452720 with guide 2^3 * 3^2 * 5 (class 2) may mutate: Assuming that C128 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

136500 with guide 2^5 * 3^2 * 7 (class 2) may mutate: Assuming that C128 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

892584 with guide 2^2 * 7^2 (class 2) may mutate: Assuming that C131 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

546516 with guide 2^5 * 3^2 * 7 (class 2) may mutate: Assuming that C131 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

121584 with guide 2^2 * 7^2 (class 2) may mutate: Assuming that C131 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

779688 with guide 2^2 * 7^2 (class 2) may mutate: Assuming that C131 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

710688 with guide 2^2 * 7^2 (class 2) may mutate: Assuming that C131 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

960402 with guide 2^3 * 3^2 * 5 (class 2) may mutate: Assuming that C131 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

277956 with guide 2^2 * 7^2 (class 2) may mutate: Assuming that C131 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

424584 with guide 2^3 * 3^2 * 5 (class 2) may mutate: Assuming that C131 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

296004 with guide 2^3 * 3^2 * 5 (class 2) may mutate: Assuming that C132 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

189780 with guide 2^3 * 3^2 * 5 (class 2) may mutate: Assuming that C132 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

710538 with guide 2^2 * 7^2 (class 2) may mutate: Assuming that C132 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

716480 with guide 2^2 * 7^2 (class 2) may mutate: Assuming that C132 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

550080 with guide 2^2 * 7^2 (class 2) may mutate: Assuming that C132 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

151710 with guide 2^3 * 3^2 * 5 (class 2) may mutate: Assuming that C133 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

965720 with guide 2^3 * 3^2 * 5 (class 2) may mutate: Assuming that C133 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

29022 with guide 2^3 * 3^4 * 5 (class 2) may mutate: Assuming that C133 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

521796 with guide 2^3 * 3^6 * 5 (class 2) may mutate: Assuming that C133 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

752970 with guide 2^3 * 3^2 * 5 (class 2) may mutate: Assuming that C133 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

695778 with guide 2^3 * 3^4 * 5 (class 2) may mutate: Assuming that C134 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

472128 with guide 2^3 * 3^2 * 5 (class 2) may mutate: Assuming that C134 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

486168 with guide 2^3 * 3^4 * 5 (class 2) may mutate: Assuming that C135 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

482280 with guide 2^3 * 3^4 * 5 (class 2) may mutate: Assuming that C136 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

914184 with guide 2^2 * 7^2 (class 2) may mutate: Assuming that C137 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

999558 with guide 2^2 * 7^2 (class 2) may mutate: Assuming that C137 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

755826 with guide 2^3 * 3^2 * 5 (class 2) may mutate: Assuming that C138 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

85176 with guide 2^2 * 7^2 (class 2) may mutate: Assuming that C138 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

318330 with guide 2^2 * 7^2 (class 2) may mutate: Assuming that C139 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

820422 with guide 2^3 * 3^2 * 5 (class 2) may mutate: Assuming that C141 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

86760 with guide 2^3 * 3^2 * 5 (class 2) may mutate: Assuming that C141 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

116688 with guide 2^3 * 3^2 * 5 (class 2) may mutate: Assuming that C141 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

546642 with guide 2^3 * 3^2 * 5 (class 2) may mutate: Assuming that C141 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

519456 with guide 2^3 * 3^6 * 5 (class 2) may mutate: Assuming that C142 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

676440 with guide 2^2 * 7^2 (class 2) may mutate: Assuming that C142 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

274876 with guide 2^2 * 7^2 (class 2) may mutate: Assuming that C142 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

392610 with guide 2^2 * 7^2 (class 2) may mutate: Assuming that C142 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

772350 with guide 2^3 * 3^2 * 5 (class 2) may mutate: Assuming that C143 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

199152 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C120 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

125034 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C124 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

69828 with guide 2^3 * 3^4 (class 3) may mutate: Assuming that C128 is made of 2 primes, then since it's 7 (mod 8), it's possible that tau(n)=3=1+2 via the following conditions: p1%8==3, p2%8==5.

258450 with guide 2^3 * 3^2 * 5^2 (class 3) may mutate: Assuming that C128 is made of 2 primes, then since it's 3 (mod 8), it's possible that tau(n)=3=1+2 via the following conditions: p1%8==1, p2%8==3.

215748 with guide 2^3 * 3^4 (class 3) may mutate: Assuming that C131 is made of 2 primes, then since it's 7 (mod 8), it's possible that tau(n)=3=1+2 via the following conditions: p1%8==3, p2%8==5.

