• Rendered using DirectX 11.
• Supports 3D Vision.
• Dynamic tessellation is used to define a vast but interesting landscape for the test.
• PhysX is used to create a truly dynamic experience. The sled, the driver, and the world itself are described physically with rigid body interactions, and simulated particles.
• CUDA-accelerated fluid dynamics model the behavior of the Rocket exhaust smoke is modeled. Watch as the smoke interacts with the environment - swirling around the launch pad, rolling around and over the blast doors.
• Smoke, fire, steam, dust, and other phenomenon are described using tens of thousands of CUDA-accelerated particles.
• Full scene motion blur provides a sense of speed whether the camera is attached to the sled watching the terrain whip by or on solid ground as the sled speeds past.
Strap yourself in and get ready to experience the future of gaming realism and interactivity that only the GeForce GTX 400 Series of GPUs can provide. Taking advantage of PhysX, CUDA, DirectX 11, and 3D Vision, Supersonic Sled straps you on a high powered test rocket and hurtles you down a six mile long track in the Nevada desert at speeds in excess of 800 miles an hour. You’ll have to avoid falling rocks, destroy buildings and bridges, and avoid flying off the side of a massive cliff.
Every moving object in the demo is physically simulated using PhysX and CUDA. From the falling rock debris you have to traverse, to the dynamic smoke that swirls around the launch pad when you take off, to the thousands of individual pieces the house and bridge you’ll fly by break into – every interaction between moving objects in Supersonic Sled is simulated on the GeForce GTX 400 Series GPU – helping create one of the most physically realistic and accurately portrayed real-time technology demos ever built. Be sure to turn on Visualize Physics mode to see all the PhysX forces in the demo. And if you really want to have some fun, try breaking the sled apart by throwing chickens at it – or placing crates on the track in front of the sled before it takes off. The best part is that no one run will be exactly the same. Every time you blast down the track in your rocket powered sled, you’ll have a truly unique and dynamic experience.
This information provides details about the NVIDIA PhysX Supersonic Sled Demo, showcasing cutting-edge gaming realism and interactivity utilizing various technologies like PhysX, CUDA, DirectX 11, and 3D Vision. Here's a breakdown of the key features and technical aspects highlighted in the provided content:
Technical Notes:
Rendering and Support:
Rendered using DirectX 11.
Supports 3D Vision for enhanced visual experience.
[]Dynamic Tessellation:
Dynamic tessellation is employed to define an intriguing landscape for the test, enhancing visual quality.
[]PhysX Simulation:
PhysX technology is used to create a dynamic experience, simulating interactions between the sled, driver, and the environment using rigid body interactions and simulated particles.
[]Fluid Dynamics:
CUDA-accelerated fluid dynamics model the behavior of the Rocket exhaust smoke, showing interactions with the environment such as swirling around the launch pad and rolling around blast doors.
[]Particle Effects:
Various phenomena like smoke, fire, steam, dust, etc., are depicted using tens of thousands of CUDA-accelerated particles.
[]Motion Effects:
Full scene motion blur enhances the sense of speed, whether the camera is mounted on the sled or on the ground.
Gameplay Description:
The demo involves a high-speed ride on a test rocket down a six-mile track in the Nevada desert, reaching speeds exceeding 800 miles per hour.
Players must navigate obstacles like falling rocks, buildings, bridges, and cliffs while maintaining control and avoiding crashes.
Simulation Details:
Physics Simulation:
All moving objects are physically simulated using PhysX and CUDA, ensuring realistic interactions and dynamic gameplay.
[
]Real-time Interactions:
Interactions between objects are processed on the GeForce GTX 400 Series GPU, making the demo one of the most realistic and interactive showcases of real-time technology.
Interactive Elements:
[]Visualize Physics Mode:
Players can activate this mode to view all the PhysX forces at play within the demo.
[]Interactive Elements:
Players can have fun experimenting by breaking the sled apart using various objects like chickens or crates placed on the track, leading to unique experiences each playthrough.
Conclusion:
The NVIDIA PhysX Supersonic Sled Demo not only demonstrates the advanced capabilities of modern GPUs but also offers an engaging and immersive experience for gamers looking to explore the boundaries of gaming realism and interactivity.