%I #2 Mar 30 2012 17:27:11
%S 1,1,4,1,12,20,1,72,80,120,1,280,1000,600,840,1,1740,9200,9000,5040,
%T 6720,1,8484,79100,138600,88200,47040,60480,1,57232,874720,1789200,
%U 1552320,940800,483840,604800,1,328752,9532880
%N A partition product of Stirling_1 type [parameter k = -4] with biggest-part statistic (triangle read by rows).
%C Partition product of prod_{j=0..n-2}(k-n+j+2) and n! at k = -4,
%C summed over parts with equal biggest part (see the Luschny link).
%C Underlying partition triangle is A144354.
%C Same partition product with length statistic is A049352.
%C Diagonal a(A000217(n)) = rising_factorial(4,n-1), A001715(n+2).
%C Row sum is A049377.
%H Peter Luschny, <a href="http://www.luschny.de/math/seq/CountingWithPartitions.html"> Counting with Partitions</a>.
%H Peter Luschny, <a href="http://www.luschny.de/math/seq/stirling1partitions.html"> Generalized Stirling_1 Triangles</a>.
%F T(n,0) = [n = 0] (Iverson notation) and for n > 0 and 1 <= m <= n
%F T(n,m) = Sum_{a} M(a)|f^a| where a = a_1,..,a_n such that
%F 1*a_1+2*a_2+...+n*a_n = n and max{a_i} = m, M(a) = n!/(a_1!*..*a_n!),
%F f^a = (f_1/1!)^a_1*..*(f_n/n!)^a_n and f_n = product_{j=0..n-2}(j-n-2).
%Y Cf. A157386, A157384, A157383, A157400, A126074, A157391, A157392, A157393, A157394, A157395
%K easy,nonn,tabl
%O 1,3
%A _Peter Luschny_, Mar 07 2009, Mar 14 2009