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Samsung on Wednesday announced the long-rumored Exynos 9820, its latest high-end system-on-chip that's almost certainly going to power select variants of the Galaxy S10 and Galaxy Note 10-series devices set to be released next year. The launch of the new silicon marks the beginning of Samsung's artificial intelligence pushes the Exynos 9820 has been designed for the AI device, much like the Kirin 980 and Kirin 970 chips from Huawei's subsidiary HiSilicon. The new module is a processor with a processor that is independent of the SoC's main CPU and is solely dedicated to AI applications. The Exynos 9820 will be mass produced by the end of the year and should be commercialized in early 2019, presumably with the Galaxy S10 lineup, and Samsung's first series of foldable Android handsets.
Samsung says the new NPU and the fourth-generation custom CPU that will deliver a "new dimension of performance" in the smart device segment. Compared to the Exynos 9810 found in the international variants of the Galaxy S9, the Galaxy S9 Plus, and the Galaxy Note 9, the Exynos 9820 can handle AI tasks faster than seven times. As a result, all devices are more likely to be capable of managing on-device and to be less reliant on the cloud when it comes to powering technologies such as machine learning. Solutions like Google's federated NPU in a major manner as well. Performance improvement, on-device also has the advantage of being more efficient than the fact that it is possible to use cloud computing.
Samsung already pointed out that it is likely to be marketed in the near future, pointing to intelligent camera systems that can not be detected and adjusted by the NPU found inside the Exynos 9820. The CPU itself Exynos 9820 in both single and multi-core performance by 20- and 15-percent, respectively. Likewise, single- and multi-core processing has been improved by some 40- and 35-percent, Samsung said.
Exynos 9820 is based on a new 8nm Low Power Plus FinFET process which by itself is only 10% less efficient than the 10nm LLP one used For the creation of the Exynos 9810. Samsung has completed the development of an advanced 7nm Extreme Ultraviolet process. The new chip supports WQUXGA (3840 x 2400) and 4K UHD (4096 x 2160) resolutions, UFS 3.0 storage, LPDDR4x RAM, and eight sports cores – a dual-core (custom CPU) system, another two-core (Cortex-A75 ) one, and a quad-core (Cortex-A55) configuration. Samsung has yet to disclose factory clock speeds of its newest SoC.
Exynos 9820, with the chip relying on an unclonable function to manage sensitive data in complete isolation using a single key and a key manager. The Exynos 9820 is not a 5G-enabled chip but is the best 4G silicon LTE Samsung's foundry business ever created, offering support for download speeds up to 2Gbps thanks to the inclusion of a new LTE Advanced Pro Modem. 8x carrier aggregation and peak upload speeds of 316Mbps are also supported, as is 4×4 MIMO and 256-WAM compatibility.
The silicon is also equipped with Mali-G76 GPUs which are some 40-percent faster or 35-percent more energy-efficient than the graphics processor used by the previous chip. As a result, AR and VR applications should be more efficient. In terms of other content, the Exynos 9820 also supports a multi-format codec (MFC) that can encode and decode 4K UHD videos at up to 150 frames per second and 10-bit handles which are more accurate, varied, and lifelike than the majority of today's rendering solutions. In terms of filmmaking, the Exynos 9820 can do 8K videos at 30fps or 4K UHD ones at 150fps. The chip can manage 22-megapixel front and rear cameras or 16-megapixel dual-camera setups, Samsung confirmed, though that's only an illustration as the chip's image signal processor can actually handle up to five sensors in total and supports infrared modules.
background: Samsung has been actively developing the Exynos 9820 since at least late 2017 but the chip is widely expected to use the company's 7nm EUV FinFET process. It is currently unclear what is the best solution for the solution of the problem. efficient optical lithography instead). Qualcomm's Snapdragon 845 successor – believed to be called the Snapdragon 8150 – is also rumored to be based on a more efficient process.
Impact: The capabilities of the Exynos 9820 are in line with recent rumors about the Galaxy S10 lineup, with many insurers claiming to be part of the triple-camera setup on the back, a two-sensor system on the front, and place a large focus on AI technologies. The fact that the chip supports 4K displays still does not mean the Galaxy S10 series would have been able to be used in the future.
The DRAM compatibility of the Exynos 9820 also confirms the Galaxy S10 line will not be using LPDDR5 memory though. Samsung is already capable of producing it and it is likely to be commercialized before 2020. The fact that the new chip peaks with 4G LTE in terms of network performance means that the rumored 5G variant of the Galaxy S10 More likely to launch in South Korea will use Qualcomm's next-gen silicon instead, with the San Diego-based company already confirming the Snapdragon 845 successor will offer 5G support as an optional functionality.
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