Lattice 3D Sensor Fusion for Autonomous Apps

  • May 27, 2024
  • William Payne

Lattice Semiconductor has launched a 3D sensor fusion reference design to accelerate advanced autonomous application development.

The new design combines low power, low latency, deterministic Lattice Avant-E FPGA with Lumotive’s Light Control Metasurface (LCM) programmable optical beamforming technology The reference design enables enhanced perception and simplifies autonomous decision making in complex environments. These include industrial robotics, automotive, and smart city infrastructure.

“How we perceive and develop Automotive, robotics, and factory automation is constantly evolving as the industry is shifting rapidly with autonomous technology,” said Matt Dobrodziej, Corporate Vice President of Segment Marketing and Business Development at Lattice Semiconductor. “Lattice’s low power, low latency FPGA solutions are ideal for this transformation by addressing computational challenges at the edge. And, when paired with advanced 3D sensing technologies, Lattice’s sensor fusion solutions enable even more ways for our customers to design cutting-edge applications that redefine mobility and safety.”

The new sensor fusion reference design includes class-leading perception utilising low power edge AI inferencing based on Lattice FPGA solutions enabling sensor fusion processing and synchronisation for all sensors, combining LiDAR, radar, and camera sensors. It also provides solid-state LiDAR with beam steering powered by Lumotive’s LCM technology.

“Lumotive’s LCM beam steering chips with AI-driven scanning capabilities transform solid-state LiDAR to reach new levels of performance and flexibility in a compact, modular, and scalable 3D sensing solution,” added Dr. Kevin Camera, Vice President of Product at Lumotive. “Lattice FPGAs, capable of performing complex sensor fusion efficiently with absolute minimum latency, amplify these strengths to deliver autonomous applications which can intelligently adapt to any use case and situation.”