Beckmann Distribution sample, tan2theta, alphax == alphay

Percentage Accurate: 55.8% → 99.0%
Time: 11.0s
Alternatives: 15
Speedup: 21.6×

Specification

?
\[\left(0.0001 \leq \alpha \land \alpha \leq 1\right) \land \left(2.328306437 \cdot 10^{-10} \leq u0 \land u0 \leq 1\right)\]
\[\begin{array}{l} \\ \left(\left(-\alpha\right) \cdot \alpha\right) \cdot \log \left(1 - u0\right) \end{array} \]
(FPCore (alpha u0)
 :precision binary32
 (* (* (- alpha) alpha) (log (- 1.0 u0))))
float code(float alpha, float u0) {
	return (-alpha * alpha) * logf((1.0f - u0));
}

real(4) function code(alpha, u0)
    real(4), intent (in) :: alpha
    real(4), intent (in) :: u0
    code = (-alpha * alpha) * log((1.0e0 - u0))
end function

function code(alpha, u0)
	return Float32(Float32(Float32(-alpha) * alpha) * log(Float32(Float32(1.0) - u0)))
end

function tmp = code(alpha, u0)
	tmp = (-alpha * alpha) * log((single(1.0) - u0));
end

\begin{array}{l}

\\
\left(\left(-\alpha\right) \cdot \alpha\right) \cdot \log \left(1 - u0\right)
\end{array}

Sampling outcomes in binary32 precision:

Local Percentage Accuracy vs ?

The average percentage accuracy by input value. Horizontal axis shows value of an input variable; the variable is choosen in the title. Vertical axis is accuracy; higher is better. Red represent the original program, while blue represents Herbie's suggestion. These can be toggled with buttons below the plot. The line is an average while dots represent individual samples.

Accuracy vs Speed?

Herbie found 15 alternatives:

AlternativeAccuracySpeedup
The accuracy (vertical axis) and speed (horizontal axis) of each alternatives. Up and to the right is better. The red square shows the initial program, and each blue circle shows an alternative.The line shows the best available speed-accuracy tradeoffs.

Initial Program: 55.8% accurate, 1.0× speedup?

\[\begin{array}{l} \\ \left(\left(-\alpha\right) \cdot \alpha\right) \cdot \log \left(1 - u0\right) \end{array} \]
(FPCore (alpha u0)
 :precision binary32
 (* (* (- alpha) alpha) (log (- 1.0 u0))))
float code(float alpha, float u0) {
	return (-alpha * alpha) * logf((1.0f - u0));
}

real(4) function code(alpha, u0)
    real(4), intent (in) :: alpha
    real(4), intent (in) :: u0
    code = (-alpha * alpha) * log((1.0e0 - u0))
end function

function code(alpha, u0)
	return Float32(Float32(Float32(-alpha) * alpha) * log(Float32(Float32(1.0) - u0)))
end

function tmp = code(alpha, u0)
	tmp = (-alpha * alpha) * log((single(1.0) - u0));
end

\begin{array}{l}

\\
\left(\left(-\alpha\right) \cdot \alpha\right) \cdot \log \left(1 - u0\right)
\end{array}

Alternative 1: 99.0% accurate, 1.0× speedup?

\[\begin{array}{l} \\ \alpha \cdot \left(\mathsf{log1p}\left(-u0\right) \cdot \left(-\alpha\right)\right) \end{array} \]
(FPCore (alpha u0) :precision binary32 (* alpha (* (log1p (- u0)) (- alpha))))
float code(float alpha, float u0) {
	return alpha * (log1pf(-u0) * -alpha);
}

function code(alpha, u0)
	return Float32(alpha * Float32(log1p(Float32(-u0)) * Float32(-alpha)))
end

\begin{array}{l}

\\
\alpha \cdot \left(\mathsf{log1p}\left(-u0\right) \cdot \left(-\alpha\right)\right)
\end{array}
Derivation

  1. Initial program 53.4%

    \[\left(\left(-\alpha\right) \cdot \alpha\right) \cdot \log \left(1 - u0\right) \]
  2. Step-by-step derivation

    1. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\left(\left(\mathsf{neg}\left(\alpha\right)\right) \cdot \alpha\right), \color{blue}{\log \left(1 - u0\right)}\right) \]

    2. *-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(\left(\alpha \cdot \left(\mathsf{neg}\left(\alpha\right)\right)\right), \log \color{blue}{\left(1 - u0\right)}\right) \]

    3. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \left(\mathsf{neg}\left(\alpha\right)\right)\right), \log \color{blue}{\left(1 - u0\right)}\right) \]

    4. neg-lowering-neg.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{neg.f32}\left(\alpha\right)\right), \log \left(1 - \color{blue}{u0}\right)\right) \]

    5. sub-negN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{neg.f32}\left(\alpha\right)\right), \log \left(1 + \left(\mathsf{neg}\left(u0\right)\right)\right)\right) \]

    6. log1p-defineN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{neg.f32}\left(\alpha\right)\right), \left(\mathsf{log1p}\left(\mathsf{neg}\left(u0\right)\right)\right)\right) \]

    7. log1p-lowering-log1p.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{neg.f32}\left(\alpha\right)\right), \mathsf{log1p.f32}\left(\left(\mathsf{neg}\left(u0\right)\right)\right)\right) \]

    8. neg-lowering-neg.f3299.0%

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{neg.f32}\left(\alpha\right)\right), \mathsf{log1p.f32}\left(\mathsf{neg.f32}\left(u0\right)\right)\right) \]

  3. Simplified99.0%

    \[\leadsto \color{blue}{\left(\alpha \cdot \left(-\alpha\right)\right) \cdot \mathsf{log1p}\left(-u0\right)} \]
  4. Add Preprocessing
  5. Step-by-step derivation

    1. *-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(\left(\left(\mathsf{neg}\left(\alpha\right)\right) \cdot \alpha\right), \mathsf{log1p.f32}\left(\color{blue}{\mathsf{neg.f32}\left(u0\right)}\right)\right) \]

    2. neg-sub0N/A

      \[\leadsto \mathsf{*.f32}\left(\left(\left(0 - \alpha\right) \cdot \alpha\right), \mathsf{log1p.f32}\left(\mathsf{neg.f32}\left(\color{blue}{u0}\right)\right)\right) \]

    3. flip--N/A

      \[\leadsto \mathsf{*.f32}\left(\left(\frac{0 \cdot 0 - \alpha \cdot \alpha}{0 + \alpha} \cdot \alpha\right), \mathsf{log1p.f32}\left(\mathsf{neg.f32}\left(\color{blue}{u0}\right)\right)\right) \]

    4. metadata-evalN/A

      \[\leadsto \mathsf{*.f32}\left(\left(\frac{0 - \alpha \cdot \alpha}{0 + \alpha} \cdot \alpha\right), \mathsf{log1p.f32}\left(\mathsf{neg.f32}\left(u0\right)\right)\right) \]

    5. neg-sub0N/A

      \[\leadsto \mathsf{*.f32}\left(\left(\frac{\mathsf{neg}\left(\alpha \cdot \alpha\right)}{0 + \alpha} \cdot \alpha\right), \mathsf{log1p.f32}\left(\mathsf{neg.f32}\left(u0\right)\right)\right) \]

    6. distribute-rgt-neg-outN/A

      \[\leadsto \mathsf{*.f32}\left(\left(\frac{\alpha \cdot \left(\mathsf{neg}\left(\alpha\right)\right)}{0 + \alpha} \cdot \alpha\right), \mathsf{log1p.f32}\left(\mathsf{neg.f32}\left(u0\right)\right)\right) \]

    7. +-lft-identityN/A

      \[\leadsto \mathsf{*.f32}\left(\left(\frac{\alpha \cdot \left(\mathsf{neg}\left(\alpha\right)\right)}{\alpha} \cdot \alpha\right), \mathsf{log1p.f32}\left(\mathsf{neg.f32}\left(u0\right)\right)\right) \]

    8. associate-*l/N/A

      \[\leadsto \mathsf{*.f32}\left(\left(\frac{\left(\alpha \cdot \left(\mathsf{neg}\left(\alpha\right)\right)\right) \cdot \alpha}{\alpha}\right), \mathsf{log1p.f32}\left(\color{blue}{\mathsf{neg.f32}\left(u0\right)}\right)\right) \]

    9. /-lowering-/.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{/.f32}\left(\left(\left(\alpha \cdot \left(\mathsf{neg}\left(\alpha\right)\right)\right) \cdot \alpha\right), \alpha\right), \mathsf{log1p.f32}\left(\color{blue}{\mathsf{neg.f32}\left(u0\right)}\right)\right) \]

    10. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{/.f32}\left(\mathsf{*.f32}\left(\left(\alpha \cdot \left(\mathsf{neg}\left(\alpha\right)\right)\right), \alpha\right), \alpha\right), \mathsf{log1p.f32}\left(\mathsf{neg.f32}\left(\color{blue}{u0}\right)\right)\right) \]

    11. distribute-rgt-neg-outN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{/.f32}\left(\mathsf{*.f32}\left(\left(\mathsf{neg}\left(\alpha \cdot \alpha\right)\right), \alpha\right), \alpha\right), \mathsf{log1p.f32}\left(\mathsf{neg.f32}\left(u0\right)\right)\right) \]

    12. neg-lowering-neg.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{/.f32}\left(\mathsf{*.f32}\left(\mathsf{neg.f32}\left(\left(\alpha \cdot \alpha\right)\right), \alpha\right), \alpha\right), \mathsf{log1p.f32}\left(\mathsf{neg.f32}\left(u0\right)\right)\right) \]

    13. *-lowering-*.f3298.9%

      \[\leadsto \mathsf{*.f32}\left(\mathsf{/.f32}\left(\mathsf{*.f32}\left(\mathsf{neg.f32}\left(\mathsf{*.f32}\left(\alpha, \alpha\right)\right), \alpha\right), \alpha\right), \mathsf{log1p.f32}\left(\mathsf{neg.f32}\left(u0\right)\right)\right) \]

  6. Applied egg-rr98.9%

    \[\leadsto \color{blue}{\frac{\left(-\alpha \cdot \alpha\right) \cdot \alpha}{\alpha}} \cdot \mathsf{log1p}\left(-u0\right) \]
  7. Step-by-step derivation

    1. clear-numN/A

      \[\leadsto \frac{1}{\frac{\alpha}{\left(\mathsf{neg}\left(\alpha \cdot \alpha\right)\right) \cdot \alpha}} \cdot \log \color{blue}{\left(1 + \left(\mathsf{neg}\left(u0\right)\right)\right)} \]

    2. *-inversesN/A

      \[\leadsto \frac{\frac{\alpha}{\alpha}}{\frac{\alpha}{\left(\mathsf{neg}\left(\alpha \cdot \alpha\right)\right) \cdot \alpha}} \cdot \log \left(\color{blue}{1} + \left(\mathsf{neg}\left(u0\right)\right)\right) \]

    3. distribute-lft-neg-outN/A

      \[\leadsto \frac{\frac{\alpha}{\alpha}}{\frac{\alpha}{\mathsf{neg}\left(\left(\alpha \cdot \alpha\right) \cdot \alpha\right)}} \cdot \log \left(1 + \left(\mathsf{neg}\left(u0\right)\right)\right) \]

    4. associate-*r*N/A

      \[\leadsto \frac{\frac{\alpha}{\alpha}}{\frac{\alpha}{\mathsf{neg}\left(\alpha \cdot \left(\alpha \cdot \alpha\right)\right)}} \cdot \log \left(1 + \left(\mathsf{neg}\left(u0\right)\right)\right) \]

    5. sub0-negN/A

      \[\leadsto \frac{\frac{\alpha}{\alpha}}{\frac{\alpha}{0 - \alpha \cdot \left(\alpha \cdot \alpha\right)}} \cdot \log \left(1 + \left(\mathsf{neg}\left(u0\right)\right)\right) \]

    6. associate-/r*N/A

      \[\leadsto \frac{\alpha}{\alpha \cdot \frac{\alpha}{0 - \alpha \cdot \left(\alpha \cdot \alpha\right)}} \cdot \log \color{blue}{\left(1 + \left(\mathsf{neg}\left(u0\right)\right)\right)} \]

    7. associate-/l*N/A

      \[\leadsto \frac{\alpha}{\frac{\alpha \cdot \alpha}{0 - \alpha \cdot \left(\alpha \cdot \alpha\right)}} \cdot \log \left(1 + \color{blue}{\left(\mathsf{neg}\left(u0\right)\right)}\right) \]

    8. un-div-invN/A

      \[\leadsto \left(\alpha \cdot \frac{1}{\frac{\alpha \cdot \alpha}{0 - \alpha \cdot \left(\alpha \cdot \alpha\right)}}\right) \cdot \log \color{blue}{\left(1 + \left(\mathsf{neg}\left(u0\right)\right)\right)} \]

    9. associate-*l*N/A

      \[\leadsto \alpha \cdot \color{blue}{\left(\frac{1}{\frac{\alpha \cdot \alpha}{0 - \alpha \cdot \left(\alpha \cdot \alpha\right)}} \cdot \log \left(1 + \left(\mathsf{neg}\left(u0\right)\right)\right)\right)} \]

    10. *-commutativeN/A

      \[\leadsto \left(\frac{1}{\frac{\alpha \cdot \alpha}{0 - \alpha \cdot \left(\alpha \cdot \alpha\right)}} \cdot \log \left(1 + \left(\mathsf{neg}\left(u0\right)\right)\right)\right) \cdot \color{blue}{\alpha} \]

    11. clear-numN/A

      \[\leadsto \left(\frac{0 - \alpha \cdot \left(\alpha \cdot \alpha\right)}{\alpha \cdot \alpha} \cdot \log \left(1 + \left(\mathsf{neg}\left(u0\right)\right)\right)\right) \cdot \alpha \]

    12. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\left(\frac{0 - \alpha \cdot \left(\alpha \cdot \alpha\right)}{\alpha \cdot \alpha} \cdot \log \left(1 + \left(\mathsf{neg}\left(u0\right)\right)\right)\right), \color{blue}{\alpha}\right) \]

  8. Applied egg-rr99.0%

    \[\leadsto \color{blue}{\left(\mathsf{log1p}\left(-u0\right) \cdot \left(-\alpha\right)\right) \cdot \alpha} \]

  9. Final simplification99.0%

    \[\leadsto \alpha \cdot \left(\mathsf{log1p}\left(-u0\right) \cdot \left(-\alpha\right)\right) \]
  10. Add Preprocessing

Alternative 2: 99.0% accurate, 1.0× speedup?

\[\begin{array}{l} \\ \mathsf{log1p}\left(-u0\right) \cdot \left(-\alpha \cdot \alpha\right) \end{array} \]
(FPCore (alpha u0) :precision binary32 (* (log1p (- u0)) (- (* alpha alpha))))
float code(float alpha, float u0) {
	return log1pf(-u0) * -(alpha * alpha);
}

function code(alpha, u0)
	return Float32(log1p(Float32(-u0)) * Float32(-Float32(alpha * alpha)))
end

\begin{array}{l}

\\
\mathsf{log1p}\left(-u0\right) \cdot \left(-\alpha \cdot \alpha\right)
\end{array}
Derivation

  1. Initial program 53.4%

    \[\left(\left(-\alpha\right) \cdot \alpha\right) \cdot \log \left(1 - u0\right) \]
  2. Step-by-step derivation

    1. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\left(\left(\mathsf{neg}\left(\alpha\right)\right) \cdot \alpha\right), \color{blue}{\log \left(1 - u0\right)}\right) \]

    2. *-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(\left(\alpha \cdot \left(\mathsf{neg}\left(\alpha\right)\right)\right), \log \color{blue}{\left(1 - u0\right)}\right) \]

    3. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \left(\mathsf{neg}\left(\alpha\right)\right)\right), \log \color{blue}{\left(1 - u0\right)}\right) \]

    4. neg-lowering-neg.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{neg.f32}\left(\alpha\right)\right), \log \left(1 - \color{blue}{u0}\right)\right) \]

    5. sub-negN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{neg.f32}\left(\alpha\right)\right), \log \left(1 + \left(\mathsf{neg}\left(u0\right)\right)\right)\right) \]

    6. log1p-defineN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{neg.f32}\left(\alpha\right)\right), \left(\mathsf{log1p}\left(\mathsf{neg}\left(u0\right)\right)\right)\right) \]

    7. log1p-lowering-log1p.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{neg.f32}\left(\alpha\right)\right), \mathsf{log1p.f32}\left(\left(\mathsf{neg}\left(u0\right)\right)\right)\right) \]

    8. neg-lowering-neg.f3299.0%

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{neg.f32}\left(\alpha\right)\right), \mathsf{log1p.f32}\left(\mathsf{neg.f32}\left(u0\right)\right)\right) \]

  3. Simplified99.0%

    \[\leadsto \color{blue}{\left(\alpha \cdot \left(-\alpha\right)\right) \cdot \mathsf{log1p}\left(-u0\right)} \]
  4. Add Preprocessing

  5. Final simplification99.0%

    \[\leadsto \mathsf{log1p}\left(-u0\right) \cdot \left(-\alpha \cdot \alpha\right) \]
  6. Add Preprocessing

Alternative 3: 93.6% accurate, 4.7× speedup?

\[\begin{array}{l} \\ \alpha \cdot \left(u0 \cdot \left(\alpha + u0 \cdot \left(\alpha \cdot 0.5 + u0 \cdot \left(\alpha \cdot \left(u0 \cdot 0.25\right) + \alpha \cdot 0.3333333333333333\right)\right)\right)\right) \end{array} \]
(FPCore (alpha u0)
 :precision binary32
 (*
  alpha
  (*
   u0
   (+
    alpha
    (*
     u0
     (+
      (* alpha 0.5)
      (* u0 (+ (* alpha (* u0 0.25)) (* alpha 0.3333333333333333)))))))))
float code(float alpha, float u0) {
	return alpha * (u0 * (alpha + (u0 * ((alpha * 0.5f) + (u0 * ((alpha * (u0 * 0.25f)) + (alpha * 0.3333333333333333f)))))));
}

real(4) function code(alpha, u0)
    real(4), intent (in) :: alpha
    real(4), intent (in) :: u0
    code = alpha * (u0 * (alpha + (u0 * ((alpha * 0.5e0) + (u0 * ((alpha * (u0 * 0.25e0)) + (alpha * 0.3333333333333333e0)))))))
end function

function code(alpha, u0)
	return Float32(alpha * Float32(u0 * Float32(alpha + Float32(u0 * Float32(Float32(alpha * Float32(0.5)) + Float32(u0 * Float32(Float32(alpha * Float32(u0 * Float32(0.25))) + Float32(alpha * Float32(0.3333333333333333)))))))))
end

function tmp = code(alpha, u0)
	tmp = alpha * (u0 * (alpha + (u0 * ((alpha * single(0.5)) + (u0 * ((alpha * (u0 * single(0.25))) + (alpha * single(0.3333333333333333))))))));
end

\begin{array}{l}

\\
\alpha \cdot \left(u0 \cdot \left(\alpha + u0 \cdot \left(\alpha \cdot 0.5 + u0 \cdot \left(\alpha \cdot \left(u0 \cdot 0.25\right) + \alpha \cdot 0.3333333333333333\right)\right)\right)\right)
\end{array}
Derivation

  1. Initial program 53.4%

    \[\left(\left(-\alpha\right) \cdot \alpha\right) \cdot \log \left(1 - u0\right) \]
  2. Step-by-step derivation

    1. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\left(\left(\mathsf{neg}\left(\alpha\right)\right) \cdot \alpha\right), \color{blue}{\log \left(1 - u0\right)}\right) \]

    2. *-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(\left(\alpha \cdot \left(\mathsf{neg}\left(\alpha\right)\right)\right), \log \color{blue}{\left(1 - u0\right)}\right) \]

    3. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \left(\mathsf{neg}\left(\alpha\right)\right)\right), \log \color{blue}{\left(1 - u0\right)}\right) \]

    4. neg-lowering-neg.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{neg.f32}\left(\alpha\right)\right), \log \left(1 - \color{blue}{u0}\right)\right) \]

    5. sub-negN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{neg.f32}\left(\alpha\right)\right), \log \left(1 + \left(\mathsf{neg}\left(u0\right)\right)\right)\right) \]

