A multi-level vertical biodiversity ecosystem where GPU waste heat grows flowers, herbs, and food — managed by AI agents and humanoid robots.
100MW compute cluster generates 70°C exhaust heat
Heat Loop 1: 45°C water for pools and spa therapy
Heat Loop 2: 35°C radiant floor heating
Heat Loop 3: 25°C hydroponics & greenhouse heating
Heat Loop 4: 28°C recreational water heating
Zero-waste heat recycling from GPU cooling to biodiversity
Dense tropical flowering plants heated by GPU exhaust. Orchids, bromeliads, and bird-of-paradise create a lush biodiversity corridor for visitors.
Vertical hydroponic herb walls supplying the hotel restaurant with fresh basil, mint, rosemary, and lavender. Zero food-miles.
Lettuce, tomatoes, strawberries in modular vertical units. Robotics-managed harvesting via Unitree H2 humanoid robots.
Glass-roofed butterfly garden and pollinator habitat. Native and exotic insect species maintaining ecosystem health. Human creativity space.
Vision-Language-Action model for robot decision-making. Controls Unitree H2 humanoids for planting, watering, harvesting, and quality inspection tasks.
Digital twin simulation of the entire Orangerie. Test robot behaviors, thermal dynamics, and plant growth in photorealistic virtual environment before deploying.
Multi-agent swarm manages sensors, robots, climate control, and harvest scheduling. Smart routing picks Nemotron for robotics, GLM for analytics.
Dense, multi-level vertical ecosystems powered by AI and waste heat. Better for humans, better for the planet.