Radeon R7 250 vs Quadro RTX 4000
Aggregate performance score
We've compared Quadro RTX 4000 with Radeon R7 250, including specs and performance data.
RTX 4000 outperforms R7 250 by a whopping 1322% based on our aggregate benchmark results.
Contents
Primary details
GPU architecture, market segment, value for money and other general parameters compared.
| Place in the ranking | 155 | 869 |
| Place by popularity | not in top-100 | not in top-100 |
| Cost-effectiveness evaluation | 12.83 | 0.10 |
| Power efficiency | 17.13 | 2.97 |
| Architecture | Turing (2018−2022) | GCN 1.0 (2012−2020) |
| GPU code name | TU104 | Oland |
| Market segment | Workstation | Desktop |
| Design | no data | reference |
| Release date | 13 November 2018 (7 years ago) | 8 October 2013 (12 years ago) |
| Launch price (MSRP) | $899 | $89 |
Cost-effectiveness evaluation
The higher the ratio, the better. We use the manufacturer's recommended prices.
RTX 4000 has 12730% better value for money than R7 250.
Performance to price scatter graph
Detailed specifications
General parameters such as number of shaders, GPU core base clock and boost clock speeds, manufacturing process, texturing and calculation speed. Note that power consumption of some graphics cards can well exceed their nominal TDP, especially when overclocked.
| Pipelines / CUDA cores | 2304 | 384 |
| Core clock speed | 1005 MHz | no data |
| Boost clock speed | 1545 MHz | 1050 MHz |
| Number of transistors | 13,600 million | 950 million |
| Manufacturing process technology | 12 nm | 28 nm |
| Power consumption (TDP) | 160 Watt | 75 Watt |
| Texture fill rate | 222.5 | 25.20 |
| Floating-point processing power | 7.119 TFLOPS | 0.8064 TFLOPS |
| ROPs | 64 | 8 |
| TMUs | 144 | 24 |
| Tensor Cores | 288 | no data |
| Ray Tracing Cores | 36 | no data |
| L1 Cache | 2.3 MB | 96 KB |
| L2 Cache | 4 MB | 256 KB |
Form factor & compatibility
Information on compatibility with other computer components. Useful when choosing a future computer configuration or upgrading an existing one. For desktop graphics cards it's interface and bus (motherboard compatibility), additional power connectors (power supply compatibility).
| Bus support | no data | PCIe 3.0 |
| Interface | PCIe 3.0 x16 | PCIe 3.0 x8 |
| Length | 241 mm | 168 mm |
| Width | 1-slot | 2-slot |
| Supplementary power connectors | 1x 8-pin | N/A |
VRAM capacity and type
Parameters of VRAM installed: its type, size, bus, clock and resulting bandwidth. Integrated GPUs have no dedicated video RAM and use a shared part of system RAM.
| Memory type | GDDR6 | GDDR5 |
| Maximum RAM amount | 8 GB | 2 GB |
| Memory bus width | 256 Bit | 128 Bit |
| Memory clock speed | 1625 MHz | 1150 MHz |
| Memory bandwidth | 416.0 GB/s | 72 GB/s |
| Shared memory | - | - |
Connectivity and outputs
This section shows the types and number of video connectors on each GPU. The data applies specifically to desktop reference models (for example, NVIDIA’s Founders Edition). OEM partners often modify both the number and types of ports. On notebook GPUs, video‐output options are determined by the laptop’s design rather than the graphics chip itself.
| Display Connectors | 3x DisplayPort 1.4a, 1x USB Type-C | 1x DVI, 1x HDMI, 1x VGA |
| HDMI | - | + |
Supported technologies
Supported technological solutions. This information will prove useful if you need some particular technology for your purposes.
| AppAcceleration | - | + |
| CrossFire | - | + |
| FreeSync | - | + |
| DDMA audio | no data | + |
API and SDK support
List of supported 3D and general-purpose computing APIs, including their specific versions.
| DirectX | 12 Ultimate (12_2) | DirectX® 12 |
| Shader Model | 6.8 | 5.1 |
| OpenGL | 4.6 | 4.6 |
| OpenCL | 3.0 | 1.2 |
| Vulkan | 1.3 | - |
| CUDA | 7.5 | - |
| DLSS | + | - |
Synthetic benchmarks
Non-gaming benchmark results comparison. The combined score is measured on a 0-100 point scale.
Combined synthetic benchmark score
This is our combined benchmark score.
Passmark
This is the most ubiquitous GPU benchmark. It gives the graphics card a thorough evaluation under various types of load, providing four separate benchmarks for Direct3D versions 9, 10, 11 and 12 (the last being done in 4K resolution if possible), and few more tests engaging DirectCompute capabilities.
Gaming performance
Let's see how good the compared graphics cards are for gaming. Particular gaming benchmark results are measured in FPS.
