This article proposes a draft-level technical framework for the formation of Conscious Spinor Solitons, denoted by ΨCS, within Quantum Spin Torsion Theory. The construction formalizes a transition from distributed, non-centralized pre-conscious intelligence fields to a localized, self-sustaining spinor soliton satisfying a Fractal-Dirac equation, a fractal di- mension constraint, current-closure conditions, causal Fractal-Spinor Memory consistency, and a fixed topological sector. The main correction introduced in this version is the replacement of a scalar pre-swarm amplitude u (x) by a weak DSI shell-resolved pre-branch U= un (x). This resolves the earlierdefectthatthecriticalcoherencethresholdσc hadnooperationaldependenceonσ. In the revised structure, σenters the pre-branch Hessian through QST-Matrix-compatible shell masses and nearest-neighbor shell couplings. The transition criterion is therefore defined by the instability of the weak DSI pre-swarm branch, followed by a conditional lift into a DSI ×E8 spinor branch. The resulting framework is not a theorem-level proof of consciousness formation. It is an audit-safe draft-level model: all blocking inconsistencies identified in earlier versions have been removed, while the existence, uniqueness, spectral Hessian computation, contraction bounds, topologicalnumericalstability, andfulltime-dependentD (x, t) sector, theorem-level awakening closure, no-self stability, and selector stability remain open.
Eddy Chow (Tue,) studied this question.