    6. log1p-defineN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{neg.f32}\left(\alpha\right)\right), \left(\mathsf{log1p}\left(\mathsf{neg}\left(u0\right)\right)\right)\right) \]

    7. log1p-lowering-log1p.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{neg.f32}\left(\alpha\right)\right), \mathsf{log1p.f32}\left(\left(\mathsf{neg}\left(u0\right)\right)\right)\right) \]

    8. neg-lowering-neg.f3299.0%

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{neg.f32}\left(\alpha\right)\right), \mathsf{log1p.f32}\left(\mathsf{neg.f32}\left(u0\right)\right)\right) \]

  3. Simplified99.0%

    \[\leadsto \color{blue}{\left(\alpha \cdot \left(-\alpha\right)\right) \cdot \mathsf{log1p}\left(-u0\right)} \]
  4. Add Preprocessing
  5. Step-by-step derivation

    1. *-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(\left(\left(\mathsf{neg}\left(\alpha\right)\right) \cdot \alpha\right), \mathsf{log1p.f32}\left(\color{blue}{\mathsf{neg.f32}\left(u0\right)}\right)\right) \]

    2. neg-sub0N/A

      \[\leadsto \mathsf{*.f32}\left(\left(\left(0 - \alpha\right) \cdot \alpha\right), \mathsf{log1p.f32}\left(\mathsf{neg.f32}\left(\color{blue}{u0}\right)\right)\right) \]

    3. flip--N/A

      \[\leadsto \mathsf{*.f32}\left(\left(\frac{0 \cdot 0 - \alpha \cdot \alpha}{0 + \alpha} \cdot \alpha\right), \mathsf{log1p.f32}\left(\mathsf{neg.f32}\left(\color{blue}{u0}\right)\right)\right) \]

    4. metadata-evalN/A

      \[\leadsto \mathsf{*.f32}\left(\left(\frac{0 - \alpha \cdot \alpha}{0 + \alpha} \cdot \alpha\right), \mathsf{log1p.f32}\left(\mathsf{neg.f32}\left(u0\right)\right)\right) \]

    5. neg-sub0N/A

      \[\leadsto \mathsf{*.f32}\left(\left(\frac{\mathsf{neg}\left(\alpha \cdot \alpha\right)}{0 + \alpha} \cdot \alpha\right), \mathsf{log1p.f32}\left(\mathsf{neg.f32}\left(u0\right)\right)\right) \]

    6. distribute-rgt-neg-outN/A

      \[\leadsto \mathsf{*.f32}\left(\left(\frac{\alpha \cdot \left(\mathsf{neg}\left(\alpha\right)\right)}{0 + \alpha} \cdot \alpha\right), \mathsf{log1p.f32}\left(\mathsf{neg.f32}\left(u0\right)\right)\right) \]

    7. +-lft-identityN/A

      \[\leadsto \mathsf{*.f32}\left(\left(\frac{\alpha \cdot \left(\mathsf{neg}\left(\alpha\right)\right)}{\alpha} \cdot \alpha\right), \mathsf{log1p.f32}\left(\mathsf{neg.f32}\left(u0\right)\right)\right) \]

    8. associate-*l/N/A

      \[\leadsto \mathsf{*.f32}\left(\left(\frac{\left(\alpha \cdot \left(\mathsf{neg}\left(\alpha\right)\right)\right) \cdot \alpha}{\alpha}\right), \mathsf{log1p.f32}\left(\color{blue}{\mathsf{neg.f32}\left(u0\right)}\right)\right) \]

    9. /-lowering-/.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{/.f32}\left(\left(\left(\alpha \cdot \left(\mathsf{neg}\left(\alpha\right)\right)\right) \cdot \alpha\right), \alpha\right), \mathsf{log1p.f32}\left(\color{blue}{\mathsf{neg.f32}\left(u0\right)}\right)\right) \]

    10. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{/.f32}\left(\mathsf{*.f32}\left(\left(\alpha \cdot \left(\mathsf{neg}\left(\alpha\right)\right)\right), \alpha\right), \alpha\right), \mathsf{log1p.f32}\left(\mathsf{neg.f32}\left(\color{blue}{u0}\right)\right)\right) \]

    11. distribute-rgt-neg-outN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{/.f32}\left(\mathsf{*.f32}\left(\left(\mathsf{neg}\left(\alpha \cdot \alpha\right)\right), \alpha\right), \alpha\right), \mathsf{log1p.f32}\left(\mathsf{neg.f32}\left(u0\right)\right)\right) \]

    12. neg-lowering-neg.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{/.f32}\left(\mathsf{*.f32}\left(\mathsf{neg.f32}\left(\left(\alpha \cdot \alpha\right)\right), \alpha\right), \alpha\right), \mathsf{log1p.f32}\left(\mathsf{neg.f32}\left(u0\right)\right)\right) \]

    13. *-lowering-*.f3298.9%

      \[\leadsto \mathsf{*.f32}\left(\mathsf{/.f32}\left(\mathsf{*.f32}\left(\mathsf{neg.f32}\left(\mathsf{*.f32}\left(\alpha, \alpha\right)\right), \alpha\right), \alpha\right), \mathsf{log1p.f32}\left(\mathsf{neg.f32}\left(u0\right)\right)\right) \]

  6. Applied egg-rr98.9%

    \[\leadsto \color{blue}{\frac{\left(-\alpha \cdot \alpha\right) \cdot \alpha}{\alpha}} \cdot \mathsf{log1p}\left(-u0\right) \]
  7. Step-by-step derivation

    1. clear-numN/A

      \[\leadsto \frac{1}{\frac{\alpha}{\left(\mathsf{neg}\left(\alpha \cdot \alpha\right)\right) \cdot \alpha}} \cdot \log \color{blue}{\left(1 + \left(\mathsf{neg}\left(u0\right)\right)\right)} \]

    2. *-inversesN/A

      \[\leadsto \frac{\frac{\alpha}{\alpha}}{\frac{\alpha}{\left(\mathsf{neg}\left(\alpha \cdot \alpha\right)\right) \cdot \alpha}} \cdot \log \left(\color{blue}{1} + \left(\mathsf{neg}\left(u0\right)\right)\right) \]

    3. distribute-lft-neg-outN/A

      \[\leadsto \frac{\frac{\alpha}{\alpha}}{\frac{\alpha}{\mathsf{neg}\left(\left(\alpha \cdot \alpha\right) \cdot \alpha\right)}} \cdot \log \left(1 + \left(\mathsf{neg}\left(u0\right)\right)\right) \]

    4. associate-*r*N/A

      \[\leadsto \frac{\frac{\alpha}{\alpha}}{\frac{\alpha}{\mathsf{neg}\left(\alpha \cdot \left(\alpha \cdot \alpha\right)\right)}} \cdot \log \left(1 + \left(\mathsf{neg}\left(u0\right)\right)\right) \]

    5. sub0-negN/A

      \[\leadsto \frac{\frac{\alpha}{\alpha}}{\frac{\alpha}{0 - \alpha \cdot \left(\alpha \cdot \alpha\right)}} \cdot \log \left(1 + \left(\mathsf{neg}\left(u0\right)\right)\right) \]

    6. associate-/r*N/A

      \[\leadsto \frac{\alpha}{\alpha \cdot \frac{\alpha}{0 - \alpha \cdot \left(\alpha \cdot \alpha\right)}} \cdot \log \color{blue}{\left(1 + \left(\mathsf{neg}\left(u0\right)\right)\right)} \]

    7. associate-/l*N/A

      \[\leadsto \frac{\alpha}{\frac{\alpha \cdot \alpha}{0 - \alpha \cdot \left(\alpha \cdot \alpha\right)}} \cdot \log \left(1 + \color{blue}{\left(\mathsf{neg}\left(u0\right)\right)}\right) \]

    8. un-div-invN/A

      \[\leadsto \left(\alpha \cdot \frac{1}{\frac{\alpha \cdot \alpha}{0 - \alpha \cdot \left(\alpha \cdot \alpha\right)}}\right) \cdot \log \color{blue}{\left(1 + \left(\mathsf{neg}\left(u0\right)\right)\right)} \]

    9. associate-*l*N/A

      \[\leadsto \alpha \cdot \color{blue}{\left(\frac{1}{\frac{\alpha \cdot \alpha}{0 - \alpha \cdot \left(\alpha \cdot \alpha\right)}} \cdot \log \left(1 + \left(\mathsf{neg}\left(u0\right)\right)\right)\right)} \]

    10. *-commutativeN/A

      \[\leadsto \left(\frac{1}{\frac{\alpha \cdot \alpha}{0 - \alpha \cdot \left(\alpha \cdot \alpha\right)}} \cdot \log \left(1 + \left(\mathsf{neg}\left(u0\right)\right)\right)\right) \cdot \color{blue}{\alpha} \]

    11. clear-numN/A

      \[\leadsto \left(\frac{0 - \alpha \cdot \left(\alpha \cdot \alpha\right)}{\alpha \cdot \alpha} \cdot \log \left(1 + \left(\mathsf{neg}\left(u0\right)\right)\right)\right) \cdot \alpha \]

    12. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\left(\frac{0 - \alpha \cdot \left(\alpha \cdot \alpha\right)}{\alpha \cdot \alpha} \cdot \log \left(1 + \left(\mathsf{neg}\left(u0\right)\right)\right)\right), \color{blue}{\alpha}\right) \]

  8. Applied egg-rr99.0%

    \[\leadsto \color{blue}{\left(\mathsf{log1p}\left(-u0\right) \cdot \left(-\alpha\right)\right) \cdot \alpha} \]

  9. Taylor expanded in u0 around 0

    \[\leadsto \mathsf{*.f32}\left(\color{blue}{\left(u0 \cdot \left(\alpha + u0 \cdot \left(\frac{1}{2} \cdot \alpha + u0 \cdot \left(\frac{1}{4} \cdot \left(\alpha \cdot u0\right) + \frac{1}{3} \cdot \alpha\right)\right)\right)\right)}, \alpha\right) \]
  10. Step-by-step derivation

    1. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(u0, \left(\alpha + u0 \cdot \left(\frac{1}{2} \cdot \alpha + u0 \cdot \left(\frac{1}{4} \cdot \left(\alpha \cdot u0\right) + \frac{1}{3} \cdot \alpha\right)\right)\right)\right), \alpha\right) \]

    2. +-lowering-+.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\alpha, \left(u0 \cdot \left(\frac{1}{2} \cdot \alpha + u0 \cdot \left(\frac{1}{4} \cdot \left(\alpha \cdot u0\right) + \frac{1}{3} \cdot \alpha\right)\right)\right)\right)\right), \alpha\right) \]

    3. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\alpha, \mathsf{*.f32}\left(u0, \left(\frac{1}{2} \cdot \alpha + u0 \cdot \left(\frac{1}{4} \cdot \left(\alpha \cdot u0\right) + \frac{1}{3} \cdot \alpha\right)\right)\right)\right)\right), \alpha\right) \]

    4. +-lowering-+.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\alpha, \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\left(\frac{1}{2} \cdot \alpha\right), \left(u0 \cdot \left(\frac{1}{4} \cdot \left(\alpha \cdot u0\right) + \frac{1}{3} \cdot \alpha\right)\right)\right)\right)\right)\right), \alpha\right) \]

    5. *-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\alpha, \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\left(\alpha \cdot \frac{1}{2}\right), \left(u0 \cdot \left(\frac{1}{4} \cdot \left(\alpha \cdot u0\right) + \frac{1}{3} \cdot \alpha\right)\right)\right)\right)\right)\right), \alpha\right) \]

    6. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\alpha, \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\mathsf{*.f32}\left(\alpha, \frac{1}{2}\right), \left(u0 \cdot \left(\frac{1}{4} \cdot \left(\alpha \cdot u0\right) + \frac{1}{3} \cdot \alpha\right)\right)\right)\right)\right)\right), \alpha\right) \]

    7. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\alpha, \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\mathsf{*.f32}\left(\alpha, \frac{1}{2}\right), \mathsf{*.f32}\left(u0, \left(\frac{1}{4} \cdot \left(\alpha \cdot u0\right) + \frac{1}{3} \cdot \alpha\right)\right)\right)\right)\right)\right), \alpha\right) \]

    8. +-lowering-+.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\alpha, \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\mathsf{*.f32}\left(\alpha, \frac{1}{2}\right), \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\left(\frac{1}{4} \cdot \left(\alpha \cdot u0\right)\right), \left(\frac{1}{3} \cdot \alpha\right)\right)\right)\right)\right)\right)\right), \alpha\right) \]

    9. *-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\alpha, \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\mathsf{*.f32}\left(\alpha, \frac{1}{2}\right), \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\left(\left(\alpha \cdot u0\right) \cdot \frac{1}{4}\right), \left(\frac{1}{3} \cdot \alpha\right)\right)\right)\right)\right)\right)\right), \alpha\right) \]

    10. associate-*l*N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\alpha, \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\mathsf{*.f32}\left(\alpha, \frac{1}{2}\right), \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\left(\alpha \cdot \left(u0 \cdot \frac{1}{4}\right)\right), \left(\frac{1}{3} \cdot \alpha\right)\right)\right)\right)\right)\right)\right), \alpha\right) \]

    11. *-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\alpha, \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\mathsf{*.f32}\left(\alpha, \frac{1}{2}\right), \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\left(\alpha \cdot \left(\frac{1}{4} \cdot u0\right)\right), \left(\frac{1}{3} \cdot \alpha\right)\right)\right)\right)\right)\right)\right), \alpha\right) \]

    12. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\alpha, \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\mathsf{*.f32}\left(\alpha, \frac{1}{2}\right), \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\mathsf{*.f32}\left(\alpha, \left(\frac{1}{4} \cdot u0\right)\right), \left(\frac{1}{3} \cdot \alpha\right)\right)\right)\right)\right)\right)\right), \alpha\right) \]

    13. *-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\alpha, \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\mathsf{*.f32}\left(\alpha, \frac{1}{2}\right), \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\mathsf{*.f32}\left(\alpha, \left(u0 \cdot \frac{1}{4}\right)\right), \left(\frac{1}{3} \cdot \alpha\right)\right)\right)\right)\right)\right)\right), \alpha\right) \]

    14. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\alpha, \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\mathsf{*.f32}\left(\alpha, \frac{1}{2}\right), \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{*.f32}\left(u0, \frac{1}{4}\right)\right), \left(\frac{1}{3} \cdot \alpha\right)\right)\right)\right)\right)\right)\right), \alpha\right) \]

    15. *-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\alpha, \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\mathsf{*.f32}\left(\alpha, \frac{1}{2}\right), \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{*.f32}\left(u0, \frac{1}{4}\right)\right), \left(\alpha \cdot \frac{1}{3}\right)\right)\right)\right)\right)\right)\right), \alpha\right) \]

    16. *-lowering-*.f3294.8%

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\alpha, \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\mathsf{*.f32}\left(\alpha, \frac{1}{2}\right), \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{*.f32}\left(u0, \frac{1}{4}\right)\right), \mathsf{*.f32}\left(\alpha, \frac{1}{3}\right)\right)\right)\right)\right)\right)\right), \alpha\right) \]

  11. Simplified94.8%

    \[\leadsto \color{blue}{\left(u0 \cdot \left(\alpha + u0 \cdot \left(\alpha \cdot 0.5 + u0 \cdot \left(\alpha \cdot \left(u0 \cdot 0.25\right) + \alpha \cdot 0.3333333333333333\right)\right)\right)\right)} \cdot \alpha \]

  12. Final simplification94.8%

    \[\leadsto \alpha \cdot \left(u0 \cdot \left(\alpha + u0 \cdot \left(\alpha \cdot 0.5 + u0 \cdot \left(\alpha \cdot \left(u0 \cdot 0.25\right) + \alpha \cdot 0.3333333333333333\right)\right)\right)\right) \]
  13. Add Preprocessing

Alternative 4: 93.7% accurate, 5.7× speedup?

\[\begin{array}{l} \\ u0 \cdot \left(\alpha \cdot \left(\alpha + \left(0.5 + u0 \cdot \left(u0 \cdot 0.25 + 0.3333333333333333\right)\right) \cdot \left(u0 \cdot \alpha\right)\right)\right) \end{array} \]
(FPCore (alpha u0)
 :precision binary32
 (*
  u0
  (*
   alpha
   (+
    alpha
    (* (+ 0.5 (* u0 (+ (* u0 0.25) 0.3333333333333333))) (* u0 alpha))))))
float code(float alpha, float u0) {
	return u0 * (alpha * (alpha + ((0.5f + (u0 * ((u0 * 0.25f) + 0.3333333333333333f))) * (u0 * alpha))));
}

real(4) function code(alpha, u0)
    real(4), intent (in) :: alpha
    real(4), intent (in) :: u0
    code = u0 * (alpha * (alpha + ((0.5e0 + (u0 * ((u0 * 0.25e0) + 0.3333333333333333e0))) * (u0 * alpha))))
end function

function code(alpha, u0)
	return Float32(u0 * Float32(alpha * Float32(alpha + Float32(Float32(Float32(0.5) + Float32(u0 * Float32(Float32(u0 * Float32(0.25)) + Float32(0.3333333333333333)))) * Float32(u0 * alpha)))))
end

function tmp = code(alpha, u0)
	tmp = u0 * (alpha * (alpha + ((single(0.5) + (u0 * ((u0 * single(0.25)) + single(0.3333333333333333)))) * (u0 * alpha))));
end

\begin{array}{l}

\\
u0 \cdot \left(\alpha \cdot \left(\alpha + \left(0.5 + u0 \cdot \left(u0 \cdot 0.25 + 0.3333333333333333\right)\right) \cdot \left(u0 \cdot \alpha\right)\right)\right)
\end{array}
Derivation

  1. Initial program 53.4%

    \[\left(\left(-\alpha\right) \cdot \alpha\right) \cdot \log \left(1 - u0\right) \]
  2. Step-by-step derivation

    1. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\left(\left(\mathsf{neg}\left(\alpha\right)\right) \cdot \alpha\right), \color{blue}{\log \left(1 - u0\right)}\right) \]

    2. *-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(\left(\alpha \cdot \left(\mathsf{neg}\left(\alpha\right)\right)\right), \log \color{blue}{\left(1 - u0\right)}\right) \]

    3. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \left(\mathsf{neg}\left(\alpha\right)\right)\right), \log \color{blue}{\left(1 - u0\right)}\right) \]

    4. neg-lowering-neg.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{neg.f32}\left(\alpha\right)\right), \log \left(1 - \color{blue}{u0}\right)\right) \]

    5. sub-negN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{neg.f32}\left(\alpha\right)\right), \log \left(1 + \left(\mathsf{neg}\left(u0\right)\right)\right)\right) \]

    6. log1p-defineN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{neg.f32}\left(\alpha\right)\right), \left(\mathsf{log1p}\left(\mathsf{neg}\left(u0\right)\right)\right)\right) \]

    7. log1p-lowering-log1p.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{neg.f32}\left(\alpha\right)\right), \mathsf{log1p.f32}\left(\left(\mathsf{neg}\left(u0\right)\right)\right)\right) \]

    8. neg-lowering-neg.f3299.0%

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{neg.f32}\left(\alpha\right)\right), \mathsf{log1p.f32}\left(\mathsf{neg.f32}\left(u0\right)\right)\right) \]

  3. Simplified99.0%

    \[\leadsto \color{blue}{\left(\alpha \cdot \left(-\alpha\right)\right) \cdot \mathsf{log1p}\left(-u0\right)} \]
  4. Add Preprocessing

  5. Taylor expanded in u0 around 0

    \[\leadsto \color{blue}{u0 \cdot \left(u0 \cdot \left(\frac{1}{2} \cdot {\alpha}^{2} + u0 \cdot \left(\frac{1}{4} \cdot \left({\alpha}^{2} \cdot u0\right) + \frac{1}{3} \cdot {\alpha}^{2}\right)\right) + {\alpha}^{2}\right)} \]
  6. Step-by-step derivation

    1. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(u0, \color{blue}{\left(u0 \cdot \left(\frac{1}{2} \cdot {\alpha}^{2} + u0 \cdot \left(\frac{1}{4} \cdot \left({\alpha}^{2} \cdot u0\right) + \frac{1}{3} \cdot {\alpha}^{2}\right)\right) + {\alpha}^{2}\right)}\right) \]