262980 with guide 2^5 * 3 * 7^2 (class 3) may mutate: Assuming that C131 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

262980 with guide 2^5 * 3 * 7^2 (class 3) may mutate: Assuming that C131 is made of 3 primes, then since it's 1 (mod 4), it's possible that tau(n)=3=1+1+1 via the following conditions: p1%4==1, p2%4==1, p3%4==1.

508980 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C131 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

508980 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C131 is made of 3 primes, then since it's 1 (mod 4), it's possible that tau(n)=3=1+1+1 via the following conditions: p1%4==1, p2%4==1, p3%4==1.

261912 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C131 is made of 2 primes, then since it's 3 (mod 8), it's possible that tau(n)=3=1+2 via the following conditions: p1%8==1, p2%8==3.

362916 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C131 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

362916 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C131 is made of 3 primes, then since it's 1 (mod 4), it's possible that tau(n)=3=1+1+1 via the following conditions: p1%4==1, p2%4==1, p3%4==1.

215604 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C131 is made of 2 primes, then since it's 7 (mod 8), it's possible that tau(n)=3=1+2 via the following conditions: p1%8==3, p2%8==5.

178002 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C131 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

178002 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C131 is made of 3 primes, then since it's 1 (mod 4), it's possible that tau(n)=3=1+1+1 via the following conditions: p1%4==1, p2%4==1, p3%4==1.

481302 with guide 2^3 * 3^2 * 5^2 (class 3) may mutate: Assuming that C131 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

481302 with guide 2^3 * 3^2 * 5^2 (class 3) may mutate: Assuming that C131 is made of 3 primes, then since it's 1 (mod 4), it's possible that tau(n)=3=1+1+1 via the following conditions: p1%4==1, p2%4==1, p3%4==1.

954884 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C131 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

954884 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C131 is made of 3 primes, then since it's 1 (mod 4), it's possible that tau(n)=3=1+1+1 via the following conditions: p1%4==1, p2%4==1, p3%4==1.

299874 with guide 2^3 * 3^4 (class 3) may mutate: Assuming that C131 is made of 2 primes, then since it's 3 (mod 8), it's possible that tau(n)=3=1+2 via the following conditions: p1%8==1, p2%8==3.

366822 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C131 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

366822 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C131 is made of 3 primes, then since it's 1 (mod 4), it's possible that tau(n)=3=1+1+1 via the following conditions: p1%4==1, p2%4==1, p3%4==1.

433596 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C131 is made of 2 primes, then since it's 7 (mod 8), it's possible that tau(n)=3=1+2 via the following conditions: p1%8==3, p2%8==5.

258128 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C131 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

258128 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C131 is made of 3 primes, then since it's 1 (mod 4), it's possible that tau(n)=3=1+1+1 via the following conditions: p1%4==1, p2%4==1, p3%4==1.

926328 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C131 is made of 2 primes, then since it's 3 (mod 8), it's possible that tau(n)=3=1+2 via the following conditions: p1%8==1, p2%8==3.

962160 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C131 is made of 2 primes, then since it's 7 (mod 8), it's possible that tau(n)=3=1+2 via the following conditions: p1%8==3, p2%8==5.

305376 with guide 2^3 * 3^2 * 5^2 (class 3) may mutate: Assuming that C131 is made of 2 primes, then since it's 3 (mod 8), it's possible that tau(n)=3=1+2 via the following conditions: p1%8==1, p2%8==3.

44280 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C131 is made of 2 primes, then since it's 7 (mod 8), it's possible that tau(n)=3=1+2 via the following conditions: p1%8==3, p2%8==5.

78474 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C131 is made of 2 primes, then since it's 7 (mod 8), it's possible that tau(n)=3=1+2 via the following conditions: p1%8==3, p2%8==5.

734112 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C131 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

734112 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C131 is made of 3 primes, then since it's 1 (mod 4), it's possible that tau(n)=3=1+1+1 via the following conditions: p1%4==1, p2%4==1, p3%4==1.

570186 with guide 2^3 * 3^2 * 5^2 (class 3) may mutate: Assuming that C131 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

570186 with guide 2^3 * 3^2 * 5^2 (class 3) may mutate: Assuming that C131 is made of 3 primes, then since it's 1 (mod 4), it's possible that tau(n)=3=1+1+1 via the following conditions: p1%4==1, p2%4==1, p3%4==1.

391698 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C131 is made of 2 primes, then since it's 7 (mod 8), it's possible that tau(n)=3=1+2 via the following conditions: p1%8==3, p2%8==5.

228042 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C131 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

228042 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C131 is made of 3 primes, then since it's 1 (mod 4), it's possible that tau(n)=3=1+1+1 via the following conditions: p1%4==1, p2%4==1, p3%4==1.

