Autonomy Across Land, Air, Sea & Space
Xcelerium powers autonomous systems where traditional compute cannot operate—platforms that require real-time sensing and precise positioning under severe power, interference and environmental constraints
Drones & UAVs
Instant EO/IR/Radar/RF perception, secure low-latency datalinks, precise navigation (including GNSS-denied operation), and adaptive autonomy for surveillance, logistics, and mapping.
Humanoid & Mobile Robotics
Sensor-native AI for vision, proprioception, and force sensing; deterministic control for locomotion and manipulation; integrated communications; and long battery life enabled by extreme power efficiency.
Automotive & Autonomous Vehicles
Real-time processing of camera, radar, and lidar streams; microsecond sensor fusion; precise positioning; and deterministic actuation for ADAS and full autonomy—with reduced hardware complexity.
Aerospace & Defense
Multi-sensor fusion, secure RF processing, resilient communications, ultra-low-latency targeting, and fault tolerance under extreme environmental conditions and designed for the toughest SWaP constraints—across land, air, sea, and space platforms.
Aerospace & Defense
Mission-critical platforms require intelligence at the edge to operate reliably in contested or dynamic conditions. Xcelerium’s architecture fuses signal processing, machine learning, and physical modeling to power autonomous systems for surveillance, targeting, situational awareness, and rapid decision-making across land, air, sea, and space domains.
Wireless & Communications
Cognitive 5G/6G radio, AI Air Interfaces, spectrum sensing, beamforming, dynamic spectrum access, and interference mitigation—powered by AI and Integrated Sensing and Communication (ISAC) technologies unified sensing + AI + RF compute at the edge.