12-Bit Subpixel Precision
3x that of the nearest competitive workstation graphics, 12-bit sub-pixel precision delivers high geometric accuracy, eliminating spreckles, cracks, and other rasterization anomalies.

  256-Bit Memory Interface
Delivers the industry’s highest memory bandwidth (up to 42.2GB/sec) for blistering data transfer. Supports the world’s fastest GDDR3 memory with lower power consumption than previous generation systems.

  32-Bit Floating Point Precision
Sets new standards for image clarity and quality through 32-bit floating point capabilities in shading, filtering, texturing, and blending. Enables unprecedented rendered image quality for visual effects processing.

  1GB GDDR2
Delivers high throughput for interactive visualization of large models and high-performance for real time processing of large textures and frames and enables the highest quality and resolution full-scene antialiasing (FSAA).
* ПоддерживаетсявNVIDIA Quadro FX 5500, 512MB GDDR3, NVIDIA Quadro FX 4500 X2 иNVIDIA Quadro FX 4500.

  Усовершенствованное сжатие цветов, отсечение невидимых поверхностей
Усовершенствованное сжатие цветов и отсечение невидимых поверхностей повышают эффективность полосы пропускания, а также эффективность и производительность рендеринга.
*ПоддерживаетсявNVIDIA Quadro FX 4500 X2

  Cg High-Level Graphics Shader Language
Cg—“C” for graphics—is a high-level, open-standard programming language for OpenGL that takes advantage of the power of programmable GPUs. NVIDIA Quadro® FX programmable graphics pipelines leverage high-level shading languages to enable the creation and integration of real-time photorealistic effects into 3D models, scenes, and designs. This represents a major leap forward in ease and speed for the creation of real-time, realistic graphics within MCAD, DCC, and scientific applications.

  Frame Lock
Allows the display channels from multiple workstations to be synchronized, thus creating one large "virtual display" that can be driven by a multisystem cluster for performance scalability.

  Full 128-Bit Precision Graphics Pipeline
Enables sophisticated mathematical computations to maintain high accuracy, resulting in unmatched visual quality. Full IEEE 32-bit floating-point precision per color component (RGBA) delivers millions of color variations with the broadest dynamic range.

  Сглаживание FSAA
Сглаживание до 32x SLIAA и до 16х FSAA значительно уменьшает ступеньки в изображениях на разрешениях до 1920x1200, что приводит к намного более реалистичным сценам.
  Genlock
Genlock синхронизирует графический вывод с внешним источником, обычно используется для кино/видео и трансляционных приложений.

  Hardware 3D Window Clipping
Hardware accelerated clip regions (data transfer mechanism between a window and the frame buffer) which improve overall graphics performance by increasing transfer speed between color buffer and frame buffer.

  Hardware-Accelerated Pixel Read-Back
Up to 2.4GB/sec pixel read-back performance delivers massive host throughput, more than 10x the performance of previous generation graphic systems.

  Highest Workstation Application Performance
Next-generation architecture enables over 2x improvement in geometry and fill rates with the industry’s highest performance for professional CAD, DCC, and scientific applications.

  High-Performance Display Outputs
400MHz RAMDACs and up to two DVI digital connectors drive the highest resolution digital displays available on the market.

  Next-Generation Vertex and Pixel Programmability
The NVIDIA Quadro FX GPUs introduce infinite length vertex programs and dynamic flow control, removing the previous limits on complexity, and structure of shader programs. With full support for Vertex and Shader Model 3.0, NVIDIA Quadro FX GPUs deliver sophisticated effects never before imagined for real-time graphics systems.

  NVIDIA High Precision Dynamic-Range (HPDR) Technology
Sets new standards for image clarity and quality through floating point capabilities in shading, filtering, texturing, and blending. Enables unprecedented rendered image quality for visual effects processing.

  NVIDIA Quadro Unified Memory Architecture
Allows for superior memory management, which efficiently allocates and shares memory resources between concurrent graphics windows and applications.

  nView Multi-Display Technology
The NVIDIA® nView® hardware and software technology combination delivers maximum flexibility for multi-display options, and provides unprecedented end-user control of the desktop experience. NVIDIA GPUs are designed to support multi-displays, but graphics cards vary. Please verify multi-display support in the graphics card before purchasing.

  PCI Express Certified
PCI Express is a new Intel bus architecture that doubles the bandwidth of the AGP 8X bus, delivering greater than 2GB/sec. in both upstream and downstream data transfers.

  Quad Buffered Stereo
Offers enhanced visual experience for professional applications that demand stereo viewing capability.

  Rotated-Grid Full-Scene Antialiasing (RG FSAA)
The rotated grid FSAA sampling algorithm introduces far greater sophistication in the sampling pattern, significantly increasing color accuracy and visual quality for edges and lines, reducing “jaggies” while maintaining performance.

  NVIDIA® SLI™ Technology
The NVIDIA Scalable Link Interface technology enables intelligent and transparent scaling of professional application performance. Designed for PCI Express, and supported in NVIDIA Quadro FX 5500, 4500, 3500, and 3450 GPUs.

