MinT - Best Known (25, 54, s)-Nets in Base 64

Best Known (25, 54, s)-Nets in Base 64

(25, 54, 281)-Net over F₆₄ — Constructive and digital

Digital (25, 54, 281)-net over F₆₄, using

1 times m-reduction [i] based on digital (25, 55, 281)-net over F₆₄, using
- (u,Â u+v)-construction [i] based on
  1. digital (3, 18, 104)-net over F₆₄, using
    - net from sequence [i] based on digital (3, 103)-sequence over F₆₄, using
      - Niederreiterâ€“Xing sequence constructionÂ II/III [i] based on function field F/F₆₄ with g(F) = 3 and N(F) ≥ 104, using
        a function field by SÃ©mirat [i]
  2. digital (7, 37, 177)-net over F₆₄, using
    - net from sequence [i] based on digital (7, 176)-sequence over F₆₄, using
      - Niederreiterâ€“Xing sequence constructionÂ II/III [i] based on function field F/F₆₄ with g(F) = 7 and N(F) ≥ 177, using
        a function field by GarcÃa and Quoos [i]

(25, 54, 337)-Net in Base 64 — Constructive

(25, 54, 337)-net in base 64, using

(u,Â u+v)-construction [i] based on
1. digital (1, 15, 80)-net over F₆₄, using
  - net from sequence [i] based on digital (1, 79)-sequence over F₆₄, using
    - Niederreiterâ€“Xing sequence constructionÂ II/III [i] based on function field F/F₆₄ with g(F) = 1 and N(F) ≥ 80, using
      - a function field by SÃ©mirat [i]
2. (10, 39, 257)-net in base 64, using
  - 1 times m-reduction [i] based on (10, 40, 257)-net in base 64, using
    - base change [i] based on digital (0, 30, 257)-net over F₂₅₆, using
      - net from sequence [i] based on digital (0, 256)-sequence over F₂₅₆, using
        generalized Faure sequence [i]
        Niederreiterâ€“Xing sequence constructionÂ II/III [i] based on function field F/F₂₅₆ with g(F) = 0 and N(F) ≥ 257, using
        the rational function field F₂₅₆(x) [i]
        Niederreiter sequence [i]

(25, 54, 587)-Net over F₆₄ — Digital

Digital (25, 54, 587)-net over F₆₄, using

embedding of OOA with Gilbertâ€“VarÅ¡amov bound [i] based on linear OA(64⁵⁴, 587, F₆₄, 29) (dual of [587, 533, 30]-code), using
- constructionÂ X applied to C([18,46]) âŠ‚ C([19,46]) [i] based on
  1. linear OA(64⁵⁴, 585, F₆₄, 29) (dual of [585, 531, 30]-code), using the BCH-code C(I) with length 585Â | 64²âˆ’1, defining interval IÂ =Â {18,19,…,46}, and designed minimum distance dÂ â‰¥Â |I|+1Â =Â 30 [i]
  2. linear OA(64⁵², 585, F₆₄, 28) (dual of [585, 533, 29]-code), using the BCH-code C(I) with length 585Â | 64²âˆ’1, defining interval IÂ =Â {19,20,…,46}, and designed minimum distance dÂ â‰¥Â |I|+1Â =Â 29 [i]
  3. linear OA(64⁰, 2, F₆₄, 0) (dual of [2, 2, 1]-code), using
    - discarding factors / shortening the dual code based on linear OA(64⁰, s, F₆₄, 0) (dual of [s, s, 1]-code) with arbitrarily large s, using
      - OA with only one run / dual of code without redundancy [i]

(25, 54, 660380)-Net in Base 64 — Upper bound on s

There is no (25, 54, 660381)-net in base 64, because

1 times m-reduction [i] would yield (25, 53, 660381)-net in base 64, but
- the generalized Rao bound for nets shows that 64^mÂ â‰¥ 534004 854636 047911 935065 520422 445692 853921 869104 862136 689655 010339 936000 833872 359714 929306 347320 > 64⁵³ [i]