Result for Numeric.SpecFunctions:invErfc from math-functions-0.1.5.2, A

Alternative 1: 99.9% accurate, 0.4× speedup?

\[\begin{array}{l} \\ \begin{array}{l} \mathbf{if}\;e^{z} \leq 0:\\ \;\;\;\;x - \frac{1}{x}\\ \mathbf{else}:\\ \;\;\;\;x - \frac{y}{\mathsf{fma}\left(x, y, e^{z} \cdot -1.1283791670955126\right)}\\ \end{array} \end{array} \]

(FPCore (x y z)
 :precision binary64
 (if (<= (exp z) 0.0)
   (- x (/ 1.0 x))
   (- x (/ y (fma x y (* (exp z) -1.1283791670955126))))))

double code(double x, double y, double z) {
	double tmp;
	if (exp(z) <= 0.0) {
		tmp = x - (1.0 / x);
	} else {
		tmp = x - (y / fma(x, y, (exp(z) * -1.1283791670955126)));
	}
	return tmp;
}

function code(x, y, z)
	tmp = 0.0
	if (exp(z) <= 0.0)
		tmp = Float64(x - Float64(1.0 / x));
	else
		tmp = Float64(x - Float64(y / fma(x, y, Float64(exp(z) * -1.1283791670955126))));
	end
	return tmp
end

code[x_, y_, z_] := If[LessEqual[N[Exp[z], $MachinePrecision], 0.0], N[(x - N[(1.0 / x), $MachinePrecision]), $MachinePrecision], N[(x - N[(y / N[(x * y + N[(N[Exp[z], $MachinePrecision] * -1.1283791670955126), $MachinePrecision]), $MachinePrecision]), $MachinePrecision]), $MachinePrecision]]

\begin{array}{l}

\\
\begin{array}{l}
\mathbf{if}\;e^{z} \leq 0:\\
\;\;\;\;x - \frac{1}{x}\\

\mathbf{else}:\\
\;\;\;\;x - \frac{y}{\mathsf{fma}\left(x, y, e^{z} \cdot -1.1283791670955126\right)}\\