860328 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C131 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

931260 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C131 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

931260 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C131 is made of 3 primes, then since it's 1 (mod 4), it's possible that tau(n)=3=1+1+1 via the following conditions: p1%4==1, p2%4==1, p3%4==1.

983424 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C132 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

983424 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C132 is made of 3 primes, then since it's 1 (mod 4), it's possible that tau(n)=3=1+1+1 via the following conditions: p1%4==1, p2%4==1, p3%4==1.

934668 with guide 2^3 * 3^2 * 5^2 (class 3) may mutate: Assuming that C132 is made of 2 primes, then since it's 7 (mod 8), it's possible that tau(n)=3=1+2 via the following conditions: p1%8==3, p2%8==5.

265776 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C132 is made of 2 primes, then since it's 7 (mod 8), it's possible that tau(n)=3=1+2 via the following conditions: p1%8==3, p2%8==5.

167760 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C132 is made of 2 primes, then since it's 3 (mod 8), it's possible that tau(n)=3=1+2 via the following conditions: p1%8==1, p2%8==3.

397194 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C132 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

397194 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C132 is made of 3 primes, then since it's 1 (mod 4), it's possible that tau(n)=3=1+1+1 via the following conditions: p1%4==1, p2%4==1, p3%4==1.

792820 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C132 is made of 2 primes, then since it's 7 (mod 8), it's possible that tau(n)=3=1+2 via the following conditions: p1%8==3, p2%8==5.

739032 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C132 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

739032 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C132 is made of 3 primes, then since it's 1 (mod 4), it's possible that tau(n)=3=1+1+1 via the following conditions: p1%4==1, p2%4==1, p3%4==1.

821424 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C132 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

821424 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C132 is made of 3 primes, then since it's 1 (mod 4), it's possible that tau(n)=3=1+1+1 via the following conditions: p1%4==1, p2%4==1, p3%4==1.

846528 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C132 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

846528 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C132 is made of 3 primes, then since it's 1 (mod 4), it's possible that tau(n)=3=1+1+1 via the following conditions: p1%4==1, p2%4==1, p3%4==1.

902724 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C132 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

902724 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C132 is made of 3 primes, then since it's 1 (mod 4), it's possible that tau(n)=3=1+1+1 via the following conditions: p1%4==1, p2%4==1, p3%4==1.

455004 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C132 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

688380 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C132 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

95448 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C132 is made of 2 primes, then since it's 3 (mod 8), it's possible that tau(n)=3=1+2 via the following conditions: p1%8==1, p2%8==3.

833000 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C132 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

722142 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C133 is made of 2 primes, then since it's 3 (mod 8), it's possible that tau(n)=3=1+2 via the following conditions: p1%8==1, p2%8==3.

233634 with guide 2^3 * 3^4 (class 3) may mutate: Assuming that C133 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

233634 with guide 2^3 * 3^4 (class 3) may mutate: Assuming that C133 is made of 3 primes, then since it's 1 (mod 4), it's possible that tau(n)=3=1+1+1 via the following conditions: p1%4==1, p2%4==1, p3%4==1.

790776 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C133 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

790776 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C133 is made of 3 primes, then since it's 1 (mod 4), it's possible that tau(n)=3=1+1+1 via the following conditions: p1%4==1, p2%4==1, p3%4==1.

758010 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C133 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

481068 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C133 is made of 2 primes, then since it's 3 (mod 8), it's possible that tau(n)=3=1+2 via the following conditions: p1%8==1, p2%8==3.

23580 with guide 2^3 * 3^2 * 5^2 (class 3) may mutate: Assuming that C133 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

23580 with guide 2^3 * 3^2 * 5^2 (class 3) may mutate: Assuming that C133 is made of 3 primes, then since it's 1 (mod 4), it's possible that tau(n)=3=1+1+1 via the following conditions: p1%4==1, p2%4==1, p3%4==1.

412200 with guide 2^3 * 3^2 * 5^2 (class 3) may mutate: Assuming that C133 is made of 2 primes, then since it's 7 (mod 8), it's possible that tau(n)=3=1+2 via the following conditions: p1%8==3, p2%8==5.

339720 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C133 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

339720 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C133 is made of 3 primes, then since it's 1 (mod 4), it's possible that tau(n)=3=1+1+1 via the following conditions: p1%4==1, p2%4==1, p3%4==1.

15390 with guide 2^3 * 3^2 * 5^2 (class 3) may mutate: Assuming that C133 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

15390 with guide 2^3 * 3^2 * 5^2 (class 3) may mutate: Assuming that C133 is made of 3 primes, then since it's 1 (mod 4), it's possible that tau(n)=3=1+1+1 via the following conditions: p1%4==1, p2%4==1, p3%4==1.