Average FPS across all PC games
Here are the average frames per second in a large set of popular games across different resolutions:
| Full HD | 270−280
+1321%
| 19
−1321%
|
Cost per frame, $
| 1080p | 3.33
+40.7%
| 4.68
−40.7%
|
- RTX 4000 has 41% lower cost per frame in 1080p
FPS performance in popular games
Full HD
Low
| Counter-Strike 2 | 7−8
+0%
|
7−8
+0%
|
| Cyberpunk 2077 | 5−6
+0%
|
5−6
+0%
|
Full HD
Medium
| Battlefield 5 | 8−9
+0%
|
8−9
+0%
|
| Counter-Strike 2 | 7−8
+0%
|
7−8
+0%
|
| Cyberpunk 2077 | 5−6
+0%
|
5−6
+0%
|
| Escape from Tarkov | 9−10
+0%
|
9−10
+0%
|
| Far Cry 5 | 7−8
+0%
|
7−8
+0%
|
| Fortnite | 12−14
+0%
|
12−14
+0%
|
| Forza Horizon 4 | 12−14
+0%
|
12−14
+0%
|
| Forza Horizon 5 | 6−7
+0%
|
6−7
+0%
|
| PLAYERUNKNOWN'S BATTLEGROUNDS | 12−14
+0%
|
12−14
+0%
|
| Valorant | 40−45
+0%
|
40−45
+0%
|
Full HD
High
| Battlefield 5 | 8−9
+0%
|
8−9
+0%
|
| Counter-Strike 2 | 7−8
+0%
|
7−8
+0%
|
| Counter-Strike: Global Offensive | 45−50
+0%
|
45−50
+0%
|
| Cyberpunk 2077 | 5−6
+0%
|
5−6
+0%
|
| Dota 2 | 24−27
+0%
|
24−27
+0%
|
| Escape from Tarkov | 9−10
+0%
|
9−10
+0%
|
| Far Cry 5 | 7−8
+0%
|
7−8
+0%
|
| Fortnite | 12−14
+0%
|
12−14
+0%
|
| Forza Horizon 4 | 12−14
+0%
|
12−14
+0%
|
| Forza Horizon 5 | 6−7
+0%
|
6−7
+0%
|
| Grand Theft Auto V | 6−7
+0%
|
6−7
+0%
|
| Metro Exodus | 4−5
+0%
|
4−5
+0%
|
| PLAYERUNKNOWN'S BATTLEGROUNDS | 12−14
+0%
|
12−14
+0%
|
| The Witcher 3: Wild Hunt | 9−10
+0%
|
9−10
+0%
|
| Valorant | 40−45
+0%
|
40−45
+0%
|
Full HD
Ultra
| Battlefield 5 | 8−9
+0%
|
8−9
+0%
|
| Cyberpunk 2077 | 5−6
+0%
|
5−6
+0%
|
| Dota 2 | 24−27
+0%
|
24−27
+0%
|
| Escape from Tarkov | 9−10
+0%
|
9−10
+0%
|
| Far Cry 5 | 7−8
+0%
|
7−8
+0%
|
| Forza Horizon 4 | 12−14
+0%
|
12−14
+0%
|
| PLAYERUNKNOWN'S BATTLEGROUNDS | 12−14
+0%
|
12−14
+0%
|
| The Witcher 3: Wild Hunt | 9−10
+0%
|
9−10
+0%
|
| Valorant | 40−45
+0%
|
40−45
+0%
|
Full HD
Epic
| Fortnite | 12−14
+0%
|
12−14
+0%
|
1440p
High
| Counter-Strike 2 | 6−7
+0%
|
6−7
+0%
|
| Counter-Strike: Global Offensive | 18−20
+0%
|
18−20
+0%
|
| Metro Exodus | 0−1 | 0−1 |
| PLAYERUNKNOWN'S BATTLEGROUNDS | 24−27
+0%
|
24−27
+0%
|
| Valorant | 21−24
+0%
|
21−24
+0%
|
1440p
Ultra
| Cyberpunk 2077 | 2−3
+0%
|
2−3
+0%
|
| Escape from Tarkov | 5−6
+0%
|
5−6
+0%
|
| Far Cry 5 | 4−5
+0%
|
4−5
+0%
|
| Forza Horizon 4 | 6−7
+0%
|
6−7
+0%
|
| The Witcher 3: Wild Hunt | 4−5
+0%
|
4−5
+0%
|
1440p
Epic
| Fortnite | 5−6
+0%
|
5−6
+0%
|
4K
High
| Grand Theft Auto V | 14−16
+0%
|
14−16
+0%
|
| Valorant | 12−14
+0%
|
12−14
+0%
|
4K
Ultra
| Cyberpunk 2077 | 0−1 | 0−1 |
| Dota 2 | 7−8
+0%
|
7−8
+0%
|
| Escape from Tarkov | 1−2
+0%
|
1−2
+0%
|
| Far Cry 5 | 1−2
+0%
|
1−2
+0%
|
| Forza Horizon 4 | 2−3
+0%
|
2−3
+0%
|
| PLAYERUNKNOWN'S BATTLEGROUNDS | 3−4
+0%
|
3−4
+0%
|
4K
Epic
| Fortnite | 3−4
+0%
|
3−4
+0%
|
This is how RTX 4000 and R7 250 compete in popular games:
- RTX 4000 is 1321% faster in 1080p
All in all, in popular games:
- there's a draw in 55 tests (100%)
Pros & cons summary
| Performance score | 35.69 | 2.51 |
| Recency | 13 November 2018 | 8 October 2013 |
| Maximum RAM amount | 8 GB | 2 GB |
| Chip lithography | 12 nm | 28 nm |
| Power consumption (TDP) | 160 Watt | 75 Watt |
RTX 4000 has a 1321.9% higher aggregate performance score, an age advantage of 5 years, a 300% higher maximum VRAM amount, and a 133.3% more advanced lithography process.
R7 250, on the other hand, has 113.3% lower power consumption.
The Quadro RTX 4000 is our recommended choice as it beats the Radeon R7 250 in performance tests.
Be aware that Quadro RTX 4000 is a workstation graphics card while Radeon R7 250 is a desktop one.
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