MSI Big Bang Fuzion im Test: „Hydra“-Multi-GPU mit vielen Baustellen
8/12Call of Duty 5
Call of Duty 5 – 1920x1200
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4xAA/16xAF, DX9:
- Radeon HD 5870 @ Hydra88,5
- HD 5870 + HD 5850 @ Hydra84,0
- Radeon HD 5870 @ CF83,5
- HD 5870 + HD 5850 @ CF76,7
- GeForce GTX 285 @ Hydra76,5
- HD 5870 + GTX 285 @ Hydra67,2
- GTX 285 + GTX 260 @ Hydra65,4
- Radeon HD 587057,6
- GeForce GTX 28548,3
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8xAA/16xAF, DX9:
- Radeon HD 5870 @ Hydra85,1
- HD 5870 + HD 5850 @ Hydra81,9
- Radeon HD 5870 @ CF76,4
- HD 5870 + HD 5850 @ CF71,5
- GeForce GTX 285 @ Hydra71,1
- GTX 285 + GTX 260 @ Hydra61,2
- Radeon HD 587050,9
- GeForce GTX 28541,3
- HD 5870 + GTX 285 @ Hydra0,0Absturz
Einheit: Bilder pro Sekunde (FPS)
Company of Heroes
Company of Heroes – 1920x1200
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4xAA/16xAF, DX10:
- Radeon HD 5870 @ CF160,4
- HD 5870 + HD 5850 @ CF146,4
- Radeon HD 5870 @ Hydra137,1
- GeForce GTX 285 @ Hydra126,5
- HD 5870 + HD 5850 @ Hydra126,4
- Radeon HD 5870107,4
- GTX 285 + GTX 260 @ Hydra102,0
- GeForce GTX 28583,6
- HD 5870 + GTX 285 @ Hydra52,8
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8xAA/16xAF, DX10:
- Radeon HD 5870 @ CF157,8
- HD 5870 + HD 5850 @ CF141,5
- Radeon HD 5870 @ Hydra133,0
- HD 5870 + HD 5850 @ Hydra122,5
- GeForce GTX 285 @ Hydra109,0
- Radeon HD 5870102,0
- GTX 285 + GTX 260 @ Hydra80,6
- GeForce GTX 28569,3
- HD 5870 + GTX 285 @ Hydra51,3
Einheit: Bilder pro Sekunde (FPS)