fma_test2

Average Error: 64.0 → 0

Time: 3.3s

Precision: 64

\[1.8999999999999999 \le t \le 2.10000000000000009\]

Math

\[1.6999999999999999 \cdot 10^{308} \cdot t - 1.6999999999999999 \cdot 10^{308}\]

↓

\[\mathsf{fma}\left(1.6999999999999999 \cdot 10^{308}, t, -1.6999999999999999 \cdot 10^{308}\right)\]

C

double f(double t) {
        double r33415 = 1.7e+308;
        double r33416 = t;
        double r33417 = r33415 * r33416;
        double r33418 = r33417 - r33415;
        return r33418;
}

↓

double f(double t) {
        double r33419 = 1.7e+308;
        double r33420 = t;
        double r33421 = -r33419;
        double r33422 = fma(r33419, r33420, r33421);
        return r33422;
}

Error

Bits error versus t

Target

Original	64.0
Target	0
Herbie	0

\[\mathsf{fma}\left(1.6999999999999999 \cdot 10^{308}, t, -1.6999999999999999 \cdot 10^{308}\right)\]

Derivation

1. Initial program 64.0

   \[1.6999999999999999 \cdot 10^{308} \cdot t - 1.6999999999999999 \cdot 10^{308}\]
2. Using strategy rm

3. Applied fma-neg 0

   \[\leadsto \color{blue}{\mathsf{fma}\left(1.6999999999999999 \cdot 10^{308}, t, -1.6999999999999999 \cdot 10^{308}\right)}\]

4. Final simplification 0

   \[\leadsto \mathsf{fma}\left(1.6999999999999999 \cdot 10^{308}, t, -1.6999999999999999 \cdot 10^{308}\right)\]

Reproduce

herbie shell --seed 2019195 +o rules:numerics
(FPCore (t)
  :name "fma_test2"
  :pre (<= 1.9 t 2.1)

  :herbie-target
  (fma 1.7e+308 t (- 1.7e+308))

  (- (* 1.7e+308 t) 1.7e+308))