NVIDIA GeForce RTX 2080 SUPER Mobile versus NVIDIA GeForce RTX 2060 Max-Q
Comparaison des cartes vidéo NVIDIA GeForce RTX 2080 SUPER Mobile and NVIDIA GeForce RTX 2060 Max-Q pour tous les caractéristiques connus dans les catégories suivants: Essentiel, Infos techniques, Sorties et ports de vidéo, Compatibilité, dimensions et exigences, Soutien API, Mémoire, Technologies. Analyse du performance de référence des cartes vidéo: 3DMark Fire Strike - Graphics Score, GFXBench 4.0 - Car Chase Offscreen (Frames), GFXBench 4.0 - Car Chase Offscreen (Fps), GFXBench 4.0 - Manhattan (Frames), GFXBench 4.0 - Manhattan (Fps), GFXBench 4.0 - T-Rex (Frames), GFXBench 4.0 - T-Rex (Fps), PassMark - G3D Mark, PassMark - G2D Mark, Geekbench - OpenCL, CompuBench 1.5 Desktop - Face Detection (mPixels/s), CompuBench 1.5 Desktop - Ocean Surface Simulation (Frames/s), CompuBench 1.5 Desktop - T-Rex (Frames/s), CompuBench 1.5 Desktop - Video Composition (Frames/s), CompuBench 1.5 Desktop - Bitcoin Mining (mHash/s).
Différences
Raisons pour considerer le NVIDIA GeForce RTX 2080 SUPER Mobile
- La carte vidéo est plus nouvelle: date de sortie 1 ans 2 mois plus tard
- Environ 60% de pipelines plus haut: 3072 versus 1920
- Environ 33% plus de taille maximale de mémoire: 8 GB versus 6 GB
- Environ 93% meilleur performance en 3DMark Fire Strike - Graphics Score: 10790 versus 5597
- Environ 31% meilleur performance en GFXBench 4.0 - Car Chase Offscreen (Frames): 20291 versus 15485
- Environ 31% meilleur performance en GFXBench 4.0 - Car Chase Offscreen (Fps): 20291 versus 15485
| Caractéristiques | |
| Date de sortie | 2 Apr 2020 versus 6 January 2019 |
| Pipelines | 3072 versus 1920 |
| Taille de mémore maximale | 8 GB versus 6 GB |
| Référence | |
| 3DMark Fire Strike - Graphics Score | 10790 versus 5597 |
| GFXBench 4.0 - Car Chase Offscreen (Frames) | 20291 versus 15485 |
| GFXBench 4.0 - Car Chase Offscreen (Fps) | 20291 versus 15485 |
Raisons pour considerer le NVIDIA GeForce RTX 2060 Max-Q
- Environ 2% meilleur performance en GFXBench 4.0 - Manhattan (Frames): 3707 versus 3652
- Environ 2% meilleur performance en GFXBench 4.0 - Manhattan (Fps): 3707 versus 3652
- 57.8x meilleur performance en GFXBench 4.0 - T-Rex (Frames): 3353 versus 58
- 57.8x meilleur performance en GFXBench 4.0 - T-Rex (Fps): 3353 versus 58
| Référence | |
| GFXBench 4.0 - Manhattan (Frames) | 3707 versus 3652 |
| GFXBench 4.0 - Manhattan (Fps) | 3707 versus 3652 |
| GFXBench 4.0 - T-Rex (Frames) | 3353 versus 58 |
| GFXBench 4.0 - T-Rex (Fps) | 3353 versus 58 |
Comparer les références
GPU 1: NVIDIA GeForce RTX 2080 SUPER Mobile
GPU 2: NVIDIA GeForce RTX 2060 Max-Q
| 3DMark Fire Strike - Graphics Score |
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| GFXBench 4.0 - Car Chase Offscreen (Frames) |
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| GFXBench 4.0 - Car Chase Offscreen (Fps) |
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| GFXBench 4.0 - Manhattan (Frames) |
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| GFXBench 4.0 - Manhattan (Fps) |
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| GFXBench 4.0 - T-Rex (Frames) |
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| GFXBench 4.0 - T-Rex (Fps) |
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| Nom | NVIDIA GeForce RTX 2080 SUPER Mobile | NVIDIA GeForce RTX 2060 Max-Q |
|---|---|---|
| 3DMark Fire Strike - Graphics Score | 10790 | 5597 |
| GFXBench 4.0 - Car Chase Offscreen (Frames) | 20291 | 15485 |
| GFXBench 4.0 - Car Chase Offscreen (Fps) | 20291 | 15485 |
| GFXBench 4.0 - Manhattan (Frames) | 3652 | 3707 |
| GFXBench 4.0 - Manhattan (Fps) | 3652 | 3707 |
| GFXBench 4.0 - T-Rex (Frames) | 58 | 3353 |
| GFXBench 4.0 - T-Rex (Fps) | 58 | 3353 |
| PassMark - G3D Mark | 9787 | |
| PassMark - G2D Mark | 417 | |
| Geekbench - OpenCL | 59513 | |
| CompuBench 1.5 Desktop - Face Detection (mPixels/s) | 234.866 | |
| CompuBench 1.5 Desktop - Ocean Surface Simulation (Frames/s) | 2849.031 | |
| CompuBench 1.5 Desktop - T-Rex (Frames/s) | 17.956 | |
| CompuBench 1.5 Desktop - Video Composition (Frames/s) | 147.291 | |
| CompuBench 1.5 Desktop - Bitcoin Mining (mHash/s) | 809.639 |
Comparer les caractéristiques
| NVIDIA GeForce RTX 2080 SUPER Mobile | NVIDIA GeForce RTX 2060 Max-Q | |
|---|---|---|
Essentiel |
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| Architecture | Turing | Turing |
| Nom de code | TU104 | TU106 |
| Date de sortie | 2 Apr 2020 | 6 January 2019 |
| Position dans l’évaluation de la performance | 204 | 248 |
| Genre | Laptop | Laptop |
Infos techniques |
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| Vitesse augmenté | 1560 MHz | |
| Vitesse du noyau | 1365 MHz | |
| Processus de fabrication | 12 nm | 12 nm |
| Peak Double Precision (FP64) Performance | 299.5 GFLOPS (1:32) | |
| Peak Half Precision (FP16) Performance | 19.17 TFLOPS (2:1) | |
| Peak Single Precision (FP32) Performance | 9.585 TFLOPS | |
| Pipelines | 3072 | 1920 |
| Pixel fill rate | 99.84 GPixel/s | |
| Taux de remplissage de la texture | 299.5 GTexel/s | |
| Thermal Design Power (TDP) | 150 Watt | |
| Compte de transistor | 13600 million | |
Sorties et ports de vidéo |
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| Connecteurs d’écran | No outputs | |
| Soutien de G-SYNC | ||
Compatibilité, dimensions et exigences |
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| Interface | PCIe 3.0 x16 | |
| Connecteurs d’énergie supplementaires | None | |
| Largeur | Dual-slot | |
| Taille du laptop | large | |
Soutien API |
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| DirectX | 12.2 | 12.1 |
| OpenCL | 1.2 | |
| OpenGL | 4.6 | |
| Shader Model | 6.5 | |
| Vulkan | ||
Mémoire |
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| RAM maximale | 8 GB | 6 GB |
| Bande passante de la mémoire | 448.0 GB/s | |
| Largeur du bus mémoire | 256 bit | 192 Bit |
| Vitesse de mémoire | 1750 MHz (14000 MHz effective) | |
| Genre de mémoire | GDDR6 | GDDR6 |
Technologies |
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| Multi Monitor | ||
| VR Ready | ||
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