The Architectural Coherence Framework establishes the governing design principles for coherence-optimized built environments — a complete set of site selection criteria, structural geometry protocols, material specifications, acoustic design guidelines, and field-integration methodologies for creating structures that serve dual biochemical and electromagnetic functions simultaneously.
Site selection in the coherence framework begins with geomagnetic and acoustic assessment of the building location. Sites positioned over underground water flows, geological quartz deposits, or at ley line intersection points exhibit measurably elevated ambient coherence fields that the building can couple into through appropriate foundation design. Sites in areas of high electromagnetic interference, suboptimal geomagnetic field strength, or acoustic pollution require active coherence compensation systems to achieve target interior BCI scores.
Structural geometry follows phi-ratio proportioning throughout: floor-to-ceiling heights, room dimensions, window proportions, and architectural spans are all calculated to phi-ratio relationships that produce resonant interior acoustic environments matching the body's primary biological oscillator frequencies. The result is a building that literally hums at the frequencies that support human health — not as a metaphor but as a measurable acoustic property of the space.
Material specifications prioritize coherence-active materials: natural stone with high quartz content for flooring and wall surfaces, phi-ratio timber framing for structural elements, coherence-programmable metamaterial panels for exterior skin, structured water plumbing throughout, and full-spectrum lighting calibrated to the complete solar spectrum including the infrared and ultraviolet bands that conventional LED lighting omits.