In the graphics card market, NVIDIA's RTX 40 series has always received widespread attention. Among them, the 4070 Ti and 4070 Super, as two mid-to-high-end products, boast powerful performance and similar positioning, often leaving many consumers puzzled when making a choice. This article will conduct a comprehensive comparison of these two graphics cards from multiple dimensions, including performance, price, and gaming performance, to help you make a more suitable decision.
| Parameter | 4070 Ti | 4070 Super | Difference |
|---|---|---|---|
| Number of CUDA Cores | 7680 | 7168 | The 4070 Ti has approximately 7% more than the 4070 Super |
| Base Clock | 2310MHz | 1980MHz | The 4070 Ti is approximately 16% higher than the 4070 Super |
| Boost Clock | 2610MHz | 2475MHz | The 4070 Ti is approximately 5% higher than the 4070 Super |
| VRAM Capacity | 12GB GDDR6X | 12GB GDDR6X | The same |
| VRAM Bus Width | 192-bit | 192-bit | The same |
| Power Consumption | 285W | 220W | The 4070 Super is approximately 23% lower than the 4070 Ti |
CUDA cores are the key units for parallel computing in NVIDIA graphics cards. Generally, the more CUDA cores, the stronger the capabilities in graphics processing, computing tasks, and other aspects. The core clock directly affects the computing speed of the graphics card. A higher clock allows the 4070 Ti to respond more quickly when processing graphics data, theoretically resulting in smoother graphics processing.
The two graphics cards have the same VRAM specifications, meaning that when facing high-resolution and high-quality scenes in large games or professional software, they have similar basic conditions in terms of VRAM capacity and data transfer bandwidth, and are unlikely to experience serious performance degradation due to insufficient VRAM or bandwidth bottlenecks. However, in some extreme cases, such as running multiple large programs simultaneously, all of which have high VRAM requirements, larger VRAM may offer certain advantages. Nevertheless, for these two graphics cards, the differences in VRAM have little impact on regular use.
Power consumption is not only related to usage costs but also closely tied to the graphics card's cooling design. The 4070 Super performs more impressively in power consumption control, resulting in relatively less heat generation during operation and lower requirements for the chassis cooling system. Additionally, lower power consumption means lower electricity costs in the long run. If your chassis has limited cooling space or your power supply wattage is not particularly sufficient, the 4070 Super may be a more suitable choice.
In the 3DMark Time Spy test, which is used to measure the gaming performance of graphics cards in DirectX 12 environments, the 4070 Ti scored 22706 points, while the 4070 Super scored 21214 points. From the benchmark results, it can be seen that the 4070 Ti leads the 4070 Super by approximately 7% in theoretical performance. This advantage becomes even more pronounced in high-load graphics rendering scenarios. For example, in some large 3A games that are fully optimized for DirectX 12 technology, the 4070 Ti can provide a more stable and higher frame rate.
In the 3DMark Fire Strike test, which mainly focuses on DirectX 11 gaming performance, the 4070 Ti also achieved excellent results, with a lead over the 4070 Super similar to that in the Time Spy test. This indicates that in mainstream DirectX 11 gaming environments, the 4070 Ti can also demonstrate certain advantages with its higher performance specifications.
Video Editing: When using Adobe Premiere Pro for 4K video editing, the 4070 Ti, with its more powerful CUDA cores and higher clock speeds, performs more smoothly during multi-track and high-bitrate editing. For instance, when simultaneously editing three 4K 60fps video tracks and adding multiple effects, the 4070 Ti can maintain a relatively stable preview frame rate, while the 4070 Super may experience some minor stuttering. In terms of the final video rendering output time, the 4070 Ti is also approximately 10% faster than the 4070 Super, which can effectively improve work efficiency for professional video creators.
3D Rendering: Taking the Blender rendering software as an example, during complex 3D scene rendering tests, the 4070 Ti renders approximately 18% faster than the 4070 Super. For example, when rendering a scene with a large number of detailed models and complex materials, the 4070 Ti may take 2 hours to complete, while the 4070 Super may take about 2.4 hours. This gap becomes more significant in large-scale 3D projects, and the 4070 Ti can help 3D artists see the rendering results faster and make timely adjustments and optimizations.