\end{array}
\end{array}

Derivation

Split input into 2 regimes
if (exp.f64 z) < 0.0
1. Initial program 89.9%
  \[x + \frac{y}{1.1283791670955126 \cdot e^{z} - x \cdot y} \]
2. Step-by-step derivation
  1. remove-double-neg89.9%
    \[\leadsto x + \frac{\color{blue}{-\left(-y\right)}}{1.1283791670955126 \cdot e^{z} - x \cdot y} \]
  2. distribute-frac-neg89.9%
    \[\leadsto x + \color{blue}{\left(-\frac{-y}{1.1283791670955126 \cdot e^{z} - x \cdot y}\right)} \]
  3. unsub-neg89.9%
    \[\leadsto \color{blue}{x - \frac{-y}{1.1283791670955126 \cdot e^{z} - x \cdot y}} \]
  4. distribute-frac-neg89.9%
    \[\leadsto x - \color{blue}{\left(-\frac{y}{1.1283791670955126 \cdot e^{z} - x \cdot y}\right)} \]
  5. distribute-neg-frac289.9%
    \[\leadsto x - \color{blue}{\frac{y}{-\left(1.1283791670955126 \cdot e^{z} - x \cdot y\right)}} \]
  6. neg-sub090.1%
    \[\leadsto x - \frac{y}{\color{blue}{0 - \left(1.1283791670955126 \cdot e^{z} - x \cdot y\right)}} \]
  7. associate--r-90.1%
    \[\leadsto x - \frac{y}{\color{blue}{\left(0 - 1.1283791670955126 \cdot e^{z}\right) + x \cdot y}} \]
  8. neg-sub090.4%
    \[\leadsto x - \frac{y}{\color{blue}{\left(-1.1283791670955126 \cdot e^{z}\right)} + x \cdot y} \]
  9. +-commutative90.4%
    \[\leadsto x - \frac{y}{\color{blue}{x \cdot y + \left(-1.1283791670955126 \cdot e^{z}\right)}} \]
  10. fma-define90.4%
    \[\leadsto x - \frac{y}{\color{blue}{\mathsf{fma}\left(x, y, -1.1283791670955126 \cdot e^{z}\right)}} \]
  11. *-commutative90.4%
    \[\leadsto x - \frac{y}{\mathsf{fma}\left(x, y, -\color{blue}{e^{z} \cdot 1.1283791670955126}\right)} \]
  12. distribute-rgt-neg-in90.4%
    \[\leadsto x - \frac{y}{\mathsf{fma}\left(x, y, \color{blue}{e^{z} \cdot \left(-1.1283791670955126\right)}\right)} \]
  13. metadata-eval90.4%
    \[\leadsto x - \frac{y}{\mathsf{fma}\left(x, y, e^{z} \cdot \color{blue}{-1.1283791670955126}\right)} \]
3. Simplified90.4%
  \[\leadsto \color{blue}{x - \frac{y}{\mathsf{fma}\left(x, y, e^{z} \cdot -1.1283791670955126\right)}} \]
4. Add Preprocessing
5. Taylor expanded in y around inf 100.0%
  \[\leadsto x - \color{blue}{\frac{1}{x}} \]
if 0.0 < (exp.f64 z)
1. Initial program 98.4%
  \[x + \frac{y}{1.1283791670955126 \cdot e^{z} - x \cdot y} \]
2. Step-by-step derivation
  1. remove-double-neg98.4%
    \[\leadsto x + \frac{\color{blue}{-\left(-y\right)}}{1.1283791670955126 \cdot e^{z} - x \cdot y} \]
  2. distribute-frac-neg98.4%
    \[\leadsto x + \color{blue}{\left(-\frac{-y}{1.1283791670955126 \cdot e^{z} - x \cdot y}\right)} \]
  3. unsub-neg98.4%
    \[\leadsto \color{blue}{x - \frac{-y}{1.1283791670955126 \cdot e^{z} - x \cdot y}} \]
  4. distribute-frac-neg98.4%
    \[\leadsto x - \color{blue}{\left(-\frac{y}{1.1283791670955126 \cdot e^{z} - x \cdot y}\right)} \]
  5. distribute-neg-frac298.4%
    \[\leadsto x - \color{blue}{\frac{y}{-\left(1.1283791670955126 \cdot e^{z} - x \cdot y\right)}} \]
  6. neg-sub098.4%
    \[\leadsto x - \frac{y}{\color{blue}{0 - \left(1.1283791670955126 \cdot e^{z} - x \cdot y\right)}} \]
  7. associate--r-98.4%
    \[\leadsto x - \frac{y}{\color{blue}{\left(0 - 1.1283791670955126 \cdot e^{z}\right) + x \cdot y}} \]
  8. neg-sub098.4%
    \[\leadsto x - \frac{y}{\color{blue}{\left(-1.1283791670955126 \cdot e^{z}\right)} + x \cdot y} \]
  9. +-commutative98.4%
    \[\leadsto x - \frac{y}{\color{blue}{x \cdot y + \left(-1.1283791670955126 \cdot e^{z}\right)}} \]
  10. fma-define99.9%
    \[\leadsto x - \frac{y}{\color{blue}{\mathsf{fma}\left(x, y, -1.1283791670955126 \cdot e^{z}\right)}} \]
  11. *-commutative99.9%
    \[\leadsto x - \frac{y}{\mathsf{fma}\left(x, y, -\color{blue}{e^{z} \cdot 1.1283791670955126}\right)} \]
  12. distribute-rgt-neg-in99.9%
    \[\leadsto x - \frac{y}{\mathsf{fma}\left(x, y, \color{blue}{e^{z} \cdot \left(-1.1283791670955126\right)}\right)} \]
  13. metadata-eval99.9%
    \[\leadsto x - \frac{y}{\mathsf{fma}\left(x, y, e^{z} \cdot \color{blue}{-1.1283791670955126}\right)} \]
3. Simplified99.9%
  \[\leadsto \color{blue}{x - \frac{y}{\mathsf{fma}\left(x, y, e^{z} \cdot -1.1283791670955126\right)}} \]
4. Add Preprocessing
Recombined 2 regimes into one program.
Final simplification99.9%
\[\leadsto \begin{array}{l} \mathbf{if}\;e^{z} \leq 0:\\ \;\;\;\;x - \frac{1}{x}\\ \mathbf{else}:\\ \;\;\;\;x - \frac{y}{\mathsf{fma}\left(x, y, e^{z} \cdot -1.1283791670955126\right)}\\ \end{array} \]
Add Preprocessing

