The RTX 4070 Super and RTX 4070 Ti, both based on NVIDIA's Ada Lovelace architecture, often cause confusion due to their similar pricing. However, targeted differences in performance, power, and value make each suited to distinct user needs. This guide breaks down their core distinctions.
| Feature | RTX 4070 Super | RTX 4070 Ti |
|---|---|---|
| CUDA Cores | 7168 | 7680 (7% more) |
| Boost Clock | 2.48GHz | 2.61GHz (5% higher) |
| Memory | 12GB GDDR6X, 192-bit | 12GB GDDR6X, 192-bit |
| Memory Bandwidth | 504GB/s | 504GB/s |
| RT Cores | 3rd-gen | 3rd-gen |
| Tensor Cores | 4th-gen | 4th-gen |
| TDP | 220W | 285W (30% higher) |
| Recommended PSU | 650W | 700W (850W ideal) |
| Starting Price | ¥4,899 | ¥4,799 (¥100 cheaper) |
The 7% gap in CUDA cores and higher clock speed give the RTX 4070 Ti a consistent edge:
AAA Games: 7-14% better framerates at 2K (e.g., Cyberpunk 2077: 40fps vs. 35fps). DLSS 3 narrows this gap by 30-40%.
Competitive Titles: 11.7% advantage in CS2 (143fps vs. 128fps), critical for pro players.
Productivity: 10% faster in Blender rendering and DaVinci encoding, thanks to extra cores.
3DMark scores (22,706 vs. 22,282) show a smaller 2% gap, highlighting that real-world optimization matters more than raw specs.
The RTX 4070 Ti’s 285W TDP demands a beefier PSU (850W recommended vs. 650W for 4070 Super), adding ~¥200 to system costs. It also requires 3-fan coolers, while 4070 Super runs smoothly with 2-fan designs.
Choose 4070 Super if: You game at 1440P with a high-refresh monitor, prioritize lower power costs, or need a budget-friendly 12GB GPU.
Choose 4070 Ti if: You own a 4K display, do heavy content creation (AI, video editing), or want future-proofing for upcoming games.
The decision hinges on whether the 7% performance boost justifies the higher power demands. For most 2K gamers, the 4070 Super hits the sweet spot; enthusiasts and creators will benefit more from the 4070 Ti.
