The graphics card market is constantly evolving, and NVIDIA's RTX 40 - series Super cards have added new options for PC enthusiasts. Among them, the RTX 4070 Ti Super and RTX 4080 Super have caught the attention of many users. But which one is the better fit for your PC? This article will compare these two graphics cards in detail to help you make an informed decision.
Both the RTX 4070 Ti Super and RTX 4080 Super are based on NVIDIA's Ada Lovelace architecture. This architecture brings significant improvements in performance per watt, ray - tracing capabilities, and AI - based technologies like DLSS.
The RTX 4070 Ti Super is equipped with 8448 CUDA cores. These cores are the processing units responsible for handling general - purpose computing tasks in the GPU, including the complex calculations required for 3D graphics rendering, scientific simulations, and machine learning tasks.
In contrast, the RTX 4080 Super has a more substantial 10240 CUDA cores. The larger number of cores gives the 4080 Super an edge in scenarios where parallel processing is crucial, such as high - resolution gaming with advanced graphics settings and professional content creation applications.
For the RTX 4070 Ti Super, it typically has a base core frequency around 2340 MHz and a boost frequency that can reach up to 2610 MHz. These frequencies determine how fast the CUDA cores can execute instructions.
The RTX 4080 Super has a base frequency of 2295 MHz and a boost frequency of 2550 MHz. Although the base frequency of the 4080 Super is slightly lower than that of the 4070 Ti Super, the overall performance difference is not solely determined by the frequency but also by the number of cores and other factors.
Both graphics cards come with 16GB of GDDR6X memory. This large amount of memory is beneficial for handling high - resolution textures and complex scenes in modern games and content creation software. For example, in 4K gaming, having sufficient VRAM can prevent texture pop - in and ensure smooth gameplay.
The RTX 4070 Ti Super has a memory bandwidth of 672 GB/s. The memory bandwidth determines how quickly data can be transferred between the GPU's memory and its processing cores.
The RTX 4080 Super offers a higher memory bandwidth of 736 GB/s. The increased bandwidth allows the 4080 Super to feed data to its more numerous CUDA cores more efficiently, which can lead to better performance in memory - intensive applications.
Both cards feature a 256 - bit memory interface. A wider memory interface, like the 256 - bit one on these cards, helps in delivering a higher memory bandwidth, enabling faster data access and transfer for the GPU.
In 1080p gaming, both the RTX 4070 Ti Super and RTX 4080 Super can handle most games with ease. However, the RTX 4080 Super usually provides a slightly higher frame rate. For example, in games like "Cyberpunk 2077" with high graphics settings and ray - tracing enabled, the RTX 4080 Super might achieve around 120 - 130 frames per second (fps), while the RTX 4070 Ti Super could be in the range of 100 - 110 fps. But for less demanding 1080p games, the difference may be negligible, and both cards can offer a smooth gaming experience well above 60 fps.
At 1440p, the performance gap between the two cards becomes more noticeable. In graphically - intensive games such as "Forza Horizon 5", the RTX 4080 Super can maintain an average frame rate of around 100 - 110 fps with high - end graphics settings and ray - tracing, while the RTX 4070 Ti Super may hover around 80 - 90 fps. The RTX 4080 Super's greater number of CUDA cores and higher memory bandwidth enable it to better handle the increased pixel count and more complex graphical effects at this resolution.
For 4K gaming, the RTX 4080 Super clearly outperforms the RTX 4070 Ti Super. Games like "Assassin's Creed Valhalla" with maximum settings and ray - tracing turned on show the RTX 4080 Super achieving an average of 60 - 70 fps, while the RTX 4070 Ti Super struggles to reach 50 fps. The 4080 Super's ability to process the vast amount of data required for 4K visuals, combined with its better - optimized architecture for high - resolution gaming, gives it a significant advantage.
Both cards support NVIDIA's ray - tracing technology, which simulates the behavior of light in a more realistic way, and DLSS (Deep Learning Super Sampling), an AI - based upscaling technology that improves performance without sacrificing too much image quality.
In ray - tracing - intensive scenarios, the RTX 4080 Super again shows better performance. For instance, in the "Metro Exodus" benchmark with maximum ray - tracing settings, the 4080 Super can achieve a higher frame rate, around 40 - 50 fps, compared to the 4070 Ti Super's 30 - 40 fps.