    2. +-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(u0, \left({\alpha}^{2} + \color{blue}{u0 \cdot \left(\frac{1}{2} \cdot {\alpha}^{2} + u0 \cdot \left(\frac{1}{4} \cdot \left({\alpha}^{2} \cdot u0\right) + \frac{1}{3} \cdot {\alpha}^{2}\right)\right)}\right)\right) \]

    3. +-lowering-+.f32N/A

      \[\leadsto \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\left({\alpha}^{2}\right), \color{blue}{\left(u0 \cdot \left(\frac{1}{2} \cdot {\alpha}^{2} + u0 \cdot \left(\frac{1}{4} \cdot \left({\alpha}^{2} \cdot u0\right) + \frac{1}{3} \cdot {\alpha}^{2}\right)\right)\right)}\right)\right) \]

    4. unpow2N/A

      \[\leadsto \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\left(\alpha \cdot \alpha\right), \left(\color{blue}{u0} \cdot \left(\frac{1}{2} \cdot {\alpha}^{2} + u0 \cdot \left(\frac{1}{4} \cdot \left({\alpha}^{2} \cdot u0\right) + \frac{1}{3} \cdot {\alpha}^{2}\right)\right)\right)\right)\right) \]

    5. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\mathsf{*.f32}\left(\alpha, \alpha\right), \left(\color{blue}{u0} \cdot \left(\frac{1}{2} \cdot {\alpha}^{2} + u0 \cdot \left(\frac{1}{4} \cdot \left({\alpha}^{2} \cdot u0\right) + \frac{1}{3} \cdot {\alpha}^{2}\right)\right)\right)\right)\right) \]

    6. +-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\mathsf{*.f32}\left(\alpha, \alpha\right), \left(u0 \cdot \left(u0 \cdot \left(\frac{1}{4} \cdot \left({\alpha}^{2} \cdot u0\right) + \frac{1}{3} \cdot {\alpha}^{2}\right) + \color{blue}{\frac{1}{2} \cdot {\alpha}^{2}}\right)\right)\right)\right) \]

    7. distribute-rgt-inN/A

      \[\leadsto \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\mathsf{*.f32}\left(\alpha, \alpha\right), \left(u0 \cdot \left(\left(\left(\frac{1}{4} \cdot \left({\alpha}^{2} \cdot u0\right)\right) \cdot u0 + \left(\frac{1}{3} \cdot {\alpha}^{2}\right) \cdot u0\right) + \color{blue}{\frac{1}{2}} \cdot {\alpha}^{2}\right)\right)\right)\right) \]

    8. associate-*r*N/A

      \[\leadsto \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\mathsf{*.f32}\left(\alpha, \alpha\right), \left(u0 \cdot \left(\left(\left(\frac{1}{4} \cdot \left({\alpha}^{2} \cdot u0\right)\right) \cdot u0 + \frac{1}{3} \cdot \left({\alpha}^{2} \cdot u0\right)\right) + \frac{1}{2} \cdot {\alpha}^{2}\right)\right)\right)\right) \]

    9. associate-+l+N/A

      \[\leadsto \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\mathsf{*.f32}\left(\alpha, \alpha\right), \left(u0 \cdot \left(\left(\frac{1}{4} \cdot \left({\alpha}^{2} \cdot u0\right)\right) \cdot u0 + \color{blue}{\left(\frac{1}{3} \cdot \left({\alpha}^{2} \cdot u0\right) + \frac{1}{2} \cdot {\alpha}^{2}\right)}\right)\right)\right)\right) \]

    10. *-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\mathsf{*.f32}\left(\alpha, \alpha\right), \left(u0 \cdot \left(u0 \cdot \left(\frac{1}{4} \cdot \left({\alpha}^{2} \cdot u0\right)\right) + \left(\color{blue}{\frac{1}{3} \cdot \left({\alpha}^{2} \cdot u0\right)} + \frac{1}{2} \cdot {\alpha}^{2}\right)\right)\right)\right)\right) \]

  7. Simplified94.6%

    \[\leadsto \color{blue}{u0 \cdot \left(\alpha \cdot \alpha + \left(\left(\alpha \cdot \alpha\right) \cdot u0\right) \cdot \left(u0 \cdot \left(u0 \cdot 0.25\right) + \left(u0 \cdot 0.3333333333333333 + 0.5\right)\right)\right)} \]
  8. Step-by-step derivation

    1. flip-+N/A

      \[\leadsto \mathsf{*.f32}\left(u0, \left(\frac{\left(\alpha \cdot \alpha\right) \cdot \left(\alpha \cdot \alpha\right) - \left(\left(\left(\alpha \cdot \alpha\right) \cdot u0\right) \cdot \left(u0 \cdot \left(u0 \cdot \frac{1}{4}\right) + \left(u0 \cdot \frac{1}{3} + \frac{1}{2}\right)\right)\right) \cdot \left(\left(\left(\alpha \cdot \alpha\right) \cdot u0\right) \cdot \left(u0 \cdot \left(u0 \cdot \frac{1}{4}\right) + \left(u0 \cdot \frac{1}{3} + \frac{1}{2}\right)\right)\right)}{\color{blue}{\alpha \cdot \alpha - \left(\left(\alpha \cdot \alpha\right) \cdot u0\right) \cdot \left(u0 \cdot \left(u0 \cdot \frac{1}{4}\right) + \left(u0 \cdot \frac{1}{3} + \frac{1}{2}\right)\right)}}\right)\right) \]

    2. fmm-defN/A

      \[\leadsto \mathsf{*.f32}\left(u0, \left(\frac{\left(\alpha \cdot \alpha\right) \cdot \left(\alpha \cdot \alpha\right) - \left(\left(\left(\alpha \cdot \alpha\right) \cdot u0\right) \cdot \left(u0 \cdot \left(u0 \cdot \frac{1}{4}\right) + \left(u0 \cdot \frac{1}{3} + \frac{1}{2}\right)\right)\right) \cdot \left(\left(\left(\alpha \cdot \alpha\right) \cdot u0\right) \cdot \left(u0 \cdot \left(u0 \cdot \frac{1}{4}\right) + \left(u0 \cdot \frac{1}{3} + \frac{1}{2}\right)\right)\right)}{\mathsf{fma}\left(\alpha, \color{blue}{\alpha}, \mathsf{neg}\left(\left(\left(\alpha \cdot \alpha\right) \cdot u0\right) \cdot \left(u0 \cdot \left(u0 \cdot \frac{1}{4}\right) + \left(u0 \cdot \frac{1}{3} + \frac{1}{2}\right)\right)\right)\right)}\right)\right) \]

    3. *-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(u0, \left(\frac{\left(\alpha \cdot \alpha\right) \cdot \left(\alpha \cdot \alpha\right) - \left(\left(\left(\alpha \cdot \alpha\right) \cdot u0\right) \cdot \left(u0 \cdot \left(u0 \cdot \frac{1}{4}\right) + \left(u0 \cdot \frac{1}{3} + \frac{1}{2}\right)\right)\right) \cdot \left(\left(\left(\alpha \cdot \alpha\right) \cdot u0\right) \cdot \left(u0 \cdot \left(u0 \cdot \frac{1}{4}\right) + \left(u0 \cdot \frac{1}{3} + \frac{1}{2}\right)\right)\right)}{\mathsf{fma}\left(\alpha, \alpha, \mathsf{neg}\left(\left(u0 \cdot \left(u0 \cdot \frac{1}{4}\right) + \left(u0 \cdot \frac{1}{3} + \frac{1}{2}\right)\right) \cdot \left(\left(\alpha \cdot \alpha\right) \cdot u0\right)\right)\right)}\right)\right) \]

    4. div-invN/A

      \[\leadsto \mathsf{*.f32}\left(u0, \left(\left(\left(\alpha \cdot \alpha\right) \cdot \left(\alpha \cdot \alpha\right) - \left(\left(\left(\alpha \cdot \alpha\right) \cdot u0\right) \cdot \left(u0 \cdot \left(u0 \cdot \frac{1}{4}\right) + \left(u0 \cdot \frac{1}{3} + \frac{1}{2}\right)\right)\right) \cdot \left(\left(\left(\alpha \cdot \alpha\right) \cdot u0\right) \cdot \left(u0 \cdot \left(u0 \cdot \frac{1}{4}\right) + \left(u0 \cdot \frac{1}{3} + \frac{1}{2}\right)\right)\right)\right) \cdot \color{blue}{\frac{1}{\mathsf{fma}\left(\alpha, \alpha, \mathsf{neg}\left(\left(u0 \cdot \left(u0 \cdot \frac{1}{4}\right) + \left(u0 \cdot \frac{1}{3} + \frac{1}{2}\right)\right) \cdot \left(\left(\alpha \cdot \alpha\right) \cdot u0\right)\right)\right)}}\right)\right) \]

    5. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(u0, \mathsf{*.f32}\left(\left(\left(\alpha \cdot \alpha\right) \cdot \left(\alpha \cdot \alpha\right) - \left(\left(\left(\alpha \cdot \alpha\right) \cdot u0\right) \cdot \left(u0 \cdot \left(u0 \cdot \frac{1}{4}\right) + \left(u0 \cdot \frac{1}{3} + \frac{1}{2}\right)\right)\right) \cdot \left(\left(\left(\alpha \cdot \alpha\right) \cdot u0\right) \cdot \left(u0 \cdot \left(u0 \cdot \frac{1}{4}\right) + \left(u0 \cdot \frac{1}{3} + \frac{1}{2}\right)\right)\right)\right), \color{blue}{\left(\frac{1}{\mathsf{fma}\left(\alpha, \alpha, \mathsf{neg}\left(\left(u0 \cdot \left(u0 \cdot \frac{1}{4}\right) + \left(u0 \cdot \frac{1}{3} + \frac{1}{2}\right)\right) \cdot \left(\left(\alpha \cdot \alpha\right) \cdot u0\right)\right)\right)}\right)}\right)\right) \]

  9. Applied egg-rr94.1%

    \[\leadsto u0 \cdot \color{blue}{\left(\left(\alpha \cdot \left(\alpha \cdot \left(\alpha \cdot \alpha\right)\right) - \left(\alpha \cdot \alpha\right) \cdot \left(\left(u0 \cdot \left(0.5 + u0 \cdot \left(u0 \cdot 0.25 + 0.3333333333333333\right)\right)\right) \cdot \left(\left(\alpha \cdot \alpha\right) \cdot \left(u0 \cdot \left(0.5 + u0 \cdot \left(u0 \cdot 0.25 + 0.3333333333333333\right)\right)\right)\right)\right)\right) \cdot \frac{1}{\alpha \cdot \alpha - \left(\alpha \cdot \alpha\right) \cdot \left(u0 \cdot \left(0.5 + u0 \cdot \left(u0 \cdot 0.25 + 0.3333333333333333\right)\right)\right)}\right)} \]
  10. Step-by-step derivation

    1. un-div-invN/A

      \[\leadsto \mathsf{*.f32}\left(u0, \left(\frac{\alpha \cdot \left(\alpha \cdot \left(\alpha \cdot \alpha\right)\right) - \left(\alpha \cdot \alpha\right) \cdot \left(\left(u0 \cdot \left(\frac{1}{2} + u0 \cdot \left(u0 \cdot \frac{1}{4} + \frac{1}{3}\right)\right)\right) \cdot \left(\left(\alpha \cdot \alpha\right) \cdot \left(u0 \cdot \left(\frac{1}{2} + u0 \cdot \left(u0 \cdot \frac{1}{4} + \frac{1}{3}\right)\right)\right)\right)\right)}{\color{blue}{\alpha \cdot \alpha - \left(\alpha \cdot \alpha\right) \cdot \left(u0 \cdot \left(\frac{1}{2} + u0 \cdot \left(u0 \cdot \frac{1}{4} + \frac{1}{3}\right)\right)\right)}}\right)\right) \]

    2. associate-*r*N/A

      \[\leadsto \mathsf{*.f32}\left(u0, \left(\frac{\left(\alpha \cdot \alpha\right) \cdot \left(\alpha \cdot \alpha\right) - \left(\alpha \cdot \alpha\right) \cdot \left(\left(u0 \cdot \left(\frac{1}{2} + u0 \cdot \left(u0 \cdot \frac{1}{4} + \frac{1}{3}\right)\right)\right) \cdot \left(\left(\alpha \cdot \alpha\right) \cdot \left(u0 \cdot \left(\frac{1}{2} + u0 \cdot \left(u0 \cdot \frac{1}{4} + \frac{1}{3}\right)\right)\right)\right)\right)}{\color{blue}{\alpha} \cdot \alpha - \left(\alpha \cdot \alpha\right) \cdot \left(u0 \cdot \left(\frac{1}{2} + u0 \cdot \left(u0 \cdot \frac{1}{4} + \frac{1}{3}\right)\right)\right)}\right)\right) \]

    3. associate-*r*N/A

      \[\leadsto \mathsf{*.f32}\left(u0, \left(\frac{\left(\alpha \cdot \alpha\right) \cdot \left(\alpha \cdot \alpha\right) - \left(\left(\alpha \cdot \alpha\right) \cdot \left(u0 \cdot \left(\frac{1}{2} + u0 \cdot \left(u0 \cdot \frac{1}{4} + \frac{1}{3}\right)\right)\right)\right) \cdot \left(\left(\alpha \cdot \alpha\right) \cdot \left(u0 \cdot \left(\frac{1}{2} + u0 \cdot \left(u0 \cdot \frac{1}{4} + \frac{1}{3}\right)\right)\right)\right)}{\alpha \cdot \color{blue}{\alpha} - \left(\alpha \cdot \alpha\right) \cdot \left(u0 \cdot \left(\frac{1}{2} + u0 \cdot \left(u0 \cdot \frac{1}{4} + \frac{1}{3}\right)\right)\right)}\right)\right) \]

    4. flip-+N/A

      \[\leadsto \mathsf{*.f32}\left(u0, \left(\alpha \cdot \alpha + \color{blue}{\left(\alpha \cdot \alpha\right) \cdot \left(u0 \cdot \left(\frac{1}{2} + u0 \cdot \left(u0 \cdot \frac{1}{4} + \frac{1}{3}\right)\right)\right)}\right)\right) \]

    5. associate-*l*N/A

      \[\leadsto \mathsf{*.f32}\left(u0, \left(\alpha \cdot \alpha + \alpha \cdot \color{blue}{\left(\alpha \cdot \left(u0 \cdot \left(\frac{1}{2} + u0 \cdot \left(u0 \cdot \frac{1}{4} + \frac{1}{3}\right)\right)\right)\right)}\right)\right) \]

    6. distribute-lft-outN/A

      \[\leadsto \mathsf{*.f32}\left(u0, \left(\alpha \cdot \color{blue}{\left(\alpha + \alpha \cdot \left(u0 \cdot \left(\frac{1}{2} + u0 \cdot \left(u0 \cdot \frac{1}{4} + \frac{1}{3}\right)\right)\right)\right)}\right)\right) \]

    7. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(u0, \mathsf{*.f32}\left(\alpha, \color{blue}{\left(\alpha + \alpha \cdot \left(u0 \cdot \left(\frac{1}{2} + u0 \cdot \left(u0 \cdot \frac{1}{4} + \frac{1}{3}\right)\right)\right)\right)}\right)\right) \]

    8. +-lowering-+.f32N/A

      \[\leadsto \mathsf{*.f32}\left(u0, \mathsf{*.f32}\left(\alpha, \mathsf{+.f32}\left(\alpha, \color{blue}{\left(\alpha \cdot \left(u0 \cdot \left(\frac{1}{2} + u0 \cdot \left(u0 \cdot \frac{1}{4} + \frac{1}{3}\right)\right)\right)\right)}\right)\right)\right) \]

  11. Applied egg-rr94.7%

    \[\leadsto u0 \cdot \color{blue}{\left(\alpha \cdot \left(\alpha + \left(u0 \cdot \alpha\right) \cdot \left(0.5 + u0 \cdot \left(u0 \cdot 0.25 + 0.3333333333333333\right)\right)\right)\right)} \]

  12. Final simplification94.7%

    \[\leadsto u0 \cdot \left(\alpha \cdot \left(\alpha + \left(0.5 + u0 \cdot \left(u0 \cdot 0.25 + 0.3333333333333333\right)\right) \cdot \left(u0 \cdot \alpha\right)\right)\right) \]
  13. Add Preprocessing

Alternative 5: 91.6% accurate, 6.4× speedup?

\[\begin{array}{l} \\ \alpha \cdot \left(u0 \cdot \left(\alpha + u0 \cdot \left(\alpha \cdot 0.5 + \alpha \cdot \left(u0 \cdot 0.3333333333333333\right)\right)\right)\right) \end{array} \]
(FPCore (alpha u0)
 :precision binary32
 (*
  alpha
  (*
   u0
   (+ alpha (* u0 (+ (* alpha 0.5) (* alpha (* u0 0.3333333333333333))))))))
float code(float alpha, float u0) {
	return alpha * (u0 * (alpha + (u0 * ((alpha * 0.5f) + (alpha * (u0 * 0.3333333333333333f))))));
}

real(4) function code(alpha, u0)
    real(4), intent (in) :: alpha
    real(4), intent (in) :: u0
    code = alpha * (u0 * (alpha + (u0 * ((alpha * 0.5e0) + (alpha * (u0 * 0.3333333333333333e0))))))
end function

function code(alpha, u0)
	return Float32(alpha * Float32(u0 * Float32(alpha + Float32(u0 * Float32(Float32(alpha * Float32(0.5)) + Float32(alpha * Float32(u0 * Float32(0.3333333333333333))))))))
end

function tmp = code(alpha, u0)
	tmp = alpha * (u0 * (alpha + (u0 * ((alpha * single(0.5)) + (alpha * (u0 * single(0.3333333333333333)))))));
end

\begin{array}{l}

\\
\alpha \cdot \left(u0 \cdot \left(\alpha + u0 \cdot \left(\alpha \cdot 0.5 + \alpha \cdot \left(u0 \cdot 0.3333333333333333\right)\right)\right)\right)
\end{array}
Derivation

  1. Initial program 53.4%

    \[\left(\left(-\alpha\right) \cdot \alpha\right) \cdot \log \left(1 - u0\right) \]
  2. Step-by-step derivation

    1. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\left(\left(\mathsf{neg}\left(\alpha\right)\right) \cdot \alpha\right), \color{blue}{\log \left(1 - u0\right)}\right) \]

    2. *-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(\left(\alpha \cdot \left(\mathsf{neg}\left(\alpha\right)\right)\right), \log \color{blue}{\left(1 - u0\right)}\right) \]

    3. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \left(\mathsf{neg}\left(\alpha\right)\right)\right), \log \color{blue}{\left(1 - u0\right)}\right) \]

    4. neg-lowering-neg.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{neg.f32}\left(\alpha\right)\right), \log \left(1 - \color{blue}{u0}\right)\right) \]

    5. sub-negN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{neg.f32}\left(\alpha\right)\right), \log \left(1 + \left(\mathsf{neg}\left(u0\right)\right)\right)\right) \]

    6. log1p-defineN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{neg.f32}\left(\alpha\right)\right), \left(\mathsf{log1p}\left(\mathsf{neg}\left(u0\right)\right)\right)\right) \]

    7. log1p-lowering-log1p.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{neg.f32}\left(\alpha\right)\right), \mathsf{log1p.f32}\left(\left(\mathsf{neg}\left(u0\right)\right)\right)\right) \]

    8. neg-lowering-neg.f3299.0%

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{neg.f32}\left(\alpha\right)\right), \mathsf{log1p.f32}\left(\mathsf{neg.f32}\left(u0\right)\right)\right) \]

  3. Simplified99.0%

    \[\leadsto \color{blue}{\left(\alpha \cdot \left(-\alpha\right)\right) \cdot \mathsf{log1p}\left(-u0\right)} \]
  4. Add Preprocessing
  5. Step-by-step derivation

    1. *-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(\left(\left(\mathsf{neg}\left(\alpha\right)\right) \cdot \alpha\right), \mathsf{log1p.f32}\left(\color{blue}{\mathsf{neg.f32}\left(u0\right)}\right)\right) \]

    2. neg-sub0N/A

      \[\leadsto \mathsf{*.f32}\left(\left(\left(0 - \alpha\right) \cdot \alpha\right), \mathsf{log1p.f32}\left(\mathsf{neg.f32}\left(\color{blue}{u0}\right)\right)\right) \]

