Proof of Nuprl Lemma : regularize-k-regular

Step * 4 1 1 1 2 of Lemma regularize-k-regular

1. k : ℕ⁺
2. f : ℕ⁺ ⟶ ℤ
3. m : ℕ⁺
4. ¬↑regular-upto(k;m;f)
5. n : ℕ⁺
6. ¬↑regular-upto(k;n;f)
7. v : ℕ
8. ¬↑regular-upto(k;v;f)
9. ∀[i:ℕ]. ¬¬↑regular-upto(k;i;f) supposing i < v
10. ¬(v = 1 ∈ ℤ)
11. ¬(v = 0 ∈ ℤ)
12. j : ℕ⁺
13. (v - 1) = j ∈ ℕ⁺
14. b : ℕ⁺
15. seq-min-upper(k;j;f) = b ∈ ℕ⁺
16. ∀i:ℕ⁺j + 1. (((i * (f b)) - b * (f i)) ≤ ((2 * k) * (b - i)))
17. b ≤ j
18. a : ℤ
19. ((f b) + (2 * k)) = a ∈ ℤ
20. |(r(a))/(2 * k) * b - (r((m * a) ÷ k * b))/2 * m| ≤ (r1/r(m))
⊢ ((r((k * ((m * a) ÷ b * k)) - 2 * k)/r((2 * k) * m)) ≤ (r(a)/r((2 * k) * b)))
∧ ((r(a)/r((2 * k) * b)) ≤ (r((k * ((m * a) ÷ b * k)) + (2 * k))/r((2 * k) * m)))
BY
{ (Assert (r(a)/r((2 * k) * b)) = (r(a))/(2 * k) * b BY
(RWO "int-rdiv-req" 0 THEN Auto)) }

1
1. k : ℕ⁺
2. f : ℕ⁺ ⟶ ℤ
3. m : ℕ⁺
4. ¬↑regular-upto(k;m;f)
5. n : ℕ⁺
6. ¬↑regular-upto(k;n;f)
7. v : ℕ
8. ¬↑regular-upto(k;v;f)
9. ∀[i:ℕ]. ¬¬↑regular-upto(k;i;f) supposing i < v
10. ¬(v = 1 ∈ ℤ)
11. ¬(v = 0 ∈ ℤ)
12. j : ℕ⁺
13. (v - 1) = j ∈ ℕ⁺
14. b : ℕ⁺
15. seq-min-upper(k;j;f) = b ∈ ℕ⁺
16. ∀i:ℕ⁺j + 1. (((i * (f b)) - b * (f i)) ≤ ((2 * k) * (b - i)))
17. b ≤ j
18. a : ℤ
19. ((f b) + (2 * k)) = a ∈ ℤ
20. |(r(a))/(2 * k) * b - (r((m * a) ÷ k * b))/2 * m| ≤ (r1/r(m))
21. (r(a)/r((2 * k) * b)) = (r(a))/(2 * k) * b
⊢ ((r((k * ((m * a) ÷ b * k)) - 2 * k)/r((2 * k) * m)) ≤ (r(a)/r((2 * k) * b)))
∧ ((r(a)/r((2 * k) * b)) ≤ (r((k * ((m * a) ÷ b * k)) + (2 * k))/r((2 * k) * m)))

Latex:

Latex:
1. k : \mBbbN{}\msupplus{} 2. f : \mBbbN{}\msupplus{} {}\mrightarrow{} \mBbbZ{} 3. m : \mBbbN{}\msupplus{} 4. \mneg{}\muparrow{}regular-upto(k;m;f) 5. n : \mBbbN{}\msupplus{} 6. \mneg{}\muparrow{}regular-upto(k;n;f) 7. v : \mBbbN{} 8. \mneg{}\muparrow{}regular-upto(k;v;f) 9. \mforall{}[i:\mBbbN{}]. \mneg{}\mneg{}\muparrow{}regular-upto(k;i;f) supposing i < v 10. \mneg{}(v = 1) 11. \mneg{}(v = 0) 12. j : \mBbbN{}\msupplus{} 13. (v - 1) = j 14. b : \mBbbN{}\msupplus{} 15. seq-min-upper(k;j;f) = b 16. \mforall{}i:\mBbbN{}\msupplus{}j + 1. (((i * (f b)) - b * (f i)) \mleq{} ((2 * k) * (b - i))) 17. b \mleq{} j 18. a : \mBbbZ{} 19. ((f b) + (2 * k)) = a 20. |(r(a))/(2 * k) * b - (r((m * a) \mdiv{} k * b))/2 * m| \mleq{} (r1/r(m)) \mvdash{} ((r((k * ((m * a) \mdiv{} b * k)) - 2 * k)/r((2 * k) * m)) \mleq{} (r(a)/r((2 * k) * b))) \mwedge{} ((r(a)/r((2 * k) * b)) \mleq{} (r((k * ((m * a) \mdiv{} b * k)) + (2 * k))/r((2 * k) * m))) By Latex: (Assert (r(a)/r((2 * k) * b)) = (r(a))/(2 * k) * b BY (RWO "int-rdiv-req" 0 THEN Auto)) Home Index