A proposed computational paradigm where information is encoded not in static bits, but in the temporal phase relationships of spacetime crystals. Computation becomes a dance of cycles: logic gates are implemented by interfering the periodic outputs of multiple crystals; memory is stored in persistent, repeating states; processing occurs through the evolution of temporal lattice patterns. This promises inherently fault-tolerant, low-energy computing, as the crystal's dynamics are topologically protected from perturbation.
Spacetime Crystals Computing *Example: In a spacetime crystal computer, the number 42 isn't stored as a voltage in a flip-flop. It's encoded in the relative phase shift between two eternally oscillating time crystals. An addition operation is performed by entangling their temporal lattices, causing a predictable phase shift proportional to the sum. The calculation is not a discrete event; it's an ongoing, parallel property of the crystalline time order.*
by Dumu The Void February 11, 2026
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