PNY NVIDIA Quadro K4200 Workstation Graphics Card, 4GB Video Memory, PCI-E, DP/DVI, VCQK4200-PB
4GB PNY NVIDIA Quadro K4200, Single Slot, 1344 CUDA Cores, GDDR5, 2.1 TEFLOPs, PCIe 2.0 (x16), 2x DisplayPort, 1x DVI
to your specified address. |
Receive SMS with one-hour delivery window
Weekend, timed and European delivery options are available at checkout
Have your parcel delivered by DPD to your specified address. Receive SMS with one-hour delivery windowWeekend, timed and European delivery options are available at checkout
Collect from our Bolton store, BL6 6PE |
Order online, collect from our Bolton store (25-28 Enterprise Park, Middlebrook, Horwich, Bolton, BL6 6PE)
NVIDIA QUADRO SOLUTIONS
THE RIGHT TOOLS FOR PROFESSIONALS
Accelerate your creativity and expand your innovation with NVIDIA® Quadro® the world's most powerful workstation graphics. Support for multiple 4K displays, large memory capacity, advanced photorealistic rendering, and flexible multi-GPU configurations lets you tackle the most challenging visual computing tasks effortlessly. Whether you're developing revolutionary products or telling spectacularly vivid visual stories, Quadro gives you the performance to do it brilliantly.
Designed and built specifically for artists, designers, and engineers, NVIDIA Quadro GPUs power more than 100 professional applications across a broad range of industries. Professionals trust them to enable their best work using applications such as Adobe® Creative Cloud, Avid Media Composer, Autodesk Suites, Dassault Systems, CATIA and SOLIDWORKS, Siemens NX, PTC Creo, and many more.
You need the right tools to do your best work without distractions like slow performance, poor stability, or incompatibility. Accelerate your creativity and expand your innovation with NVIDIA Quadro, the world's most powerful workstation graphics cards.
NVIDIA Quadro is the world's most advanced visual computing platform for workstations. Much more than a powerful graphics accelerator for sophisticated applications used by professionals, NVIDIA Quadro enables you to create and collaborate in exciting new ways. This makes it the #1 solution for designing, visualizing, and simulating your ideas.
NVIDIA® QUADRO® K4200
The NVIDIA Quadro K4200 delivers incredible 3D application performance and capability, allowing you to take advantage of dual copy-engines for seamless data movement within GPU memory all in a flexible, single-slot form factor. 4 GB of GDDR5 GPU memory with ultra-fast bandwidth is ideal for creating and rendering large, complex models. An all-new display engine drives up to four displays with DisplayPort 1.2 support for ultra-high resolutions like 3840 x 2160 @ 60 Hz with 30-bit color. Plus, NVIDIA Sync allows you to frame-lock multiple displays together and take advantage of SDI video input/output.
INCREDIBLE GRAPHICS PERFORMANCE
The NVIDIA GPU architecture provides incredible 3D application performance with dual copy engines for seamless data movement within GPU memory all in a flexible single-slot form factor.
4 GB GDDR5 GPU MEMORY WITH ULTRA-FAST BANDWIDTH
Large GPU memory with fast bandwidth enables the creation and rendering of large, complex models.
A new display engine drives up to four displays with DisplayPort 1.2 support for ultra-high resolutions like 3840x2160 @ 60 Hz with 30-bit color. NVIDIA SYNC allows multiple displays to be frame-locked together.
• Scalable geometry architecture
• Hardware tessellation engine
• FXAA/TSAA dedicated antialiasing engine
• Bindless Textures
• Shader Model 5.0 (OpenGL 4.4 and DirectX 11)
• Up to 16K x 16K texture and render processing
• Transparent multisampling and super sampling
• 16x angle independent anisotropic filtering
• 32-bit per component floating point texture filtering and blending
• Up to 64X full scene antialiasing (FSAA)
• Decode acceleration for MPEG-2, MPEG-4 Part 2 Advanced Simple Profile, H.264, MVC, VC1, DivX (version 3.11 and later), and Flash (10.1 and later)
• Dedicated H.264 encoder (requires application support)
• Blu-ray dual-stream hardware accelerating (supporting HD picture-in-picture playback)
• Quadro Boost (Automatically increases GPU engine throughput to maximize application performance).
