GPU Rankings: Graphics Card Benchmark Hierarchy List
Here, you will find detailed GPU rankings based on performance benchmarks, value, efficiency, and price. This comprehensive GPU hierarchy list includes Nvidia, AMD, and Intel graphics card rankings. The average FPS values of each GPU below were benchmarked utilizing the highest graphical settings based on the 15 games tested including some extremely demanding titles to give you an accurate representation of their performance. Therefore, you will see considerably higher FPS values at more conventional graphics settings.
GPU Rankings and Hierarchy
A GPU (Graphics Processing Unit) is responsible for executing complex graphical tasks and calculations that enable the computer to render graphics and carry out parallel processing tasks. GPU rankings and hierarchy refer to the classification of GPUs based on their performance and capabilities in terms of speed, efficiency, and effectiveness in handling graphical and computational workloads. Therefore, the GPU rankings and hierarchy presented here are derived from precise performance benchmarks and specification data metrics, providing you with accurate information for selecting the right GPU.
We have conducted an extensive analysis of data from real-world GPU benchmarks and synthetic GPU benchmarks across a wide range of applications including gaming, machine learning (including deep learning), VR, video editing, rendering, streaming, and more. This analysis includes GPU benchmarking tools such as 3DMark, Superposition, CUDA benchmarks, PyTorch, etc. to comprehensively assess the performance of each GPU.
In addition to GPU benchmarks, we have also taken into account the specifications of each GPU, including the number of CUDA cores or stream processors, clock speed, memory size and type, memory bandwidth, TBP (Thermal Board Power), architecture, and generation. For instance, a GPU with more CUDA cores can handle parallel tasks more efficiently, while a higher clock speed contributes to faster graphics rendering. Memory size and bandwidth are crucial for handling large textures and high-resolution displays, while TBP affects thermal performance and energy consumption. The pros and cons of the various feature sets such as DLSS and FSR that each Nvidia, AMD, and Intel GPU on this list offers have also been taken into account.
We also monitor the prices of each GPU daily to provide an up-to-date assessment of its value compared to other GPUs on the market. Consequently, we have compiled this precise and impartial GPU ranking and hierarchy based on performance benchmarks across various applications, specifications, pricing, and overall value. These rankings showcase the best GPUs currently available serving as a valuable resource for comparing and evaluating the performance of different GPUs.
When considering these GPU rankings and hierarchy, it is important to weigh a variety of critical factors, including performance benchmarks in various applications, CUDA cores or stream processors, clock speed, memory size and bandwidth, TBP, price, and overall value. This information will empower you to select the ideal GPU tailored to your specific graphical and computational requirements, ensuring optimal performance for your graphics-intensive tasks.