Additional Info
  • NVIDIA Nalu 技術展示說明

    Nalu [夏威夷語指海浪]是海神的女兒,在浮升至海面時讚嘆深海底生物的奧妙。NVIDIA® GeForce 6™ 6800 GPU提供充裕的效能,在畫面上描繪出柔順飄逸的長髮以及自然的皮膚影像。

  • NVIDIA Timbury 技術展示說明

    Timbury Entonin Mudgett 是位專攻昆蟲學的科學家,但他從不會讓研究工作減低探險的興致。為了搜尋從未被發現的新物種,他的腳步遍及叢林、草原、洞穴,努力找尋稀有的昆蟲。

  • NVIDIA Clear Sailing 技術展示說明

    一艘海盜船在大浪中急駛,試圖擺脫皇家海軍的追捕。NVIDIA® GeForce™ 6800 GPU迅速運算出急速航行的船隻,展現性能強悍的頂點與像素著色器,能夠在畫面中呈現前所未有的視覺特效。

Relevant Links
  • Technical Brief: CineFX 3.0

    The Next Wave of Stunning Visual Effects
    Get an in-depth look at the advanced technologies powering the third-generation NVIDIA CineFX engine, in the attached technical brief (1,203KB PDF).

CineFX 3.0 Engine


Imagine not being able to distinguish between a movie playing on your TV and a game running on your PC; where the line between real-time 3D graphics and prerendered cinematic effects is completely blurred. Once again, NVIDIA introduces groundbreaking new hardware technologies in the GeForce 6 Series of graphics processing units (GPUs) that push 3D real-time graphics one step closer to film quality. These newest GPUs provide the hardware brainpower developers need to create stunning, real-time 3D effects in their games and applications, and the hardware muscle to keep your system performing at top speeds.

Advanced Technologies
The third-generation of the NVIDIA® CineFX™ engine unleashes the power of the latest NVIDIA GPUs and streamlines the creation of complex visual effects. Through the power of the Microsoft® DirectX® 9.0 Shader Model 3.0 and OpenGL® 1.5 APIs, programmers can now develop shader programs utilizing these technologies and techniques:


Nalu: from the NVIDIA tech demo
  • Infinite length shader programs: With CineFX 3.0 there are no hardware-imposed limitations on shader programs. The technology and speed advancements of CineFX 3.0 ensure that longer programs will run blazingly fast.
  • Dynamic flow control: Additional looping/branching options and new subroutine call/return functions give programmers even more choices for writing efficient shader programs.
  • Displacement mapping: CineFX 3.0 allows vertex processing with textures, providing a new level of depth and realism to every component, surface, and character in a scene. Displacement mapping allows developers to make subtle changes in a model’s geometry with very little computational cost.
  • Vertex frequency stream divider: Effects can be efficiently applied to multiple characters or objects in a scene, providing individuality where models are otherwise identical.
  • Multiple Render Target (MRT) technology: MRTs allow for deferred shading, a technique where the lighting of a scene can be done after rendering all of the geometry, eliminating multiple passes through the scene. Photorealistic lighting can be created while avoiding unnecessary processing time for pixels that do not contribute to the visible portions of an image.

Advanced Visual Effects
With the increased horsepower provided by the CineFX 3.0 engine, developers can create more unique game features and effects than ever before. New effects include subsurface scattering, providing depth and realistic translucence to skin and other surfaces; soft shadows for sophisticated lighting effects; accurately represented environmental and ground shadows; and global illumination for incredibly photorealistic lighting. All of these effects can be combined to create intricate, detailed, true-to-life scenes that completely immerse you in the game environment.  

NaluNVIDIA CineFX 3.0 is poised to unleash a new level of programming creativity. With full DirectX 9.0 Shader Model 3.0 support, the newest GeForce GPUs will soon power a new generation of games with unmatched realism, digital worlds with mind-blowing complexity, and lifelike characters that move through cinematic-quality environments. Previously, highly complex effects were not possible without sacrificing performance and precision, because of long shader programs that required many computational passes. Now, with the NVIDIA GeForce 6 Series and its CineFX 3.0 engine, groundbreaking effects can be created without compromising performance.