Parallel Computing Capabilities
• Streaming Multi-Processor Design (SM 5.0) delivers high performance and energy efficiency
• Support for all the latest CUDA 6 features, including Unified Memory, Dynamic Parallelism and Dedicated Shared Memory)
• Programming support for CUDA C, CUDA C++, DirectCompute 5.0, OpenCL, Python and Fortran
Advanced Display Features
• Simultaneously drive up to three displays when connected natively
• Support up to four displays when using DisplayPort 1.2 multi-streaming
• Dual DisplayPort 1.2 outputs including Multi-Stream and HBR2 support (capable of supporting resolutions such as 4096 x 2160)
• DisplayPort 1.2 (up to 3840 x 2160 at 60Hz and 2560 x 1600 at 120Hz)
• DVI-I Dual-Link output (up to 2560 x 1600 at 60Hz and 1920 x 1200 at 120Hz)
• DVI-D Dual-Link output (up to 2560 x 1600 at 60Hz and 1920 x 1200 at 120Hz)
• Internal 400MHz DAC DVI-I output (analog display up to 2048 x 1536 at 85Hz)
• DisplayPort 1.2, HDMI 1.4, and HDCP support (HDMI requires 3rd party adapter)
• Stereoscopic 3D display support including NVIDIA 3D Vision Pro and 3D Vision, 3D DLP, interleaved, and passive stereo
• OpenGL and Direct3D quad buffered stereo support
• Underscan/overscan compensation and hardware scaling
• Support for NVIDIA quadro Mosaic, NVIDIA NVIEW multi-display technology, NVIDIA Enterprise Management Tools
DisplayPort and HDMI Digital Audio
• Dolby Digital (AC3), DTS 5.1, multi-channel (7.1) LPCM, Dolby Digital Plus (DD+), and MPEG-2/MPEG-4 AAC, DTS-HD, TrueHD
• Data rates of 44.1KHz, 48KHz, 88.2KHz, 96KHz, 176KHz, and 192KHz
• Word sizes of 16-bit, 20-bit, and 24-bit
Please note your statutory rights are not affected.
For further information regarding Scan's warranty procedure please see our terms and conditions
- 36 months
- Return to base
- RTB Period:
- 36 months
- 0871 472 4747
Date Issued: 1st Jun 2017
Inventor of the Graphics Processing Unit (GPU), NVIDIA has been producing cutting-edge graphics for almost 20 years. Most of those graphics end up in the GeForce line of cards that power the best, most immersive gaming experience available.
Date Issued: 19th Mar 2015
Nvidia is more commonly known as the designer of graphics chips that power the majority of add-in PC gaming cards. Referred to as the GeForce range and available from anywhere between £30 and £850, Nvidia GeForces offer unparalleled performance and energy efficiency.
Date Issued: 30th Dec 2010
Practically all broadcast and film production environments today incorporate real-time graphics in their broadcasted content to enhance, analyse or animate normal video material. This requires strong systems able to product graphics quickly enough for live TV, as well as to combine the two different signals - graphics and video.
Date Issued: 8th Oct 2010
Modern desktop computers and notebooks comprise of a CPU, motherboard, graphics, storage, and, usually an optical drive. Computers have a number of ports and sockets that enable the user to plug-in various peripherals such as a printer, USB mouse, or, perhaps most importantly of all, an Internet connection.
Date Issued: 22nd Oct 2008
CUDA technology is the world’s only C language environment that enables programmers and developers to write software to solve complex computational problems in a fraction of the time by tapping into the many-core parallel processing power of GPUs.
Date Issued: 20th Oct 2008
If you’re the least bit interested in graphics cards, we’re sure that you’ve heard the terms SLI and CrossFire bandied about recently. Touted as a means of achieving maximum 3D performance by, effectively, using two or more graphics cards in tandem, multi-GPU technology is here to stay. With that in mind, let’s take a closer look SLI and CrossFire; the two competing multi-GPU solutions from NVIDIA and ATI Technologies, respectively.
Date Issued: 20th Oct 2008
Explaining how a modern GPU works in completeness would take a book. Or two. Per class of chip. Per vendor. They’re extraordinarily complex pieces of engineering and production, and the end result contains more transistors than multiple modern x86 processors.