Cyberpunk 2077: With the highest graphics settings and ray tracing enabled, the 4070 Ti achieved an average frame rate of 69 frames, while the 4070 Super had an average frame rate of 66 frames. The 4070 Ti leads by approximately 5%. Both can provide players with a relatively smooth gaming experience, but the 4070 Ti has a slight edge in terms of image smoothness and stability. In some complex scenes, such as the streets with rich lighting and shadow effects in the city, the 4070 Ti can better maintain the frame rate and reduce screen stuttering and frame drops.
Red Dead Redemption 2: Also at 1440p with the highest graphics settings, the 4070 Ti had an average frame rate of 125 frames and a 1% low frame rate of 95 frames; the 4070 Super had an average frame rate of 117 frames and a 1% low frame rate of 92 frames. The 4070 Ti leads by approximately 7% in the average frame rate and also has a certain advantage in the 1% low frame rate. This means that during the game, the 4070 Ti has a lower probability of extreme stuttering, allowing players to enjoy a more stable gaming screen.
Avatar: Frontiers of Pandora: At 4K with the highest graphics settings, the 4070 Ti achieved an average frame rate of 64 frames, while the 4070 Super had an average frame rate of 55 frames. The 4070 Ti leads by approximately 16%. At this high resolution, the performance advantage of the 4070 Ti becomes more obvious. It enables players to enjoy a more fluid gaming operation experience while admiring the game's stunning visuals. Although the 4070 Super can also run the game, the frame rate gap makes the gaming smoothness slightly insufficient.
Forza Horizon 5: At 4K with the highest graphics settings, the 4070 Ti had an average frame rate of 148 frames and a 1% low frame rate of 124 frames; the 4070 Super had an average frame rate of 141 frames and a 1% low frame rate of 118 frames. The 4070 Ti leads by approximately 5% in the average frame rate and about 5% in the 1% low frame rate. In this type of racing game with high frame rate requirements, the 4070 Ti can provide smoother image transitions, allowing players to better control the vehicle during high-speed driving and enhancing the game's competitiveness and immersion.
The official price of the 4070 Super is $599, while the 4070 Ti is $799, with a difference of $200 between the two. Converted into RMB, in the domestic market, the price of the 4070 Super is generally around 4800 - 5500 yuan, and the price of the 4070 Ti is around 6500 - 7500 yuan. Judging from the performance improvement and price increase, the 4070 Super has a relatively higher cost-performance ratio. Although the 4070 Ti comprehensively outperforms the 4070 Super in terms of performance, with a lead of around 15% - 20%, the price is 33% higher. If you have a limited budget, the 4070 Super can provide you with performance close to that of the 4070 Ti at a lower cost.
Gamers at 1080p or 1440p Resolution: If you mainly play games at 1080p or 1440p resolution and have a high requirement for cost-performance ratio, the 4070 Super is an excellent choice. It can provide you with excellent gaming performance at these two resolutions, maintaining a high frame rate for the vast majority of games. Meanwhile, its lower power consumption can also save electricity costs and reduce the pressure on the chassis cooling system.
Gamers at 4K Resolution: If you pursue the ultimate 4K gaming experience and want to achieve higher and more stable frame rates at high resolutions, especially when enabling effects such as ray tracing, the 4070 Ti would be a better option. Its performance advantage in 4K gaming allows you to enjoy a smoother and more exquisite gaming screen. However, you need to pay a higher cost for it and ensure that your chassis has good cooling conditions and a sufficient power supply wattage.
Professional Creators: If you are a user who frequently engages in professional creative work such as video editing, 3D rendering, and animation production, the additional performance of the 4070 Ti can significantly reduce rendering time and improve work efficiency. When handling large projects, its powerful CUDA cores and high clock speeds can complete complex computing tasks more quickly, saving you valuable time.
Casual Creators: For ordinary users who only occasionally engage in creative work such as video editing and simple 3D modeling, the 4070 Super can already meet most of your needs. It also performs well in productivity applications and is more affordable, meeting your creative requirements without putting too much pressure on your budget.
Users with Small Chassis or Limited Power Supply Wattage: If your chassis has limited space or your power supply wattage is only 650W or even lower, the 4070 Super is a more suitable choice. Its lower power consumption does not require a high-wattage power supply, and it can also dissipate heat better in a small chassis, avoiding performance degradation caused by poor heat dissipation.
Users with Large Chassis and Sufficient Power Supply Wattage: If you have a large chassis and your power supply wattage is 750W or above, you can focus more on performance when choosing a graphics card. Although the 4070 Ti has higher power consumption, it can operate stably in the good cooling environment of a large chassis and fully unleash its performance advantages.
