VPX3-4935 GPGPU Processor with NVIDIA Quadro Turing TU104/RTX5000E

  • Downloads
  • SPECIFICATIONS
  • SUPPORT
  • REQUEST A QUOTE

Key Features

  • NVIDIA Quadro Turing TU104 (RTX5000E) with 11.2 TFLOPS & 11.2 TIPS
  • 3072 CUDA Cores, 384 Tensor Cores, 48 RT Cores
  • 16 GB GDDR6 256-bit memory
  • Max memory bandwidth: 448 GB/s
  • PCIe Gen 3 x16 switch
  • Operating power configurable hard cap: 50-150W
  • 4 simultaneous video outputs
    • 3 Display Port ++
    • 1 DVI

Applications

  • ISR and EW applications that require the highest performing GPGPU processing
  • SWaP-constrained deep learning inference that can benefit from the largest number of Tensor Cores in 3U
  • High-performance radar, SIGINT, EO/IR, sensor fusion, processing and display, and autonomous vehicles
VPX3-4925 GPGPU Processor with NVIDIA Quadro Turing TU106/RTX3000E

VPX3-4925 GPGPU Processor with NVIDIA Quadro Turing TU106/RTX3000E

The VPX3-4925 delivers incredible processing power from its NVIDIA Quadro Turing TU106 GPU, providing 2304 CUDA cores for parallel processing and a 50% improvement in performance per CUDA core...

VPX6-4955 GPGPU Processor with Dual NVIDIA Quadro Turing TU104/RTX5000E GPUs

VPX6-4955 GPGPU Processor with Dual NVIDIA Quadro Turing TU104/RTX5000E GPUs

The VPX6-4955 delivers incredible processing power from not one, but two NVIDIA Quadro Turing TU104 GPUs, providing a remarkable 6144 CUDA cores for parallel processing and a 50% improvement in...

CONTACT SALES/SUPPORT


We’d like to keep in touch and send you updates on our products, news and developments – please tick below to make sure you don’t miss out. You can unsubscribe at any time by clicking on the unsubscribe link at the bottom of the emails. Your personal information will not be shared with any person or organization outside of Curtiss-Wright. Review our privacy policy.

The VPX3-4935 delivers incredible processing power from its NVIDIA Quadro Turing TU104 GPU, providing an impressive 3072 CUDA cores for parallel processing and a 50% improvement in performance per CUDA core compared to the previous Pascal generation. What’s more, the Turing architecture’s Tensor Cores accelerate the tensor/matrix computation used for deep learning neural network training and inference operations, answering the growing demand for artificial intelligence and high-performance processing in deployed EW and ISR applications.

Bring new levels of performance to your ISR and EW applications with the VPX3-4935:

Cutting-edge Turing GPU architecture

The NVIDIA Turing architecture provides a 50% improvement in performance per CUDA core compared to the previous Pascal generation. Its redesigned memory path combines shared memory, texture caching, and memory load caching into one unit, resulting in twice the bandwidth and over twice the capacity for L1 cache and common workloads than the previous Pascal generation.

Support for artificial intelligence and machine learning

The VPX3-4935’s TU104 GPU features 384 Tensor Cores, designed to speed up the tensor/matrix computation used for deep learning neural network training, for dedicated AI inference.

Lightning-speed data processing

Moving data quickly and efficiently is paramount for high-speed GPUs. The VPX3-4935 uses GDDR6 memory, which provides twice the bandwidth of the GDDR5 memory used in previous generations. Incorporating a PCIe switch, this module is configurable for compatibility with various OpenVPX slot profiles.

Product Finder

Connect With Curtiss-Wright Connect With Curtiss-Wright Connect With Curtiss-Wright
Sales

CONTACT SALES

Contact our sales team today to learn more about our products and services.

YOUR LOCATION

PRODUCT INFORMATION

Support

GET SUPPORT

Our support team can help answer your questions - contact us today.

REQUEST TYPE

SELECT BY

SELECT Topic