Proof of Nuprl Lemma : consensus-ts5-archive-invariant

Step * 3 1 2 2 1 of Lemma consensus-ts5-archive-invariant

1. [V] : Type
2. ∀v1,v2:V. Dec(v1 = v2 ∈ V)@i
3. v2 : V@i
4. v' : V@i
5. ¬(v2 = v' ∈ V)@i
6. A : Id List@i
7. W : {a:Id| (a ∈ A)} List List@i
8. x1 : ConsensusState@i
9. x2 : Knowledge(ConsensusState)@i
10. \\%3 : ts-init(consensus-ts5(V;A;W)) (ts-rel(consensus-ts5(V;A;W))^*) <x1, x2>@i
11. y1 : ConsensusState@i
12. y2 : Knowledge(ConsensusState)@i
13. \\%5 : ts-init(consensus-ts5(V;A;W)) (ts-rel(consensus-ts5(V;A;W))^*) <y1, y2>@i
14. ∀v:V. ∀b:{a:Id| (a ∈ A)} . ∀i:ℤ.

      (state x1 may consider v in inning i) supposing ((Estimate(x1;b)(i) = v ∈ V) and (↑i ∈ dom(Estimate(x1;b))))@i

15. a : {a:Id| (a ∈ A)} @i
16. ∀b:{a:Id| (a ∈ A)}
      ((¬(b = a ∈ Id))
      ⇒ ((Inning(y1;b) = Inning(x1;b) ∈ ℤ)
         ∧ (Estimate(y1;b) = Estimate(x1;b) ∈ i:ℤ fp-> V)
         ∧ (Knowledge(y2;b) = Knowledge(x2;b) ∈ b:Id fp-> ℤ × (ℤ × V + Top))))@i
17. Inning(y1;a) = Inning(x1;a) ∈ ℤ@i
18. Knowledge(y2;a) = Knowledge(x2;a) ∈ b:Id fp-> ℤ × (ℤ × V + Top)@i
19. ¬(Inning(x1;a) ∈ fpf-domain(Estimate(x1;a)))@i
20. v1 : V@i
21. may consider v1 in inning Inning(x1;a) based on knowledge (Knowledge(x2;a))@i
22. Estimate(y1;a) = Estimate(x1;a) ⊕ Inning(x1;a) : v1 ∈ i:ℤ fp-> V@i
23. v : V@i
24. b : {a:Id| (a ∈ A)} @i
25. i : ℤ@i
26. ↑i ∈ dom(Estimate(y1;b))
27. Estimate(y1;b)(i) = v ∈ V
28. ¬(v1 = v ∈ V)
29. (↑i ∈ dom(Estimate(x1;b))) ∧ (Estimate(x1;b)(i) = v ∈ V)
⊢ state y1 may consider v in inning i
BY
{ (D -1 THEN (Assert state x1 may consider v in inning i BY Auto)) }

1
1. [V] : Type
2. ∀v1,v2:V.  Dec(v1 = v2 ∈ V)@i
3. v2 : V@i
4. v' : V@i
5. ¬(v2 = v' ∈ V)@i
6. A : Id List@i
7. W : {a:Id| (a ∈ A)}  List List@i
8. x1 : ConsensusState@i
9. x2 : Knowledge(ConsensusState)@i
10. \\%3 : ts-init(consensus-ts5(V;A;W)) (ts-rel(consensus-ts5(V;A;W))^*) <x1, x2>@i
11. y1 : ConsensusState@i
12. y2 : Knowledge(ConsensusState)@i
13. \\%5 : ts-init(consensus-ts5(V;A;W)) (ts-rel(consensus-ts5(V;A;W))^*) <y1, y2>@i
14. ∀v:V. ∀b:{a:Id| (a ∈ A)} . ∀i:ℤ.

      (state x1 may consider v in inning i) supposing ((Estimate(x1;b)(i) = v ∈ V) and (↑i ∈ dom(Estimate(x1;b))))@i

Latex:

1. [V] : Type 2. \mforall{}v1,v2:V. Dec(v1 = v2)@i 3. v2 : V@i 4. v' : V@i 5. \mneg{}(v2 = v')@i 6. A : Id List@i 7. W : \{a:Id| (a \mmember{} A)\} List List@i 8. x1 : ConsensusState@i 9. x2 : Knowledge(ConsensusState)@i 10. \mbackslash{}\mbackslash{}\%3 : ts-init(consensus-ts5(V;A;W)) (ts-rel(consensus-ts5(V;A;W))\^{}*) <x1, x2>@i 11. y1 : ConsensusState@i 12. y2 : Knowledge(ConsensusState)@i 13. \mbackslash{}\mbackslash{}\%5 : ts-init(consensus-ts5(V;A;W)) (ts-rel(consensus-ts5(V;A;W))\^{}*) <y1, y2>@i 14. \mforall{}v:V. \mforall{}b:\{a:Id| (a \mmember{} A)\} . \mforall{}i:\mBbbZ{}. (state x1 may consider v in inning i) supposing ((Estimate(x1;b)(i) = v) and (\muparrow{}i \mmember{} dom(Estimate(x1;b))))@i 15. a : \{a:Id| (a \mmember{} A)\} @i 16. \mforall{}b:\{a:Id| (a \mmember{} A)\} ((\mneg{}(b = a)) {}\mRightarrow{} ((Inning(y1;b) = Inning(x1;b)) \mwedge{} (Estimate(y1;b) = Estimate(x1;b)) \mwedge{} (Knowledge(y2;b) = Knowledge(x2;b))))@i 17. Inning(y1;a) = Inning(x1;a)@i 18. Knowledge(y2;a) = Knowledge(x2;a)@i 19. \mneg{}(Inning(x1;a) \mmember{} fpf-domain(Estimate(x1;a)))@i 20. v1 : V@i 21. may consider v1 in inning Inning(x1;a) based on knowledge (Knowledge(x2;a))@i 22. Estimate(y1;a) = Estimate(x1;a) \moplus{} Inning(x1;a) : v1@i 23. v : V@i 24. b : \{a:Id| (a \mmember{} A)\} @i 25. i : \mBbbZ{}@i 26. \muparrow{}i \mmember{} dom(Estimate(y1;b)) 27. Estimate(y1;b)(i) = v 28. \mneg{}(v1 = v) 29. (\muparrow{}i \mmember{} dom(Estimate(x1;b))) \mwedge{} (Estimate(x1;b)(i) = v) \mvdash{} state y1 may consider v in inning i By (D -1 THEN (Assert state x1 may consider v in inning i BY Auto)) Home Index