Advanced Edge Processing in Industrial Applications
Advanced edge processing is revolutionizing industrial and technological landscapes by bringing computational intelligence closer to data sources. By enabling real-time analytics, reducing latency, and supporting decentralized computing, edge processing transforms IoT, AI, autonomous systems, and machine learning across industries.
Quantum Computing
FPGAs serve as critical hardware accelerators in quantum computing, providing flexible, reconfigurable architecture to simulate quantum circuits, control quantum processors, and perform error correction. They enable rapid prototyping, low-latency signal processing, and efficient quantum algorithm implementation across quantum research and development platforms. The Zynq UltraScale+ MPSoC System on Moules portfolio with fits into such applications with extensive transceivers and logic elements.
Media Broadcasting
FPGAs revolutionize media broadcasting by enabling real-time video processing, low-latency encoding, and flexible signal manipulation. They support advanced video standards, live streaming, and broadcast infrastructure needs with high-speed, reconfigurable hardware that reduces complexity, enhances signal quality, and supports next-generation broadcasting technologies. Explore the Altera FPGA powered System on Module that can power such solutions.
Robotics
Robotics systems demand precise real-time control, rapid sensor feedback, and adaptive intelligence to operate reliably in dynamic environments. High-performance system-on-modules and Agilex FPGA boards provide the deterministic processing, low-latency interfaces, and parallel acceleration needed for multi-axis motor control, advanced servo synchronization, sensor fusion, and on-board AI inference. Their scalable, power-efficient architecture enables seamless integration of vision, motion, and safety functions, making them ideal for industrial automation, collaborative robots, mobile robots, autonomous platforms, and next-generation smart machines.
HMI
Powerful, energy-efficient modules provide robust processing capabilities, enabling interactive touchscreens, secure payment systems, digital signage, and smart information displays. With scalable performance, low power consumption, and compact form factors, Arm SoMs support diverse applications in retail, healthcare, transportation, and public service environments, driving innovation in embedded computing and user interface design. Explore the extensive portfolio from iWave.