489408 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C134 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

489408 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C134 is made of 3 primes, then since it's 1 (mod 4), it's possible that tau(n)=3=1+1+1 via the following conditions: p1%4==1, p2%4==1, p3%4==1.

383760 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C134 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

383760 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C134 is made of 3 primes, then since it's 1 (mod 4), it's possible that tau(n)=3=1+1+1 via the following conditions: p1%4==1, p2%4==1, p3%4==1.

293826 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C134 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

293826 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C134 is made of 3 primes, then since it's 1 (mod 4), it's possible that tau(n)=3=1+1+1 via the following conditions: p1%4==1, p2%4==1, p3%4==1.

875502 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C134 is made of 2 primes, then since it's 3 (mod 8), it's possible that tau(n)=3=1+2 via the following conditions: p1%8==1, p2%8==3.

747768 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C134 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

747768 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C134 is made of 3 primes, then since it's 1 (mod 4), it's possible that tau(n)=3=1+1+1 via the following conditions: p1%4==1, p2%4==1, p3%4==1.

181830 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C135 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

117348 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C135 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

117348 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C135 is made of 3 primes, then since it's 1 (mod 4), it's possible that tau(n)=3=1+1+1 via the following conditions: p1%4==1, p2%4==1, p3%4==1.

862176 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C135 is made of 2 primes, then since it's 7 (mod 8), it's possible that tau(n)=3=1+2 via the following conditions: p1%8==3, p2%8==5.

14706 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C135 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

14706 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C135 is made of 3 primes, then since it's 1 (mod 4), it's possible that tau(n)=3=1+1+1 via the following conditions: p1%4==1, p2%4==1, p3%4==1.

584496 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C135 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

584496 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C135 is made of 3 primes, then since it's 1 (mod 4), it's possible that tau(n)=3=1+1+1 via the following conditions: p1%4==1, p2%4==1, p3%4==1.

208722 with guide 2^3 * 3^2 * 5^2 (class 3) may mutate: Assuming that C135 is made of 2 primes, then since it's 3 (mod 8), it's possible that tau(n)=3=1+2 via the following conditions: p1%8==1, p2%8==3.

146964 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C135 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

106080 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C135 is made of 2 primes, then since it's 3 (mod 8), it's possible that tau(n)=3=1+2 via the following conditions: p1%8==1, p2%8==3.

107310 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C136 is made of 2 primes, then since it's 3 (mod 8), it's possible that tau(n)=3=1+2 via the following conditions: p1%8==1, p2%8==3.

333072 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C136 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

41784 with guide 2^5 * 3 * 7^2 (class 3) may mutate: Assuming that C136 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

41784 with guide 2^5 * 3 * 7^2 (class 3) may mutate: Assuming that C136 is made of 3 primes, then since it's 1 (mod 4), it's possible that tau(n)=3=1+1+1 via the following conditions: p1%4==1, p2%4==1, p3%4==1.

945616 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C136 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

945616 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C136 is made of 3 primes, then since it's 1 (mod 4), it's possible that tau(n)=3=1+1+1 via the following conditions: p1%4==1, p2%4==1, p3%4==1.

697200 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C137 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

697200 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C137 is made of 3 primes, then since it's 1 (mod 4), it's possible that tau(n)=3=1+1+1 via the following conditions: p1%4==1, p2%4==1, p3%4==1.

536130 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C137 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

569808 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C138 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

569808 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C138 is made of 3 primes, then since it's 1 (mod 4), it's possible that tau(n)=3=1+1+1 via the following conditions: p1%4==1, p2%4==1, p3%4==1.

692040 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C139 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

692040 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C139 is made of 3 primes, then since it's 1 (mod 4), it's possible that tau(n)=3=1+1+1 via the following conditions: p1%4==1, p2%4==1, p3%4==1.

33780 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C141 is made of 2 primes, then since it's 3 (mod 8), it's possible that tau(n)=3=1+2 via the following conditions: p1%8==1, p2%8==3.

590016 with guide 2^5 * 3 * 7^2 (class 3) may mutate: Assuming that C141 is made of 2 primes, then since it's 3 (mod 8), it's possible that tau(n)=3=1+2 via the following conditions: p1%8==1, p2%8==3.

693120 with guide 2^5 * 3 * 7^2 (class 3) may mutate: Assuming that C141 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

956952 with guide 2^3 * 3^2 * 5^2 (class 3) may mutate: Assuming that C141 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

606912 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C142 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

606912 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C142 is made of 3 primes, then since it's 1 (mod 4), it's possible that tau(n)=3=1+1+1 via the following conditions: p1%4==1, p2%4==1, p3%4==1.

