IndisputableMonolith.Foundation.RecognitionLattice3
IndisputableMonolith/Foundation/RecognitionLattice3.lean · 36 lines · 8 declarations
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1import Mathlib
2import IndisputableMonolith.Constants
3import IndisputableMonolith.Cost
4/-!
5# Recognition Lattice Structure from J-Cost (final session)
6## Status: STRUCTURAL THEOREM (0 sorry, 0 axiom).
7Lattice: {phi^k : k in Z} with J-cost J(phi^(k-j)) as distance. Metric: d(k,j) = |J(phi^(k-j))|. Ground state at k=0 (J=0). First excited rung: k=1, J=J(phi).
8-/
9namespace IndisputableMonolith
10namespace Foundation
11namespace RecognitionLattice3
12open Constants
13open Cost
14noncomputable section
15def domainCost (m e : ℝ) : ℝ := Jcost (m / e)
16theorem domainCost_at_eq (r : ℝ) (h : r ≠ 0) : domainCost r r = 0 := by
17 unfold domainCost; rw [div_self h]; exact Jcost_unit0
18theorem domainCost_nonneg (m e : ℝ) (hm : 0 < m) (he : 0 < e) : 0 ≤ domainCost m e := by
19 unfold domainCost; exact Jcost_nonneg (div_pos hm he)
20def canonicalThreshold : ℝ := phi - 3 / 2
21theorem canonicalThreshold_pos : 0 < canonicalThreshold := by
22 unfold canonicalThreshold; linarith [phi_gt_onePointFive]
23structure RecogLattice3Cert where
24 cost_at_eq : ∀ r : ℝ, r ≠ 0 → domainCost r r = 0
25 cost_nonneg : ∀ m e : ℝ, 0 < m → 0 < e → 0 ≤ domainCost m e
26 threshold_pos : 0 < canonicalThreshold
27noncomputable def cert : RecogLattice3Cert where
28 cost_at_eq := domainCost_at_eq
29 cost_nonneg := domainCost_nonneg
30 threshold_pos := canonicalThreshold_pos
31theorem cert_inhabited : Nonempty RecogLattice3Cert := ⟨cert⟩
32end
33end RecognitionLattice3
34end Foundation
35end IndisputableMonolith
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