Amd Radeon Hd 7900 Series Vs Gtx 1050 Ti
What To Know
- In this article, we will take a closer look at the AMD Radeon HD 7900 series vs GTX 1050 Ti, comparing their specifications, performance, and features to help you make an informed decision about which card is right for you.
- The HD 7970, the top-of-the-line card in the HD 7900 series, offers slightly better performance than the GTX 1050 Ti in most games.
- Which graphics card is better for video editing, the AMD Radeon HD 7900 series or the NVIDIA GTX 1050 Ti.
The AMD Radeon HD 7900 series and the NVIDIA GTX 1050 Ti are two popular graphics cards that offer excellent performance for their respective price points. However, there are some key differences between the two cards that can make a difference depending on your specific needs. In this article, we will take a closer look at the AMD Radeon HD 7900 series vs GTX 1050 Ti, comparing their specifications, performance, and features to help you make an informed decision about which card is right for you.
Specifications
Feature | AMD Radeon HD 7900 Series | NVIDIA GTX 1050 Ti |
— | — | — |
GPU Architecture | Graphics Core Next (GCN) | Pascal |
Process Size | 28nm | 14nm |
Core Count | 2816 (HD 7970) | 768 |
Clock Speed | 925MHz (HD 7970) | 1290MHz |
Memory | 3GB GDDR5 (HD 7970) | 4GB GDDR5 |
Memory Bus Width | 384-bit (HD 7970) | 128-bit |
Memory Bandwidth | 264GB/s (HD 7970) | 112GB/s |
TDP | 250W (HD 7970) | 75W |
Performance
In terms of performance, the AMD Radeon HD 7900 series and the NVIDIA GTX 1050 Ti are fairly evenly matched. The HD 7970, the top-of-the-line card in the HD 7900 series, offers slightly better performance than the GTX 1050 Ti in most games. However, the GTX 1050 Ti is more power-efficient and runs cooler than the HD 7970.
Features
The AMD Radeon HD 7900 series and the NVIDIA GTX 1050 Ti both support a wide range of features, including DirectX 11, OpenGL 4.5, and Vulkan. The HD 7900 series also supports Eyefinity technology, which allows you to connect up to six monitors to a single graphics card. The GTX 1050 Ti supports NVIDIA G-Sync technology, which reduces screen tearing and improves overall gaming performance.
Price
The AMD Radeon HD 7900 series is no longer in production, but the GTX 1050 Ti is still available for purchase. The GTX 1050 Ti typically costs around $150, while the HD 7970 originally cost around $350.
Which Card is Right for You?
The AMD Radeon HD 7900 series and the NVIDIA GTX 1050 Ti are both excellent graphics cards that offer great performance for their respective price points. If you are looking for a powerful graphics card that can handle the latest games at high settings, the HD 7970 is a good option. However, if you are looking for a more power-efficient and affordable graphics card, the GTX 1050 Ti is a better choice.
The Bottom Line: The Ultimate Verdict
Ultimately, the best graphics card for you depends on your specific needs and budget. If you are looking for the best possible performance, the HD 7970 is the better choice. However, if you are looking for a more power-efficient and affordable graphics card, the GTX 1050 Ti is a better option.
Common Questions and Answers
Q: Which graphics card is better for gaming, the AMD Radeon HD 7900 series or the NVIDIA GTX 1050 Ti?
A: The AMD Radeon HD 7900 series offers slightly better performance than the NVIDIA GTX 1050 Ti in most games. However, the GTX 1050 Ti is more power-efficient and runs cooler than the HD 7900 series.
Q: Which graphics card is better for video editing, the AMD Radeon HD 7900 series or the NVIDIA GTX 1050 Ti?
A: The NVIDIA GTX 1050 Ti is better for video editing than the AMD Radeon HD 7900 series. The GTX 1050 Ti supports NVIDIA CUDA, which is a parallel computing platform that can accelerate video editing tasks.
Q: Which graphics card is better for overclocking, the AMD Radeon HD 7900 series or the NVIDIA GTX 1050 Ti?
A: The AMD Radeon HD 7900 series has better overclocking potential than the NVIDIA GTX 1050 Ti. The HD 7900 series has a higher power limit and more voltage options, which allows for more aggressive overclocking.