System Integrators use GPGPUs to meet the intense processing needs of C4ISR military applications that require large amounts of DSP algorithm computation.
Curtiss-Wright offers the latest NVIDIA Pascal and Maxwell architecture-based GPGPU technology in COTS rugged air-cooled and conduction-cooled DSP Processor cards for both 3U and 6U OpenVPX form factors. In addition, the Pascal technology is also offered in the XMC to boost the processing power of our processor cards.
These boards harness the enormous floating point processing power of GPGPUs for compute intensive applications, implemented in rugged form factors. When multiple boards are configured into systems they can deliver TFLOPS of processing to EO/IR applications that must capture and manipulate huge data streams from gigapixel cameras and to STAP and SAR radar, which are hungry for floating point engines that can handle pulse compression and Doppler processing.
|Product Sheet||Product Name||IMAGE||Form Factor||Standard||Generation||GPGPU device or MXM||# of CPUs||Backplane Fabric|
|VPX3-4922 3U VPX GPGPU Processor Card with NVIDIA Tesla M6||3U||OpenVPX, VPX, VPX-REDI||NVIDIA Maxwell||Tesla M6||1||PCIe - Gen 3|
|VPX6-4941 6U VPX GPGPU Processor with NVIDIA Quadro M5000SE||6U||OpenVPX, VPX, VPX-REDI||NVIDIA Maxwell||Quadro M500SE||1, 2||PCIe - Gen 3|
|VPX6-4942 6U VPX GPGPU Processor Card with NVIDIA Tesla M6||6U||OpenVPX, VPX, VPX-REDI||NVIDIA Maxwell||Tesla M6||1, 2||PCIe - Gen 3|
|VPX3-4921 3U VPX GPGPU Processor with NVIDIA Quadro M5000SE||3U||OpenVPX, VPX, VPX-REDI||NVIDIA Maxwell||Quadro M500SE||1||PCIe - Gen 3|
|VPX3-491 3U OpenVPX GPGPU||3U||OpenVPX, VPX, VPX-REDI||NVIDIA Fermi||GF104||1||PCIe - Gen 2|
|VPX6-490 6U OpenVPX GPGPU Processor Card||6U||OpenVPX, VPX, VPX-REDI||NVIDIA Fermi||GF104||1, 2||PCIe - Gen 2|