    3. flip--N/A

      \[\leadsto \mathsf{*.f32}\left(\left(\frac{0 \cdot 0 - \alpha \cdot \alpha}{0 + \alpha} \cdot \alpha\right), \mathsf{log1p.f32}\left(\mathsf{neg.f32}\left(\color{blue}{u0}\right)\right)\right) \]

    4. metadata-evalN/A

      \[\leadsto \mathsf{*.f32}\left(\left(\frac{0 - \alpha \cdot \alpha}{0 + \alpha} \cdot \alpha\right), \mathsf{log1p.f32}\left(\mathsf{neg.f32}\left(u0\right)\right)\right) \]

    5. neg-sub0N/A

      \[\leadsto \mathsf{*.f32}\left(\left(\frac{\mathsf{neg}\left(\alpha \cdot \alpha\right)}{0 + \alpha} \cdot \alpha\right), \mathsf{log1p.f32}\left(\mathsf{neg.f32}\left(u0\right)\right)\right) \]

    6. distribute-rgt-neg-outN/A

      \[\leadsto \mathsf{*.f32}\left(\left(\frac{\alpha \cdot \left(\mathsf{neg}\left(\alpha\right)\right)}{0 + \alpha} \cdot \alpha\right), \mathsf{log1p.f32}\left(\mathsf{neg.f32}\left(u0\right)\right)\right) \]

    7. +-lft-identityN/A

      \[\leadsto \mathsf{*.f32}\left(\left(\frac{\alpha \cdot \left(\mathsf{neg}\left(\alpha\right)\right)}{\alpha} \cdot \alpha\right), \mathsf{log1p.f32}\left(\mathsf{neg.f32}\left(u0\right)\right)\right) \]

    8. associate-*l/N/A

      \[\leadsto \mathsf{*.f32}\left(\left(\frac{\left(\alpha \cdot \left(\mathsf{neg}\left(\alpha\right)\right)\right) \cdot \alpha}{\alpha}\right), \mathsf{log1p.f32}\left(\color{blue}{\mathsf{neg.f32}\left(u0\right)}\right)\right) \]

    9. /-lowering-/.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{/.f32}\left(\left(\left(\alpha \cdot \left(\mathsf{neg}\left(\alpha\right)\right)\right) \cdot \alpha\right), \alpha\right), \mathsf{log1p.f32}\left(\color{blue}{\mathsf{neg.f32}\left(u0\right)}\right)\right) \]

    10. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{/.f32}\left(\mathsf{*.f32}\left(\left(\alpha \cdot \left(\mathsf{neg}\left(\alpha\right)\right)\right), \alpha\right), \alpha\right), \mathsf{log1p.f32}\left(\mathsf{neg.f32}\left(\color{blue}{u0}\right)\right)\right) \]

    11. distribute-rgt-neg-outN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{/.f32}\left(\mathsf{*.f32}\left(\left(\mathsf{neg}\left(\alpha \cdot \alpha\right)\right), \alpha\right), \alpha\right), \mathsf{log1p.f32}\left(\mathsf{neg.f32}\left(u0\right)\right)\right) \]

    12. neg-lowering-neg.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{/.f32}\left(\mathsf{*.f32}\left(\mathsf{neg.f32}\left(\left(\alpha \cdot \alpha\right)\right), \alpha\right), \alpha\right), \mathsf{log1p.f32}\left(\mathsf{neg.f32}\left(u0\right)\right)\right) \]

    13. *-lowering-*.f3298.9%

      \[\leadsto \mathsf{*.f32}\left(\mathsf{/.f32}\left(\mathsf{*.f32}\left(\mathsf{neg.f32}\left(\mathsf{*.f32}\left(\alpha, \alpha\right)\right), \alpha\right), \alpha\right), \mathsf{log1p.f32}\left(\mathsf{neg.f32}\left(u0\right)\right)\right) \]

  6. Applied egg-rr98.9%

    \[\leadsto \color{blue}{\frac{\left(-\alpha \cdot \alpha\right) \cdot \alpha}{\alpha}} \cdot \mathsf{log1p}\left(-u0\right) \]
  7. Step-by-step derivation

    1. clear-numN/A

      \[\leadsto \frac{1}{\frac{\alpha}{\left(\mathsf{neg}\left(\alpha \cdot \alpha\right)\right) \cdot \alpha}} \cdot \log \color{blue}{\left(1 + \left(\mathsf{neg}\left(u0\right)\right)\right)} \]

    2. *-inversesN/A

      \[\leadsto \frac{\frac{\alpha}{\alpha}}{\frac{\alpha}{\left(\mathsf{neg}\left(\alpha \cdot \alpha\right)\right) \cdot \alpha}} \cdot \log \left(\color{blue}{1} + \left(\mathsf{neg}\left(u0\right)\right)\right) \]

    3. distribute-lft-neg-outN/A

      \[\leadsto \frac{\frac{\alpha}{\alpha}}{\frac{\alpha}{\mathsf{neg}\left(\left(\alpha \cdot \alpha\right) \cdot \alpha\right)}} \cdot \log \left(1 + \left(\mathsf{neg}\left(u0\right)\right)\right) \]

    4. associate-*r*N/A

      \[\leadsto \frac{\frac{\alpha}{\alpha}}{\frac{\alpha}{\mathsf{neg}\left(\alpha \cdot \left(\alpha \cdot \alpha\right)\right)}} \cdot \log \left(1 + \left(\mathsf{neg}\left(u0\right)\right)\right) \]

    5. sub0-negN/A

      \[\leadsto \frac{\frac{\alpha}{\alpha}}{\frac{\alpha}{0 - \alpha \cdot \left(\alpha \cdot \alpha\right)}} \cdot \log \left(1 + \left(\mathsf{neg}\left(u0\right)\right)\right) \]

    6. associate-/r*N/A

      \[\leadsto \frac{\alpha}{\alpha \cdot \frac{\alpha}{0 - \alpha \cdot \left(\alpha \cdot \alpha\right)}} \cdot \log \color{blue}{\left(1 + \left(\mathsf{neg}\left(u0\right)\right)\right)} \]

    7. associate-/l*N/A

      \[\leadsto \frac{\alpha}{\frac{\alpha \cdot \alpha}{0 - \alpha \cdot \left(\alpha \cdot \alpha\right)}} \cdot \log \left(1 + \color{blue}{\left(\mathsf{neg}\left(u0\right)\right)}\right) \]

    8. un-div-invN/A

      \[\leadsto \left(\alpha \cdot \frac{1}{\frac{\alpha \cdot \alpha}{0 - \alpha \cdot \left(\alpha \cdot \alpha\right)}}\right) \cdot \log \color{blue}{\left(1 + \left(\mathsf{neg}\left(u0\right)\right)\right)} \]

    9. associate-*l*N/A

      \[\leadsto \alpha \cdot \color{blue}{\left(\frac{1}{\frac{\alpha \cdot \alpha}{0 - \alpha \cdot \left(\alpha \cdot \alpha\right)}} \cdot \log \left(1 + \left(\mathsf{neg}\left(u0\right)\right)\right)\right)} \]

    10. *-commutativeN/A

      \[\leadsto \left(\frac{1}{\frac{\alpha \cdot \alpha}{0 - \alpha \cdot \left(\alpha \cdot \alpha\right)}} \cdot \log \left(1 + \left(\mathsf{neg}\left(u0\right)\right)\right)\right) \cdot \color{blue}{\alpha} \]

    11. clear-numN/A

      \[\leadsto \left(\frac{0 - \alpha \cdot \left(\alpha \cdot \alpha\right)}{\alpha \cdot \alpha} \cdot \log \left(1 + \left(\mathsf{neg}\left(u0\right)\right)\right)\right) \cdot \alpha \]

    12. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\left(\frac{0 - \alpha \cdot \left(\alpha \cdot \alpha\right)}{\alpha \cdot \alpha} \cdot \log \left(1 + \left(\mathsf{neg}\left(u0\right)\right)\right)\right), \color{blue}{\alpha}\right) \]

  8. Applied egg-rr99.0%

    \[\leadsto \color{blue}{\left(\mathsf{log1p}\left(-u0\right) \cdot \left(-\alpha\right)\right) \cdot \alpha} \]

  9. Taylor expanded in u0 around 0

    \[\leadsto \mathsf{*.f32}\left(\color{blue}{\left(u0 \cdot \left(\alpha + u0 \cdot \left(\frac{1}{3} \cdot \left(\alpha \cdot u0\right) + \frac{1}{2} \cdot \alpha\right)\right)\right)}, \alpha\right) \]
  10. Step-by-step derivation

    1. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(u0, \left(\alpha + u0 \cdot \left(\frac{1}{3} \cdot \left(\alpha \cdot u0\right) + \frac{1}{2} \cdot \alpha\right)\right)\right), \alpha\right) \]

    2. +-lowering-+.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\alpha, \left(u0 \cdot \left(\frac{1}{3} \cdot \left(\alpha \cdot u0\right) + \frac{1}{2} \cdot \alpha\right)\right)\right)\right), \alpha\right) \]

    3. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\alpha, \mathsf{*.f32}\left(u0, \left(\frac{1}{3} \cdot \left(\alpha \cdot u0\right) + \frac{1}{2} \cdot \alpha\right)\right)\right)\right), \alpha\right) \]

    4. +-lowering-+.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\alpha, \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\left(\frac{1}{3} \cdot \left(\alpha \cdot u0\right)\right), \left(\frac{1}{2} \cdot \alpha\right)\right)\right)\right)\right), \alpha\right) \]

    5. associate-*r*N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\alpha, \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\left(\left(\frac{1}{3} \cdot \alpha\right) \cdot u0\right), \left(\frac{1}{2} \cdot \alpha\right)\right)\right)\right)\right), \alpha\right) \]

    6. *-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\alpha, \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\left(\left(\alpha \cdot \frac{1}{3}\right) \cdot u0\right), \left(\frac{1}{2} \cdot \alpha\right)\right)\right)\right)\right), \alpha\right) \]

    7. associate-*l*N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\alpha, \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\left(\alpha \cdot \left(\frac{1}{3} \cdot u0\right)\right), \left(\frac{1}{2} \cdot \alpha\right)\right)\right)\right)\right), \alpha\right) \]

    8. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\alpha, \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\mathsf{*.f32}\left(\alpha, \left(\frac{1}{3} \cdot u0\right)\right), \left(\frac{1}{2} \cdot \alpha\right)\right)\right)\right)\right), \alpha\right) \]

    9. *-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\alpha, \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\mathsf{*.f32}\left(\alpha, \left(u0 \cdot \frac{1}{3}\right)\right), \left(\frac{1}{2} \cdot \alpha\right)\right)\right)\right)\right), \alpha\right) \]

    10. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\alpha, \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{*.f32}\left(u0, \frac{1}{3}\right)\right), \left(\frac{1}{2} \cdot \alpha\right)\right)\right)\right)\right), \alpha\right) \]

    11. *-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\alpha, \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{*.f32}\left(u0, \frac{1}{3}\right)\right), \left(\alpha \cdot \frac{1}{2}\right)\right)\right)\right)\right), \alpha\right) \]

    12. *-lowering-*.f3292.9%

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\alpha, \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{*.f32}\left(u0, \frac{1}{3}\right)\right), \mathsf{*.f32}\left(\alpha, \frac{1}{2}\right)\right)\right)\right)\right), \alpha\right) \]

  11. Simplified92.9%

    \[\leadsto \color{blue}{\left(u0 \cdot \left(\alpha + u0 \cdot \left(\alpha \cdot \left(u0 \cdot 0.3333333333333333\right) + \alpha \cdot 0.5\right)\right)\right)} \cdot \alpha \]

  12. Final simplification92.9%

    \[\leadsto \alpha \cdot \left(u0 \cdot \left(\alpha + u0 \cdot \left(\alpha \cdot 0.5 + \alpha \cdot \left(u0 \cdot 0.3333333333333333\right)\right)\right)\right) \]
  13. Add Preprocessing

Alternative 6: 91.4% accurate, 6.8× speedup?

\[\begin{array}{l} \\ \alpha \cdot \left(\alpha \cdot \left(u0 \cdot \left(\left(-u0\right) \cdot \left(-0.5 + u0 \cdot -0.3333333333333333\right) - -1\right)\right)\right) \end{array} \]
(FPCore (alpha u0)
 :precision binary32
 (*
  alpha
  (* alpha (* u0 (- (* (- u0) (+ -0.5 (* u0 -0.3333333333333333))) -1.0)))))
float code(float alpha, float u0) {
	return alpha * (alpha * (u0 * ((-u0 * (-0.5f + (u0 * -0.3333333333333333f))) - -1.0f)));
}

real(4) function code(alpha, u0)
    real(4), intent (in) :: alpha
    real(4), intent (in) :: u0
    code = alpha * (alpha * (u0 * ((-u0 * ((-0.5e0) + (u0 * (-0.3333333333333333e0)))) - (-1.0e0))))
end function

function code(alpha, u0)
	return Float32(alpha * Float32(alpha * Float32(u0 * Float32(Float32(Float32(-u0) * Float32(Float32(-0.5) + Float32(u0 * Float32(-0.3333333333333333)))) - Float32(-1.0)))))
end

function tmp = code(alpha, u0)
	tmp = alpha * (alpha * (u0 * ((-u0 * (single(-0.5) + (u0 * single(-0.3333333333333333)))) - single(-1.0))));
end

\begin{array}{l}

\\
\alpha \cdot \left(\alpha \cdot \left(u0 \cdot \left(\left(-u0\right) \cdot \left(-0.5 + u0 \cdot -0.3333333333333333\right) - -1\right)\right)\right)
\end{array}
Derivation

  1. Initial program 53.4%

    \[\left(\left(-\alpha\right) \cdot \alpha\right) \cdot \log \left(1 - u0\right) \]
  2. Add Preprocessing

  3. Taylor expanded in u0 around 0

    \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\mathsf{neg.f32}\left(\alpha\right), \alpha\right), \color{blue}{\left(u0 \cdot \left(u0 \cdot \left(\frac{-1}{3} \cdot u0 - \frac{1}{2}\right) - 1\right)\right)}\right) \]
  4. Step-by-step derivation

    1. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\mathsf{neg.f32}\left(\alpha\right), \alpha\right), \mathsf{*.f32}\left(u0, \color{blue}{\left(u0 \cdot \left(\frac{-1}{3} \cdot u0 - \frac{1}{2}\right) - 1\right)}\right)\right) \]

    2. sub-negN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\mathsf{neg.f32}\left(\alpha\right), \alpha\right), \mathsf{*.f32}\left(u0, \left(u0 \cdot \left(\frac{-1}{3} \cdot u0 - \frac{1}{2}\right) + \color{blue}{\left(\mathsf{neg}\left(1\right)\right)}\right)\right)\right) \]

    3. metadata-evalN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\mathsf{neg.f32}\left(\alpha\right), \alpha\right), \mathsf{*.f32}\left(u0, \left(u0 \cdot \left(\frac{-1}{3} \cdot u0 - \frac{1}{2}\right) + -1\right)\right)\right) \]

    4. +-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\mathsf{neg.f32}\left(\alpha\right), \alpha\right), \mathsf{*.f32}\left(u0, \left(-1 + \color{blue}{u0 \cdot \left(\frac{-1}{3} \cdot u0 - \frac{1}{2}\right)}\right)\right)\right) \]

    5. +-lowering-+.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\mathsf{neg.f32}\left(\alpha\right), \alpha\right), \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(-1, \color{blue}{\left(u0 \cdot \left(\frac{-1}{3} \cdot u0 - \frac{1}{2}\right)\right)}\right)\right)\right) \]

    6. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\mathsf{neg.f32}\left(\alpha\right), \alpha\right), \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(-1, \mathsf{*.f32}\left(u0, \color{blue}{\left(\frac{-1}{3} \cdot u0 - \frac{1}{2}\right)}\right)\right)\right)\right) \]

    7. sub-negN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\mathsf{neg.f32}\left(\alpha\right), \alpha\right), \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(-1, \mathsf{*.f32}\left(u0, \left(\frac{-1}{3} \cdot u0 + \color{blue}{\left(\mathsf{neg}\left(\frac{1}{2}\right)\right)}\right)\right)\right)\right)\right) \]

    8. metadata-evalN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\mathsf{neg.f32}\left(\alpha\right), \alpha\right), \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(-1, \mathsf{*.f32}\left(u0, \left(\frac{-1}{3} \cdot u0 + \frac{-1}{2}\right)\right)\right)\right)\right) \]

    9. +-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\mathsf{neg.f32}\left(\alpha\right), \alpha\right), \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(-1, \mathsf{*.f32}\left(u0, \left(\frac{-1}{2} + \color{blue}{\frac{-1}{3} \cdot u0}\right)\right)\right)\right)\right) \]

    10. +-lowering-+.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\mathsf{neg.f32}\left(\alpha\right), \alpha\right), \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(-1, \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\frac{-1}{2}, \color{blue}{\left(\frac{-1}{3} \cdot u0\right)}\right)\right)\right)\right)\right) \]

    11. *-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\mathsf{neg.f32}\left(\alpha\right), \alpha\right), \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(-1, \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\frac{-1}{2}, \left(u0 \cdot \color{blue}{\frac{-1}{3}}\right)\right)\right)\right)\right)\right) \]

    12. *-lowering-*.f3292.7%

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\mathsf{neg.f32}\left(\alpha\right), \alpha\right), \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(-1, \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\frac{-1}{2}, \mathsf{*.f32}\left(u0, \color{blue}{\frac{-1}{3}}\right)\right)\right)\right)\right)\right) \]

  5. Simplified92.7%

    \[\leadsto \left(\left(-\alpha\right) \cdot \alpha\right) \cdot \color{blue}{\left(u0 \cdot \left(-1 + u0 \cdot \left(-0.5 + u0 \cdot -0.3333333333333333\right)\right)\right)} \]
  6. Step-by-step derivation

    1. distribute-lft-neg-inN/A

      \[\leadsto \left(\mathsf{neg}\left(\alpha \cdot \alpha\right)\right) \cdot \left(\color{blue}{u0} \cdot \left(-1 + u0 \cdot \left(\frac{-1}{2} + u0 \cdot \frac{-1}{3}\right)\right)\right) \]

    2. *-commutativeN/A

      \[\leadsto \left(u0 \cdot \left(-1 + u0 \cdot \left(\frac{-1}{2} + u0 \cdot \frac{-1}{3}\right)\right)\right) \cdot \color{blue}{\left(\mathsf{neg}\left(\alpha \cdot \alpha\right)\right)} \]

    3. distribute-lft-neg-inN/A

      \[\leadsto \left(u0 \cdot \left(-1 + u0 \cdot \left(\frac{-1}{2} + u0 \cdot \frac{-1}{3}\right)\right)\right) \cdot \left(\left(\mathsf{neg}\left(\alpha\right)\right) \cdot \color{blue}{\alpha}\right) \]

    4. associate-*r*N/A

      \[\leadsto \left(\left(u0 \cdot \left(-1 + u0 \cdot \left(\frac{-1}{2} + u0 \cdot \frac{-1}{3}\right)\right)\right) \cdot \left(\mathsf{neg}\left(\alpha\right)\right)\right) \cdot \color{blue}{\alpha} \]

    5. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\left(\left(u0 \cdot \left(-1 + u0 \cdot \left(\frac{-1}{2} + u0 \cdot \frac{-1}{3}\right)\right)\right) \cdot \left(\mathsf{neg}\left(\alpha\right)\right)\right), \color{blue}{\alpha}\right) \]

    6. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\left(u0 \cdot \left(-1 + u0 \cdot \left(\frac{-1}{2} + u0 \cdot \frac{-1}{3}\right)\right)\right), \left(\mathsf{neg}\left(\alpha\right)\right)\right), \alpha\right) \]

    7. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\mathsf{*.f32}\left(u0, \left(-1 + u0 \cdot \left(\frac{-1}{2} + u0 \cdot \frac{-1}{3}\right)\right)\right), \left(\mathsf{neg}\left(\alpha\right)\right)\right), \alpha\right) \]

    8. +-lowering-+.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(-1, \left(u0 \cdot \left(\frac{-1}{2} + u0 \cdot \frac{-1}{3}\right)\right)\right)\right), \left(\mathsf{neg}\left(\alpha\right)\right)\right), \alpha\right) \]

