Quantum Garden
A slow-evolving generative environment where plants exist in quantum superposition until observed.
How it works
Each plant is defined by a quantum circuit encoding multiple possible forms, colors, and growth behaviors. These circuits were executed on real quantum hardware, producing probabilistic outcomes that exist independently of any observer.
Observation
Click any plant to observe it. You don't trigger quantum computation—you witness and stabilize a result that was already resolved. Its quantum traits will be revealed, collapsing its superposition into a single state.
Entanglement
Some plants are entangled. Observing one can reveal correlated traits in others elsewhere in the garden, even if they haven't been encountered yet.
Evolution
The garden evolves continuously through server-side evolution. Plants begin as dormant seeds and germinate over time. Germination is influenced by proximity to observed plants, clustering behavior, and age. The garden continues to evolve, whether anyone is watching or not.
Design and preview plant variants. Experiment with forms, colors, and growth patterns—then contribute them back to the garden.
Explore the Seed Box→Supported by Qollab with compute credits from IonQ.