Shuiquan Ternary · ZSF Primordial Spacetime 3.0

Shuiquan Ternary · ZSF Primordial Spacetime 3.0 is an integrated theoretical and technical framework rooted in the Zero-State Field (ZSF) and ternary logic (-1/0/1), guided by the equilibrium principle of "1+(-1)=0". Centered on ZSF’s programmable cooperative dynamics, the framework unifies Taoist philosophy, quantum physics, neuromorphic computing, and UltimateLang programming language, realizing bidirectional mapping between physical states,

hardware execution, and code operators. Core innovations include an adaptive injection controller (with adjustable Kp/Kd gains) that drives ZSF from equilibrium to threshold and locks stable states, a ternary quantum entropy collaborative computing system (supporting AND₃, SUM_MOD₃, FUSE operators), and a four-core architecture ("Quantum-Photon-Neuromorphic-UltimateLang") matching ZSF’s localized (-1)、non-localized (1)、and equilibrium (0) modes. Validated through 3D/4D visualizations (phase space trajectories, injection waterfall plots,

parameter nebula diagrams), numerical simulations (success rate ≈99.7%), and experimental designs (dark matter anchoring, carbon nanotube synthesis), the framework achieves controllable spatiotemporal evolution of ZSF—from microscopic quantum fluctuations to cosmological scale simulations (CMB cold spots, gravitational wave delays). It provides reproducible scripts (Python/UltimateLang) and engineering tools, bridging abstract theory with practical applications in material synthesis, cosmological modeling, and consciousness research.