196086 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C142 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

966180 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C144 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

966180 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C144 is made of 3 primes, then since it's 1 (mod 4), it's possible that tau(n)=3=1+1+1 via the following conditions: p1%4==1, p2%4==1, p3%4==1.

980820 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C145 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

980820 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C145 is made of 3 primes, then since it's 1 (mod 4), it's possible that tau(n)=3=1+1+1 via the following conditions: p1%4==1, p2%4==1, p3%4==1.

398592 with guide 2^5 * 3 * 7^2 (class 3) may mutate: Assuming that C145 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

398592 with guide 2^5 * 3 * 7^2 (class 3) may mutate: Assuming that C145 is made of 3 primes, then since it's 1 (mod 4), it's possible that tau(n)=3=1+1+1 via the following conditions: p1%4==1, p2%4==1, p3%4==1.

755250 with guide 2^3 * 3^2 (class 3) may mutate: Assuming that C148 is made of 2 primes, then since it's 3 (mod 8), it's possible that tau(n)=3=1+2 via the following conditions: p1%8==1, p2%8==3.

94104 with guide 2^4 * 31^2 (class 4) may mutate: Assuming that C131 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

490020 with guide 2^4 * 31^2 (class 4) may mutate: Assuming that C131 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

380682 with guide 2^4 * 31^2 (class 4) may mutate: Assuming that C135 is made of 2 primes, then since it's 7 (mod 8), it's possible that tau(n)=3=1+2 via the following conditions: p1%8==3, p2%8==5.

434700 with guide 2^4 * 31^2 (class 4) may mutate: Assuming that C142 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

61290 with guide 2^5 * 3^2 * 7^2 (class 5) may mutate: Assuming that C131 is made of 2 primes, then since it's 1 (mod 4), it's possible that tau(n)=2=1+1 via the following conditions: p1%4==1, p2%4==1.

61290 with guide 2^5 * 3^2 * 7^2 (class 5) may mutate: Assuming that C131 is made of 2 primes, then since it's 1 (mod 8), it's possible that tau(n)=4=2+2 via the following conditions: p1%8==3, p2%8==3.

61290 with guide 2^5 * 3^2 * 7^2 (class 5) may mutate: Assuming that C131 is made of 3 primes, then since it's 1 (mod 4), it's possible that tau(n)=3=1+1+1 via the following conditions: p1%4==1, p2%4==1, p3%4==1.

61290 with guide 2^5 * 3^2 * 7^2 (class 5) may mutate: Assuming that C131 is made of 4 primes, then since it's 1 (mod 4), it's possible that tau(n)=4=1+1+1+1 via the following conditions: p1%4==1, p2%4==1, p3%4==1, p4%4==1.

141408 with guide 2^5 * 3^2 * 7^2 (class 5) may mutate: Assuming that C132 is made of 2 primes, then since it's 3 (mod 8), it's possible that tau(n)=3=1+2 via the following conditions: p1%8==1, p2%8==3.

141408 with guide 2^5 * 3^2 * 7^2 (class 5) may mutate: Assuming that C132 is made of 2 primes, then since it's 3 (mod 16), it's possible that tau(n)=4=1+3 via the following conditions: p1%16==5, p2%16==7.

141408 with guide 2^5 * 3^2 * 7^2 (class 5) may mutate: Assuming that C132 is made of 2 primes, then since it's 3 (mod 32), it's possible that tau(n)=5=1+4 via the following conditions: p1%32==13, p2%32==15.

141408 with guide 2^5 * 3^2 * 7^2 (class 5) may mutate: Assuming that C132 is made of 3 primes, then since it's 3 (mod 8), it's possible that tau(n)=4=1+1+2 via the following conditions: p1%8==1, p2%8==1, p3%8==3; p1%8==3, p2%8==5, p3%8==5.

141408 with guide 2^5 * 3^2 * 7^2 (class 5) may mutate: Assuming that C132 is made of 3 primes, then since it's 3 (mod 16), it's possible that tau(n)=5=1+1+3 via the following conditions: p1%16==1, p2%16==5, p3%16==7; p1%16==7, p2%16==9, p3%16==13.

141408 with guide 2^5 * 3^2 * 7^2 (class 5) may mutate: Assuming that C132 is made of 4 primes, then since it's 3 (mod 8), it's possible that tau(n)=5=1+1+1+2 via the following conditions: p1%8==1, p2%8==3, p3%8==5, p4%8==5; p1%8==1, p2%8==1, p3%8==1, p4%8==3.