This is a front-end for the Online Encyclopedia of Integer Sequences, made by Christian Perfect. The idea is to provide OEIS entries in non-ancient HTML, and then to think about how they're presented visually. The source code is on GitHub.
%I A229331 #23 May 28 2018 02:55:50
%S A229331 0,1,514,20199,283370,2256695,12637956,55247745,202345886,644749920,
%T A229331 1846772550,4836548836,11795957334,27022021703,58819382790,
%U A229331 122237638440,244429962966,471615005229,882955864560,1606698758560,2853601781340,4952029001892,8423307325854
%N A229331 Total sum of 9th powers of parts in all partitions of n.
%C A229331 The bivariate g.f. for the partition statistic "sum of 9th powers of the parts" is G(t,x) = 1/Product_{k>=1}(1 - t^{k^9}*x^k). The g.f. g at the Formula section has been obtained by evaluating dG/dt at t=1. - _Emeric Deutsch_, Dec 06 2015
%H A229331 Alois P. Heinz, <a href="/A229331/b229331.txt">Table of n, a(n) for n = 0..1000</a>
%H A229331 Guo-Niu Han, <a href="https://arxiv.org/abs/0804.1849">An explicit expansion formula for the powers of the Euler Product in terms of partition hook lengths</a>, arXiv:0804.1849 [math.CO], 2008.
%F A229331 a(n) = Sum_{k=1..n} A066633(n,k) * k^9.
%F A229331 G.f.: g(x) = (Sum_{k>=1} k^9*x^k/(1-x^k))/Product_{q>=1} (1-x^q). - _Emeric Deutsch_, Dec 06 2015
%F A229331 a(n) ~ 27648*sqrt(3)/11 * exp(Pi*sqrt(2*n/3)) * n^4. - _Vaclav Kotesovec_, May 28 2018
%p A229331 b:= proc(n, i) option remember; `if`(n=0, [1, 0],
%p A229331 `if`(i<1, [0, 0], `if`(i>n, b(n, i-1),
%p A229331 ((g, h)-> g+h+[0, h[1]*i^9])(b(n, i-1), b(n-i, i)))))
%p A229331 end:
%p A229331 a:= n-> b(n, n)[2]:
%p A229331 seq(a(n), n=0..40);
%p A229331 # second Maple program:
%p A229331 g := (sum(k^9*x^k/(1-x^k), k = 1..100))/(product(1-x^k, k = 1..100)): gser := series(g, x = 0, 45): seq(coeff(gser, x, m), m = 1 .. 40); # _Emeric Deutsch_, Dec 06 2015
%t A229331 (* T = A066633 *) T[n_, n_] = 1; T[n_, k_] /; k < n := T[n, k] = T[n - k, k] + PartitionsP[n - k]; T[_, _] = 0; a[n_] := Sum[T[n, k]*k^9, {k, 1, n}]; Array[a, 40, 0] (* _Jean-François Alcover_, Dec 15 2016 *)
%Y A229331 Column k=9 of A213191.
%K A229331 nonn
%O A229331 0,3
%A A229331 _Alois P. Heinz_, Sep 20 2013