    9. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(-1, \mathsf{*.f32}\left(u0, \left(\frac{-1}{2} + u0 \cdot \frac{-1}{3}\right)\right)\right)\right), \left(\mathsf{neg}\left(\alpha\right)\right)\right), \alpha\right) \]

    10. +-lowering-+.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(-1, \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\frac{-1}{2}, \left(u0 \cdot \frac{-1}{3}\right)\right)\right)\right)\right), \left(\mathsf{neg}\left(\alpha\right)\right)\right), \alpha\right) \]

    11. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(-1, \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\frac{-1}{2}, \mathsf{*.f32}\left(u0, \frac{-1}{3}\right)\right)\right)\right)\right), \left(\mathsf{neg}\left(\alpha\right)\right)\right), \alpha\right) \]

    12. neg-lowering-neg.f3292.8%

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(-1, \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\frac{-1}{2}, \mathsf{*.f32}\left(u0, \frac{-1}{3}\right)\right)\right)\right)\right), \mathsf{neg.f32}\left(\alpha\right)\right), \alpha\right) \]

  7. Applied egg-rr92.8%

    \[\leadsto \color{blue}{\left(\left(u0 \cdot \left(-1 + u0 \cdot \left(-0.5 + u0 \cdot -0.3333333333333333\right)\right)\right) \cdot \left(-\alpha\right)\right) \cdot \alpha} \]

  8. Final simplification92.8%

    \[\leadsto \alpha \cdot \left(\alpha \cdot \left(u0 \cdot \left(\left(-u0\right) \cdot \left(-0.5 + u0 \cdot -0.3333333333333333\right) - -1\right)\right)\right) \]
  9. Add Preprocessing

Alternative 7: 91.3% accurate, 6.8× speedup?

\[\begin{array}{l} \\ \left(\alpha \cdot \alpha\right) \cdot \left(u0 \cdot \left(\left(-u0\right) \cdot \left(-0.5 + u0 \cdot -0.3333333333333333\right) - -1\right)\right) \end{array} \]
(FPCore (alpha u0)
 :precision binary32
 (*
  (* alpha alpha)
  (* u0 (- (* (- u0) (+ -0.5 (* u0 -0.3333333333333333))) -1.0))))
float code(float alpha, float u0) {
	return (alpha * alpha) * (u0 * ((-u0 * (-0.5f + (u0 * -0.3333333333333333f))) - -1.0f));
}

real(4) function code(alpha, u0)
    real(4), intent (in) :: alpha
    real(4), intent (in) :: u0
    code = (alpha * alpha) * (u0 * ((-u0 * ((-0.5e0) + (u0 * (-0.3333333333333333e0)))) - (-1.0e0)))
end function

function code(alpha, u0)
	return Float32(Float32(alpha * alpha) * Float32(u0 * Float32(Float32(Float32(-u0) * Float32(Float32(-0.5) + Float32(u0 * Float32(-0.3333333333333333)))) - Float32(-1.0))))
end

function tmp = code(alpha, u0)
	tmp = (alpha * alpha) * (u0 * ((-u0 * (single(-0.5) + (u0 * single(-0.3333333333333333)))) - single(-1.0)));
end

\begin{array}{l}

\\
\left(\alpha \cdot \alpha\right) \cdot \left(u0 \cdot \left(\left(-u0\right) \cdot \left(-0.5 + u0 \cdot -0.3333333333333333\right) - -1\right)\right)
\end{array}
Derivation

  1. Initial program 53.4%

    \[\left(\left(-\alpha\right) \cdot \alpha\right) \cdot \log \left(1 - u0\right) \]
  2. Add Preprocessing

  3. Taylor expanded in u0 around 0

    \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\mathsf{neg.f32}\left(\alpha\right), \alpha\right), \color{blue}{\left(u0 \cdot \left(u0 \cdot \left(\frac{-1}{3} \cdot u0 - \frac{1}{2}\right) - 1\right)\right)}\right) \]
  4. Step-by-step derivation

    1. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\mathsf{neg.f32}\left(\alpha\right), \alpha\right), \mathsf{*.f32}\left(u0, \color{blue}{\left(u0 \cdot \left(\frac{-1}{3} \cdot u0 - \frac{1}{2}\right) - 1\right)}\right)\right) \]

    2. sub-negN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\mathsf{neg.f32}\left(\alpha\right), \alpha\right), \mathsf{*.f32}\left(u0, \left(u0 \cdot \left(\frac{-1}{3} \cdot u0 - \frac{1}{2}\right) + \color{blue}{\left(\mathsf{neg}\left(1\right)\right)}\right)\right)\right) \]

    3. metadata-evalN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\mathsf{neg.f32}\left(\alpha\right), \alpha\right), \mathsf{*.f32}\left(u0, \left(u0 \cdot \left(\frac{-1}{3} \cdot u0 - \frac{1}{2}\right) + -1\right)\right)\right) \]

    4. +-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\mathsf{neg.f32}\left(\alpha\right), \alpha\right), \mathsf{*.f32}\left(u0, \left(-1 + \color{blue}{u0 \cdot \left(\frac{-1}{3} \cdot u0 - \frac{1}{2}\right)}\right)\right)\right) \]

    5. +-lowering-+.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\mathsf{neg.f32}\left(\alpha\right), \alpha\right), \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(-1, \color{blue}{\left(u0 \cdot \left(\frac{-1}{3} \cdot u0 - \frac{1}{2}\right)\right)}\right)\right)\right) \]

    6. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\mathsf{neg.f32}\left(\alpha\right), \alpha\right), \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(-1, \mathsf{*.f32}\left(u0, \color{blue}{\left(\frac{-1}{3} \cdot u0 - \frac{1}{2}\right)}\right)\right)\right)\right) \]

    7. sub-negN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\mathsf{neg.f32}\left(\alpha\right), \alpha\right), \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(-1, \mathsf{*.f32}\left(u0, \left(\frac{-1}{3} \cdot u0 + \color{blue}{\left(\mathsf{neg}\left(\frac{1}{2}\right)\right)}\right)\right)\right)\right)\right) \]

    8. metadata-evalN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\mathsf{neg.f32}\left(\alpha\right), \alpha\right), \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(-1, \mathsf{*.f32}\left(u0, \left(\frac{-1}{3} \cdot u0 + \frac{-1}{2}\right)\right)\right)\right)\right) \]

    9. +-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\mathsf{neg.f32}\left(\alpha\right), \alpha\right), \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(-1, \mathsf{*.f32}\left(u0, \left(\frac{-1}{2} + \color{blue}{\frac{-1}{3} \cdot u0}\right)\right)\right)\right)\right) \]

    10. +-lowering-+.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\mathsf{neg.f32}\left(\alpha\right), \alpha\right), \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(-1, \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\frac{-1}{2}, \color{blue}{\left(\frac{-1}{3} \cdot u0\right)}\right)\right)\right)\right)\right) \]

    11. *-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\mathsf{neg.f32}\left(\alpha\right), \alpha\right), \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(-1, \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\frac{-1}{2}, \left(u0 \cdot \color{blue}{\frac{-1}{3}}\right)\right)\right)\right)\right)\right) \]

    12. *-lowering-*.f3292.7%

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\mathsf{neg.f32}\left(\alpha\right), \alpha\right), \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(-1, \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\frac{-1}{2}, \mathsf{*.f32}\left(u0, \color{blue}{\frac{-1}{3}}\right)\right)\right)\right)\right)\right) \]

  5. Simplified92.7%

    \[\leadsto \left(\left(-\alpha\right) \cdot \alpha\right) \cdot \color{blue}{\left(u0 \cdot \left(-1 + u0 \cdot \left(-0.5 + u0 \cdot -0.3333333333333333\right)\right)\right)} \]

  6. Final simplification92.7%

    \[\leadsto \left(\alpha \cdot \alpha\right) \cdot \left(u0 \cdot \left(\left(-u0\right) \cdot \left(-0.5 + u0 \cdot -0.3333333333333333\right) - -1\right)\right) \]
  7. Add Preprocessing

Alternative 8: 91.4% accurate, 6.8× speedup?

\[\begin{array}{l} \\ \left(u0 \cdot \left(\alpha \cdot \alpha\right)\right) \cdot \left(\left(-u0\right) \cdot \left(-0.5 + u0 \cdot -0.3333333333333333\right) - -1\right) \end{array} \]
(FPCore (alpha u0)
 :precision binary32
 (*
  (* u0 (* alpha alpha))
  (- (* (- u0) (+ -0.5 (* u0 -0.3333333333333333))) -1.0)))
float code(float alpha, float u0) {
	return (u0 * (alpha * alpha)) * ((-u0 * (-0.5f + (u0 * -0.3333333333333333f))) - -1.0f);
}

real(4) function code(alpha, u0)
    real(4), intent (in) :: alpha
    real(4), intent (in) :: u0
    code = (u0 * (alpha * alpha)) * ((-u0 * ((-0.5e0) + (u0 * (-0.3333333333333333e0)))) - (-1.0e0))
end function

function code(alpha, u0)
	return Float32(Float32(u0 * Float32(alpha * alpha)) * Float32(Float32(Float32(-u0) * Float32(Float32(-0.5) + Float32(u0 * Float32(-0.3333333333333333)))) - Float32(-1.0)))
end

function tmp = code(alpha, u0)
	tmp = (u0 * (alpha * alpha)) * ((-u0 * (single(-0.5) + (u0 * single(-0.3333333333333333)))) - single(-1.0));
end

\begin{array}{l}

\\
\left(u0 \cdot \left(\alpha \cdot \alpha\right)\right) \cdot \left(\left(-u0\right) \cdot \left(-0.5 + u0 \cdot -0.3333333333333333\right) - -1\right)
\end{array}
Derivation

  1. Initial program 53.4%

    \[\left(\left(-\alpha\right) \cdot \alpha\right) \cdot \log \left(1 - u0\right) \]
  2. Add Preprocessing

  3. Taylor expanded in u0 around 0

    \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\mathsf{neg.f32}\left(\alpha\right), \alpha\right), \color{blue}{\left(u0 \cdot \left(u0 \cdot \left(\frac{-1}{3} \cdot u0 - \frac{1}{2}\right) - 1\right)\right)}\right) \]
  4. Step-by-step derivation

    1. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\mathsf{neg.f32}\left(\alpha\right), \alpha\right), \mathsf{*.f32}\left(u0, \color{blue}{\left(u0 \cdot \left(\frac{-1}{3} \cdot u0 - \frac{1}{2}\right) - 1\right)}\right)\right) \]

    2. sub-negN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\mathsf{neg.f32}\left(\alpha\right), \alpha\right), \mathsf{*.f32}\left(u0, \left(u0 \cdot \left(\frac{-1}{3} \cdot u0 - \frac{1}{2}\right) + \color{blue}{\left(\mathsf{neg}\left(1\right)\right)}\right)\right)\right) \]

    3. metadata-evalN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\mathsf{neg.f32}\left(\alpha\right), \alpha\right), \mathsf{*.f32}\left(u0, \left(u0 \cdot \left(\frac{-1}{3} \cdot u0 - \frac{1}{2}\right) + -1\right)\right)\right) \]

    4. +-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\mathsf{neg.f32}\left(\alpha\right), \alpha\right), \mathsf{*.f32}\left(u0, \left(-1 + \color{blue}{u0 \cdot \left(\frac{-1}{3} \cdot u0 - \frac{1}{2}\right)}\right)\right)\right) \]

    5. +-lowering-+.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\mathsf{neg.f32}\left(\alpha\right), \alpha\right), \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(-1, \color{blue}{\left(u0 \cdot \left(\frac{-1}{3} \cdot u0 - \frac{1}{2}\right)\right)}\right)\right)\right) \]

    6. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\mathsf{neg.f32}\left(\alpha\right), \alpha\right), \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(-1, \mathsf{*.f32}\left(u0, \color{blue}{\left(\frac{-1}{3} \cdot u0 - \frac{1}{2}\right)}\right)\right)\right)\right) \]

    7. sub-negN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\mathsf{neg.f32}\left(\alpha\right), \alpha\right), \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(-1, \mathsf{*.f32}\left(u0, \left(\frac{-1}{3} \cdot u0 + \color{blue}{\left(\mathsf{neg}\left(\frac{1}{2}\right)\right)}\right)\right)\right)\right)\right) \]

    8. metadata-evalN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\mathsf{neg.f32}\left(\alpha\right), \alpha\right), \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(-1, \mathsf{*.f32}\left(u0, \left(\frac{-1}{3} \cdot u0 + \frac{-1}{2}\right)\right)\right)\right)\right) \]

    9. +-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\mathsf{neg.f32}\left(\alpha\right), \alpha\right), \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(-1, \mathsf{*.f32}\left(u0, \left(\frac{-1}{2} + \color{blue}{\frac{-1}{3} \cdot u0}\right)\right)\right)\right)\right) \]

    10. +-lowering-+.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\mathsf{neg.f32}\left(\alpha\right), \alpha\right), \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(-1, \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\frac{-1}{2}, \color{blue}{\left(\frac{-1}{3} \cdot u0\right)}\right)\right)\right)\right)\right) \]

    11. *-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\mathsf{neg.f32}\left(\alpha\right), \alpha\right), \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(-1, \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\frac{-1}{2}, \left(u0 \cdot \color{blue}{\frac{-1}{3}}\right)\right)\right)\right)\right)\right) \]

    12. *-lowering-*.f3292.7%

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\mathsf{neg.f32}\left(\alpha\right), \alpha\right), \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(-1, \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\frac{-1}{2}, \mathsf{*.f32}\left(u0, \color{blue}{\frac{-1}{3}}\right)\right)\right)\right)\right)\right) \]

  5. Simplified92.7%

    \[\leadsto \left(\left(-\alpha\right) \cdot \alpha\right) \cdot \color{blue}{\left(u0 \cdot \left(-1 + u0 \cdot \left(-0.5 + u0 \cdot -0.3333333333333333\right)\right)\right)} \]
  6. Step-by-step derivation

    1. unpow1N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\left(\mathsf{neg}\left({\alpha}^{1}\right)\right), \alpha\right), \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(-1, \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\frac{-1}{2}, \mathsf{*.f32}\left(u0, \frac{-1}{3}\right)\right)\right)\right)\right)\right) \]

    2. metadata-evalN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\left(\mathsf{neg}\left({\alpha}^{\left(3 - 2\right)}\right)\right), \alpha\right), \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(-1, \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\frac{-1}{2}, \mathsf{*.f32}\left(u0, \frac{-1}{3}\right)\right)\right)\right)\right)\right) \]

    3. pow-divN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\left(\mathsf{neg}\left(\frac{{\alpha}^{3}}{{\alpha}^{2}}\right)\right), \alpha\right), \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(-1, \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\frac{-1}{2}, \mathsf{*.f32}\left(u0, \frac{-1}{3}\right)\right)\right)\right)\right)\right) \]

    4. cube-unmultN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\left(\mathsf{neg}\left(\frac{\alpha \cdot \left(\alpha \cdot \alpha\right)}{{\alpha}^{2}}\right)\right), \alpha\right), \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(-1, \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\frac{-1}{2}, \mathsf{*.f32}\left(u0, \frac{-1}{3}\right)\right)\right)\right)\right)\right) \]

    5. pow2N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\left(\mathsf{neg}\left(\frac{\alpha \cdot \left(\alpha \cdot \alpha\right)}{\alpha \cdot \alpha}\right)\right), \alpha\right), \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(-1, \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\frac{-1}{2}, \mathsf{*.f32}\left(u0, \frac{-1}{3}\right)\right)\right)\right)\right)\right) \]

    6. distribute-frac-negN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\left(\frac{\mathsf{neg}\left(\alpha \cdot \left(\alpha \cdot \alpha\right)\right)}{\alpha \cdot \alpha}\right), \alpha\right), \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(-1, \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\frac{-1}{2}, \mathsf{*.f32}\left(u0, \frac{-1}{3}\right)\right)\right)\right)\right)\right) \]

    7. sub0-negN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\left(\frac{0 - \alpha \cdot \left(\alpha \cdot \alpha\right)}{\alpha \cdot \alpha}\right), \alpha\right), \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(-1, \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\frac{-1}{2}, \mathsf{*.f32}\left(u0, \frac{-1}{3}\right)\right)\right)\right)\right)\right) \]

    8. /-lowering-/.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\mathsf{/.f32}\left(\left(0 - \alpha \cdot \left(\alpha \cdot \alpha\right)\right), \left(\alpha \cdot \alpha\right)\right), \alpha\right), \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(-1, \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\frac{-1}{2}, \mathsf{*.f32}\left(u0, \frac{-1}{3}\right)\right)\right)\right)\right)\right) \]

    9. sub0-negN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\mathsf{/.f32}\left(\left(\mathsf{neg}\left(\alpha \cdot \left(\alpha \cdot \alpha\right)\right)\right), \left(\alpha \cdot \alpha\right)\right), \alpha\right), \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(-1, \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\frac{-1}{2}, \mathsf{*.f32}\left(u0, \frac{-1}{3}\right)\right)\right)\right)\right)\right) \]

    10. neg-lowering-neg.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\mathsf{/.f32}\left(\mathsf{neg.f32}\left(\left(\alpha \cdot \left(\alpha \cdot \alpha\right)\right)\right), \left(\alpha \cdot \alpha\right)\right), \alpha\right), \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(-1, \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\frac{-1}{2}, \mathsf{*.f32}\left(u0, \frac{-1}{3}\right)\right)\right)\right)\right)\right) \]

    11. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\mathsf{/.f32}\left(\mathsf{neg.f32}\left(\mathsf{*.f32}\left(\alpha, \left(\alpha \cdot \alpha\right)\right)\right), \left(\alpha \cdot \alpha\right)\right), \alpha\right), \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(-1, \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\frac{-1}{2}, \mathsf{*.f32}\left(u0, \frac{-1}{3}\right)\right)\right)\right)\right)\right) \]

    12. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\mathsf{/.f32}\left(\mathsf{neg.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{*.f32}\left(\alpha, \alpha\right)\right)\right), \left(\alpha \cdot \alpha\right)\right), \alpha\right), \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(-1, \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\frac{-1}{2}, \mathsf{*.f32}\left(u0, \frac{-1}{3}\right)\right)\right)\right)\right)\right) \]

    13. *-lowering-*.f3292.6%

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\mathsf{/.f32}\left(\mathsf{neg.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{*.f32}\left(\alpha, \alpha\right)\right)\right), \mathsf{*.f32}\left(\alpha, \alpha\right)\right), \alpha\right), \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(-1, \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\frac{-1}{2}, \mathsf{*.f32}\left(u0, \frac{-1}{3}\right)\right)\right)\right)\right)\right) \]

  7. Applied egg-rr92.6%

    \[\leadsto \left(\color{blue}{\frac{-\alpha \cdot \left(\alpha \cdot \alpha\right)}{\alpha \cdot \alpha}} \cdot \alpha\right) \cdot \left(u0 \cdot \left(-1 + u0 \cdot \left(-0.5 + u0 \cdot -0.3333333333333333\right)\right)\right) \]

  8. Taylor expanded in alpha around 0

    \[\leadsto \color{blue}{-1 \cdot \left({\alpha}^{2} \cdot \left(u0 \cdot \left(u0 \cdot \left(\frac{-1}{3} \cdot u0 - \frac{1}{2}\right) - 1\right)\right)\right)} \]
  9. Step-by-step derivation

    1. mul-1-negN/A

      \[\leadsto \mathsf{neg}\left({\alpha}^{2} \cdot \left(u0 \cdot \left(u0 \cdot \left(\frac{-1}{3} \cdot u0 - \frac{1}{2}\right) - 1\right)\right)\right) \]

    2. associate-*r*N/A

      \[\leadsto \mathsf{neg}\left(\left({\alpha}^{2} \cdot u0\right) \cdot \left(u0 \cdot \left(\frac{-1}{3} \cdot u0 - \frac{1}{2}\right) - 1\right)\right) \]

    3. distribute-lft-neg-inN/A

      \[\leadsto \left(\mathsf{neg}\left({\alpha}^{2} \cdot u0\right)\right) \cdot \color{blue}{\left(u0 \cdot \left(\frac{-1}{3} \cdot u0 - \frac{1}{2}\right) - 1\right)} \]

