By using roots() on symbolic variables, you can get four closed form expressions for the roots. They occur in pairs, A+/-B and P+/-Q where B and Q are sqrt(), so by detecting whether the sqrt() involve imaginary quantities you can eliminate conjugate pairs as you wanted.
The closed form expressions are long, but if you are willing to run some code overnight, you can matlabFunction() writing to a 'File' with 'optimize' turned on. That produces a serquence of simple MATLAB code to calculate the expression.
You indicated that you do not want to use scripts, just Simulink blocks. Each of the statements from the optimized code is simple enough to make it practical to implement as a small number of Math blocks (or similar).
It would be a bit tedious to create these expressions manually, but it it only about 100 of them. And you would get exact solutions without iteration.
t2 = C2.*3.0;
t3 = C3.*2.0;
t4 = C4.*2.0;
t5 = C5.*3.0;
t9 = 1.0./C5;
t13 = sqrt(3.0);
t14 = sqrt(6.0);
t6 = -t3;
t7 = -t4;
t8 = -t5;
t10 = t9.^2;
t11 = t9.^3;
t15 = C2.*t9;
t12 = t10.^2;
t16 = C1+C6+t6;
t17 = C1+C6+t7;
t18 = t15.*1.2e+1;
t19 = t2+t8;
t20 = -t18;
t21 = t17.^2;
t22 = t17.^3;
t24 = t9.*t16;
t25 = t9.*t19;
t26 = (t9.*t17)./4.0;
t32 = t10.*t16.*t17.*3.0;
t35 = (t10.*t16.*t17)./4.0;
t37 = (t10.*t17.*t19)./2.0;
t23 = t21.^2;
t27 = t10.*t21.*(3.0./8.0);
t28 = (t11.*t22)./8.0;
t36 = -t35;
t38 = t11.*t19.*t21.*(3.0./4.0);
t39 = (t11.*t19.*t21)./1.6e+1;
t29 = -t27;
t30 = -t28;
t31 = t12.*t23.*(3.0./2.56e+2);
t33 = t12.*t23.*(9.0./6.4e+1);
t40 = -t39;
t34 = -t33;
t41 = t25+t29;
t47 = t24+t30+t37;
t53 = t15+t31+t36+t40;
t42 = t41.^2;
t43 = t41.^3;
t48 = t47.^2;
t54 = t53.^2;
t55 = t53.^3;
t58 = t41.*t53.*(4.0./3.0);
t59 = t41.*t53.*7.2e+1;
t44 = t42.^2;
t45 = t43.*2.0;
t46 = t43./2.7e+1;
t49 = t48.^2;
t50 = t48.*2.7e+1;
t52 = t48./2.0;
t56 = t55.*2.56e+2;
t57 = t43.*t48.*4.0;
t61 = t42.*t54.*1.28e+2;
t62 = t41.*t48.*t53.*1.44e+2;
t51 = t49.*2.7e+1;
t60 = t44.*t53.*1.6e+1;
t63 = t51+t56+t57+t60+t61+t62;
t64 = sqrt(t63);
t65 = t13.*t64.*3.0;
t66 = (t13.*t64)./1.8e+1;
t67 = t45+t50+t59+t65;
t69 = t46+t52+t58+t66;
t68 = sqrt(t67);
t70 = t69.^(1.0./3.0);
t72 = 1.0./t69.^(1.0./6.0);
t71 = t70.^2;
t74 = t41.*t70.*6.0;
t76 = t14.*t47.*t68.*3.0;
t73 = t71.*9.0;
t75 = -t74;
t77 = -t76;
t78 = t20+t32+t34+t38+t42+t73+t75;
t79 = sqrt(t78);
t80 = 1.0./t78.^(1.0./4.0);
t81 = t42.*t79;
t83 = t53.*t79.*1.2e+1;
t84 = t73.*t79;
t85 = t71.*t79.*-9.0;
t86 = (t72.*t79)./6.0;
t88 = t41.*t70.*t79.*1.2e+1;
t82 = -t81;
t87 = -t86;
t89 = -t88;
t90 = t76+t82+t83+t85+t89;
t91 = t77+t82+t83+t85+t89;
t92 = sqrt(t90);
t93 = sqrt(t91);
t94 = (t72.*t80.*t92)./6.0;
t95 = (t72.*t80.*t93)./6.0;
GG = [t26+t87-t94; t26+t87+t94; t26+t86-t95; t26+t86+t95];
