Publisher: Sierra
We regard
World in Conflict as one of the best real-time strategy games we've ever played. It's based on Microsoft's DirectX 10 API and, in collaboration with Nvidia's
The Way It's Meant To Be Played developer support team, it incorporates some DirectX 10 specific graphics effects.
The first of these is a soft particle effect that removes the banding often found in particle effects like smoke, explosions, fire and debris - the effects simply didn't exist in the 3D world; instead, they were merely an add-on. With DirectX 10, the edges of the particle effects are much softer and banding is almost non-existent as the effects now interact with their 3D surroundings, as they're actually a part of the 3D world.
Additionally there are global cloud shadowing and volumetric lighting effects in the DirectX 10 version of the game. The latter is often referred to as 'god rays' and its implementation in
World in Conflict interacts with the surroundings incredibly well. On the other hand, the former is where clouds cast shadows on the rest of the environment and, because all clouds in
World in Conflict are volumetric and dynamic, the shadows cast by the clouds are rendered dynamically in DirectX 10 - they adjust in relation to the size, shape and orientation of the cloud in relation to the light source.
For our testing purposes, we used a full retail copy of the game and patched it to version 1.007, which includes a few fixes and some improved performance under DirectX 10. We used a manual run through from the
Invasion level, which incorporates all of the effects we've discussed above. We chose not to use the built-in benchmark because it's largely CPU-limited. We used the "very high" preset, and controlled Anti-Aliasing and Anisotropic Filtering via the advanced settings tab.
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Nvidia GeForce GTX 280
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BFG Tech GeForce GTX 260 OCX Maxcore
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Zotac GeForce GTX 260 AMP!
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Nvidia GeForce GTX 260
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ATI Radeon HD 4870 X2
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ATI Radeon HD 4870
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HIS Radeon HD 4850 IceQ 4 TurboX
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Powercolor Radeon HD 4850 PCS+
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ATI Radeon HD 3870 X2
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ATI Radeon HD 4850
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Nvidia GeForce 9800 GTX+
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Nvidia GeForce 8800 GT
Frames Per Second
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Nvidia GeForce GTX 280
-
BFG Tech GeForce GTX 260 OCX Maxcore
-
Zotac GeForce GTX 260 AMP!
-
Nvidia GeForce 9800 GTX+
-
ATI Radeon HD 3870 X2
-
Nvidia GeForce GTX 260
-
ATI Radeon HD 4870 X2
-
ATI Radeon HD 4870
-
HIS Radeon HD 4850 IceQ 4 TurboX
-
Powercolor Radeon HD 4850 PCS+
-
ATI Radeon HD 4850
-
Nvidia GeForce 8800 GT
Frames Per Second
-
Nvidia GeForce GTX 280
-
BFG Tech GeForce GTX 260 OCX Maxcore
-
Zotac GeForce GTX 260 AMP!
-
ATI Radeon HD 4870
-
HIS Radeon HD 4850 IceQ 4 TurboX
-
ATI Radeon HD 4870 X2
-
Powercolor Radeon HD 4850 PCS+
-
ATI Radeon HD 3870 X2
-
ATI Radeon HD 4850
-
Nvidia GeForce GTX 260
-
Nvidia GeForce 9800 GTX+
-
Nvidia GeForce 8800 GT
Frames Per Second
-
Nvidia GeForce GTX 280
-
ATI Radeon HD 4870 X2
-
BFG Tech GeForce GTX 260 OCX Maxcore
-
ATI Radeon HD 4870
-
Zotac GeForce GTX 260 AMP!
-
ATI Radeon HD 3870 X2
-
HIS Radeon HD 4850 IceQ 4 TurboX
-
Powercolor Radeon HD 4850 PCS+
-
ATI Radeon HD 4850
-
Nvidia GeForce GTX 260
-
Nvidia GeForce 9800 GTX+
-
Nvidia GeForce 8800 GT
Frames Per Second
-
ATI Radeon HD 4870 X2
-
Nvidia GeForce GTX 280
-
BFG Tech GeForce GTX 260 OCX Maxcore
-
ATI Radeon HD 4870
-
Zotac GeForce GTX 260 AMP!
-
Nvidia GeForce GTX 260
-
HIS Radeon HD 4850 IceQ 4 TurboX
-
Powercolor Radeon HD 4850 PCS+
-
ATI Radeon HD 4850
-
ATI Radeon HD 3870 X2
-
Nvidia GeForce 8800 GT
-
Nvidia GeForce 9800 GTX+
Frames Per Second
World in Conflict proves to be a title where the HIS Radeon HD 4850 IceQ 4 TurboX performs well until the resolution is cranked up to 2,560 x 1,600. At the threshold of playability, it's around ten percent faster than Nvidia's GeForce 9800 GTX+ and less than five percent faster than a stock clocked Radeon HD 4850.
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