  Четыре двухканальных разъема для цифровых мониторов
Четыре двухканальных TMDS передатчика поддерживают панели ультра-высоких разрешений (до 3840 x 2400 @ 24Hz для каждой), обеспечивая поразительное качество изображения с детализированными фотореалистичными картиками. *Поддерживается в NVIDIA Quadro FX 4500 X2

  Dual Dual-Link Digital Display Connectors
Dual dual-link TMDS transmitters support ultra-high-resolution panels (up to 3840 x 2400 @ 24Hz on each panel)—which result in amazing image quality producing detailed photorealistic images.

  Unified Driver Architecture (UDA)
The NVIDIA UDA guarantees forward and backward compatibility with software drivers. Simplifies upgrading to a new NVIDIA product because all NVIDIA products work with the same driver software.

  NVIDIA PureVideo Technology
NVIDIA® PureVideo™ technology is the combination of high-definition video processors and software that delivers unprecedented picture clarity, smooth video, accurate color, and precise image scaling for SD and HD video content. Features include, high-quality scaling, spatial temporal de-interlacing, inverse telecine, and high quality HD video playback from DVD.
» подробнее



 Highest Workstation Application Performance
Next-generation architecture enables over 2x improvement in geometry and fill rates with the industry’s highest performance for professional CAD, DCC, and scientific applications.

 Hardware-Accelerated Pixel Read-Back
Greater than 1GB/sec. pixel read-back performance delivers massive host throughput, more than 5x the performance of previous generation graphics systems.

 256-Bit Memory Interface
Delivers the industry’s highest memory bandwidth (up to 38.4GB/sec) for blistering data transfer. Supports the world’s fastest GDDR3 memory with lower power consumption than previous generation systems.

 Advanced Color Compression, Early Z-Cull
Improved pipeline color compression and early z-culling to increase effective bandwidth and improve rendering efficiency and performance.

 Proven Workstation Graphics Architecture
The NVIDIA Quadro FX architecture takes application performance to new levels by featuring parallel vertex engines, a radically new line engine, the industry’s first on-chip vertex cache, and fully programmable pixel pipelines coupled to a high-speed graphics DDR DRAM bus.

 NVIDIA Quadro Unified Memory Architecture
Allows for superior memory management, which efficiently allocates and shares memory resources between concurrent graphics windows and applications.

 Hardware 3D Window Clipping
Hardware accelerated clip regions (data transfer mechanism between a window and the frame buffer) improves overall graphics performance by increasing transfer speed between color buffer and frame buffer.

 AGP 8X
Provides double the bandwidth of AGP 4X—2.1GB/sec. vs. 1.1GB/sec. AGP 8X enables more complex models and detailed textures, creating richer and more lifelike environments. Uninterrupted data flow allows for smoother video streaming and faster, more seamless gameplay. (AGP 8X/4X compliant)

 Full 128-Bit Precision Graphics Pipeline
Enables sophisticated mathematical computations to maintain high accuracy, resulting in unmatched visual quality. Full IEEE 32-bit floating-point precision per color component (RGBA) delivers millions of color variations with the broadest dynamic range.

 12-Bit Subpixel Precision
3x that of the nearest competitive workstation graphics, 12-bit sub-pixel precision delivers high geometric accuracy, eliminating sparkles, cracks, and other rasterization anomalies.

 Next-Generation Vertex & Pixel Programmability
The NVIDIA Quadro FX ultra-high-end and high-end GPUs introduce infinite length vertex programs and dynamic flow control, removing the previous limits on complexity, and structure of shader programs. Full support for Vertex and Shader Model 3.0 delivers sophisticated effects never before imagined for real-time graphics systems.

 Cg High-Level Graphics Shader Language
Cg—"C" for graphics—is a high-level, open-standard programming language for OpenGL that takes advantage of the power of programmable GPUs. NVIDIA Quadro FX programmable graphics pipelines leverage high-level shading languages to enable the creation and integration of real-time photorealistic effects into 3D models, scenes, and designs. This represents a major leap forward in ease and speed for the creation of real-time, realistic graphics within MCAD, DCC, and scientific applications.

 Rotated Grid Full-Scene Antialiasing (RG FSAA)
The rotated grid FSAA sampling algorithm introduces far greater sophistication in the sampling pattern, significantly increasing color accuracy and visual quality for edges and lines, reducing “jaggies” while maintaining performance.

 Full-Scene Antialiasing (FSAA)
Up to 16x FSAA dramatically reduces visual aliasing artifacts or “jaggies” at resolutions up to 1920x1200, resulting in highly realistic scenes.

 Dedicated Video Processing Engine (VPE)
The high-definition enabled VPE provides the highest quality video with record low CPU utilization. Video playback is smooth, the images clear and without artifacts, and the delivery at breathtaking frame rates.

 Dual Dual-Link Digital Display Connectors
Dual-link TMDS transmitters support ultra-high-resolution panels--which result in amazing image quality producing detailed photorealistic images.

 High-Performance Display Outputs
400MHz RAMDACs and dual DVI digital connectors drive the highest resolution digital displays available on the market.

 
 
 
 
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