Built for Professionals, and certified on leading CAD and DCC applications, NVIDIA Quadro 600 delivers the best performance per watt in its class, maximizing productivity while conserving energy. The breakthrough NVIDIA Fermi architecture tightly integrates advanced visualization and compute features delivering performance that greatly accelerates professional workflows.
Quadro 600 delivers advanced capabilities including 3D Vision Pro for high quality stereoscopic 3D environments and Mosaic technology which enables any application to scale across up to eight displays.
NVIDIA CUDA architecture
Breakthrough NVIDIA Fermi architecture incorporates CUDA parallel computing capabilities and advanced visualization to deliver performance that greatly accelerates professional workflows.
NVIDIA Scalable Geometry Engine
Dramatically improves geometry performance across a broad range of CAD, DCC and medical applications, enabling you to work interactively with models and scenes that are an order of magnitude more complex than ever before.
NVIDIA Parallel DataCache
Supports a true cache hierarchy combined with on-chip shared memory. L1 and L2 caches drive exceptional throughput, accelerating features such as real-time ray tracing, physics and texture filtering.
NVIDIA GigaThread engine
It provides up to 10x faster context switching compared to previous generation architectures, concurrent kernel execution, and improved thread block scheduling.
Fast 3D texture transfer
It offers fast transfer and manipulation of 3D textures resulting in more interactive visualization of large volumetric datasets.
Hardware 3D window clipping
Hardware accelerated clip regions improve overall graphics performance by increasing transfer speed between color buffer and frame buffer.
GPU tessellation with shader model 5.0
The Quadro tessellation engines automatically generate finely detailed geometry, for cinematic quality environments and scenes, without sacrificing performance.
16K texture and render processing
The ability to texture from and render to 16K x 16K surfaces. Beneficial for applications that demand the highest resolution and quality image processing.
NVIDIA high precision High Dynamic Range (HDR) technology
It sets standards for image clarity and quality through floating point capabilities in shading, filtering, texturing, and blending. It enables unprecedented rendered image quality for visual effects processing.
High-quality display connectors
It drives ultra-high-resolution panels, producing phenomenal photorealistic image quality from a range of display connectors. Support two active connectors including, dual-link DVI with up to 3840 x 2400 at 24 Hz on each panel, DisplayPort with up to up to 2560 x 1600, or HDMI for integrated audio and video thru the GPU.
30-bit color fidelity
30-bit color fidelity enables billions rather than millions of color variations for rich, vivid image quality with the broadest dynamic range.
Programming the CUDA parallel computing architecture
General purpose GPU computing is using standard programming languages like C/C++ and FORTRAN, and emerging APIs such as OpenCL and Direct Compute. This broad adoption of CUDA is accelerating techniques like ray tracing, video and image processing, and computation fluid dynamics.
Programmable GPU leverages Cg high-level, open-standard shading language to enable the creation and integration of real-time photorealistic effects into 3D models, scenes and designs.
Shader model 5.0 programmability
Infinite length vertex programs and dynamic flow control remove the previous limits on OpenGL and DirectX shader programs, delivering sophisticated effects never before imagined.
NVIDIA graphics API extensions
NVIDIA provides a set of extensions to standard graphics APIs for Linux and Windows, enabling applications to take maximum advantage of state-of-the-art GPU capabilities.
NVIDIA Mosaic technology
NVIDIA Mosaic technology enables transparent scaling of any application across up to eight display channels.