devices. The octa-core CPU of Exynos 2200 is designed in a tri-cluster structure made up of a single powerful Arm Cortex-X2 flagship-core, three performance and efficiency balanced Cortex-A710 big-cores and four power-efficient Cortex-A510 little-cores.
The Exynos 2200 offers powerful on-device artificial intelligence (AI) with an upgraded NPU. The NPU’s performance has doubled compared to its predecessor, allowing more calculations in parallel and enhancing the AI performance. The NPU now offers much higher precision with FP16 (16bit floating point) support in addition to power-efficient INT8 (8bit integer) and INT16.
The Exynos 2200’s image signal processor (ISP) architecture has also been redesigned to support the latest image sensors for ultra-high resolution of up to 200 megapixel (MP). At 30 frames-per-second (fps), the ISP supports up to 108 MP in single camera mode, and 64+36 MP in dual camera mode. It can also connect up to seven individual image sensors and drive four concurrently for advanced multi-camera setups. For video recording, the ISP supports up to 4K HDR (or 8K) resolution.
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