In the ever-evolving landscape of graphics technology, NVIDIA has once again set a new standard by introducing a trio of powerful GPUs under the Ada Lovelace architecture. The RTX 5000, RTX 4500, and RTX 4000 GPUs showcase NVIDIA's commitment to pushing the boundaries...
Dell Announces New Latitude Laptops and Precision Workstations, Unleashing Cutting-Edge Performance and Versatility
Dell, a renowned leader in the world of technology, has once again captured the attention of tech enthusiasts and professionals alike with its recent announcement of a wide range of new Latitude laptops and Precision workstations. These new additions to the Dell...
NVIDIA RTX 6000 Ada Generation: Based on the new NVIDIA Ada Lovelace GPU architecture, designers and engineers can create detailed content and accelerates Engineering simulation for product development workflows.
The NVIDIA RTX 6000 Ada Generation can enable you to design, simulate, and optimize products.
Using the most powerful 3D Design& simulation tools that are faster and more interactive than ever before.
For Example, car model setup for the wind tunnel analysis in Ansys Discovery to perform external aerodynamics simulation with flow inlets, pressure outlets, and wall boundary conditions.
Ansys Discovery is built on NVIDIA CUDA technology running on NVIDIA RTX GPUs.
Design Options: We change the flow of inlet velocity from 30m/s to 5m/s and can instantly view the result immediately.
Exploring multiple design alternatives in real-time is one of the largest benefits that NVIDIA GPUs bring. This gives designers the freedom to be creative and effortlessly try out a wide range of concepts.
With NVIDIA RTX 6000 48GB memory Ada Generation, users can easily increase the fidelity of the solver to perform more accurate simulations and still obtain the results in near real-time.
Ansys Fluent solvent supports multi-GPU acceleration on NVIDIA GPUs significantly reducing run times for large high-fidelity simulations meshed with 20 million cells. Running 100 iterations with GPU Solver in less than 2 minutes up to 5x faster than a dual-socket CPU.
Once the calculations are converted, users can visualize and validate the data with discovered results of the Wind tunnel test.
Features
- Third-generation RT Cores: Up to 2x the throughput of the previous generation with the ability to concurrently run ray tracing with either shading or denoising capabilities.
- Fourth-generation Tensor Cores: Up to 2x faster AI training performance than the previous generation with expanded support for the FP8 data format.
- CUDA cores: Up to 2x the single-precision floating point throughput compared to the previous generation.
- GPU memory: Features 48GB of GDDR6 memory for working with the largest 3D models, render images, simulation and AI datasets.
- Virtualization: Will support NVIDIA virtual GPU (vGPU) software for multiple high-performance virtual workstation instances, enabling remote users to share resources and drive high-end design, AI and compute workloads.
- XR: Features 3x the video encoding performance of the previous generation, for streaming multiple simultaneous XR sessions using NVIDIA CloudXR.