Xilinx Zynq Archives - Electronics-Lab

Enclustra unveils Mercury+ XU6 based on Xilinx’s Zynq Ultrascale+ MPSoC

https://www.electronics-lab.com/enclustra-unveils-mercury-xu6-based-on-xilinxs-zynq-ultrascale-mpsoc/

Enclustra recently introduced two modules, Andromeda XZU90 SoM and Mercury+ XU6, capable of running Linux. Today’s focus will be on the Mercury+ XU6 that is built around the Xilinx Zynq UltraScale+ MPSoC that is an ultra-compact package with integrated H.264 / H.265 video codec. The hardware Mercury+ XU6 system on module comes into the light […]

Xilinx Zynq® UltraScale+ MPSoCs Multiprocessors

https://www.electronics-lab.com/xilinx-zynq-ultrascale-mpsocs-multiprocessors/

Xilinx Zynq® UltraScale+ MPSoCs Multiprocessors feature 64-bit processor scalability that combines real-time control with soft and hard engines for graphics, video, waveform, and packet processing. The multiprocessor systems-on-chip devices are built on a common real-time processor and programmable logic-equipped platform. UltraScale+ MPSoC Multiprocessors consist of three distinct variants (dual-core, quad-core, and video code-c). Dual-core application […]

iWave Systems Ultra-High-Performance FPGA Platforms for AI/ML accelerated Edge Computing in IoT applications

https://www.electronics-lab.com/iwave-systems-ultra-high-performance-fpga-platforms-ai-ml-accelerated-edge-computing-iot-applications/

With the advent of IoT and the proliferation of connected embedded devices, one of the biggest challenges in developing competitive IoT solutions is the ability to bring intelligence at the Edge of the IoT networks. Edge computing is crucial in IoT applications as it paves the way for faster real-time inference by embedding computation capability […]

PYNQ-Z1: Python Productivity for Zynq-7000 ARM/FPGA SoC

https://www.electronics-lab.com/pynq-z1-python-productivity-zynq-7000-arm-fpga-soc/

Python Productivity for Zynq – A Special Project from Xilinx University Program The PYNQ-Z1 board is designed to be used with PYNQ, a new open-source framework that enables embedded programmers to exploit the capabilities of Xilinx Zynq All Programmable SoCs (APSoCs) without having to design programmable logic circuits. Instead the APSoC is programmed using Python, […]