The RTX 3050 is built on NVIDIA’s Ampere architecture. It marks the first time that ray-tracing has been available on an entry level (50-series) card. Second generation ray tracing cores can be switched on for more realistic light simulation, albeit at a hit to performance. The 3050 features 2560 CUDA cores, a boost clock frequency of 1.78 GHz, 8 GB of the latest GDDR6 memory and NVIDIA’s DLSS. DLSS technology uses the 3050’s tensor cores to scale up resolutions whilst maintaining high frame rates and without losing significant image quality. The 3050 also includes an encoder (NVENC) for sharper images and smoother capture whilst recording/streaming. The MRSP of entry models is $249 USD, however, street prices are closer to $600 USD. Early benchmarks show that the 3050 only headlines around 50% faster than AMD's 6500 XT whilst street prices for the 3050 are over 100% higher. Many experienced users simply have no interest in buying AMD cards, regardless of price. AMD’s neanderthal marketing tactics seem to have come back to haunt them. Their brazen domination of social media platforms including youtube and reddit resulted in millions of users purchasing sub standard products. Experienced gamers know all too well that high average fps are worthless when they are accompanied with stutters, random crashes, excessive noise and a limited feature set. [Jan '22GPUPro]
“Build it, and they will come” must be NVIDIA’s thinking behind their latest consumer-focused GPU: the RTX 2080 Ti, which has been released alongside the RTX 2080. Following on from the Pascal architecture of the 1080 series, the 2080 series is based on a new Turing GPU architecture which features Tensor cores for AI (thereby potentially reducing GPU usage during machine learning workloads) and RT cores for ray tracing (rendering more realistic images). Unfortunately, there aren’t (m)any games that make use of these capabilities so the $1200 price tag on the RTX 2080 Ti Founders Edition is difficult to justify. The 2080 Ti also features Turing NVENC which is far more efficient than CPU encoding and alleviates the need for casual streamers to use a dedicated stream PC. On paper the 2080 Ti has 4352 CUDA cores, a base/boost clock of 1350/1545 MHz, 11GB of GDRR6 memory and a memory bandwidth of 616GB/s. The upshot is that it has around a 30% faster effective speed than the 1080 Ti, which at 18 months old continues to offer comparable value for money and currently dominates the high-end gaming market. Professional users such as game developers or 4K gamers may find value in the 2080 Ti but for typical users (@1080p), prices need to drop substantially before the 2080 Ti has much chance of widespread adoption. [Sep '18GPUPro]
We calculate effective 3D speed which estimates gaming performance for the top 12 games. Effective speed is adjusted by current prices to yield value for money. Our figures are checked against thousands of individual user ratings. The customizable table below combines these factors to bring you the definitive list of top GPUs. [GPUPro]
Welcome to our PC speed test tool. UserBenchmark will test your PC and compare the results to other users with the same components. You can quickly size up your PC, identify hardware problems and explore the best value for money upgrades.