Explore the Latest Graphics Card Technologies
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Product Details
Nvidia GeForce RTX 5090
Specifications
- Memory Size
- 32GB GDDR7
- Gaming Score
- Up to 2x RTX 4090
- Architecture
- Blackwell
- Boost Clock
- ~2.41 GHz
- Memory Bandwidth
- ~1792 GB/s
- Power Draw
- 575W
- Ray Tracing Performance
- Up to ~40% > RTX 4090
Nvidia GeForce RTX 5080
Specifications
- Memory Size
- 16GB GDDR7
- Gaming Score
- N/A
- Architecture
- Blackwell
- Boost Clock
- Up to 2.64 GHz
- Memory Bandwidth
- 960 GB/s
- Power Draw
- 360W
- Ray Tracing Performance
- Up to ~25-45% > RX 7900 XTX, ~10% > RTX 4080 Super
AMD Radeon RX 9070 XT
Specifications
- Memory Size
- 16GB GDDR6
- Gaming Score
- N/A
- Architecture
- RDNA 4
- Boost Clock
- Up to 3.1 GHz
- Memory Bandwidth
- 640 GB/s
- Power Draw
- Approx. 304W
- Ray Tracing Performance
- Improved over RDNA 3, competitive with RTX 5070
Intel Arc B580
Specifications
- Memory Size
- 12GB GDDR6
- Gaming Score
- 3068 (3DMark Steel Nomad DX12)
- Architecture
- Xe2-HPG / Battlemage
- Boost Clock
- Up to 2.85 GHz
- Memory Bandwidth
- 456 GB/s
- Power Draw
- 190W
- Ray Tracing Performance
- Solid RT performance, outperforms RTX 4060
Nvidia GeForce RTX 4060
Specifications
- Memory Size
- 8GB GDDR6
- Gaming Score
- 49.53% of leader
- Architecture
- Ada Lovelace
- Boost Clock
- Up to 2.46 GHz
- Memory Bandwidth
- 272 GB/s
- Power Draw
- 115W
- Ray Tracing Performance
- 24 RT Cores
AMD Radeon RX 7600
Specifications
- Memory Size
- 8GB GDDR6
- Gaming Score
- N/A
- Architecture
- RDNA 3
- Boost Clock
- Up to 2.655 GHz
- Memory Bandwidth
- Up to 288 GB/s
- Power Draw
- 165W
- Ray Tracing Performance
- 32 Ray Accelerators
Explore the Latest Graphics Card Technologies
All the terms in the page above refer to specific metrics that are used to evaluate the products. Here's a quick explanation of the metrics used to evaluate these products:
Gaming Score
An overall gaming performance capability is represented by a synthetic benchmark score or composite indicator.<br>Higher scores typically signify better gaming performance across diverse titles.
Memory Size
The total dedicated video memory (VRAM) is detailed, crucial for handling high-resolution textures and complex scenes.<br>Larger memory sizes generally enable improved performance at higher resolutions and settings.
Architecture
The underlying GPU design and generation are described, dictating efficiency, feature sets, and overall performance.<br>Newer architectures often introduce significant enhancements.
Boost Clock
The maximum GPU clock speed achievable under optimal conditions is specified, indicating peak processing power.<br>Higher boost clocks can contribute to smoother frame rates.
Memory Bandwidth
The rate at which data is transferred to and from the graphics card's memory is presented, measured in GB/s.<br>Greater memory bandwidth is vital for supplying the GPU with data quickly, especially at high resolutions.
Ray Tracing Performance
The graphics card's proficiency in rendering realistic lighting, shadows, and reflections via ray tracing is assessed.<br>Performance here is key for modern visual fidelity in supported games and applications.
Power Draw
The typical electrical power consumption under load (TDP/TGP) is listed, influencing power supply needs and heat output.<br>This metric is important for system compatibility and thermal considerations.