ARM Mali-G68 MP2 vs ARM Mali-G57 MP5 vs ARM Mali-G76 MP10
ARM Mali-G68 MP2► remove from comparison
The ARM Mali-G68 MP2 (or G68MC2) is an integrated mid-range graphics card for ARM based SoCs (mostly Android based). The MP2 version uses two of the six possible clusters / cores.
It was introduced mid 2021 in the Samsung Exynos W920 for smartwatches. It is based on the Valhall architecture and is advertised by ARM as a "sub-premium GPU". It offers all features of the Mali-G78 series including improvements for battery runtime and machine learning.
ARM Mali-G57 MP5► remove from comparison
The ARM Mali-G57 MP5 is an integrated mid-range graphics card for ARM based SoCs (mostly Android based). It was introduced mid 2020 in the MediaTek Dimensity 820 and uses 5 clusters (hence the MC5/MP5 name).
The G57 is based on the new Valhall architecture and is intended for mainstream phones.
The performance of the G57MP5 in our benchmarks (in the MediaTek Dimensity 820 / Remi 10x) is comparable to the Adreno 540 and also the ARM Mali-G57 MP6 (most likely due to higher clock rates).
The GPU supports all modern graphics APIs like OpenGL ES 3.2, Vulkan 1.1, OpenCL 2.0 and Renderscript.
ARM Mali-G76 MP10► remove from comparison
The ARM Mali-G76 MP10 is an integrated high-end graphics card for ARM based SoCs (mostly Android based). It was introduced in late 2018 in the Kirin 980 (e.g. Mate 20 Pro). It integrates 10 of the 20 possible cores and is based on the second generation of the Bifrost architecture. According to ARM it offers improvements in the machine learning efficiency and a bigger tile buffer for 16x anti-aliasing. Compared to the old Mali-G72, the G76 should offer twice the performance per cluster. Therefore, the G76MP10 should be slightly faster than the G72MP18 e.g. in the Exynos 9810 (Galaxy S9).
The GPU supports all modern graphics APIs like OpenGL ES 3.2, Vulkan 1.0, OpenCL 2.0, DirectX 12 FL11_1 and Renderscript.