This record contains Version v6. 0r1 of the Electron Inevitability Program (EIP) consolidated manuscript set. Version v6. 0r1 is a post-v6. 0 source-side integration update. The previous Version v6. 0 established the three-part consolidated structure of the EIP manuscript set. The present update keeps that structure fixed while strengthening Part II by absorbing the post-v6. 0 effective-coefficient floor companion into the Part II source-data closure layer. The consolidated set consists of: 1. **Orientation Guide v1. 1** — a short gateway document explaining the three-part structure, reading order, claim boundaries, and remaining burdens. 2. **Part I v0. 3** — *Finite-Window Response, OS-Positive Activation, and Minimal Charge Branch Extraction*. Part I consolidates the finite-window regulator response chart, response-parametrix gate, OS-positive activation mechanism, and minimal nonzero charge branch extraction. Its output is a minimal nonzero electric-charge branch datum under the stated finite-window response, charge-label, and Gauss-law assumptions. 3. **Part II v0. 5** — *Source-Data Closure, Mass-Generating Floors, and Positive-Threshold/BF Regularity*. Part II consolidates the source-data chart, mass-generating source-floor theorem, positive-threshold/BF interface, and the integrated effective-coefficient floor derivation layer. The v0. 5 update incorporates the coefficient-floor route directly into Part II rather than publishing it as a separate standalone companion note. 4. **Part III v0. 2** — *Gauge-Invariant BF-Sector Architecture and Downstream Electron-Sector Closure*. Part III consumes the Part I/II interfaces and organizes the downstream theorem architecture: gauge-invariant OS foundation, Gauss-law/BF transfer, realistic massless-photon branch structure, inclusive closure, and presentation independence. The proof-dependency spine of the consolidated set is: -window response implementation-parametrix gate-positive activation nonzero charge branch\ followed by -data chart coefficient floors-generating source floor-threshold/BF-ready branch BF-sector architecture. \ The main update in Version v6. 0r1 is the integration of the effective coefficient-floor derivation layer into Part II. This layer organizes the route coefficient floors reference-core floors/reference-map floors (vT^ eff, yT^ eff) T^ src=yT^ effvT^ eff\ and inserts this source-strength floor into the Part II source-data and mass-generating source-floor chain. In particular, Part II now records how effective coefficient floors support the local source-margin estimate, H^ locₐ, ₓ (1-R^ all (T) ) (1-Y^ all (T) ) ² (yT^ pre) ²\|\|². \ This release is a three-part finite-window theorem-architecture and source-data integration package. It does **not** claim a numerical derivation of the electron mass, the identity \ (Mₐ_=mₑ\), spin/chirality/leptonic identification, an unconditional full interacting gauge-Higgs-Yukawa/Osterwalder-Schrader construction, or a full derivation of the Standard-Model electron. The main remaining mathematical burdens are: deriving the regulator and source charts from a full interacting GHY/OS construction; proving the effective coefficient floors and prototype-scale estimates in a concrete finite-window realization; comparing the packet-generated source branch with a larger interacting charged branch; and only afterward addressing physical threshold calibration and electron identification. Author: Lee Byoungwoo (이병우) leeclinic@protonmail. com
Byoungwoo Lee (Wed,) studied this question.