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We aim to develop & deploy autonomy for Hazardous industrial processes. To achieve that advance AI required, who can understand various sensor’s data and plan manipulation in run time. Advance AI supported by inference hardware is the only way to achieve that. And we are building the world’s best tech team in all aspects for that.
Intelligent Robotics
Our robots optimize every spray stroke with synchronized arm dynamics and fluid-behaviour modelling. They maintain ideal gun orientation, stand-off distance, overlap percentage, and path curvature—even on complex contoured parts. Adaptive PID and force-feedback loops ensure smooth motion under varying flow rates and atomization loads. Join us to engineer robots that understand surfaces as painters do—but execute with perfect repeatability.
Custom Chips
Painting demands high-throughput compute tightly integrated with robot-level control. Our hardware chips execute complex spray-fan analytics, motion blending, and in-loop vision adjustments directly on silicon. These controllers accelerate AI inference, dynamic paint-profile estimation, and real-time 3D surface mapping—all while maintaining strict deterministic timing. With precise hardware pipelines for trigger actuation, atomization modulation, air-mix regulation, and motor-drive coordination, the chip becomes the robot’s reflex system. Design low-latency, high-reliability silicon that makes sub-millisecond decisions to keep every coating layer uniform, stable, and perfectly deposited.
Advance Sensors
High-precision DFT sensors, structured-light scanners, and multi-camera rigs guide our spray decisions. Our sensor fusion reconstructs 3D surfaces, detects edges, evaluates curvature, and prevents over-spray. Real-time film-build monitoring enables dynamic paint-flow adjustments on the fly.
Shape the sensory system that gives robots the awareness needed for flawless finishing.
Neural Vision
Our networks interpret surfaces, classify materials, and model paint wetting behavior.
Deep learning predicts ideal overlap ratios, atomization patterns, and gradient deposition profiles.
From glossy metals to textured plastics, our models adapt spray parameters to every material type.
Build the AI vision engine that elevates robots from “sprayers” to intelligent coaters.
Autonomy Engine
Autonomy here means selecting perfect spray trajectories in real-world factory constraints. Our planners compute fluid dynamics, airflow behaviour, and robot kinematics simultaneously. Dynamic algorithms adapt to temperature, humidity, viscosity changes, and material buildup. Engineer a planning system that delivers consistent quality across every part, every cycle.
Code Foundations
Real-time coating demands software that behaves with absolute precision under strict timing constraints. Our engineers build low-latency control loops that synchronize robot motion with paint-flow dynamics down to the millisecond. We optimize data buses, motion kernels, and sensor pipelines to ensure every nozzle command, compressor pulse, and trajectory blend is perfectly aligned. From real-time OS tuning to deterministic multi-threading and hardware-level scheduling, this is where code transforms raw mechanics and fluid physics into a flawless, automated paint system.
Testing Infrastructure
We test every algorithm against simulated paint clouds, virtual spray patterns, and airflow interactions. Hardware-in-the-loop rigs evaluate nozzle performance, droplet dispersion, and multi-layer coating stability. Automated QA runs thousands of surface geometries to guarantee uniformity across all shapes and materials. Help build validation systems that ensure every deployed robot paints with world-class precision.
