MediaTek Dimensity 9400 Specifications Have Been Tipped

In a recent development in the world of technology, MediaTek has unveiled the Dimensity 9300+ as an upgraded version of its flagship chipset. However, the focus has now shifted to the rumored Dimensity 9400 chipset, which is set to be the next flagship SoC from MediaTek. The reliable tipster Digital Chat Station has shared some intriguing details about the upcoming chipset.

According to the tipster, the MediaTek Dimensity 9400, carrying the model number MT6991, is expected to be built on TSMC’s second-generation 3nm N3E node. This new chipset is rumored to offer a significant 34% lower power consumption, highlighting MediaTek’s commitment to performance and efficiency.

The Dimensity 9400 will feature an all-big core structure, similar to its predecessor. Reports suggest that the chipset will boast 1 x ARM Cortex-X925 core clocked at 3.4 GHz, along with 3 x ARM Cortex-X4 cores and 4 x ARM Cortex-A725 cores. While it may not include power-efficient Cortex-A520 cores, MediaTek is expected to strike a balance between power and energy efficiency, leveraging the benefits of the new 3nm manufacturing process.

Early leaks about the Dimensity 9400 core structure hinted at the absence of a Cortex-X5 core, as ARM’s latest big cores are named Cortex-X925. Geekbench test runs have already indicated that the chipset could outperform the Snapdragon 4 Gen 4 in both CPU and GPU performance, thanks to its all-big core design.

The official unveiling of the Dimensity 9400 is anticipated to take place in Q4 2024, leaving ample time for more details to emerge in the coming months. As tech enthusiasts eagerly await the arrival of this new chipset, the competition in the smartphone industry is expected to intensify with MediaTek’s latest offering.

As always, our articles are based on honest opinions, and while we may receive compensation from companies mentioned, our reviews remain unbiased. Stay tuned for more updates on the MediaTek Dimensity 9400 as further information becomes available.