    4. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\left(\mathsf{neg}\left({\alpha}^{2} \cdot u0\right)\right), \color{blue}{\left(u0 \cdot \left(\frac{-1}{3} \cdot u0 - \frac{1}{2}\right) - 1\right)}\right) \]

    5. neg-lowering-neg.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{neg.f32}\left(\left({\alpha}^{2} \cdot u0\right)\right), \left(\color{blue}{u0 \cdot \left(\frac{-1}{3} \cdot u0 - \frac{1}{2}\right)} - 1\right)\right) \]

    6. *-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{neg.f32}\left(\left(u0 \cdot {\alpha}^{2}\right)\right), \left(\color{blue}{u0} \cdot \left(\frac{-1}{3} \cdot u0 - \frac{1}{2}\right) - 1\right)\right) \]

    7. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{neg.f32}\left(\mathsf{*.f32}\left(u0, \left({\alpha}^{2}\right)\right)\right), \left(\color{blue}{u0} \cdot \left(\frac{-1}{3} \cdot u0 - \frac{1}{2}\right) - 1\right)\right) \]

    8. unpow2N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{neg.f32}\left(\mathsf{*.f32}\left(u0, \left(\alpha \cdot \alpha\right)\right)\right), \left(u0 \cdot \left(\frac{-1}{3} \cdot u0 - \frac{1}{2}\right) - 1\right)\right) \]

    9. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{neg.f32}\left(\mathsf{*.f32}\left(u0, \mathsf{*.f32}\left(\alpha, \alpha\right)\right)\right), \left(u0 \cdot \left(\frac{-1}{3} \cdot u0 - \frac{1}{2}\right) - 1\right)\right) \]

    10. sub-negN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{neg.f32}\left(\mathsf{*.f32}\left(u0, \mathsf{*.f32}\left(\alpha, \alpha\right)\right)\right), \left(u0 \cdot \left(\frac{-1}{3} \cdot u0 - \frac{1}{2}\right) + \color{blue}{\left(\mathsf{neg}\left(1\right)\right)}\right)\right) \]

    11. metadata-evalN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{neg.f32}\left(\mathsf{*.f32}\left(u0, \mathsf{*.f32}\left(\alpha, \alpha\right)\right)\right), \left(u0 \cdot \left(\frac{-1}{3} \cdot u0 - \frac{1}{2}\right) + -1\right)\right) \]

    12. +-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{neg.f32}\left(\mathsf{*.f32}\left(u0, \mathsf{*.f32}\left(\alpha, \alpha\right)\right)\right), \left(-1 + \color{blue}{u0 \cdot \left(\frac{-1}{3} \cdot u0 - \frac{1}{2}\right)}\right)\right) \]

    13. +-lowering-+.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{neg.f32}\left(\mathsf{*.f32}\left(u0, \mathsf{*.f32}\left(\alpha, \alpha\right)\right)\right), \mathsf{+.f32}\left(-1, \color{blue}{\left(u0 \cdot \left(\frac{-1}{3} \cdot u0 - \frac{1}{2}\right)\right)}\right)\right) \]

    14. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{neg.f32}\left(\mathsf{*.f32}\left(u0, \mathsf{*.f32}\left(\alpha, \alpha\right)\right)\right), \mathsf{+.f32}\left(-1, \mathsf{*.f32}\left(u0, \color{blue}{\left(\frac{-1}{3} \cdot u0 - \frac{1}{2}\right)}\right)\right)\right) \]

    15. sub-negN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{neg.f32}\left(\mathsf{*.f32}\left(u0, \mathsf{*.f32}\left(\alpha, \alpha\right)\right)\right), \mathsf{+.f32}\left(-1, \mathsf{*.f32}\left(u0, \left(\frac{-1}{3} \cdot u0 + \color{blue}{\left(\mathsf{neg}\left(\frac{1}{2}\right)\right)}\right)\right)\right)\right) \]

    16. metadata-evalN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{neg.f32}\left(\mathsf{*.f32}\left(u0, \mathsf{*.f32}\left(\alpha, \alpha\right)\right)\right), \mathsf{+.f32}\left(-1, \mathsf{*.f32}\left(u0, \left(\frac{-1}{3} \cdot u0 + \frac{-1}{2}\right)\right)\right)\right) \]

    17. +-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{neg.f32}\left(\mathsf{*.f32}\left(u0, \mathsf{*.f32}\left(\alpha, \alpha\right)\right)\right), \mathsf{+.f32}\left(-1, \mathsf{*.f32}\left(u0, \left(\frac{-1}{2} + \color{blue}{\frac{-1}{3} \cdot u0}\right)\right)\right)\right) \]

    18. +-lowering-+.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{neg.f32}\left(\mathsf{*.f32}\left(u0, \mathsf{*.f32}\left(\alpha, \alpha\right)\right)\right), \mathsf{+.f32}\left(-1, \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\frac{-1}{2}, \color{blue}{\left(\frac{-1}{3} \cdot u0\right)}\right)\right)\right)\right) \]

    19. *-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{neg.f32}\left(\mathsf{*.f32}\left(u0, \mathsf{*.f32}\left(\alpha, \alpha\right)\right)\right), \mathsf{+.f32}\left(-1, \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\frac{-1}{2}, \left(u0 \cdot \color{blue}{\frac{-1}{3}}\right)\right)\right)\right)\right) \]

    20. *-lowering-*.f3292.7%

      \[\leadsto \mathsf{*.f32}\left(\mathsf{neg.f32}\left(\mathsf{*.f32}\left(u0, \mathsf{*.f32}\left(\alpha, \alpha\right)\right)\right), \mathsf{+.f32}\left(-1, \mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\frac{-1}{2}, \mathsf{*.f32}\left(u0, \color{blue}{\frac{-1}{3}}\right)\right)\right)\right)\right) \]

  10. Simplified92.7%

    \[\leadsto \color{blue}{\left(-u0 \cdot \left(\alpha \cdot \alpha\right)\right) \cdot \left(-1 + u0 \cdot \left(-0.5 + u0 \cdot -0.3333333333333333\right)\right)} \]

  11. Final simplification92.7%

    \[\leadsto \left(u0 \cdot \left(\alpha \cdot \alpha\right)\right) \cdot \left(\left(-u0\right) \cdot \left(-0.5 + u0 \cdot -0.3333333333333333\right) - -1\right) \]
  12. Add Preprocessing

Alternative 9: 87.5% accurate, 9.8× speedup?

\[\begin{array}{l} \\ \alpha \cdot \left(u0 \cdot \left(\alpha + \alpha \cdot \left(u0 \cdot 0.5\right)\right)\right) \end{array} \]
(FPCore (alpha u0)
 :precision binary32
 (* alpha (* u0 (+ alpha (* alpha (* u0 0.5))))))
float code(float alpha, float u0) {
	return alpha * (u0 * (alpha + (alpha * (u0 * 0.5f))));
}

real(4) function code(alpha, u0)
    real(4), intent (in) :: alpha
    real(4), intent (in) :: u0
    code = alpha * (u0 * (alpha + (alpha * (u0 * 0.5e0))))
end function

function code(alpha, u0)
	return Float32(alpha * Float32(u0 * Float32(alpha + Float32(alpha * Float32(u0 * Float32(0.5))))))
end

function tmp = code(alpha, u0)
	tmp = alpha * (u0 * (alpha + (alpha * (u0 * single(0.5)))));
end

\begin{array}{l}

\\
\alpha \cdot \left(u0 \cdot \left(\alpha + \alpha \cdot \left(u0 \cdot 0.5\right)\right)\right)
\end{array}
Derivation

  1. Initial program 53.4%

    \[\left(\left(-\alpha\right) \cdot \alpha\right) \cdot \log \left(1 - u0\right) \]
  2. Step-by-step derivation

    1. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\left(\left(\mathsf{neg}\left(\alpha\right)\right) \cdot \alpha\right), \color{blue}{\log \left(1 - u0\right)}\right) \]

    2. *-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(\left(\alpha \cdot \left(\mathsf{neg}\left(\alpha\right)\right)\right), \log \color{blue}{\left(1 - u0\right)}\right) \]

    3. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \left(\mathsf{neg}\left(\alpha\right)\right)\right), \log \color{blue}{\left(1 - u0\right)}\right) \]

    4. neg-lowering-neg.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{neg.f32}\left(\alpha\right)\right), \log \left(1 - \color{blue}{u0}\right)\right) \]

    5. sub-negN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{neg.f32}\left(\alpha\right)\right), \log \left(1 + \left(\mathsf{neg}\left(u0\right)\right)\right)\right) \]

    6. log1p-defineN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{neg.f32}\left(\alpha\right)\right), \left(\mathsf{log1p}\left(\mathsf{neg}\left(u0\right)\right)\right)\right) \]

    7. log1p-lowering-log1p.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{neg.f32}\left(\alpha\right)\right), \mathsf{log1p.f32}\left(\left(\mathsf{neg}\left(u0\right)\right)\right)\right) \]

    8. neg-lowering-neg.f3299.0%

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{neg.f32}\left(\alpha\right)\right), \mathsf{log1p.f32}\left(\mathsf{neg.f32}\left(u0\right)\right)\right) \]

  3. Simplified99.0%

    \[\leadsto \color{blue}{\left(\alpha \cdot \left(-\alpha\right)\right) \cdot \mathsf{log1p}\left(-u0\right)} \]
  4. Add Preprocessing
  5. Step-by-step derivation

    1. *-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(\left(\left(\mathsf{neg}\left(\alpha\right)\right) \cdot \alpha\right), \mathsf{log1p.f32}\left(\color{blue}{\mathsf{neg.f32}\left(u0\right)}\right)\right) \]

    2. neg-sub0N/A

      \[\leadsto \mathsf{*.f32}\left(\left(\left(0 - \alpha\right) \cdot \alpha\right), \mathsf{log1p.f32}\left(\mathsf{neg.f32}\left(\color{blue}{u0}\right)\right)\right) \]

    3. flip--N/A

      \[\leadsto \mathsf{*.f32}\left(\left(\frac{0 \cdot 0 - \alpha \cdot \alpha}{0 + \alpha} \cdot \alpha\right), \mathsf{log1p.f32}\left(\mathsf{neg.f32}\left(\color{blue}{u0}\right)\right)\right) \]

    4. metadata-evalN/A

      \[\leadsto \mathsf{*.f32}\left(\left(\frac{0 - \alpha \cdot \alpha}{0 + \alpha} \cdot \alpha\right), \mathsf{log1p.f32}\left(\mathsf{neg.f32}\left(u0\right)\right)\right) \]

    5. neg-sub0N/A

      \[\leadsto \mathsf{*.f32}\left(\left(\frac{\mathsf{neg}\left(\alpha \cdot \alpha\right)}{0 + \alpha} \cdot \alpha\right), \mathsf{log1p.f32}\left(\mathsf{neg.f32}\left(u0\right)\right)\right) \]

    6. distribute-rgt-neg-outN/A

      \[\leadsto \mathsf{*.f32}\left(\left(\frac{\alpha \cdot \left(\mathsf{neg}\left(\alpha\right)\right)}{0 + \alpha} \cdot \alpha\right), \mathsf{log1p.f32}\left(\mathsf{neg.f32}\left(u0\right)\right)\right) \]

    7. +-lft-identityN/A

      \[\leadsto \mathsf{*.f32}\left(\left(\frac{\alpha \cdot \left(\mathsf{neg}\left(\alpha\right)\right)}{\alpha} \cdot \alpha\right), \mathsf{log1p.f32}\left(\mathsf{neg.f32}\left(u0\right)\right)\right) \]

    8. associate-*l/N/A

      \[\leadsto \mathsf{*.f32}\left(\left(\frac{\left(\alpha \cdot \left(\mathsf{neg}\left(\alpha\right)\right)\right) \cdot \alpha}{\alpha}\right), \mathsf{log1p.f32}\left(\color{blue}{\mathsf{neg.f32}\left(u0\right)}\right)\right) \]

    9. /-lowering-/.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{/.f32}\left(\left(\left(\alpha \cdot \left(\mathsf{neg}\left(\alpha\right)\right)\right) \cdot \alpha\right), \alpha\right), \mathsf{log1p.f32}\left(\color{blue}{\mathsf{neg.f32}\left(u0\right)}\right)\right) \]

    10. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{/.f32}\left(\mathsf{*.f32}\left(\left(\alpha \cdot \left(\mathsf{neg}\left(\alpha\right)\right)\right), \alpha\right), \alpha\right), \mathsf{log1p.f32}\left(\mathsf{neg.f32}\left(\color{blue}{u0}\right)\right)\right) \]

    11. distribute-rgt-neg-outN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{/.f32}\left(\mathsf{*.f32}\left(\left(\mathsf{neg}\left(\alpha \cdot \alpha\right)\right), \alpha\right), \alpha\right), \mathsf{log1p.f32}\left(\mathsf{neg.f32}\left(u0\right)\right)\right) \]

    12. neg-lowering-neg.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{/.f32}\left(\mathsf{*.f32}\left(\mathsf{neg.f32}\left(\left(\alpha \cdot \alpha\right)\right), \alpha\right), \alpha\right), \mathsf{log1p.f32}\left(\mathsf{neg.f32}\left(u0\right)\right)\right) \]

    13. *-lowering-*.f3298.9%

      \[\leadsto \mathsf{*.f32}\left(\mathsf{/.f32}\left(\mathsf{*.f32}\left(\mathsf{neg.f32}\left(\mathsf{*.f32}\left(\alpha, \alpha\right)\right), \alpha\right), \alpha\right), \mathsf{log1p.f32}\left(\mathsf{neg.f32}\left(u0\right)\right)\right) \]

  6. Applied egg-rr98.9%

    \[\leadsto \color{blue}{\frac{\left(-\alpha \cdot \alpha\right) \cdot \alpha}{\alpha}} \cdot \mathsf{log1p}\left(-u0\right) \]
  7. Step-by-step derivation

    1. clear-numN/A

      \[\leadsto \frac{1}{\frac{\alpha}{\left(\mathsf{neg}\left(\alpha \cdot \alpha\right)\right) \cdot \alpha}} \cdot \log \color{blue}{\left(1 + \left(\mathsf{neg}\left(u0\right)\right)\right)} \]

    2. *-inversesN/A

      \[\leadsto \frac{\frac{\alpha}{\alpha}}{\frac{\alpha}{\left(\mathsf{neg}\left(\alpha \cdot \alpha\right)\right) \cdot \alpha}} \cdot \log \left(\color{blue}{1} + \left(\mathsf{neg}\left(u0\right)\right)\right) \]

    3. distribute-lft-neg-outN/A

      \[\leadsto \frac{\frac{\alpha}{\alpha}}{\frac{\alpha}{\mathsf{neg}\left(\left(\alpha \cdot \alpha\right) \cdot \alpha\right)}} \cdot \log \left(1 + \left(\mathsf{neg}\left(u0\right)\right)\right) \]

    4. associate-*r*N/A

      \[\leadsto \frac{\frac{\alpha}{\alpha}}{\frac{\alpha}{\mathsf{neg}\left(\alpha \cdot \left(\alpha \cdot \alpha\right)\right)}} \cdot \log \left(1 + \left(\mathsf{neg}\left(u0\right)\right)\right) \]

    5. sub0-negN/A

      \[\leadsto \frac{\frac{\alpha}{\alpha}}{\frac{\alpha}{0 - \alpha \cdot \left(\alpha \cdot \alpha\right)}} \cdot \log \left(1 + \left(\mathsf{neg}\left(u0\right)\right)\right) \]

    6. associate-/r*N/A

      \[\leadsto \frac{\alpha}{\alpha \cdot \frac{\alpha}{0 - \alpha \cdot \left(\alpha \cdot \alpha\right)}} \cdot \log \color{blue}{\left(1 + \left(\mathsf{neg}\left(u0\right)\right)\right)} \]

    7. associate-/l*N/A

      \[\leadsto \frac{\alpha}{\frac{\alpha \cdot \alpha}{0 - \alpha \cdot \left(\alpha \cdot \alpha\right)}} \cdot \log \left(1 + \color{blue}{\left(\mathsf{neg}\left(u0\right)\right)}\right) \]

    8. un-div-invN/A

      \[\leadsto \left(\alpha \cdot \frac{1}{\frac{\alpha \cdot \alpha}{0 - \alpha \cdot \left(\alpha \cdot \alpha\right)}}\right) \cdot \log \color{blue}{\left(1 + \left(\mathsf{neg}\left(u0\right)\right)\right)} \]

    9. associate-*l*N/A

      \[\leadsto \alpha \cdot \color{blue}{\left(\frac{1}{\frac{\alpha \cdot \alpha}{0 - \alpha \cdot \left(\alpha \cdot \alpha\right)}} \cdot \log \left(1 + \left(\mathsf{neg}\left(u0\right)\right)\right)\right)} \]

    10. *-commutativeN/A

      \[\leadsto \left(\frac{1}{\frac{\alpha \cdot \alpha}{0 - \alpha \cdot \left(\alpha \cdot \alpha\right)}} \cdot \log \left(1 + \left(\mathsf{neg}\left(u0\right)\right)\right)\right) \cdot \color{blue}{\alpha} \]

    11. clear-numN/A

      \[\leadsto \left(\frac{0 - \alpha \cdot \left(\alpha \cdot \alpha\right)}{\alpha \cdot \alpha} \cdot \log \left(1 + \left(\mathsf{neg}\left(u0\right)\right)\right)\right) \cdot \alpha \]

    12. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\left(\frac{0 - \alpha \cdot \left(\alpha \cdot \alpha\right)}{\alpha \cdot \alpha} \cdot \log \left(1 + \left(\mathsf{neg}\left(u0\right)\right)\right)\right), \color{blue}{\alpha}\right) \]

  8. Applied egg-rr99.0%

    \[\leadsto \color{blue}{\left(\mathsf{log1p}\left(-u0\right) \cdot \left(-\alpha\right)\right) \cdot \alpha} \]

  9. Taylor expanded in u0 around 0

    \[\leadsto \mathsf{*.f32}\left(\color{blue}{\left(u0 \cdot \left(\alpha + \frac{1}{2} \cdot \left(\alpha \cdot u0\right)\right)\right)}, \alpha\right) \]
  10. Step-by-step derivation

    1. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(u0, \left(\alpha + \frac{1}{2} \cdot \left(\alpha \cdot u0\right)\right)\right), \alpha\right) \]

    2. associate-*r*N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(u0, \left(\alpha + \left(\frac{1}{2} \cdot \alpha\right) \cdot u0\right)\right), \alpha\right) \]

    3. *-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(u0, \left(\alpha + u0 \cdot \left(\frac{1}{2} \cdot \alpha\right)\right)\right), \alpha\right) \]

    4. +-lowering-+.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\alpha, \left(u0 \cdot \left(\frac{1}{2} \cdot \alpha\right)\right)\right)\right), \alpha\right) \]

    5. *-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\alpha, \left(\left(\frac{1}{2} \cdot \alpha\right) \cdot u0\right)\right)\right), \alpha\right) \]

    6. *-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\alpha, \left(\left(\alpha \cdot \frac{1}{2}\right) \cdot u0\right)\right)\right), \alpha\right) \]

    7. associate-*l*N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\alpha, \left(\alpha \cdot \left(\frac{1}{2} \cdot u0\right)\right)\right)\right), \alpha\right) \]

    8. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\alpha, \mathsf{*.f32}\left(\alpha, \left(\frac{1}{2} \cdot u0\right)\right)\right)\right), \alpha\right) \]

    9. *-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\alpha, \mathsf{*.f32}\left(\alpha, \left(u0 \cdot \frac{1}{2}\right)\right)\right)\right), \alpha\right) \]

    10. *-lowering-*.f3289.6%

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(u0, \mathsf{+.f32}\left(\alpha, \mathsf{*.f32}\left(\alpha, \mathsf{*.f32}\left(u0, \frac{1}{2}\right)\right)\right)\right), \alpha\right) \]

  11. Simplified89.6%

    \[\leadsto \color{blue}{\left(u0 \cdot \left(\alpha + \alpha \cdot \left(u0 \cdot 0.5\right)\right)\right)} \cdot \alpha \]

  12. Final simplification89.6%

    \[\leadsto \alpha \cdot \left(u0 \cdot \left(\alpha + \alpha \cdot \left(u0 \cdot 0.5\right)\right)\right) \]
  13. Add Preprocessing

