Passive fault tolerance through ultrametric geometry. Zero logical errors at depth 7. 48× error reduction without active correction.
QWAV is a research program demonstrating that ultrametric geometry — a hierarchical, tree-like structure in Hilbert space — enables passive quantum error suppression. Unlike active error correction (which requires thousands of physical qubits per logical qubit), ultrametric encoding achieves fault tolerance by construction.
The result: computational evidence that quantum computing's biggest barrier — decoherence — can be sidestepped through geometric design rather than brute-force correction.
497 open-access research papers with interactive MathJax rendering, vector-searchable by concept.
Browser-based simulations of ultrametric encoding, error landscapes, and fidelity benchmarks.
Track ongoing work: ultrametric quantum LDPC codes, glass-box AI, and the ultrametric paradigm.
AI-powered research assistant trained on the full QWAV corpus. Ask questions, get citations.