We also have the legacy GPU hierarchy (without benchmarks, sorted by theoretical performance) for reference purposes. On page two, you'll find our 2020–2021 benchmark suite, which has all of the previous generation GPUs running our older test suite running on a Core i9-9900K testbed. Meanwhile, Intel's Arc Alchemist architecture brings a third player into the dedicated GPU party, though it's more of a competitor for the previous generation midrange offerings. AMD's RDNA 3 architecture powers the RX 7000-series, with only two desktop cards presently released. Nvidia's Ada Lovelace architecture powers its latest generation RTX 40-series, with new features like DLSS 3 Frame Generation. The results are all without enabling DLSS, FSR, or XeSS on the various cards, mind you. Those of course require a ray tracing capable GPU so only AMD's RX 7000/6000-series, Intel's Arc, and Nvidia's RTX cards are present. Our full GPU hierarchy using traditional rendering (aka, rasterization) comes first, and below that we have our ray tracing GPU benchmarks hierarchy. We've also retested a bunch of cards to clear up some lingering oddities from earlier testing. New to the benchmarking party is Nvidia's RTX 4070, priced at a relatively attractive $599. For now, we have the same test suite we used in 2022. We're nearly finished retesting all of the ray-tracing capable GPUs on a slightly revamped test suite, using a Core i9-13900K instead of a Core i9-12900K. Whether it's playing games, running artificial intelligence workloads like Stable Diffusion, or doing professional video editing, your graphics card typically plays the biggest role in determining performance - even the best CPUs for Gaming take a secondary role. Our GPU benchmarks hierarchy ranks all the current and previous generation graphics cards by performance, including all of the best graphics cards.
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