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 A289439 #26 Apr 24 2020 09:43:24
%S A289439 1,1,2,1,3,2,4,3,5,2,6,3,7,5,8,4,9,4,10,7,11,5,12,5,13,9,14,6,15,6,16,
%T A289439 11,17,10,18,8,19,13,20,8,21,9,22,15,23,10,24,14,25,17,26,11,27,11,28,
%U A289439 19,29,12,30,12,31,21,32,15,33,14,34,23,35
%N A289439 The arithmetic function v_1(n,5).
%D A289439 J. Butterworth, Examining the arithmetic function v_g(n,h). Research Papers in Mathematics, B. Bajnok, ed., Gettysburg College, Vol. 8 (2008).
%H A289439 Bela Bajnok, <a href="https://arxiv.org/abs/1705.07444">Additive Combinatorics: A Menu of Research Problems</a>, arXiv:1705.07444 [math.NT], May 2017. See Table in Section 1.6.1.
%p A289439 a:= n-> n*max(seq((floor((d-2)/5)+1)/d, d=numtheory[divisors](n))):
%p A289439 seq(a(n), n=2..100); # _Alois P. Heinz_, Jul 07 2017
%t A289439 a[n_]:=n*Max[Table[(Floor[(d - 2)/5] + 1)/d, {d, Divisors[n]}]]; Table[a[n], {n, 2, 100}] (* _Indranil Ghosh_, Jul 08 2017 *)
%o A289439 (PARI)
%o A289439 v(g,n,h)={my(t=0);fordiv(n,d,t=max(t,((d-1-gcd(d,g))\h + 1)*(n/d)));t}
%o A289439 a(n)=v(1,n,5); \\ _Andrew Howroyd_, Jul 07 2017
%o A289439 (Python)
%o A289439 from sympy import divisors, floor
%o A289439 def a(n): return int(n*max(int(floor((d - 2)/5) + 1)/d for d in divisors(n)))
%o A289439 print([a(n) for n in range(2, 101)]) # _Indranil Ghosh_, Jul 08 2017
%Y A289439 Cf. A289440, A289441.
%K A289439 nonn
%O A289439 2,3
%A A289439 _N. J. A. Sloane_, Jul 07 2017
%E A289439 a(41)-a(70) from _Andrew Howroyd_, Jul 07 2017