When it comes to DLSS, both cards can experience a significant performance boost. However, due to the 4080 Super's more powerful hardware, it can take better advantage of DLSS. For example, in a game like "Control" with DLSS 3 enabled, the 4080 Super may see a frame rate increase of 50 - 60%, while the 4070 Ti Super might see a 40 - 50% increase.
In video editing software such as Adobe Premiere Pro, both cards can accelerate the editing process. However, the RTX 4080 Super offers faster rendering times. When exporting a 4K video project with complex effects and transitions, the RTX 4080 Super can complete the task in a shorter time, perhaps 10 - 15% faster than the RTX 4070 Ti Super. This is because video editing tasks often require a large amount of parallel processing, which the 4080 Super's more numerous CUDA cores are better equipped to handle.
For 3D modeling and rendering software like Blender and Autodesk 3ds Max, the RTX 4080 Super also has an edge. In Blender's Cycles renderer, when rendering a detailed 3D scene with a high - polygon count, the 4080 Super can render the scene more quickly. The 4080 Super's higher memory bandwidth also helps in loading and processing large 3D models and textures, resulting in a more efficient workflow for 3D artists.
In AI - related content creation tasks, such as using StableDiffusion for generating images, the RTX 4080 Super can generate images faster. The 4080 Super's more powerful Tensor Cores (part of the Ada Lovelace architecture) are optimized for AI computations. It can complete a batch of image generation tasks in less time compared to the RTX 4070 Ti Super, making it a better choice for users who frequently engage in AI - based content creation.
The RTX 4070 Ti Super has a total graphics power (TGP) of 285W. This means that the power supply unit (PSU) in your PC needs to be able to provide sufficient power to run the graphics card. A PSU with a minimum of 700W is generally recommended for a system with a 4070 Ti Super, depending on other components in the system.
The RTX 4080 Super has a TGP of 320W, which is higher than that of the 4070 Ti Super. As a result, it requires a more powerful PSU. A 750W or higher PSU is often recommended for a system with a 4080 Super to ensure stable power delivery, especially during high - load operations.
Both cards come with advanced thermal designs to keep the GPU cool under load. The RTX 4070 Ti Super typically features multiple heat pipes and a large heatsink to dissipate heat generated by the GPU and memory modules. Some models also have three - fan cooling solutions to improve air circulation.
The RTX 4080 Super, given its higher power consumption, often has an even more robust thermal design. It may have larger heat pipes, more extensive heatsinks, and more efficient fan configurations. For example, some high - end models of the 4080 Super use vapor - chamber cooling technology, which can transfer heat more effectively than traditional heat pipes, keeping the GPU temperature in check even during long - term, high - load gaming or content creation tasks.
The RTX 4070 Ti Super has a manufacturer's suggested retail price (MSRP) of \(799. At this price point, it offers a good balance of performance for mid - range to high - end gaming and content creation. The RTX 4080 Super has an MSRP of \)999. It is positioned as a high - end graphics card, offering significantly better performance than the 4070 Ti Super but at a higher cost.
If you are on a budget but still want a powerful graphics card for 1440p gaming and some light content creation, the RTX 4070 Ti Super offers good value for money. It can handle most modern games at 1440p with high settings and can also assist in tasks like video editing and 3D modeling to a certain extent.
However, if you are a serious gamer who wants to play at 4K with the highest graphics settings, or if you are a professional content creator who relies on GPU - accelerated applications, the RTX 4080 Super provides better long - term value. Its superior performance in high - end gaming and content creation tasks justifies the higher price tag, as it can save you time and provide a more immersive gaming and creative experience.
In conclusion, the choice between the RTX 4070 Ti Super and RTX 4080 Super depends on your specific needs and budget. If you are looking for a graphics card mainly for 1080p or 1440p gaming, and your budget is relatively tight, the RTX 4070 Ti Super is a great option. It can deliver excellent gaming performance and also handle some content creation tasks.
On the other hand, if you are aiming for 4K gaming, professional content creation, or if you want the best - in - class performance for future - proofing your PC, the RTX 4080 Super is the way to go. Its more powerful CUDA core count, higher memory bandwidth, and better performance in both gaming and content creation applications make it a top - tier choice for those who demand the most from their graphics card.
