March 10-12, 2026 | Nuremberg, Germany
Come visit us at Hall 5, Booth 329
Join Altera at Embedded World 2026 to see how Agilex 3 and Agilex 5 FPGAs and SoCs power the next generation of embedded edge innovation.
Built for real-time physical AI, robotics, industrial, vision, and edge AI, Agilex delivers deterministic performance, integrated AI acceleration, secure-by-design operation, long lifecycles through 2040, and field-updatable flexibility—backed by modern Quartus and Visual Designer Studio tools.
Get a free ticket using Altera's voucher ew26561833
Device: Agilex™ 5Agilex 5 devices act as a low-latency, high-throughput sensor preprocessing engine, efficiently preprocessing and streaming camera data to an Jetson GPU via the Holoscan Sensor Bridge over a 25G link. FPGA offload is perfect for sensor aggregation and processing to speed up AI applications while reducing GPU load, while enabling deterministic, scalable sensor-to-AI pipelines for robotics, medical, and industrial systems.
Device: Agilex™ 5 FPGAs and SoCsAgilex 5 devices aggregate and transport high-bandwidth 10G per link sensor data with deterministic latency, interfacing directly with Jetson GPUs via the Holoscan Sensor Bridge interface. The FPGA’s flexible I/O and parallel fabric simplify complex sensor fusion for industrial, medical, and smart infrastructure applications.
Device: Agilex™ 5 FPGAs and SoCsThis 4K camera fusion demo uses the Agilex 5 device to ingest, synchronize, and stitch multiple camera streams in hardware. Leveraging Altera Warp IP, the FPGA delivers real-time image fusion and control with low latency and high bandwidth, demonstrating how programmable logic simplifies complex multi-camera designs in broadcast and surveillance applications.
Device: Agilex™ 5 FPGAs and SoCsAgilex™ 5 devices enable real-time 4K medical video processing for endoscopic imaging by handling video capture, processing, and output directly in the FPGA fabric. The demo highlights Agilex 5 device interoperability with medical devices while providing deterministic latency and image quality essential for clinical environments.
Device: Agilex™ 5 SoC FPGABuilding on a ROS 2 robotics platform, this demo integrates an FPGA-accelerated vision pipeline that detects marked blocks to drive real-time . Agilex™ 5 devices combine an on-board SoC embedded controller, with high-performance video pipelines, illustrating how FPGAs improve responsiveness and determinism in autonomous robotic systems.
Device: Agilex™ 3 FPGAs and SoCsAgilex™ 3 devices accelerate real-time AI object detection with a simulated drone-based camera system, identifying hazards such as wildfires at high frame rates. The Agilex 3 device’s parallel processing enables low-power, low-latency inference, making it well suited for edge AI deployments.
Device: Agilex™ 3 FPGAs and SoCsThis demo showcase FPGA-based AI image processing protected by Accelerat’s AI Bunker platform. Agilex 3 devices provide hardware-rooted isolation and data integrity, enabling confidential computing and secure AI workloads resistant to cyberattacks.
Device: Agilex™ 3 FPGAs and SoCsThis demo runs NIST-standardized post-quantum cryptography algorithms entirely in FPGA fabric, without CPUs or embedded software. Agilex 3 devices perform key exchange and digital signing using pure digital logic, highlighting the FPGA’s suitability for high-assurance, future-proof security applications.
Device: Agilex™ 7 FPGAs and SoCsAgilex 7 devices accelerate AI-based super-resolution video enhancement at 600 MHz using Heronics’ toolflow. The demo demonstrates how high-performance FPGA fabric enables real-time AI video processing that scales beyond software-only solutions for broadcast-grade applications.