NVIDIA GeForce RTX 5060 Ti and AMD Radeon RX 7700 XT graphics card review: comparison and tests
The mid-range graphics card segment in 2025–2026 is one of the most competitive areas of the GPU market. GeForce RTX 5060 Ti from NVIDIA and Radeon RX 7700 XT from AMD are aimed at 1440p gaming at an affordable price. In this review we will run tests of both graphics cards and work out which one is better for real workloads. From the standpoint of the consumer’s financial and physical safety, choosing a graphics accelerator requires a balanced analysis, because buying expensive hardware and installing it in a PC yourself involves material risks and strict requirements for the electrical safety of the whole system.
NVIDIA officially released the RTX 5060 Ti on April 16, 2025, based on the Blackwell architecture with GDDR7 memory and support for the advanced DLSS 4. Radeon RX 7700 XT launched earlier on the RDNA 3 architecture and remains relevant thanks to 12 GB of GDDR6 memory and a wide bus. Both solutions target 2560×1440 resolution and offer a good balance of price and performance. To minimise purchase risks, consumers should use the official recommended prices as a reference point (USD 379 for the version with 8 GB and USD 429 for the model with 16 GB) and buy devices only from trusted distributors.
General graphics card specifications
NVIDIA GeForce RTX 5060 Ti
| Parameter | Value |
|---|---|
| Architecture | Blackwell, 5 nanometres (TSMC 4N) |
| Shader cores | 4608 |
| RT cores / Tensor cores | 36 (4th generation) / 144 (5th generation) |
| Memory | GDDR7 16 GB (an 8 GB version is also available), 128-bit, 448 GB/s |
| TDP / Power | 180 W / 8-pin (or 16-pin 12V-2x6 for custom boards) |
| Interface | PCIe 5.0 x8 |
AMD Radeon RX 7700 XT
| Parameter | Value |
|---|---|
| Architecture | RDNA 3, 5 nanometres |
| Shader cores | 3456 |
| RT cores / Tensor cores | 54 (2nd generation) / 108 |
| Memory | GDDR6 12 GB, 192-bit, 432 GB/s |
| TDP / Power | 245 W / 2× 8-pin |
| Interface | PCIe 4.0 x16 |
Architecture and technologies
NVIDIA architecture features
Blackwell is the current NVIDIA architecture, produced on an optimised 5-nanometre process. Key architectural improvements include 5th-generation Tensor cores with hardware support for FP4 and INT4 formats, RT units of the fourth generation and a controller for the latest GDDR7 memory. The RTX 5060 Ti graphics card received 144 Tensor cores, which deliver performance of up to 759 TOPS for local acceleration of AI algorithms and neural-network anti-aliasing.
AMD architecture features
RDNA 3 provides high computing efficiency in traditional rasterisation. The RX 7700 XT is equipped with a full 192-bit memory bus with bandwidth of 432 GB/s. This gives it a hardware advantage over the RTX 5060 Ti with its narrow 128-bit bus in demanding gaming scenarios that put a heavy load on video memory without using upscalers.
Ray tracing and DLSS
In games that make active use of ray tracing, RTX 5060 Ti is clearly ahead of RX 7700 XT: its RT cores of the fourth generation provide up to 72 TFLOPS of compute performance. The proprietary DLSS 4 technology with Multi Frame Generation multiplies frame rate without a visible loss of image quality. In this generation, AMD does not offer a hardware solution of comparable quality.
Test configuration and testing methodology
Test bench configuration
- Processor: AMD Ryzen 5 9600X
- Graphics card: Palit GeForce RTX 5060 Ti 16 GB Infinity 3
- RAM: DDR5 2×16 GB ADATA XPG Lancer Blade 6000 MHz
- Motherboard: MSI MAG B650M MORTAR WIFI
- Storage: NVMe SSD 2 TB ADATA Legend 900 Pro
- Power supply: Super Flower Leadex III Gold 750W (using a high-quality certified PSU is critically important to prevent component failure caused by overloads)
Testing methodology
Testing was carried out at 1080p, 1440p, and 4K with maximum graphics settings. Each test recorded the average FPS in native mode and with DLSS 4. Separately, results were measured for ray tracing. All measurements were performed at a stable room temperature of 22°C on an open test bench with continuous monitoring of GPU and power-delivery (VRM) temperatures.
Gaming tests
Tests in 1080p
Average FPS in Full HD at maximum graphics presets is 108 frames per second. The graphics card fully comes into its own at 1440p, while in 1080p its potential is excessive for most modern projects.
