RTX 4070 vs 4070 Super – Check Which One Is Best & Why?

Why Do I Recommend The RTX 4070 Super?

• The RTX 4070 Super has a higher CUDA core count for increased parallel processing performance in modern games and GPU-accelerated applications, while the RTX 4070 has fewer CUDA cores.
• RTX 4070 Super features more streaming multiprocessors for improved throughput in complex rendering and compute workloads, whereas the RTX 4070 uses fewer SMs.
• It includes additional RT cores to deliver stronger real-time ray tracing performance with higher frame stability, while the RTX 4070 comes with fewer RT cores.
• The RTX 4070 Super comes with more Tensor cores for faster AI operations such as DLSS frame generation and upscaling, whereas the RTX 4070 includes fewer Tensor cores.
• RTX 4070 Super has a larger L2 cache for reduced memory latency and better performance consistency at higher resolutions, while the RTX 4070 has a smaller L2 cache.
• It supports a higher total graphics power limit for sustained boost clocks during long gaming sessions, while the RTX 4070 runs at a lower power target.
• The RTX 4070 Super delivers higher FP32 compute throughput for improved raw shader performance in demanding workloads, while the RTX 4070 provides lower compute output.
• RTX 4070 Super uses a more fully enabled AD104 die configuration to achieve stronger overall performance headroom, whereas the RTX 4070 uses a more cut-down AD104 configuration.

Maybe the RTX 4070 can make you comfortable because it’s a little bit cheaper than the RTX 4070 Super. But you have to compromise all the above-mentioned features. Now the Decision is Yours. I hope it was helpful to choose the right one.

What Common Both Can Do?

• GPU Architecture: Both graphics cards are based on NVIDIA’s Ada Lovelace architecture, which introduces major efficiency improvements and advanced graphics features. This ensures strong performance per watt and modern rendering capabilities across games and creative workloads.
• Manufacturing Process: Each GPU is built on TSMC’s 4N process, allowing higher transistor density and better power efficiency. This contributes to improved thermals and sustained performance under load.
• GPU Die: Both models use the AD104 die, meaning they share the same underlying silicon design. This results in similar feature sets and platform-level behavior.
• Memory Type: The RTX 4070 Super and RTX 4070 both use GDDR6X memory, which delivers high data transfer speeds. This is important for handling high-resolution textures and demanding graphics workloads.
• Memory Capacity: Each card includes 12 GB of VRAM, providing sufficient memory for modern games and professional applications. This capacity helps prevent performance drops caused by memory limitations.
• Memory Bus Width: A 192-bit memory bus is used on both GPUs, defining how data moves between the GPU and VRAM. This ensures consistent memory access characteristics across both models.
• Memory Speed: Both cards run their memory at 21 Gbps, enabling fast data throughput. This supports smooth performance at higher resolutions and with advanced visual settings.
• Memory Bandwidth: With identical memory bandwidth figures, both GPUs can handle similar data loads when accessing VRAM. This plays a key role in texture streaming and rendering consistency.
• PCIe Interface: Support for PCIe 4.0 x16 ensures compatibility with modern motherboards and high-bandwidth data transfer. This avoids bottlenecks when communicating with the CPU and system memory.
• Ray Tracing Generation: Both GPUs feature third-generation RT cores, enabling advanced real-time ray tracing effects. This enhances realism through improved lighting, shadows, and reflections.
• Tensor Core Generation: Fourth-generation Tensor cores are present in both models, supporting AI-driven tasks. These cores are essential for features like DLSS and accelerated compute workloads.
• DLSS Support: Both graphics cards support DLSS 3, allowing AI-based upscaling and frame generation. This helps boost frame rates while maintaining image quality.
• AV1 Encoding: Native AV1 encoding support is included on both GPUs, benefiting streamers and content creators. This allows higher-quality video at lower bitrates.
• NVENC Encoders: Dual eighth-generation NVENC encoders are shared across both models, enabling faster and more efficient video encoding. This improves multitasking and live streaming performance.
• DisplayPort: DisplayPort 1.4a support allows high refresh rates and resolutions on modern monitors. This ensures compatibility with advanced gaming and professional displays.
• HDMI: HDMI 2.1a is available on both cards, supporting features like 4K at high refresh rates. This is especially useful for gaming on TVs and large displays.
• DirectX Support: Both GPUs fully support DirectX 12 Ultimate, enabling modern graphics features used by the latest games. This ensures long-term software compatibility.
• Vulkan Support: Vulkan 1.3 support allows efficient low-level graphics processing. This benefits games and applications optimized for the Vulkan API.
• Power Connector: Each card uses the 16-pin 12VHPWR connector, standardizing power delivery. This simplifies compatibility with modern power supplies.
• Recommended PSU: A 650 W power supply is recommended for both GPUs, reflecting similar overall system requirements. This helps users plan system builds without major differences in power needs.