The Volta GV100 GPU is built on a 12 nm process size using HBM2 memory with 900 GB/s of bandwidth. Īt Nvidia's annual GPU Technology Conference keynote on May 10, 2017, Nvidia officially announced the Volta microarchitecture along with the Tesla V100. Volta has been announced as the GPU microarchitecture within the Xavier generation of Tegra SoC focusing on self-driving cars. PureVideo Feature Set I hardware video decoding.Volta's Tensor cores are first generation while Ampere has third generation Tensor cores. Tensor cores are intended to speed up the training of neural networks. Tensor cores: A tensor core is a unit that multiplies two 4×4 FP16 matrices, and then adds a third FP16 or FP32 matrix to the result by using fused multiply–add operations, and obtains an FP32 result that could be optionally demoted to an FP16 result.Allows much higher transfer speeds than those achievable by using PCI Express estimated to provide 25 Gbit/s per lane. NVLink 2.0: a high-bandwidth bus between the CPU and GPU, and between multiple GPUs.TSMC's 12 nm FinFET process, allowing 21.1 billion transistors.concurrent execution of integer and floating point operations.There were no mainstream GeForce graphics cards based on Volta.Īrchitectural improvements of the Volta architecture include the following: It has also been used in the Quadro GV100 and Titan V. The first graphics card to use it was the datacenter Tesla V100, e.g. The Ampere microarchitecture is the successor to Volta. The architecture is produced with TSMC's 12 nm FinFET process. It was NVIDIA's first chip to feature Tensor Cores, specially designed cores that have superior deep learning performance over regular CUDA cores. The architecture is named after 18th–19th century Italian chemist and physicist Alessandro Volta. It was first announced on a roadmap in March 2013, although the first product was not announced until May 2017. Volta is the codename for a GPU microarchitecture developed by Nvidia, succeeding Pascal. The NVIDIA Quadro Sync II, combined with NVIDIA Quadro GV100 powered graphics, is the ultimate solutions for professional synchronized display deployments requiring unparalled rendering and synchronized graphics performance, all with the growth potential and performance upside AI can provide.Painting of Alessandro Volta, eponym of architecture NVIDIA Quadro Sync II can synchronize up to 4 GV100 boards per card for 16 synchronized displays per Sync II, and with 2 Sync II cards per system, up to 8 NVIDIA Quadro GV100 GPUs per chassis, for a total of 32 synchronized displays per system. The NVIDIA Quadro Sync II card is a key component of these advanced display solutions. Able to deliver more than 7.4 TFLOPS of double-precision (FP64), 14.8 TFLOPS of single-precision (FP32), 29.6 TFLOPS of half-precision (FP16), 59.3 TOPS of integer-precision (INT8), and 118.5 TFLOPs of tensor operation capability, it supports a wide range of compute-intensive workloads flawlessly. It’s powered by NVDIA Quadro Volta, delivering the extreme memory capacity, scalability, and performance that designers, architects, and scientists need to create, build, and solve the impossible.īased on a state-of-the-art 12nm FFN (FinFET NVIDIA) high-performance manufacturing process customized for NVIDIA to incorporate 5120 CUDA cores, the NVIDIA Quadro GV100 GPU is the most powerful computing platform for HPC, AI, VR and graphics workloads on professional desktops. The NVIDIA ® Quadro ® GV100 is reinventing the workstation to meet the demands of these next-generation workflows. As applications continue to be enhanced with these technologies, professional computing tools need to keep pace. And artists can render complex photorealistic scenes in seconds instead of hours. Architects can design buildings that could only have existed in their imaginations. Engineers can now create groundbreaking products faster. NVIDIA Quadro GV100 Sync At the Cutting Edge of Visualization and AIĪI, photo realistic rendering, simulation, and VR are transforming professional workflows.
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