EPIC: PhD Layer — G2_ALPHA_S_PHI Framework Publication Track (NeurIPS 2026 / ARITH 2027)

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🎓 EPIC: PhD Layer — G2_ALPHA_S_PHI Framework Publication Track

Parent: Road to Ring 999 (META #126)
Phase: SUMMIT (Rings 512–527 — Academic Papers)
Status: 🔥 ACTIVE
PhD Framework: G2_ALPHA_S_PHI_FRAMEWORK_V0.9.pdf
Target venues: NeurIPS 2026 Efficient ML Workshop / ARITH 2027

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🧠 What this PhD actually IS

The G2_ALPHA_S_PHI_FRAMEWORK_V0.9 is NOT just a float format. It is a fundamental constants parametrization framework claiming:

42 φ-parametrizations across 10 physics sectors (Trinity Formula Catalog v0.9)

• Tier SG (Smoking Gun): Δ < 0.01% — exact matches
• Tier V (Validated): Δ < 0.1% — confirmed matches
• Tier C (Candidate): Δ < 1% — candidate matches

Core identity: φ² + 1/φ² = 3 (AXIOM-K2)

Key citations in paper:

• El Naschie 2004 (E-infinity theory precedent)
• Pellis 2021 (polynomial complementarity: α⁻¹ = 360·φ⁻² − 2·φ⁻³ + (3·φ)⁻⁵)
• JUNO 2022 (falsification test: θ₁₂ measurement 2026–2027)
• Lattice QCD 2024 (projected validation 2028)

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🔗 How PhD layer maps to Code layers

PhD Layer	Code Layer	Issue Track
φ-identity φ²+φ⁻²=3	AXIOM-K2 in kernel	#141 ✅
GoldenFloat bit split exp/mant = 1/φ	Ring 051 Theorem	#319 ✅
42 φ-parametrizations	specs/math/sacred_physics.t27	#145 ✅
Pellis complementarity	specs/physics/pellis-formulas.t27	#277 ✅
Trinity-Pellis hybrid H1 conjecture	research/trinity-pellis-paper/	#287 #296 #339 ✅
GF arXiv paper draft	research/gf16_arxiv_draft.md	#136 ✅
GF competitive analysis	specs/numeric/gf_competitive.t27	#289 ✅
FPGA GF16 matmul hardware	fpga/vivado/gf16_mul.v	#NEW (see EPIC AGI)
Coq formal proofs	coq/ directory	AXIOM-K1..K4
JUNO falsification test (2026–2027)	External experiment	Monitoring

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📋 Open PhD Tasks

P0 — Paper completion

• Upgrade G2_ALPHA_S_PHI_FRAMEWORK_V0.9.pdf → V1.0
• Add GF16 FPGA hardware validation section (hardware evidence)
• Add Coq formal proofs for Theorem-K1 (ternary sufficiency)
• IMRaD structure: Introduction / Methods / Results / Discussion
• LaTeX build: make paper target in Makefile

P1 — Academic submission prep

• neurips2026_overleaf_setup.md → live Overleaf sync
• Submit to NeurIPS 2026 Efficient ML Workshop (deadline: ~August 2026)
• Submit to ARITH 2027 as backup
• arXiv preprint first → get DOI via Zenodo (.zenodo.json already configured!)

P2 — JUNO falsification setup (2026–2027)

• Monitor JUNO experiment: sin²θ₁₂ measurement
• Create specs/physics/juno_falsification.t27 with prediction:
  • Formula: sin²θ₁₂ ≈ φ⁻² = 0.381966...
  • JUNO target precision: δ(sin²θ₁₂) < 0.003
• If JUNO confirms → upgrade T2 (θ₁₂) from Candidate to Validated
• If JUNO refutes → DELTA doc + honest null finding

P3 — Lattice QCD 2028 track

• Create specs/physics/lattice_qcd_2028.t27 monitoring spec
• CKM matrix elements via Wolfenstein chain (L5 in catalog)

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🏆 Success Criteria

• PDF v1.0 compiled via LaTeX CI
• arXiv preprint submitted (DOI from Zenodo)
• At least 1 venue acceptance (NeurIPS workshop OR ARITH 2027)
• JUNO spec created and monitoring active
• Coq proof for at least THEOREM-K1 (ENGINEERING→FORMAL)

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🔑 Key Files

• G2_ALPHA_S_PHI_FRAMEWORK_V0.9.pdf — current PhD draft
• G2_ALPHA_S_PHI_FRAMEWORK_V0.9.aux — LaTeX metadata
• CITATION.cff — citation metadata (Zenodo ready)
• .zenodo.json — Zenodo auto-publish config
• neurips2026_overleaf_setup.md — NeurIPS submission guide
• docs/RESEARCH_WRITING_T27.md — IMRaD template
• docs/SCIENCE-OPS-DUAL-TRACK-SYNTHESIS.md — dual-track methodology

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φ² + 1/φ² = 3 | TRINITY PhD

🤖 Generated with Perplexity AI (General Command)