Alternative 2: 98.6% accurate, 0.5× speedup?

\[\begin{array}{l} \\ \begin{array}{l} t_0 := x + \frac{y}{e^{z} \cdot 1.1283791670955126 - x \cdot y}\\ \mathbf{if}\;t\_0 \leq 5 \cdot 10^{+270}:\\ \;\;\;\;t\_0\\ \mathbf{else}:\\ \;\;\;\;x - \frac{1}{x}\\ \end{array} \end{array} \]

(FPCore (x y z)
 :precision binary64
 (let* ((t_0 (+ x (/ y (- (* (exp z) 1.1283791670955126) (* x y))))))
   (if (<= t_0 5e+270) t_0 (- x (/ 1.0 x)))))

double code(double x, double y, double z) {
	double t_0 = x + (y / ((exp(z) * 1.1283791670955126) - (x * y)));
	double tmp;
	if (t_0 <= 5e+270) {
		tmp = t_0;
	} else {
		tmp = x - (1.0 / x);
	}
	return tmp;
}

real(8) function code(x, y, z)
    real(8), intent (in) :: x
    real(8), intent (in) :: y
    real(8), intent (in) :: z
    real(8) :: t_0
    real(8) :: tmp
    t_0 = x + (y / ((exp(z) * 1.1283791670955126d0) - (x * y)))
    if (t_0 <= 5d+270) then
        tmp = t_0
    else
        tmp = x - (1.0d0 / x)
    end if
    code = tmp
end function

public static double code(double x, double y, double z) {
	double t_0 = x + (y / ((Math.exp(z) * 1.1283791670955126) - (x * y)));
	double tmp;
	if (t_0 <= 5e+270) {
		tmp = t_0;
	} else {
		tmp = x - (1.0 / x);
	}
	return tmp;
}

def code(x, y, z):
	t_0 = x + (y / ((math.exp(z) * 1.1283791670955126) - (x * y)))
	tmp = 0
	if t_0 <= 5e+270:
		tmp = t_0
	else:
		tmp = x - (1.0 / x)
	return tmp

function code(x, y, z)
	t_0 = Float64(x + Float64(y / Float64(Float64(exp(z) * 1.1283791670955126) - Float64(x * y))))
	tmp = 0.0
	if (t_0 <= 5e+270)
		tmp = t_0;
	else
		tmp = Float64(x - Float64(1.0 / x));
	end
	return tmp
end

function tmp_2 = code(x, y, z)
	t_0 = x + (y / ((exp(z) * 1.1283791670955126) - (x * y)));
	tmp = 0.0;
	if (t_0 <= 5e+270)
		tmp = t_0;
	else
		tmp = x - (1.0 / x);
	end
	tmp_2 = tmp;
end

code[x_, y_, z_] := Block[{t$95$0 = N[(x + N[(y / N[(N[(N[Exp[z], $MachinePrecision] * 1.1283791670955126), $MachinePrecision] - N[(x * y), $MachinePrecision]), $MachinePrecision]), $MachinePrecision]), $MachinePrecision]}, If[LessEqual[t$95$0, 5e+270], t$95$0, N[(x - N[(1.0 / x), $MachinePrecision]), $MachinePrecision]]]

\begin{array}{l}

\\
\begin{array}{l}
t_0 := x + \frac{y}{e^{z} \cdot 1.1283791670955126 - x \cdot y}\\
\mathbf{if}\;t\_0 \leq 5 \cdot 10^{+270}:\\
\;\;\;\;t\_0\\

