Monday, January 17th 2022

Samsung Introduces Game Changing Exynos 2200 Processor with Xclipse GPU Powered by AMD RDNA2 Architecture

Samsung Electronics Co., Ltd., a world leader in advanced semiconductor technology, today announced its new premium mobile processor, the Exynos 2200. The Exynos 2200 is a freshly 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 enhancing the overall experience in social media apps and photography.

"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," said Yongin Park, President of System LSI Business at Samsung Electronics. "As well as bringing the best mobile experience to the users, Samsung will continue its efforts to lead the journey in logic chip innovation."
The Industry's First Hardware-accelerated Ray Tracing on Mobile for the Ultimate Gaming Experience
The Xclipse GPU is a one-of-a-kind hybrid graphic processor that is positioned between the console and the mobile graphic processor. 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.

With the high-performance AMD RDNA 2 architecture as its backbone, the Xclipse 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.

Ray tracing is a revolutionary technology that closely simulates how light physically behaves in the real world. By calculating the movement and the color characteristic of light rays as they bounce off the surface, ray tracing produces realistic lighting effects for graphically rendered scenes. To offer the most immersive graphics and user experiences even on mobile, Samsung has collaborated with AMD to realize the industry's first ever hardware-accelerated ray tracing on mobile GPU.

Variable rate shading is a technique that optimizes GPU workload by allowing developers to apply lower shading rate 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.

In addition, the Xclipse GPU comes with various technologies such as advanced multi-IP governor (AMIGO) that enhance overall performance and efficiency.

"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."

Enhanced 5G Connectivity and Ironclad Security Features
The Exynos 2200 is one of the first in the market to integrate Arm's latest Arm v9 CPU cores which offer a substantial improvement over Arm v8 in terms of security and performance, the two areas that are becoming critically 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 digital experiences of tomorrow require new levels of performance, security and efficiency," said Rene Haas, President of IP Products Group (IPG) at Arm. "As one of the first processors to incorporate the new Arm v9 CPU cores, Samsung's Exynos 2200 takes advantage of Arm's Total Compute strategy and key security features, like Memory Tagging Extension (MTE), to deliver the purpose-built compute and specialized processing needed to power future mobile experiences."

The Exynos 2200 offers more 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 (8-bit integer) and INT16.

Also, the Exynos 2200 integrates a fast 3GPP Release 16 5G modem supporting both sub-6 GHz and mmWave (millimeter Wave) spectrum bands. With E-UTRAN New Radio - Dual Connectivity (EN-DC), which utilizes both 4G LTE and 5G NR signals, the modem can boost the speed up to 10 Gbps.

For safekeeping, the Exynos 2200 comes with Integrated Secure Element (iSE) to store private cryptographic keys as well as to play a role as RoT (Root of Trust). Also, an inline encryption HW for UFS and DRAM has been reinforced to have user data encryption safely shared only within the secure domain.

Providing Enhanced Visual Experience and Professional-level Quality Images
The Exynos 2200's image signal processor (ISP) architecture has 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+36Mp 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.

Together with the NPU, the ISP utilizes an advanced content-aware AI camera for more refined and realistic results. When taking a photograph, the machine learning based AI camera recognizes multiple objects, the environment, and faces within the scene. It then applies optimal settings for color, white balance, exposure, dynamic range, and more to produce professional-level quality images.

With 8K resolution support, the Exynos 2200's advanced multi-format codec (MFC) makes videos truly come to life. It decodes videos up to 4K at 240fps or 8K at 60fps and encodes up to 4K at 120fps or 8K at 30 FPS. In addition, the MFC integrates power efficient AV1 decoder enabling longer playback time. The advanced display solution features HDR10+ adding more dynamic range and depth to the picture and offers refresh rates of up to 144 Hz for a more responsive and smoother transitioning experience when scrolling or playing games.

