c0 \cdot \sqrt{\frac{A}{V \cdot \ell}}\left(\left|\frac{\frac{\sqrt[3]{A}}{1 \cdot \sqrt[3]{V}}}{\sqrt[3]{\ell}}\right| \cdot c0\right) \cdot \sqrt{\frac{\frac{\sqrt[3]{A}}{\sqrt[3]{V}}}{\sqrt[3]{\ell}}}double f(double c0, double A, double V, double l) {
double r177020 = c0;
double r177021 = A;
double r177022 = V;
double r177023 = l;
double r177024 = r177022 * r177023;
double r177025 = r177021 / r177024;
double r177026 = sqrt(r177025);
double r177027 = r177020 * r177026;
return r177027;
}
double f(double c0, double A, double V, double l) {
double r177028 = A;
double r177029 = cbrt(r177028);
double r177030 = 1.0;
double r177031 = V;
double r177032 = cbrt(r177031);
double r177033 = r177030 * r177032;
double r177034 = r177029 / r177033;
double r177035 = l;
double r177036 = cbrt(r177035);
double r177037 = r177034 / r177036;
double r177038 = fabs(r177037);
double r177039 = c0;
double r177040 = r177038 * r177039;
double r177041 = r177029 / r177032;
double r177042 = r177041 / r177036;
double r177043 = sqrt(r177042);
double r177044 = r177040 * r177043;
return r177044;
}



Bits error versus c0



Bits error versus A



Bits error versus V



Bits error versus l
Results
Initial program 18.9
rmApplied associate-/r*18.8
rmApplied add-cube-cbrt19.2
Applied add-cube-cbrt19.3
Applied add-cube-cbrt19.4
Applied times-frac19.4
Applied times-frac15.2
Applied sqrt-prod7.1
Applied associate-*r*7.1
Simplified1.1
rmApplied *-un-lft-identity1.1
Final simplification1.1
herbie shell --seed 2020056
(FPCore (c0 A V l)
:name "Henrywood and Agarwal, Equation (3)"
:precision binary64
(* c0 (sqrt (/ A (* V l)))))