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 A202129 #12 Jun 13 2017 10:28:26 %S A202129 0,2,4,5,7,9,10,11,12,16,17,20,23,26,28,31,33,35,38,39,40,41,42,46,48, %T A202129 49,52,54,55,59,60,62,63,66,67,72,76,77,82,83,87,89,90,101,103,104, %U A202129 105,108,111,112,114,117,118,119,125,126,129,133,137,138,140 %N A202129 Numbers n such that 90n + 71 is prime. %C A202129 This sequence was generated by adding 12 Fibonacci-like sequences [See: PROG?]. Looking at the format 90n+71 modulo 9 and modulo 10 we see that all entries of A142325 have digital root 8 and last digit 1. (Reverting the process is an application of the Chinese remainder theorem.) The 12 Fibonacci-like sequences are generated (via the p and q "seed" values entered into the Perl program) from the base p,q pairs 71*91, 19*89, 37*53, 73*13, 11*31, 29*49, 47*13, 83*67, 23*7, 41*61, 59*79, 77*43. %t A202129 Select[Range[0, 200], PrimeQ[90 # + 71] &] %o A202129 (PARI) is(n)=isprime(90*n+71) \\ _Charles R Greathouse IV_, Jun 13 2017 %Y A202129 Cf. A181732, A198382, A195993, A196000, A196007, A201739, A201734, A201804, A201816, A201817, A201818, A201820, A201822, A202101, A202104, A202105, A202110, A202112, A202113, A202114, A202115, A202116. %K A202129 nonn,easy %O A202129 1,2 %A A202129 _J. W. Helkenberg_, Dec 11 2011