Tests in 1440p
Average FPS in 2K without upscalers is 79 frames per second. In native rasterisation, the RX 7700 XT vs RTX 5060 Ti matchup shows close results, but when DLSS 4 is enabled, the model from NVIDIA moves far ahead in image smoothness.
| Game (1440p) | RTX 5060 Ti (FPS) |
|---|---|
| Counter-Strike 2, max. | 212 |
| Baldur's Gate 3, max. | 100 |
| RDR 2, ultra | 83 |
| Kingdom Come: Deliverance II, max. | 55 |
| Marvel Rivals, ultra | 64 |
Tests in 4K
Average FPS in 4K is only 44 frames per second. Neither mid-range solution is aimed at Ultra HD resolution without image scaling.
Ray tracing tests
RTX 5060 Ti is significantly ahead of RX 7700 XT in games with RT. However, in pure 1080p, the chip sometimes does not have enough performance without enabling DLSS. It is also worth remembering: if the baseline FPS drops below 30–40 frames per second, enabling frame generation can cause high input latency and make controls feel less responsive.
| Game (RT) | FPS (1080p) | FPS (2K) |
|---|---|---|
| GTA V RTX, max. | 120 | 76 |
| Cyberpunk 2077, max. RT | 54 | 33 |
| Doom: The Dark Ages, max. RT | 76 | 51 |
| Alan Wake 2, high | 50 | 36 |
Comparison with competitors
In classic rasterisation, RX 7700 XT and RTX 5060 Ti remain on par. When ray tracing and upscaling are enabled, GeForce pulls significantly ahead: reconstruction quality in DLSS 4 is noticeably better than FSR from AMD, and the advantage in FPS in RT modes reaches 30%. At the same time, the 8 GB version of RTX 5060 Ti risks running out of VRAM when RT is enabled, whereas the 16 GB version does not have this issue at all.
Power consumption and temperature
Power consumption in games
The maximum TDP of RTX 5060 Ti is 180 W versus about 245 W for the RX 7700 XT. A 65 W saving makes the graphics card from NVIDIA preferable for quiet systems and compact cases. For stable operation, the RTX 5060 Ti requires a quality PSU starting from 550 W (80 PLUS Gold), while the RX 7700 XT is recommended with at least 700 W. Cheap power supplies without OCP and OVP protection should be strictly avoided.
Temperature under load
The moderate heat output of the RTX 5060 Ti allows it to run stably in cases with limited ventilation. RX 7700 XT requires a well-ventilated space under prolonged load to avoid PCB overheating and chip degradation.
Pros and cons
Strengths
- RTX 5060 Ti 16 GB: 16 GB of fast GDDR7 memory — the maximum capacity, ensuring protection against memory shortage
- RTX 5060 Ti 16 GB: Support for DLSS 4 with high-precision frame generation
- RTX 5060 Ti 16 GB: Low 180 W TDP and support for standard power connectors
- RTX 5060 Ti 16 GB: Excellent performance when ray tracing is enabled
- RX 7700 XT: High native performance in classic rasterisation
- RX 7700 XT: Wide 192-bit memory bus
- RX 7700 XT: Good balance of price and pure performance without scaling
Weaknesses
- RTX 5060 Ti: the narrow 128-bit memory bus limits bandwidth at resolutions above 1440p; in native modes without upscaling, the results are almost identical to those of the RX 7700 XT.
- RX 7700 XT: falls significantly behind in ray tracing, does not support DLSS 4, and power consumption is 65 W higher.
Conclusion
RTX 5060 Ti 16 GB is a modern, energy-efficient, and versatile gaming solution with excellent ray tracing and a strong margin for the future thanks to neural-network technologies. Radeon RX 7700 XT remains a strong graphics card for classic rasterised gaming in 2K, but falls behind its rival in the long term.
Whichever graphics card you choose — RTX 5060 Ti or another model — at HYPERPC you will get exactly the configuration that perfectly suits your tasks and budget.
Still have questions? We have prepared the answers.
- Is it suitable for 1440p gaming? Yes. The average FPS in modern projects is 79 frames without upscaling. With DLSS 4 enabled, this figure easily exceeds 100 frames per second in many games.
- Is there enough video memory? 16 GB of GDDR7 is fully sufficient for stable 2K gaming with maximum textures. If you buy the 8 GB version, modern games with RT often require more than 10–12 GB of memory, which leads to severe stuttering.
- What about overheating? Power consumption of 180 W is moderate and does not require replacing the PSU with an ATX 3.0 unit. For system safety, it is only important to insert the power cable firmly into the connector until it clicks.
- Is it suitable for streaming? Yes. NVIDIA’s NVENC hardware encoder provides excellent streaming quality without adding extra load to the CPU.