Summary points:
- Acromag launches XMC-FZU7EV module with AMD Zynq UltraScale+ MPSoC for advanced real-time control, imaging, and sensor fusion applications.
- High-speed connectivity with options for 10-Gigabit Ethernet, backplane I/O, and VITA 66 fiber-optic links up to 16 gigabits per second per line.
- Rugged, modular design integrates multi-core ARM processors, FPGA logic, GPU, and video codec for military, industrial, and embedded vision
WIXOM, Mich. – Acromag Inc. in Wixom, Mich., is introducing the XMC-FZU7EV embedded computing module for accelerated computing, sensor fusion, imaging algorithms, advanced filtering, and similar data-processing applications.
This embedded computing board offers an AMD Zynq UltraScale+ multi-processor device plus high-speed serial or 10-Gigabit Ethernet interfaces for real-time control and adaptive processing, and provides multi-core ARM processors, FPGA logic, GPU, and video codec.
The rugged modularity of the Switched Mezzanine Card (XMC) is suitable for military, industrial, and laboratory applications. When using a VPX or PCI Express carrier card with front I/O access, an AXM-FZU01 plug-in card can provide dual QSFP+ ports for 10-gigabit Ethernet routed direct to the programmable logic.
Conduction cooling
A conduction-cooled XMC provides backplane I/O and a VITA 66 fiber-optic transceiver linking four 16-gigabit-per-second lines to the logic blocks. The AMD XCZU7EV multi-processor system-on-a-chip (MPSoC) hosts a quad-core ARM Cortex A53 and dual-core ARM Cortex R5 for real-time processing.
On-chip programmable logic includes 500,000 cells, 1728 DSP slices, extensive RAM, and high-speed interfaces. An embedded Mali-400 GPU and H.264/265 video codec enable low-latency image processing for embedded vision applications.
Acromag’s Engineering Design Kit (EDK) provides example designs. For more information contact Acromag online at www.acromag.com/blog/new-xmc-module-with-10gbe-for-zynq-ultrascale-mpsoc-processing-logic.
