math.cube on complex, imaginary part

Average Error: 7.0 → 0.2

Time: 35.1s

Precision: 64

Math

\[\left(x.re \cdot x.re - x.im \cdot x.im\right) \cdot x.im + \left(x.re \cdot x.im + x.im \cdot x.re\right) \cdot x.re\]

↓

\[\mathsf{fma}\left(x.im + x.re, \left(x.re - x.im\right) \cdot x.im, \left(x.re \cdot x.im + x.re \cdot x.im\right) \cdot x.re\right)\]

C

double f(double x_re, double x_im) {
        double r9872762 = x_re;
        double r9872763 = r9872762 * r9872762;
        double r9872764 = x_im;
        double r9872765 = r9872764 * r9872764;
        double r9872766 = r9872763 - r9872765;
        double r9872767 = r9872766 * r9872764;
        double r9872768 = r9872762 * r9872764;
        double r9872769 = r9872764 * r9872762;
        double r9872770 = r9872768 + r9872769;
        double r9872771 = r9872770 * r9872762;
        double r9872772 = r9872767 + r9872771;
        return r9872772;
}

↓

double f(double x_re, double x_im) {
        double r9872773 = x_im;
        double r9872774 = x_re;
        double r9872775 = r9872773 + r9872774;
        double r9872776 = r9872774 - r9872773;
        double r9872777 = r9872776 * r9872773;
        double r9872778 = r9872774 * r9872773;
        double r9872779 = r9872778 + r9872778;
        double r9872780 = r9872779 * r9872774;
        double r9872781 = fma(r9872775, r9872777, r9872780);
        return r9872781;
}

Error

Bits error versus x.re

Bits error versus x.im

Target

Original	7.0
Target	0.2
Herbie	0.2

\[\left(x.re \cdot x.im\right) \cdot \left(2 \cdot x.re\right) + \left(x.im \cdot \left(x.re - x.im\right)\right) \cdot \left(x.re + x.im\right)\]

Derivation

1. Initial program 7.0

   \[\left(x.re \cdot x.re - x.im \cdot x.im\right) \cdot x.im + \left(x.re \cdot x.im + x.im \cdot x.re\right) \cdot x.re\]
2. Using strategy rm

3. Applied difference-of-squares 7.0

   \[\leadsto \color{blue}{\left(\left(x.re + x.im\right) \cdot \left(x.re - x.im\right)\right)} \cdot x.im + \left(x.re \cdot x.im + x.im \cdot x.re\right) \cdot x.re\]

4. Applied associate-*l* 0.2

   \[\leadsto \color{blue}{\left(x.re + x.im\right) \cdot \left(\left(x.re - x.im\right) \cdot x.im\right)} + \left(x.re \cdot x.im + x.im \cdot x.re\right) \cdot x.re\]
5. Using strategy rm

6. Applied fma-def 0.2

   \[\leadsto \color{blue}{\mathsf{fma}\left(x.re + x.im, \left(x.re - x.im\right) \cdot x.im, \left(x.re \cdot x.im + x.im \cdot x.re\right) \cdot x.re\right)}\]

7. Final simplification 0.2

   \[\leadsto \mathsf{fma}\left(x.im + x.re, \left(x.re - x.im\right) \cdot x.im, \left(x.re \cdot x.im + x.re \cdot x.im\right) \cdot x.re\right)\]

Reproduce

herbie shell --seed 2019142 +o rules:numerics
(FPCore (x.re x.im)
  :name "math.cube on complex, imaginary part"

  :herbie-target
  (+ (* (* x.re x.im) (* 2 x.re)) (* (* x.im (- x.re x.im)) (+ x.re x.im)))

  (+ (* (- (* x.re x.re) (* x.im x.im)) x.im) (* (+ (* x.re x.im) (* x.im x.re)) x.re)))