\mathbf{else}:\\
\;\;\;\;x - \frac{1}{x}\\


\end{array}
\end{array}

Derivation

Split input into 2 regimes
if (+.f64 x (/.f64 y (-.f64 (*.f64 #s(literal 5641895835477563/5000000000000000 binary64) (exp.f64 z)) (*.f64 x y)))) < 4.99999999999999976e270
1. Initial program 99.0%
  \[x + \frac{y}{1.1283791670955126 \cdot e^{z} - x \cdot y} \]
2. Add Preprocessing
if 4.99999999999999976e270 < (+.f64 x (/.f64 y (-.f64 (*.f64 #s(literal 5641895835477563/5000000000000000 binary64) (exp.f64 z)) (*.f64 x y))))
1. Initial program 45.5%
  \[x + \frac{y}{1.1283791670955126 \cdot e^{z} - x \cdot y} \]
2. Step-by-step derivation
  1. remove-double-neg45.5%
    \[\leadsto x + \frac{\color{blue}{-\left(-y\right)}}{1.1283791670955126 \cdot e^{z} - x \cdot y} \]
  2. distribute-frac-neg45.5%
    \[\leadsto x + \color{blue}{\left(-\frac{-y}{1.1283791670955126 \cdot e^{z} - x \cdot y}\right)} \]
  3. unsub-neg45.5%
    \[\leadsto \color{blue}{x - \frac{-y}{1.1283791670955126 \cdot e^{z} - x \cdot y}} \]
  4. distribute-frac-neg45.5%
    \[\leadsto x - \color{blue}{\left(-\frac{y}{1.1283791670955126 \cdot e^{z} - x \cdot y}\right)} \]
  5. distribute-neg-frac245.5%
    \[\leadsto x - \color{blue}{\frac{y}{-\left(1.1283791670955126 \cdot e^{z} - x \cdot y\right)}} \]
  6. neg-sub047.8%
    \[\leadsto x - \frac{y}{\color{blue}{0 - \left(1.1283791670955126 \cdot e^{z} - x \cdot y\right)}} \]
  7. associate--r-47.8%
    \[\leadsto x - \frac{y}{\color{blue}{\left(0 - 1.1283791670955126 \cdot e^{z}\right) + x \cdot y}} \]
  8. neg-sub047.8%
    \[\leadsto x - \frac{y}{\color{blue}{\left(-1.1283791670955126 \cdot e^{z}\right)} + x \cdot y} \]
  9. +-commutative47.8%
    \[\leadsto x - \frac{y}{\color{blue}{x \cdot y + \left(-1.1283791670955126 \cdot e^{z}\right)}} \]
  10. fma-define75.1%
    \[\leadsto x - \frac{y}{\color{blue}{\mathsf{fma}\left(x, y, -1.1283791670955126 \cdot e^{z}\right)}} \]
  11. *-commutative75.1%
    \[\leadsto x - \frac{y}{\mathsf{fma}\left(x, y, -\color{blue}{e^{z} \cdot 1.1283791670955126}\right)} \]
  12. distribute-rgt-neg-in75.1%
    \[\leadsto x - \frac{y}{\mathsf{fma}\left(x, y, \color{blue}{e^{z} \cdot \left(-1.1283791670955126\right)}\right)} \]
  13. metadata-eval75.1%
    \[\leadsto x - \frac{y}{\mathsf{fma}\left(x, y, e^{z} \cdot \color{blue}{-1.1283791670955126}\right)} \]
3. Simplified75.1%
  \[\leadsto \color{blue}{x - \frac{y}{\mathsf{fma}\left(x, y, e^{z} \cdot -1.1283791670955126\right)}} \]
4. Add Preprocessing
5. Taylor expanded in y around inf 100.0%
  \[\leadsto x - \color{blue}{\frac{1}{x}} \]
Recombined 2 regimes into one program.
Final simplification99.0%
\[\leadsto \begin{array}{l} \mathbf{if}\;x + \frac{y}{e^{z} \cdot 1.1283791670955126 - x \cdot y} \leq 5 \cdot 10^{+270}:\\ \;\;\;\;x + \frac{y}{e^{z} \cdot 1.1283791670955126 - x \cdot y}\\ \mathbf{else}:\\ \;\;\;\;x - \frac{1}{x}\\ \end{array} \]
Add Preprocessing

Alternative 3: 99.1% accurate, 0.5× speedup?

\[\begin{array}{l} \\ \begin{array}{l} \mathbf{if}\;e^{z} \leq 0:\\ \;\;\;\;x - \frac{1}{x}\\ \mathbf{elif}\;e^{z} \leq 1:\\ \;\;\;\;x + \frac{y}{1.1283791670955126 - x \cdot y}\\ \mathbf{else}:\\ \;\;\;\;x\\ \end{array} \end{array} \]

