Experiments
Geometry, Time, and the Wines of Summerhill
At Summerhill Pyramid Winery, wine is cellared beneath a 60 foot pyramid modeled after the Great Pyramid at Giza. More than a symbol, it’s an intentional geometric environment, refined over decades, that invites a deeper look at structure, coherence, and the natural artistry of time.
This film introduces the origins of the Summerhill pyramid and the intention behind pyramid cellaring. It offers context, history, and the ethos of a winery committed to craftsmanship, biodynamic farming, and long-term refinement.
Curious to explore the wines?
Visit https://summerhill.bc.ca/wine
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This is not light. It is not metaphor.
According to decades of independent research, pyramidal geometry appears to interact with a subtle background field of reality — sometimes referred to as a torsion or life-field — associated with coherence, structure, and ordering processes in nature.
At Summerhill Pyramid Winery, a sixty-foot pyramid was constructed as a precise geometric instrument, modeled after the Great Pyramid at Giza and sheathed in limestone sourced from the same geological strata.
Rather than serving as a symbol, the pyramid functions as a resonant structure.
Research has suggested that liquids with high water content, when stored within such geometry for extended periods, may exhibit measurable changes related to coherence and resistance to entropy — a tendency toward restored order and synchronization.
Wine, composed primarily of water, becomes part of this exploration.
This short film documents the ideas, research context, and questions surrounding the Summerhill Pyramid — placing the discussion not in mysticism, but at the edge of geometry, physics, and natural order.
No claims are made.
Only observations, measurements, and inquiry.
The Pyramid at Summerhill — A Living Legacy
This video presents an early-stage exploration of plant growth within the environment of the Summerhill pyramid. The experiment invites observation into how geometry and surrounding conditions may influence plant development, vitality, and structural coherence over time.
MEasurement & Instrumentation
To support this inquiry, precision timing instruments such as the MicroSet precision clock and watch timer are used to observe and measure subtle rate, coherence, and time-based variations. MicroSet enables measurements accurate to within millionths of a second and can resolve rate deviations as small as seconds per week, providing a rigorous, repeatable framework for long-term observation.
What follows is an initial documentation intended to spark further study and inquiry. Additional research, methodology, and analysis will be shared by the investigators as this work continues.
This page is provided for educational and historical interest. It shares perspectives and research ideas and is not intended as medical advice or a statement of health benefit.