NanoXplore will provide an overview and an update on the latest rad-hard FPGA NG-ULTRA and ULTRA300.
The presentation will cover the following elements:
• Component overview and key technology differentiators
• Update on ESCC 9030 qualification
• New space industrialization
• Radiation performance
• Software tools and ecosystem
AMD Versal adaptive SoCs offer a combination of scalar and vector processing resources along with traditional FPGA logic gates, memory and DSP resources, providing highly capable platforms for integration of dense signal processing and AI inferencing in space-flight applications. In this presentation we review the latest qualification and radiation data for the AMD XQR Versal adaptive SoC...
We will present the latest full stack solutions for sensor processing and machine learning based on native hardware and software purpose built for Lattice FPGAs. Computers are not build to sense directly. Intermediate interfacing, preprocessing and contextual AI enable easy adoption of sensors to the large compute. While the industry has benefitted from built in features of FPGA for machine...
Space applications are increasingly incorporating analysis and decision-making capabilities to derive insights from data flows. This requires designers to adopt advanced technology that accelerates design, verification, and debugging of system designs.
• Hardware: Architectural investigation, IP integration, advanced verification, fast debug, and efficiently using the integrated hard blocks...
The RT PolarFire® family of SoC FPGAs represents a new generation of radiation-tolerant embedded systems. Built on Microchip's flight-proven RT PolarFire FPGA fabric, these devices offer outstanding power efficiency, high reliability, best-in-class security and enhanced radiation performance, making them ideal for deployment in demanding environments with broad offerings for Low Earth Orbit...