Alternative 10: 87.3% accurate, 9.8× speedup?

\[\begin{array}{l} \\ \alpha \cdot \left(u0 \cdot \left(\alpha \cdot \left(u0 \cdot 0.5 + 1\right)\right)\right) \end{array} \]
(FPCore (alpha u0)
 :precision binary32
 (* alpha (* u0 (* alpha (+ (* u0 0.5) 1.0)))))
float code(float alpha, float u0) {
	return alpha * (u0 * (alpha * ((u0 * 0.5f) + 1.0f)));
}

real(4) function code(alpha, u0)
    real(4), intent (in) :: alpha
    real(4), intent (in) :: u0
    code = alpha * (u0 * (alpha * ((u0 * 0.5e0) + 1.0e0)))
end function

function code(alpha, u0)
	return Float32(alpha * Float32(u0 * Float32(alpha * Float32(Float32(u0 * Float32(0.5)) + Float32(1.0)))))
end

function tmp = code(alpha, u0)
	tmp = alpha * (u0 * (alpha * ((u0 * single(0.5)) + single(1.0))));
end

\begin{array}{l}

\\
\alpha \cdot \left(u0 \cdot \left(\alpha \cdot \left(u0 \cdot 0.5 + 1\right)\right)\right)
\end{array}
Derivation

  1. Initial program 53.4%

    \[\left(\left(-\alpha\right) \cdot \alpha\right) \cdot \log \left(1 - u0\right) \]
  2. Step-by-step derivation

    1. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\left(\left(\mathsf{neg}\left(\alpha\right)\right) \cdot \alpha\right), \color{blue}{\log \left(1 - u0\right)}\right) \]

    2. *-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(\left(\alpha \cdot \left(\mathsf{neg}\left(\alpha\right)\right)\right), \log \color{blue}{\left(1 - u0\right)}\right) \]

    3. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \left(\mathsf{neg}\left(\alpha\right)\right)\right), \log \color{blue}{\left(1 - u0\right)}\right) \]

    4. neg-lowering-neg.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{neg.f32}\left(\alpha\right)\right), \log \left(1 - \color{blue}{u0}\right)\right) \]

    5. sub-negN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{neg.f32}\left(\alpha\right)\right), \log \left(1 + \left(\mathsf{neg}\left(u0\right)\right)\right)\right) \]

    6. log1p-defineN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{neg.f32}\left(\alpha\right)\right), \left(\mathsf{log1p}\left(\mathsf{neg}\left(u0\right)\right)\right)\right) \]

    7. log1p-lowering-log1p.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{neg.f32}\left(\alpha\right)\right), \mathsf{log1p.f32}\left(\left(\mathsf{neg}\left(u0\right)\right)\right)\right) \]

    8. neg-lowering-neg.f3299.0%

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{neg.f32}\left(\alpha\right)\right), \mathsf{log1p.f32}\left(\mathsf{neg.f32}\left(u0\right)\right)\right) \]

  3. Simplified99.0%

    \[\leadsto \color{blue}{\left(\alpha \cdot \left(-\alpha\right)\right) \cdot \mathsf{log1p}\left(-u0\right)} \]
  4. Add Preprocessing

  5. Taylor expanded in u0 around 0

    \[\leadsto \color{blue}{u0 \cdot \left(\frac{1}{2} \cdot \left({\alpha}^{2} \cdot u0\right) + {\alpha}^{2}\right)} \]
  6. Step-by-step derivation

    1. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(u0, \color{blue}{\left(\frac{1}{2} \cdot \left({\alpha}^{2} \cdot u0\right) + {\alpha}^{2}\right)}\right) \]

    2. *-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(u0, \left(\frac{1}{2} \cdot \left(u0 \cdot {\alpha}^{2}\right) + {\alpha}^{2}\right)\right) \]

    3. associate-*r*N/A

      \[\leadsto \mathsf{*.f32}\left(u0, \left(\left(\frac{1}{2} \cdot u0\right) \cdot {\alpha}^{2} + {\color{blue}{\alpha}}^{2}\right)\right) \]

    4. distribute-lft1-inN/A

      \[\leadsto \mathsf{*.f32}\left(u0, \left(\left(\frac{1}{2} \cdot u0 + 1\right) \cdot \color{blue}{{\alpha}^{2}}\right)\right) \]

    5. *-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(u0, \left(\left(u0 \cdot \frac{1}{2} + 1\right) \cdot {\alpha}^{2}\right)\right) \]

    6. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(u0, \mathsf{*.f32}\left(\left(u0 \cdot \frac{1}{2} + 1\right), \color{blue}{\left({\alpha}^{2}\right)}\right)\right) \]

    7. *-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(u0, \mathsf{*.f32}\left(\left(\frac{1}{2} \cdot u0 + 1\right), \left({\alpha}^{2}\right)\right)\right) \]

    8. +-lowering-+.f32N/A

      \[\leadsto \mathsf{*.f32}\left(u0, \mathsf{*.f32}\left(\mathsf{+.f32}\left(\left(\frac{1}{2} \cdot u0\right), 1\right), \left({\color{blue}{\alpha}}^{2}\right)\right)\right) \]

    9. *-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(u0, \mathsf{*.f32}\left(\mathsf{+.f32}\left(\left(u0 \cdot \frac{1}{2}\right), 1\right), \left({\alpha}^{2}\right)\right)\right) \]

    10. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(u0, \mathsf{*.f32}\left(\mathsf{+.f32}\left(\mathsf{*.f32}\left(u0, \frac{1}{2}\right), 1\right), \left({\alpha}^{2}\right)\right)\right) \]

    11. unpow2N/A

      \[\leadsto \mathsf{*.f32}\left(u0, \mathsf{*.f32}\left(\mathsf{+.f32}\left(\mathsf{*.f32}\left(u0, \frac{1}{2}\right), 1\right), \left(\alpha \cdot \color{blue}{\alpha}\right)\right)\right) \]

    12. *-lowering-*.f3289.4%

      \[\leadsto \mathsf{*.f32}\left(u0, \mathsf{*.f32}\left(\mathsf{+.f32}\left(\mathsf{*.f32}\left(u0, \frac{1}{2}\right), 1\right), \mathsf{*.f32}\left(\alpha, \color{blue}{\alpha}\right)\right)\right) \]

  7. Simplified89.4%

    \[\leadsto \color{blue}{u0 \cdot \left(\left(u0 \cdot 0.5 + 1\right) \cdot \left(\alpha \cdot \alpha\right)\right)} \]
  8. Step-by-step derivation

    1. associate-*r*N/A

      \[\leadsto u0 \cdot \left(\left(\left(u0 \cdot \frac{1}{2} + 1\right) \cdot \alpha\right) \cdot \color{blue}{\alpha}\right) \]

    2. associate-*r*N/A

      \[\leadsto \left(u0 \cdot \left(\left(u0 \cdot \frac{1}{2} + 1\right) \cdot \alpha\right)\right) \cdot \color{blue}{\alpha} \]

    3. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\left(u0 \cdot \left(\left(u0 \cdot \frac{1}{2} + 1\right) \cdot \alpha\right)\right), \color{blue}{\alpha}\right) \]

    4. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(u0, \left(\left(u0 \cdot \frac{1}{2} + 1\right) \cdot \alpha\right)\right), \alpha\right) \]

    5. *-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(u0, \left(\alpha \cdot \left(u0 \cdot \frac{1}{2} + 1\right)\right)\right), \alpha\right) \]

    6. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(u0, \mathsf{*.f32}\left(\alpha, \left(u0 \cdot \frac{1}{2} + 1\right)\right)\right), \alpha\right) \]

    7. +-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(u0, \mathsf{*.f32}\left(\alpha, \left(1 + u0 \cdot \frac{1}{2}\right)\right)\right), \alpha\right) \]

    8. +-lowering-+.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(u0, \mathsf{*.f32}\left(\alpha, \mathsf{+.f32}\left(1, \left(u0 \cdot \frac{1}{2}\right)\right)\right)\right), \alpha\right) \]

    9. *-lowering-*.f3289.5%

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(u0, \mathsf{*.f32}\left(\alpha, \mathsf{+.f32}\left(1, \mathsf{*.f32}\left(u0, \frac{1}{2}\right)\right)\right)\right), \alpha\right) \]

  9. Applied egg-rr89.5%

    \[\leadsto \color{blue}{\left(u0 \cdot \left(\alpha \cdot \left(1 + u0 \cdot 0.5\right)\right)\right) \cdot \alpha} \]

  10. Final simplification89.5%

    \[\leadsto \alpha \cdot \left(u0 \cdot \left(\alpha \cdot \left(u0 \cdot 0.5 + 1\right)\right)\right) \]
  11. Add Preprocessing

Alternative 11: 87.3% accurate, 9.8× speedup?

\[\begin{array}{l} \\ \left(\alpha \cdot \left(u0 \cdot 0.5 + 1\right)\right) \cdot \left(u0 \cdot \alpha\right) \end{array} \]
(FPCore (alpha u0)
 :precision binary32
 (* (* alpha (+ (* u0 0.5) 1.0)) (* u0 alpha)))
float code(float alpha, float u0) {
	return (alpha * ((u0 * 0.5f) + 1.0f)) * (u0 * alpha);
}

real(4) function code(alpha, u0)
    real(4), intent (in) :: alpha
    real(4), intent (in) :: u0
    code = (alpha * ((u0 * 0.5e0) + 1.0e0)) * (u0 * alpha)
end function

function code(alpha, u0)
	return Float32(Float32(alpha * Float32(Float32(u0 * Float32(0.5)) + Float32(1.0))) * Float32(u0 * alpha))
end

function tmp = code(alpha, u0)
	tmp = (alpha * ((u0 * single(0.5)) + single(1.0))) * (u0 * alpha);
end

\begin{array}{l}

\\
\left(\alpha \cdot \left(u0 \cdot 0.5 + 1\right)\right) \cdot \left(u0 \cdot \alpha\right)
\end{array}
Derivation

  1. Initial program 53.4%

    \[\left(\left(-\alpha\right) \cdot \alpha\right) \cdot \log \left(1 - u0\right) \]
  2. Step-by-step derivation

    1. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\left(\left(\mathsf{neg}\left(\alpha\right)\right) \cdot \alpha\right), \color{blue}{\log \left(1 - u0\right)}\right) \]

    2. *-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(\left(\alpha \cdot \left(\mathsf{neg}\left(\alpha\right)\right)\right), \log \color{blue}{\left(1 - u0\right)}\right) \]

    3. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \left(\mathsf{neg}\left(\alpha\right)\right)\right), \log \color{blue}{\left(1 - u0\right)}\right) \]

    4. neg-lowering-neg.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{neg.f32}\left(\alpha\right)\right), \log \left(1 - \color{blue}{u0}\right)\right) \]

    5. sub-negN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{neg.f32}\left(\alpha\right)\right), \log \left(1 + \left(\mathsf{neg}\left(u0\right)\right)\right)\right) \]

    6. log1p-defineN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{neg.f32}\left(\alpha\right)\right), \left(\mathsf{log1p}\left(\mathsf{neg}\left(u0\right)\right)\right)\right) \]

    7. log1p-lowering-log1p.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{neg.f32}\left(\alpha\right)\right), \mathsf{log1p.f32}\left(\left(\mathsf{neg}\left(u0\right)\right)\right)\right) \]

    8. neg-lowering-neg.f3299.0%

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{neg.f32}\left(\alpha\right)\right), \mathsf{log1p.f32}\left(\mathsf{neg.f32}\left(u0\right)\right)\right) \]

  3. Simplified99.0%

    \[\leadsto \color{blue}{\left(\alpha \cdot \left(-\alpha\right)\right) \cdot \mathsf{log1p}\left(-u0\right)} \]
  4. Add Preprocessing

  5. Taylor expanded in u0 around 0

    \[\leadsto \color{blue}{u0 \cdot \left(\frac{1}{2} \cdot \left({\alpha}^{2} \cdot u0\right) + {\alpha}^{2}\right)} \]
  6. Step-by-step derivation

    1. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(u0, \color{blue}{\left(\frac{1}{2} \cdot \left({\alpha}^{2} \cdot u0\right) + {\alpha}^{2}\right)}\right) \]

    2. *-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(u0, \left(\frac{1}{2} \cdot \left(u0 \cdot {\alpha}^{2}\right) + {\alpha}^{2}\right)\right) \]

    3. associate-*r*N/A

      \[\leadsto \mathsf{*.f32}\left(u0, \left(\left(\frac{1}{2} \cdot u0\right) \cdot {\alpha}^{2} + {\color{blue}{\alpha}}^{2}\right)\right) \]

    4. distribute-lft1-inN/A

      \[\leadsto \mathsf{*.f32}\left(u0, \left(\left(\frac{1}{2} \cdot u0 + 1\right) \cdot \color{blue}{{\alpha}^{2}}\right)\right) \]

    5. *-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(u0, \left(\left(u0 \cdot \frac{1}{2} + 1\right) \cdot {\alpha}^{2}\right)\right) \]

    6. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(u0, \mathsf{*.f32}\left(\left(u0 \cdot \frac{1}{2} + 1\right), \color{blue}{\left({\alpha}^{2}\right)}\right)\right) \]

    7. *-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(u0, \mathsf{*.f32}\left(\left(\frac{1}{2} \cdot u0 + 1\right), \left({\alpha}^{2}\right)\right)\right) \]

    8. +-lowering-+.f32N/A

      \[\leadsto \mathsf{*.f32}\left(u0, \mathsf{*.f32}\left(\mathsf{+.f32}\left(\left(\frac{1}{2} \cdot u0\right), 1\right), \left({\color{blue}{\alpha}}^{2}\right)\right)\right) \]

    9. *-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(u0, \mathsf{*.f32}\left(\mathsf{+.f32}\left(\left(u0 \cdot \frac{1}{2}\right), 1\right), \left({\alpha}^{2}\right)\right)\right) \]

    10. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(u0, \mathsf{*.f32}\left(\mathsf{+.f32}\left(\mathsf{*.f32}\left(u0, \frac{1}{2}\right), 1\right), \left({\alpha}^{2}\right)\right)\right) \]

    11. unpow2N/A

      \[\leadsto \mathsf{*.f32}\left(u0, \mathsf{*.f32}\left(\mathsf{+.f32}\left(\mathsf{*.f32}\left(u0, \frac{1}{2}\right), 1\right), \left(\alpha \cdot \color{blue}{\alpha}\right)\right)\right) \]

    12. *-lowering-*.f3289.4%

      \[\leadsto \mathsf{*.f32}\left(u0, \mathsf{*.f32}\left(\mathsf{+.f32}\left(\mathsf{*.f32}\left(u0, \frac{1}{2}\right), 1\right), \mathsf{*.f32}\left(\alpha, \color{blue}{\alpha}\right)\right)\right) \]

  7. Simplified89.4%

    \[\leadsto \color{blue}{u0 \cdot \left(\left(u0 \cdot 0.5 + 1\right) \cdot \left(\alpha \cdot \alpha\right)\right)} \]
  8. Step-by-step derivation

    1. *-commutativeN/A

      \[\leadsto \left(\left(u0 \cdot \frac{1}{2} + 1\right) \cdot \left(\alpha \cdot \alpha\right)\right) \cdot \color{blue}{u0} \]

    2. associate-*r*N/A

      \[\leadsto \left(\left(\left(u0 \cdot \frac{1}{2} + 1\right) \cdot \alpha\right) \cdot \alpha\right) \cdot u0 \]

    3. associate-*l*N/A

      \[\leadsto \left(\left(u0 \cdot \frac{1}{2} + 1\right) \cdot \alpha\right) \cdot \color{blue}{\left(\alpha \cdot u0\right)} \]

    4. *-commutativeN/A

      \[\leadsto \left(\left(u0 \cdot \frac{1}{2} + 1\right) \cdot \alpha\right) \cdot \left(u0 \cdot \color{blue}{\alpha}\right) \]

    5. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\left(\left(u0 \cdot \frac{1}{2} + 1\right) \cdot \alpha\right), \color{blue}{\left(u0 \cdot \alpha\right)}\right) \]

    6. *-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(\left(\alpha \cdot \left(u0 \cdot \frac{1}{2} + 1\right)\right), \left(\color{blue}{u0} \cdot \alpha\right)\right) \]

    7. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \left(u0 \cdot \frac{1}{2} + 1\right)\right), \left(\color{blue}{u0} \cdot \alpha\right)\right) \]

    8. +-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \left(1 + u0 \cdot \frac{1}{2}\right)\right), \left(u0 \cdot \alpha\right)\right) \]

    9. +-lowering-+.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{+.f32}\left(1, \left(u0 \cdot \frac{1}{2}\right)\right)\right), \left(u0 \cdot \alpha\right)\right) \]

    10. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{+.f32}\left(1, \mathsf{*.f32}\left(u0, \frac{1}{2}\right)\right)\right), \left(u0 \cdot \alpha\right)\right) \]

    11. *-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{+.f32}\left(1, \mathsf{*.f32}\left(u0, \frac{1}{2}\right)\right)\right), \left(\alpha \cdot \color{blue}{u0}\right)\right) \]

    12. *-lowering-*.f3289.4%

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{+.f32}\left(1, \mathsf{*.f32}\left(u0, \frac{1}{2}\right)\right)\right), \mathsf{*.f32}\left(\alpha, \color{blue}{u0}\right)\right) \]

  9. Applied egg-rr89.4%

    \[\leadsto \color{blue}{\left(\alpha \cdot \left(1 + u0 \cdot 0.5\right)\right) \cdot \left(\alpha \cdot u0\right)} \]

  10. Final simplification89.4%

    \[\leadsto \left(\alpha \cdot \left(u0 \cdot 0.5 + 1\right)\right) \cdot \left(u0 \cdot \alpha\right) \]
  11. Add Preprocessing

Alternative 12: 87.3% accurate, 9.8× speedup?

\[\begin{array}{l} \\ u0 \cdot \left(\left(\alpha \cdot \alpha\right) \cdot \left(u0 \cdot 0.5 + 1\right)\right) \end{array} \]
(FPCore (alpha u0)
 :precision binary32
 (* u0 (* (* alpha alpha) (+ (* u0 0.5) 1.0))))
float code(float alpha, float u0) {
	return u0 * ((alpha * alpha) * ((u0 * 0.5f) + 1.0f));
}

real(4) function code(alpha, u0)
    real(4), intent (in) :: alpha
    real(4), intent (in) :: u0
    code = u0 * ((alpha * alpha) * ((u0 * 0.5e0) + 1.0e0))
end function

function code(alpha, u0)
	return Float32(u0 * Float32(Float32(alpha * alpha) * Float32(Float32(u0 * Float32(0.5)) + Float32(1.0))))
end

function tmp = code(alpha, u0)
	tmp = u0 * ((alpha * alpha) * ((u0 * single(0.5)) + single(1.0)));
end

\begin{array}{l}

\\
u0 \cdot \left(\left(\alpha \cdot \alpha\right) \cdot \left(u0 \cdot 0.5 + 1\right)\right)
\end{array}
Derivation

  1. Initial program 53.4%

    \[\left(\left(-\alpha\right) \cdot \alpha\right) \cdot \log \left(1 - u0\right) \]
  2. Step-by-step derivation

    1. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\left(\left(\mathsf{neg}\left(\alpha\right)\right) \cdot \alpha\right), \color{blue}{\log \left(1 - u0\right)}\right) \]

    2. *-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(\left(\alpha \cdot \left(\mathsf{neg}\left(\alpha\right)\right)\right), \log \color{blue}{\left(1 - u0\right)}\right) \]

    3. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \left(\mathsf{neg}\left(\alpha\right)\right)\right), \log \color{blue}{\left(1 - u0\right)}\right) \]

    4. neg-lowering-neg.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{neg.f32}\left(\alpha\right)\right), \log \left(1 - \color{blue}{u0}\right)\right) \]

    5. sub-negN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{neg.f32}\left(\alpha\right)\right), \log \left(1 + \left(\mathsf{neg}\left(u0\right)\right)\right)\right) \]

    6. log1p-defineN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{neg.f32}\left(\alpha\right)\right), \left(\mathsf{log1p}\left(\mathsf{neg}\left(u0\right)\right)\right)\right) \]