The Exynos 2200 is currently in mass production.
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30 Comments on Samsung Introduces Game Changing Exynos 2200 Processor with Xclipse GPU Powered by AMD RDNA2 Architecture

#26
AusWolf
dyonoctisNot that I'm defending the current state of mobile gaming ( 90% of them are trash), but I have fonds memories of the games I've played on gameboy. The screens were under 3", but they still managed to entertain a whole generation with them :D. Since I've played the like of Golden Sun, Zelda, Metroid... the current mobile gaming isn't great for me, but the youngsters don't know what mobile gaming used to mean.
Except that you didn't block half of that screen with your fingers, as you had proper controls that you could feel. ;) Those games were really great. I could lose myself for days in Pokémon Blue and Red. :rolleyes: Modern mobile gaming, on the other hand, equals a universal lootbox generator with different skins (called "games" for some reason).
dyonoctisOn device A.I would actually means less data going out. As LostSwede said, "A.I" is used as a marketing terms because it's simpler to understand for the mass, but a lot of what's happening is simple machine learning/ and the automatisation of tasks that used to be a drag for the user. You can instantly find a picture that had a cat, a lake in it since the phone add those tags by itself, you can copy text from a picture, call a number from a picture, translate a poster written in a foreign language... It's only called "A.I" because you used to have to do those task manually, ( and anything related to language/speech processing WILL be called A.I when it's marketed to a mainstream audience)

You can be mad at the marketing, but it's definitely an handy thing, it's making it's way into design tools as well, If you ever done hair masking you know that designer don't do it for fun :D.
WirkoBut maybe it's not AI. Or maybe it is AI. While there is no universal definition, this one is good enough:
ProgrammerHumor/comments/a07d0u
Cool, thanks. I'll keep this in mind. :)
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#27
WhoDecidedThat
AusWolfMusic = my Sony MP3 player
I was going to say smartphones are good for music. Then I remembered we don't get headphone jacks in phones anymore. LG had good DACs in their phones but they're dead now. So yeah, a smartphone these days is mostly an advanced communication device with a camera.

Of course, we don't need these fancy Cortex CPUs and Mali/RDNA2 GPUs for computational photography. Having dedicated image processing hardware (with fast RAM and storage) is what is truly needed. But we can't just get that. Qualcomm has to deliver a fast for 5 seconds, throttles afterwards CPUs and GPUs. Google with their Tensor chips said they'll focus on sustained performance but their chip was hotter than Qualcomm's.

Smartphone chips have become quite the shitshow in terms of balancing performance with skin temperatures.
AusWolfIt's also kind of sad considering the never-before-seen amount of X-es in basically every product name.
"Dad I want a Xbox Xeries X"
"(realises it shortens to xxx) A what?!!!"
"Err.. I want a PlayStation 5"
"Oh gotcha. (checks online stores) Sorry buddy. It is out of stock."
"Oh.. Can I have your phone? Guess I'll just play games on a phone then."
TheLostSwedebut the fact that Samsung LSI has had some issues ramping the clock speeds without making a really hot chip.
Oh it is still gonna be hot. You can bet they are gonna feed 10-12 watts to the GPU in a passively cooled, thermally constrained smartphone chassis. The only reason they stopped was to avoid making the chip hot enough to give first degree burns to people when they are using their phone.
wolfam very excited to mess around with mobile RDNA2
Why would you want to play games on a phone when you have a large ultrawide display powered by a 3080?
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#28
Assimilator
I wonder how many more years and how many more iterations of the garbage that is Exynos we'll have to endure, before it finally loses too much money and Samsung cancels it for the good of everyone.
Posted on Reply
#29
AusWolf
AssimilatorI wonder how many more years and how many more iterations of the garbage that is Exynos we'll have to endure, before it finally loses too much money and Samsung cancels it for the good of everyone.
What do you mean? The Exynos 7884 in my Galaxy A20e is great! It opens the web browser like a... CPU, I guess. It doesn't even throttle doing so as it doesn't produce any heat. It also runs the phone for nearly 2 days with a 2550 mAh battery. :D
Posted on Reply
#30
Readlight
I would like to compare Exynos 2200, Snapdragon 8 Gen 2, Dimensity 10000, A15.
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