Manli GeForce RTX 2070 Super Gallardo with RGB Lights vs Maxsun GeForce RTX 2070 Super JetStream

Since two graphics units have the same number of Raster Operations Pipelines (ROPs) and the GeForce RTX 2070 Super JetStream graphics card is clocked a bit higher, its pixel fillrate is insignificantly higher. Having better pixel fillrate allows the GPU to draw more pixels on screen and off screen, which is beneficial for some 3D effects in games, or when playing at higher display resolutions.

Another important parameter, that influences overall graphics card performance, is texture fillrate. This parameter is proportional to the number of TMUs (Texture Mapping Units) and graphics clock rate. Because both cards have the same number of Texture Mapping Units (TMUs) and the GeForce RTX 2070 Super JetStream graphics card runs at a bit higher frequency, its texture fillrate is slightly higher. Better texture fill rate allows the GPU to map more textures and/or use more complex 3D effects for each textured picture element, which improves games visual appearance.

Single Precision performance shows how many single-precision floating point operations the graphics unit can execute per second. The performance is measured in billions of Floating Point Operations Per Second, or GFLOPS. As a rule, the faster CUDA cores or stream processors operate at, and the more cores / processors the card has, the higher Single Precision performance will be. These two GPUs have the same maximum single-precision performance.

Like Single Precision performance, Double Precision one also provides the maximum number of floating-point operations, executed by stream processors or CUDA cores, but it refers to double precision (64-bit) operations. Both cards have identical performance.

Memory bandwidth of graphics units is identical.