    7. log1p-lowering-log1p.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{neg.f32}\left(\alpha\right)\right), \mathsf{log1p.f32}\left(\left(\mathsf{neg}\left(u0\right)\right)\right)\right) \]

    8. neg-lowering-neg.f3299.0%

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{neg.f32}\left(\alpha\right)\right), \mathsf{log1p.f32}\left(\mathsf{neg.f32}\left(u0\right)\right)\right) \]

  3. Simplified99.0%

    \[\leadsto \color{blue}{\left(\alpha \cdot \left(-\alpha\right)\right) \cdot \mathsf{log1p}\left(-u0\right)} \]
  4. Add Preprocessing

  5. Taylor expanded in u0 around 0

    \[\leadsto \color{blue}{u0 \cdot \left(\frac{1}{2} \cdot \left({\alpha}^{2} \cdot u0\right) + {\alpha}^{2}\right)} \]
  6. Step-by-step derivation

    1. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(u0, \color{blue}{\left(\frac{1}{2} \cdot \left({\alpha}^{2} \cdot u0\right) + {\alpha}^{2}\right)}\right) \]

    2. *-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(u0, \left(\frac{1}{2} \cdot \left(u0 \cdot {\alpha}^{2}\right) + {\alpha}^{2}\right)\right) \]

    3. associate-*r*N/A

      \[\leadsto \mathsf{*.f32}\left(u0, \left(\left(\frac{1}{2} \cdot u0\right) \cdot {\alpha}^{2} + {\color{blue}{\alpha}}^{2}\right)\right) \]

    4. distribute-lft1-inN/A

      \[\leadsto \mathsf{*.f32}\left(u0, \left(\left(\frac{1}{2} \cdot u0 + 1\right) \cdot \color{blue}{{\alpha}^{2}}\right)\right) \]

    5. *-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(u0, \left(\left(u0 \cdot \frac{1}{2} + 1\right) \cdot {\alpha}^{2}\right)\right) \]

    6. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(u0, \mathsf{*.f32}\left(\left(u0 \cdot \frac{1}{2} + 1\right), \color{blue}{\left({\alpha}^{2}\right)}\right)\right) \]

    7. *-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(u0, \mathsf{*.f32}\left(\left(\frac{1}{2} \cdot u0 + 1\right), \left({\alpha}^{2}\right)\right)\right) \]

    8. +-lowering-+.f32N/A

      \[\leadsto \mathsf{*.f32}\left(u0, \mathsf{*.f32}\left(\mathsf{+.f32}\left(\left(\frac{1}{2} \cdot u0\right), 1\right), \left({\color{blue}{\alpha}}^{2}\right)\right)\right) \]

    9. *-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(u0, \mathsf{*.f32}\left(\mathsf{+.f32}\left(\left(u0 \cdot \frac{1}{2}\right), 1\right), \left({\alpha}^{2}\right)\right)\right) \]

    10. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(u0, \mathsf{*.f32}\left(\mathsf{+.f32}\left(\mathsf{*.f32}\left(u0, \frac{1}{2}\right), 1\right), \left({\alpha}^{2}\right)\right)\right) \]

    11. unpow2N/A

      \[\leadsto \mathsf{*.f32}\left(u0, \mathsf{*.f32}\left(\mathsf{+.f32}\left(\mathsf{*.f32}\left(u0, \frac{1}{2}\right), 1\right), \left(\alpha \cdot \color{blue}{\alpha}\right)\right)\right) \]

    12. *-lowering-*.f3289.4%

      \[\leadsto \mathsf{*.f32}\left(u0, \mathsf{*.f32}\left(\mathsf{+.f32}\left(\mathsf{*.f32}\left(u0, \frac{1}{2}\right), 1\right), \mathsf{*.f32}\left(\alpha, \color{blue}{\alpha}\right)\right)\right) \]

  7. Simplified89.4%

    \[\leadsto \color{blue}{u0 \cdot \left(\left(u0 \cdot 0.5 + 1\right) \cdot \left(\alpha \cdot \alpha\right)\right)} \]

  8. Final simplification89.4%

    \[\leadsto u0 \cdot \left(\left(\alpha \cdot \alpha\right) \cdot \left(u0 \cdot 0.5 + 1\right)\right) \]
  9. Add Preprocessing

Alternative 13: 87.3% accurate, 9.8× speedup?

\[\begin{array}{l} \\ u0 \cdot \left(\alpha \cdot \left(\alpha \cdot \left(u0 \cdot 0.5 + 1\right)\right)\right) \end{array} \]
(FPCore (alpha u0)
 :precision binary32
 (* u0 (* alpha (* alpha (+ (* u0 0.5) 1.0)))))
float code(float alpha, float u0) {
	return u0 * (alpha * (alpha * ((u0 * 0.5f) + 1.0f)));
}

real(4) function code(alpha, u0)
    real(4), intent (in) :: alpha
    real(4), intent (in) :: u0
    code = u0 * (alpha * (alpha * ((u0 * 0.5e0) + 1.0e0)))
end function

function code(alpha, u0)
	return Float32(u0 * Float32(alpha * Float32(alpha * Float32(Float32(u0 * Float32(0.5)) + Float32(1.0)))))
end

function tmp = code(alpha, u0)
	tmp = u0 * (alpha * (alpha * ((u0 * single(0.5)) + single(1.0))));
end

\begin{array}{l}

\\
u0 \cdot \left(\alpha \cdot \left(\alpha \cdot \left(u0 \cdot 0.5 + 1\right)\right)\right)
\end{array}
Derivation

  1. Initial program 53.4%

    \[\left(\left(-\alpha\right) \cdot \alpha\right) \cdot \log \left(1 - u0\right) \]
  2. Step-by-step derivation

    1. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\left(\left(\mathsf{neg}\left(\alpha\right)\right) \cdot \alpha\right), \color{blue}{\log \left(1 - u0\right)}\right) \]

    2. *-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(\left(\alpha \cdot \left(\mathsf{neg}\left(\alpha\right)\right)\right), \log \color{blue}{\left(1 - u0\right)}\right) \]

    3. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \left(\mathsf{neg}\left(\alpha\right)\right)\right), \log \color{blue}{\left(1 - u0\right)}\right) \]

    4. neg-lowering-neg.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{neg.f32}\left(\alpha\right)\right), \log \left(1 - \color{blue}{u0}\right)\right) \]

    5. sub-negN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{neg.f32}\left(\alpha\right)\right), \log \left(1 + \left(\mathsf{neg}\left(u0\right)\right)\right)\right) \]

    6. log1p-defineN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{neg.f32}\left(\alpha\right)\right), \left(\mathsf{log1p}\left(\mathsf{neg}\left(u0\right)\right)\right)\right) \]

    7. log1p-lowering-log1p.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{neg.f32}\left(\alpha\right)\right), \mathsf{log1p.f32}\left(\left(\mathsf{neg}\left(u0\right)\right)\right)\right) \]

    8. neg-lowering-neg.f3299.0%

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{neg.f32}\left(\alpha\right)\right), \mathsf{log1p.f32}\left(\mathsf{neg.f32}\left(u0\right)\right)\right) \]

  3. Simplified99.0%

    \[\leadsto \color{blue}{\left(\alpha \cdot \left(-\alpha\right)\right) \cdot \mathsf{log1p}\left(-u0\right)} \]
  4. Add Preprocessing

  5. Taylor expanded in u0 around 0

    \[\leadsto \color{blue}{u0 \cdot \left(\frac{1}{2} \cdot \left({\alpha}^{2} \cdot u0\right) + {\alpha}^{2}\right)} \]
  6. Step-by-step derivation

    1. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(u0, \color{blue}{\left(\frac{1}{2} \cdot \left({\alpha}^{2} \cdot u0\right) + {\alpha}^{2}\right)}\right) \]

    2. *-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(u0, \left(\frac{1}{2} \cdot \left(u0 \cdot {\alpha}^{2}\right) + {\alpha}^{2}\right)\right) \]

    3. associate-*r*N/A

      \[\leadsto \mathsf{*.f32}\left(u0, \left(\left(\frac{1}{2} \cdot u0\right) \cdot {\alpha}^{2} + {\color{blue}{\alpha}}^{2}\right)\right) \]

    4. distribute-lft1-inN/A

      \[\leadsto \mathsf{*.f32}\left(u0, \left(\left(\frac{1}{2} \cdot u0 + 1\right) \cdot \color{blue}{{\alpha}^{2}}\right)\right) \]

    5. *-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(u0, \left(\left(u0 \cdot \frac{1}{2} + 1\right) \cdot {\alpha}^{2}\right)\right) \]

    6. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(u0, \mathsf{*.f32}\left(\left(u0 \cdot \frac{1}{2} + 1\right), \color{blue}{\left({\alpha}^{2}\right)}\right)\right) \]

    7. *-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(u0, \mathsf{*.f32}\left(\left(\frac{1}{2} \cdot u0 + 1\right), \left({\alpha}^{2}\right)\right)\right) \]

    8. +-lowering-+.f32N/A

      \[\leadsto \mathsf{*.f32}\left(u0, \mathsf{*.f32}\left(\mathsf{+.f32}\left(\left(\frac{1}{2} \cdot u0\right), 1\right), \left({\color{blue}{\alpha}}^{2}\right)\right)\right) \]

    9. *-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(u0, \mathsf{*.f32}\left(\mathsf{+.f32}\left(\left(u0 \cdot \frac{1}{2}\right), 1\right), \left({\alpha}^{2}\right)\right)\right) \]

    10. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(u0, \mathsf{*.f32}\left(\mathsf{+.f32}\left(\mathsf{*.f32}\left(u0, \frac{1}{2}\right), 1\right), \left({\alpha}^{2}\right)\right)\right) \]

    11. unpow2N/A

      \[\leadsto \mathsf{*.f32}\left(u0, \mathsf{*.f32}\left(\mathsf{+.f32}\left(\mathsf{*.f32}\left(u0, \frac{1}{2}\right), 1\right), \left(\alpha \cdot \color{blue}{\alpha}\right)\right)\right) \]

    12. *-lowering-*.f3289.4%

      \[\leadsto \mathsf{*.f32}\left(u0, \mathsf{*.f32}\left(\mathsf{+.f32}\left(\mathsf{*.f32}\left(u0, \frac{1}{2}\right), 1\right), \mathsf{*.f32}\left(\alpha, \color{blue}{\alpha}\right)\right)\right) \]

  7. Simplified89.4%

    \[\leadsto \color{blue}{u0 \cdot \left(\left(u0 \cdot 0.5 + 1\right) \cdot \left(\alpha \cdot \alpha\right)\right)} \]
  8. Step-by-step derivation

    1. associate-*r*N/A

      \[\leadsto \mathsf{*.f32}\left(u0, \left(\left(\left(u0 \cdot \frac{1}{2} + 1\right) \cdot \alpha\right) \cdot \color{blue}{\alpha}\right)\right) \]

    2. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(u0, \mathsf{*.f32}\left(\left(\left(u0 \cdot \frac{1}{2} + 1\right) \cdot \alpha\right), \color{blue}{\alpha}\right)\right) \]

    3. *-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(u0, \mathsf{*.f32}\left(\left(\alpha \cdot \left(u0 \cdot \frac{1}{2} + 1\right)\right), \alpha\right)\right) \]

    4. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(u0, \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \left(u0 \cdot \frac{1}{2} + 1\right)\right), \alpha\right)\right) \]

    5. +-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(u0, \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \left(1 + u0 \cdot \frac{1}{2}\right)\right), \alpha\right)\right) \]

    6. +-lowering-+.f32N/A

      \[\leadsto \mathsf{*.f32}\left(u0, \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{+.f32}\left(1, \left(u0 \cdot \frac{1}{2}\right)\right)\right), \alpha\right)\right) \]

    7. *-lowering-*.f3289.3%

      \[\leadsto \mathsf{*.f32}\left(u0, \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{+.f32}\left(1, \mathsf{*.f32}\left(u0, \frac{1}{2}\right)\right)\right), \alpha\right)\right) \]

  9. Applied egg-rr89.3%

    \[\leadsto u0 \cdot \color{blue}{\left(\left(\alpha \cdot \left(1 + u0 \cdot 0.5\right)\right) \cdot \alpha\right)} \]

  10. Final simplification89.3%

    \[\leadsto u0 \cdot \left(\alpha \cdot \left(\alpha \cdot \left(u0 \cdot 0.5 + 1\right)\right)\right) \]
  11. Add Preprocessing

Alternative 14: 74.7% accurate, 21.6× speedup?

\[\begin{array}{l} \\ \alpha \cdot \left(u0 \cdot \alpha\right) \end{array} \]
(FPCore (alpha u0) :precision binary32 (* alpha (* u0 alpha)))
float code(float alpha, float u0) {
	return alpha * (u0 * alpha);
}

real(4) function code(alpha, u0)
    real(4), intent (in) :: alpha
    real(4), intent (in) :: u0
    code = alpha * (u0 * alpha)
end function

function code(alpha, u0)
	return Float32(alpha * Float32(u0 * alpha))
end

function tmp = code(alpha, u0)
	tmp = alpha * (u0 * alpha);
end

\begin{array}{l}

\\
\alpha \cdot \left(u0 \cdot \alpha\right)
\end{array}
Derivation

  1. Initial program 53.4%

    \[\left(\left(-\alpha\right) \cdot \alpha\right) \cdot \log \left(1 - u0\right) \]
  2. Step-by-step derivation

    1. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\left(\left(\mathsf{neg}\left(\alpha\right)\right) \cdot \alpha\right), \color{blue}{\log \left(1 - u0\right)}\right) \]

    2. *-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(\left(\alpha \cdot \left(\mathsf{neg}\left(\alpha\right)\right)\right), \log \color{blue}{\left(1 - u0\right)}\right) \]

    3. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \left(\mathsf{neg}\left(\alpha\right)\right)\right), \log \color{blue}{\left(1 - u0\right)}\right) \]

    4. neg-lowering-neg.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{neg.f32}\left(\alpha\right)\right), \log \left(1 - \color{blue}{u0}\right)\right) \]

    5. sub-negN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{neg.f32}\left(\alpha\right)\right), \log \left(1 + \left(\mathsf{neg}\left(u0\right)\right)\right)\right) \]

    6. log1p-defineN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{neg.f32}\left(\alpha\right)\right), \left(\mathsf{log1p}\left(\mathsf{neg}\left(u0\right)\right)\right)\right) \]

    7. log1p-lowering-log1p.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{neg.f32}\left(\alpha\right)\right), \mathsf{log1p.f32}\left(\left(\mathsf{neg}\left(u0\right)\right)\right)\right) \]

    8. neg-lowering-neg.f3299.0%

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{neg.f32}\left(\alpha\right)\right), \mathsf{log1p.f32}\left(\mathsf{neg.f32}\left(u0\right)\right)\right) \]

  3. Simplified99.0%

    \[\leadsto \color{blue}{\left(\alpha \cdot \left(-\alpha\right)\right) \cdot \mathsf{log1p}\left(-u0\right)} \]
  4. Add Preprocessing

  5. Taylor expanded in u0 around 0

    \[\leadsto \color{blue}{{\alpha}^{2} \cdot u0} \]
  6. Step-by-step derivation

    1. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\left({\alpha}^{2}\right), \color{blue}{u0}\right) \]

    2. unpow2N/A

      \[\leadsto \mathsf{*.f32}\left(\left(\alpha \cdot \alpha\right), u0\right) \]

    3. *-lowering-*.f3276.5%

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \alpha\right), u0\right) \]

  7. Simplified76.5%

    \[\leadsto \color{blue}{\left(\alpha \cdot \alpha\right) \cdot u0} \]
  8. Step-by-step derivation

    1. associate-*l*N/A

      \[\leadsto \alpha \cdot \color{blue}{\left(\alpha \cdot u0\right)} \]

    2. *-commutativeN/A

      \[\leadsto \left(\alpha \cdot u0\right) \cdot \color{blue}{\alpha} \]

    3. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\left(\alpha \cdot u0\right), \color{blue}{\alpha}\right) \]

    4. *-lowering-*.f3276.6%

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, u0\right), \alpha\right) \]

  9. Applied egg-rr76.6%

    \[\leadsto \color{blue}{\left(\alpha \cdot u0\right) \cdot \alpha} \]

  10. Final simplification76.6%

    \[\leadsto \alpha \cdot \left(u0 \cdot \alpha\right) \]
  11. Add Preprocessing

Alternative 15: 74.7% accurate, 21.6× speedup?

\[\begin{array}{l} \\ u0 \cdot \left(\alpha \cdot \alpha\right) \end{array} \]
(FPCore (alpha u0) :precision binary32 (* u0 (* alpha alpha)))
float code(float alpha, float u0) {
	return u0 * (alpha * alpha);
}

real(4) function code(alpha, u0)
    real(4), intent (in) :: alpha
    real(4), intent (in) :: u0
    code = u0 * (alpha * alpha)
end function

function code(alpha, u0)
	return Float32(u0 * Float32(alpha * alpha))
end

function tmp = code(alpha, u0)
	tmp = u0 * (alpha * alpha);
end

\begin{array}{l}

\\
u0 \cdot \left(\alpha \cdot \alpha\right)
\end{array}
Derivation

  1. Initial program 53.4%

    \[\left(\left(-\alpha\right) \cdot \alpha\right) \cdot \log \left(1 - u0\right) \]
  2. Step-by-step derivation

    1. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\left(\left(\mathsf{neg}\left(\alpha\right)\right) \cdot \alpha\right), \color{blue}{\log \left(1 - u0\right)}\right) \]

    2. *-commutativeN/A

      \[\leadsto \mathsf{*.f32}\left(\left(\alpha \cdot \left(\mathsf{neg}\left(\alpha\right)\right)\right), \log \color{blue}{\left(1 - u0\right)}\right) \]

    3. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \left(\mathsf{neg}\left(\alpha\right)\right)\right), \log \color{blue}{\left(1 - u0\right)}\right) \]

    4. neg-lowering-neg.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{neg.f32}\left(\alpha\right)\right), \log \left(1 - \color{blue}{u0}\right)\right) \]

    5. sub-negN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{neg.f32}\left(\alpha\right)\right), \log \left(1 + \left(\mathsf{neg}\left(u0\right)\right)\right)\right) \]

    6. log1p-defineN/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{neg.f32}\left(\alpha\right)\right), \left(\mathsf{log1p}\left(\mathsf{neg}\left(u0\right)\right)\right)\right) \]

    7. log1p-lowering-log1p.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{neg.f32}\left(\alpha\right)\right), \mathsf{log1p.f32}\left(\left(\mathsf{neg}\left(u0\right)\right)\right)\right) \]

    8. neg-lowering-neg.f3299.0%

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \mathsf{neg.f32}\left(\alpha\right)\right), \mathsf{log1p.f32}\left(\mathsf{neg.f32}\left(u0\right)\right)\right) \]

  3. Simplified99.0%

    \[\leadsto \color{blue}{\left(\alpha \cdot \left(-\alpha\right)\right) \cdot \mathsf{log1p}\left(-u0\right)} \]
  4. Add Preprocessing

  5. Taylor expanded in u0 around 0

    \[\leadsto \color{blue}{{\alpha}^{2} \cdot u0} \]
  6. Step-by-step derivation

    1. *-lowering-*.f32N/A

      \[\leadsto \mathsf{*.f32}\left(\left({\alpha}^{2}\right), \color{blue}{u0}\right) \]

    2. unpow2N/A

      \[\leadsto \mathsf{*.f32}\left(\left(\alpha \cdot \alpha\right), u0\right) \]

    3. *-lowering-*.f3276.5%

      \[\leadsto \mathsf{*.f32}\left(\mathsf{*.f32}\left(\alpha, \alpha\right), u0\right) \]

  7. Simplified76.5%

    \[\leadsto \color{blue}{\left(\alpha \cdot \alpha\right) \cdot u0} \]

  8. Final simplification76.5%

    \[\leadsto u0 \cdot \left(\alpha \cdot \alpha\right) \]
  9. Add Preprocessing

Reproduce

?
herbie shell --seed 2024155 
(FPCore (alpha u0)
  :name "Beckmann Distribution sample, tan2theta, alphax == alphay"
  :precision binary32
  :pre (and (and (<= 0.0001 alpha) (<= alpha 1.0)) (and (<= 2.328306437e-10 u0) (<= u0 1.0)))
  (* (* (- alpha) alpha) (log (- 1.0 u0))))