Comparing Snapdragon 8 Gen3 and Dimensity 9300
In the fourth quarter of this year, smartphone chipset giants Qualcomm and MediaTek are set to release their highly anticipated next-generation flagship offerings. Qualcomm’s upcoming chipset, tentatively known as the Snapdragon 8 Gen3 and Dimensity 9300 platform are expected to bring significant improvements to mobile device performance.
The Snapdragon 8 Gen3 is rumored to adopt an innovative “1 + 5 + 2” configuration for its CPU. This configuration consists of a powerful Cortex-X4 mega core, five Cortex-A720 cores, and two Cortex-A520 cores. Alongside this CPU setup, the Snapdragon 8 Gen3 is expected to feature the Adreno 750 GPU, promising enhanced graphics performance.

On the other hand, MediaTek has taken a different approach with its Dimensity 9300 platform. Instead of incorporating energy-efficient cores, MediaTek has opted for a design that includes four Cortex-X4 cores and four Cortex-A720 cores. This configuration eliminates the Cortex-A520 cores. Additionally, the Dimensity 9300 is said to come equipped with the Immortalis-G720 GPU, offering robust graphical capabilities.
According to the available information, the current sample scheduling of the Dimensity 9300 follows a “1+3+4” architecture. This means it features one high-frequency mega-core Cortex-X4, three mid-frequency mega-core Cortex-X4, and four low-frequency mega-core Cortex-A720. Reports suggest that the Dimensity 9300’s performance scores surpass those of the Snapdragon 8 Gen3. However, it remains to be seen how the energy consumption will compare between the two chipsets.
It is important to note that these details are based on information from trusted sources and early prototypes. As with any pre-release information, the final versions of these chipsets may differ in their configurations and specifications.

In conclusion, both Qualcomm’s Snapdragon 8 Gen3 and Dimensity 9300 are expected to bring significant advancements to flagship smartphone performance. While the Dimensity 9300 promises superior performance scores, further testing is required to evaluate its energy consumption. Mobile enthusiasts eagerly await the final versions of these chipsets to see how they will shape the future of flagship smartphones.