Mon. May 27th, 2024
Architecture and Key Features:

The Qualcomm Snapdragon 845 (SDM845) is a high-performance 64-bit ARM LTE system on a chip that was introduced by Qualcomm in late 2017. Fabricated on Samsung’s 10nm 10LPP process, the Snapdragon 845 offers significant improvements in performance and efficiency compared to its predecessor. With its powerful CPU and GPU, the Snapdragon 845 has become a popular choice for flagship smartphones. In this article, we will delve into the key features and capabilities of the Snapdragon 845, exploring its architecture, performance, and impact on the mobile industry.

Architecture and Key Features:

The Snapdragon 845 features a combination of high-efficiency and high-performance cores, providing a balance between power consumption and processing power. It incorporates four Kryo 385 Silver cores operating at 1.7 GHz for low-power tasks, and four Kryo 385 Gold cores operating at 2.8 GHz for demanding applications [1]. This heterogeneous architecture allows for efficient multitasking and improved energy efficiency.

One of the standout features of the Snapdragon 845 is its Adreno 630 GPU, which operates at 710 MHz. The Adreno 630 delivers a significant boost in graphics performance compared to its predecessor, enabling smooth gaming experiences and enhanced visual effects [1]. This GPU also supports advanced technologies such as HDR gaming and real-time rendering, further enhancing the overall gaming experience on Snapdragon 845-powered devices.

In addition to its powerful CPU and GPU, the Snapdragon 845 integrates an advanced image signal processor (ISP) that supports up to a 32-megapixel single camera or dual cameras with up to 16 megapixels each [3]. This ISP enables superior image quality, faster autofocus, and improved low-light performance. Furthermore, the Snapdragon 845 supports Ultra HD Premium capture, allowing users to record videos in stunning 4K HDR.

Performance and Efficiency:

The Snapdragon 845’s performance is evident in benchmark tests, where it consistently outperforms its competitors. In a comparison with other processors, the Snapdragon 845 ranked highly, showcasing its superiority in terms of processing power and graphics performance [4]. This level of performance translates into faster app launches, smoother multitasking, and improved overall user experience.

Despite its impressive performance, the Snapdragon 845 is also designed with energy efficiency in mind. The 10nm process technology used in its fabrication allows for better power management, resulting in longer battery life for devices powered by this chipset. This combination of high performance and energy efficiency makes the Snapdragon 845 an ideal choice for power-hungry applications while still maintaining a reasonable battery life.

Impact on the Mobile Industry:

The Snapdragon 845 has had a significant impact on the mobile industry since its introduction. It has become the go-to chipset for many flagship smartphones due to its powerful performance and advanced features. With its support for fast download speeds and improved security, the Snapdragon 845 has enabled smartphones to deliver seamless connectivity and enhanced user experiences [2].

Furthermore, the Snapdragon 845 has played a crucial role in driving the adoption of virtual reality (VR) technology on mobile devices. Its powerful GPU and efficient architecture make it capable of delivering immersive VR experiences on smartphones. This has opened up new possibilities for gaming, entertainment, and productivity applications, making VR more accessible to a wider audience.


The Qualcomm Snapdragon 845 (SDM845) is a high-performance system on a chip that has revolutionized the mobile industry. With its powerful CPU and GPU, advanced image processing capabilities, and support for fast download speeds, the Snapdragon 845 has become the chipset of choice for flagship smartphones. Its impact on the industry can be seen in the improved user experiences, enhanced gaming capabilities, and increased adoption of VR technology. As Qualcomm continues to innovate, it will be exciting to see what advancements the future holds for mobile processors.

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