The larger memory capacity of the RTX 2060 Super allows it to store more data, textures, and assets at once. MemoryĬomparing memory abilities, the RTX 2060 Super has a distinct edge with 8 GB GDDR6 storage memory over the GTX 1660 Super, which has 6 GB GDDR6. Even though it may seem minor, the difference can greatly impact how the user experiences demanding tasks and handles high-resolution media. ROPs render final pixel data more ROPs enable faster, more precise image rendering, reinforcing RTX’s superiority. The RTX 2060 Super’s 64 Render Output Units (ROPs), compared to the GTX 1660 Super’s 48, set an impressive standard for a smoother and more immersive experience. More TMUs result in quicker, more efficient processing, enhancing visuals in games and professional applications. TMUs play a crucial role in texturing 3D models. With 2176 CUDA cores at its disposal, compared to 1408 for the GTX 1660 Super, this GPU can process more data simultaneously thanks to its additional CUDA cores.įurthermore, the RTX 2060 Super boasts 136 Texture Mapping Units (TMUs), surpassing the GTX 1660 Super’s 88 TMUs. Performance-wise, the Nvidia RTX 2060 Super has a distinct advantage over the GTX 1660 Super. This allows the GPU to deliver faster and smoother experiences when dealing with demanding gaming or professional applications - primarily high-resolution or demanding professional tasks. This discrepancy affects performance, as the RTX 2060 Super attains faster speeds and manages complex workloads.įinally, the RTX 2060 Super’s TU106 architecture uses a more efficient memory subsystem that increases bandwidth and reduces latency. The RTX 2060 Super has 34 SMs, while the GTX 1660 Super only contains 22 SMs. These cores are unavailable on the GTX 1160 Super, so raytracing and AI capabilities are severely limited.Īnother critical distinction lies in the number of Streaming Multiprocessors (SMs) in each GPU. This allows it to excel in accurate time ray tracing (RTS) and AI processing (Nvidia Deep Learning Super Sampling). The main advantage of the RTX 2060 Super TU106 architecture is its dedicated RT/Tensor Cores. In contrast, the GTX 1660 Super’s TU116 architecture has a smaller 6.6 billion transistor count, leading to lower computing potential than its counterpart. The RTX 2060 Super’s TU106 architecture is an enhanced and powerful version of the Turing family, boasting 10.8 billion transistors for superior computing, gaming, and AI applications. Given that both GPUs are based on the same core technology, understanding their differences is essential to appreciate their distinct capabilities and performance characteristics fully. This comprehensive analysis will identify their critical differences, including architectures, performance capabilities, and standout features. Nvidia RTX 2060 Super and GTX 1660 Super are designed with different user segments in mind, offering a distinctive combination of performance and features. GTX 1660 Super.īoth GPUs have earned accolades for delivering impressive performance at their respective price points, but how do they stack up against one another? This detailed comparison will examine each GPU’s critical specifications, features, and capabilities to help you decide which one best meets your gaming and productivity demands. Nvidia’s Turing architecture lineup has seen two GPUs stand out: the RTX 2060 Super vs. Graphics processing units (GPUs) are constantly improving, offering gamers and content creators a wide selection of options to suit their needs.
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