Energy infrastructure that behaves like a living organism.
We fuse high-resolution sensing, digital representations, and AI-driven decision-making so infrastructure doesn't just report data — it reasons about it, and acts safely at the edge.
Intelligence embedded in the physical world.
We build systems where energy infrastructure behaves less like static hardware and more like a living organism — sensing, learning, and adapting continuously. Every panel, breaker, and transformer becomes a node in a coordinated, reasoning network.
From sensing to autonomous action.
We fuse high-resolution sensing, digital representations, and AI-driven decision-making to understand energy behavior in real time and act safely at the edge.
High-resolution sensing
Continuous waveform-level sensing across loads, sources, and storage — not minute-averaged telemetry.
Digital representations
Live digital models that mirror each site's electrical, thermal, and behavioral state.
AI decision-making
Optimization, reinforcement learning and clustering reasoning over the model — then dispatching action.
Buildings become districts. Districts become cities.
Local intelligence compounds. Decisions coordinate. What starts at a single electrical panel evolves into a city-scale cognitive energy network.
One platform. Three operating contexts.
Residential
Home energy intelligence — solar, batteries, EVs, HVAC, dynamically orchestrated.
Commercial
Buildings that minimize demand charges, comply with grid signals, and stay comfortable.
Industrial
Plant-level optimization across processes, generation assets, and flexible loads.