One of the leading manufactures of graphical technologies is NVIDIA. From supercomputing applications to hosting units NVIDIA is a one stop solution to the visual industry. Some of the smart host technologies responsible for running computing applications are CUDA, HOLODESK, NVLINK, and RTX etc.
CUDA (Compute Unified Devices Architecture):
It basically is a redesigning software tool that optimally alters the tasks to best fit the priority queue. Depending on the serial calculations, those tasks are then rendered to their respective GPUs, and if the computations are parallel, they are aligned with the CPUs. CUDA helps designers and developers who works on modeling structures and machines, before their physical 3D print implementation. The number of CUDA cores present in a graphics card dictates the performance of parallel tasks. CUDA directly translates to faster modeling, quicker rendering, and optimum quality content of the project.
This lets designers create VR content. VR aims at offering exceptional immersion experience that hasn’t been achieved in the digital medium so far. It lets studios showcase their portfolio in hologram thus blending supercomputing techniques in the work environment. Not only this, but NVidia has integrated fields with 3DS, Maya and SolidWorks – the most considerable designing tool available in the market.
It is a cost-effective way of catering supercomputing needs of businesses, as opposed to creating personalized Ultron or Watson. NVLINK allows a parallel seamless merging of various graphics cards into one single entity, thereby multiplying the performance of the unit.
RTX or Ray Tracing:
RTX sets a new direction to the rendering of films, and animations. Initially rasterization was used to process images taking into account the lightening factor. This rather created a vague imperfect illustration. Thus, to eliminate these shortcomings, RTX is deployed. RTX performs detailed calculations on the effects of optical transfers into animations. It stimulates the light-shed surfaces producing an ultra-realistic visual graphic that might as well be confused with the real-world object.
Let’s have a look at some of the best-fit graphics card for your system:
NVidia Quadro M6000:
NVidia Quadro M6000 with its inculcated 3072 CUDA cores, 24 GB GDDR5 RAM and 7 Teraflops, produces high-quality, well-toned animations. Categorically designed for workstation tasks, it works upon multiple graphical layers to further enhance the after effects of a produced image – bringing life to your created illustrations.
NVidia Tesla V100:
With its computational power of 7.8 terra flops, Nvidia claims this GPU can replace up to 54 regular processor computing nodes. It is often a support to critical applications that requires complex computations, such as calculating hurricane impacts in densely populated areas, paving way for advanced AI techniques. NVidia Tesla V100 works with an exceptional speed of 300 GB/s to prevent latency, and other glitches in associated hardware components
NVidia Grid K2:
It packages two high-end graphic cards to maintain min-max performance. This unique OEM graphics card built on 40nm node is cost-effective, integrating development related technologies all the more keeping track of acceptable margins. It includes a range of functions specifically for designers to bring about advanced gaming solutions.
NVidia GeForce GTX 1080ti:
GTX 1080ti is designed for an average user, but could also be integrated in complex computing workplace devices. It proves to be an ideal cost-effective option for 3D animations, and modelling, keeping a benchmark, and a head to head GP100 in blender test.
NVidia GeForce GTX 970:
This GPU is specifically designed for studios, and small businesses that require key features like Direct X API and CUDA at the same time keeping up with a minimalist budget. NVidia GeForce GTX 970 is an undeniably best choice for competitive projects designed to keep you afloat.