Architectural companies, whether rendering high-resolution interior or exterior design images in V-Ray, generating real-time walkthroughs in Enscape, or collaborating through room-scale VR experiences in Unreal Engine, are relying on NVIDIA Quadro RTX GPUs to power their production pipeline. Read how architectural companies are using NVIDIA Quadro RTX technology to explore larger CAD and BIM data sets, iterate and validate designs more quickly, deliver better projects and content to their clients in less time, and manage construction sites to reduce rebuilds and costs.
Topics: NVIDIA, Rendering, VR, NVIDIA Quadro, AI, Design, NVIDIA GPU, PNY PRO, CAD, NVIDIA GPUs, NVIDIA Quadro GPUs, NVIDIA RTX Technology, Architecture, RT Cores, Tensor Cores, NVIDIA Turing Architecture, nvidia quadro rtx, Artificial Intelligence, real-time rendering, CGarchitect, Chaos V-Ray, Enscape, unreal engine, data, advanced shading
The annual Interservice/Industry Training, Simulation and Education Conference (I/ITSEC), the world’s largest modeling, simulation and training event, opens today in Orlando, Florida. If you are attending I/ITSEC 2019, we invite you to meet with PNY’s Partners to discuss your NVIDIA Quadro GPU needs, including NVIDIA Quadro MXM Embedded, GPU Down and the latest NVIDIA Quadro RTX Solutions. NVIDIA Quadro GPUs provide the extreme graphics and compute performance demanded by mission-critical aerospace and defense applications.
Topics: VR, Simulation, NVIDIA Quadro, Deep Learning, AI, CAE, CAD, Technology, Embedded MXM, RT Cores, NVIDIA Turing Architecture, I/ITSEC, Modeling, nvidia quadro rtx, hpc, I/ITSEC 2019, GPU Down, AR, Interservice/Industry, NVIDIA Quadro MXM, Education, Scientific Visualization, Signal Processing, Mission Simulators
The Quadro RTX 4000 is already making an impression on the tech community with positive results and projected success. Print and web publications with years of industry involvement such as Develop 3D and Techgage are devoted to providing professionals the technical information they need. They, and others, are committed to their readership and focus on product and workflow enhancements, such as the Quadro RTX 4000, that improve productivity and creativity.
“Compared to previous generations, there’s more than immediately meets the eye with Quadro RTX. The architecture bump from Pascal to Turing in itself represents a big boost in performance (and efficiency), but the addition of Tensor and RT cores helps set RTX apart from the rest of the market." - Rob Williams, Techgage
Topics: PNY, Quadro, NVIDIA, GPUs, NVIDIA Quadro, AI, Professional Graphics, NVIDIA GPU, PNY PRO, Graphics Solutions, NVIDIA GPUs, NVIDIA Quadro GPUs, PNYPRO, Pascal GPUs, realtime ray tracing, designers, engineers, Professional Visualization Solutions, Architecture, Engineering, realtime design, Turing, RT Cores, ray tracing, NVIDIA Architecture, Quadro RTX, RTX 4000, NVIDIA Turing Architecture, nvidia quadro rtx, Artificial Intelligence
Any professional, from craftsmen to coder, will tell you the right tools are necessary to see a project through to completion. The NVIDIA Quadro RTX 8000 is the ultimate tool for those looking to push the boundaries of what is possible and has been named Editor’s Pick of the Week by Digital Engineering (DE) for its astounding capacity. But what makes the NVIDIA Quadro RTX 8000 stand out above the rest?
“Turing is NVIDIA’s most important innovation in computer graphics in more than a decade."
— Jensen Huang, founder and CEO of NVIDIA
Launched at SIGGRAPH 2018, NVIDIA’s Turing GPU Architecture features new RT Cores to accelerate ray tracing and Tensor Cores for AI functionality which, together for the first time, make realtime ray tracing possible.
These two additions to the Turing architecture GPU — along with more powerful compute for simulation and enhanced rasterization — usher in a new generation of hybrid rendering to address the $250 billion visual effects industry. Hybrid rendering enables cinematic-quality interactive experiences, amazing new effects powered by RT Cores and AI (Deep Neural Networks) and fluid interactivity on highly complex models or scenes.