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A160540
The number of distinct n X n panmagic = pandiagonal = diabolic = Nasik squares, not counting rotations, reflections, or row/column cyclings of others, with the additional property that each i X j rectangle, including each "wrap-around" i X j rectangle, where i and j are positive integers whose product is n, also sums to the magic constant A006003(n) = n(n^2+1)/2.
0
OFFSET
1,4
COMMENTS
A "row/column cycling" of another square is a square that can be formed by moving any number of rows from the top of the other square to the bottom of it and keeping them in the same order, or by moving any number of columns from the left of it to the right of it and keeping them in the same order, or by doing both. Since these squares are panmagic, and so the "wrap-around" diagonals also must sum to the magic constant, row/column cyclings of a square are not essentially different from that square.
EXAMPLE
a(4) = 3 because there are 3 distinct 4 X 4 panmagic squares, not counting rotations, reflections, or row/column cyclings of others, with the additional property that each 2 X 2 square, including each "wrap around" 2 X 2 square such as the one consisting of a11, a12, a41, and a42, and the one consisting of a11, a14, a41, and a44, also sums to A006003(4) = 4(4^2+1)/2 = 34:
1 8 10 15 1 8 11 14 1 8 13 12
12 13 3 6 12 13 2 7 14 11 2 7
7 2 16 9 6 3 16 9 4 5 16 9
14 11 5 4 15 10 5 4 15 10 3 6
The following panmagic square does not count because it can be formed from the third panmagic square given above by moving the first column on the left of it to the right of it and then reflecting it in the y-axis:
1 12 13 8
14 7 2 11
4 9 16 5
15 6 3 10
CROSSREFS
Cf. A027567.
Sequence in context: A176935 A257228 A065803 * A186718 A319625 A307802
KEYWORD
more,nonn,bref
AUTHOR
Anonymous, May 18 2009
STATUS
approved