(FPCore (x y z)
 :precision binary64
 (if (<= (exp z) 0.0)
   (- x (/ 1.0 x))
   (if (<= (exp z) 1.0) (+ x (/ y (- 1.1283791670955126 (* x y)))) x)))

double code(double x, double y, double z) {
	double tmp;
	if (exp(z) <= 0.0) {
		tmp = x - (1.0 / x);
	} else if (exp(z) <= 1.0) {
		tmp = x + (y / (1.1283791670955126 - (x * y)));
	} else {
		tmp = x;
	}
	return tmp;
}

real(8) function code(x, y, z)
    real(8), intent (in) :: x
    real(8), intent (in) :: y
    real(8), intent (in) :: z
    real(8) :: tmp
    if (exp(z) <= 0.0d0) then
        tmp = x - (1.0d0 / x)
    else if (exp(z) <= 1.0d0) then
        tmp = x + (y / (1.1283791670955126d0 - (x * y)))
    else
        tmp = x
    end if
    code = tmp
end function

public static double code(double x, double y, double z) {
	double tmp;
	if (Math.exp(z) <= 0.0) {
		tmp = x - (1.0 / x);
	} else if (Math.exp(z) <= 1.0) {
		tmp = x + (y / (1.1283791670955126 - (x * y)));
	} else {
		tmp = x;
	}
	return tmp;
}

def code(x, y, z):
	tmp = 0
	if math.exp(z) <= 0.0:
		tmp = x - (1.0 / x)
	elif math.exp(z) <= 1.0:
		tmp = x + (y / (1.1283791670955126 - (x * y)))
	else:
		tmp = x
	return tmp

function code(x, y, z)
	tmp = 0.0
	if (exp(z) <= 0.0)
		tmp = Float64(x - Float64(1.0 / x));
	elseif (exp(z) <= 1.0)
		tmp = Float64(x + Float64(y / Float64(1.1283791670955126 - Float64(x * y))));
	else
		tmp = x;
	end
	return tmp
end

function tmp_2 = code(x, y, z)
	tmp = 0.0;
	if (exp(z) <= 0.0)
		tmp = x - (1.0 / x);
	elseif (exp(z) <= 1.0)
		tmp = x + (y / (1.1283791670955126 - (x * y)));
	else
		tmp = x;
	end
	tmp_2 = tmp;
end

code[x_, y_, z_] := If[LessEqual[N[Exp[z], $MachinePrecision], 0.0], N[(x - N[(1.0 / x), $MachinePrecision]), $MachinePrecision], If[LessEqual[N[Exp[z], $MachinePrecision], 1.0], N[(x + N[(y / N[(1.1283791670955126 - N[(x * y), $MachinePrecision]), $MachinePrecision]), $MachinePrecision]), $MachinePrecision], x]]

\begin{array}{l}

\\
\begin{array}{l}
\mathbf{if}\;e^{z} \leq 0:\\
\;\;\;\;x - \frac{1}{x}\\

\mathbf{elif}\;e^{z} \leq 1:\\
\;\;\;\;x + \frac{y}{1.1283791670955126 - x \cdot y}\\

\mathbf{else}:\\
\;\;\;\;x\\


\end{array}
\end{array}

Derivation

Split input into 3 regimes
if (exp.f64 z) < 0.0
1. Initial program 89.9%
  \[x + \frac{y}{1.1283791670955126 \cdot e^{z} - x \cdot y} \]
2. Step-by-step derivation
  1. remove-double-neg89.9%
    \[\leadsto x + \frac{\color{blue}{-\left(-y\right)}}{1.1283791670955126 \cdot e^{z} - x \cdot y} \]
  2. distribute-frac-neg89.9%
    \[\leadsto x + \color{blue}{\left(-\frac{-y}{1.1283791670955126 \cdot e^{z} - x \cdot y}\right)} \]
  3. unsub-neg89.9%
    \[\leadsto \color{blue}{x - \frac{-y}{1.1283791670955126 \cdot e^{z} - x \cdot y}} \]
  4. distribute-frac-neg89.9%
    \[\leadsto x - \color{blue}{\left(-\frac{y}{1.1283791670955126 \cdot e^{z} - x \cdot y}\right)} \]
  5. distribute-neg-frac289.9%
    \[\leadsto x - \color{blue}{\frac{y}{-\left(1.1283791670955126 \cdot e^{z} - x \cdot y\right)}} \]
  6. neg-sub090.1%
    \[\leadsto x - \frac{y}{\color{blue}{0 - \left(1.1283791670955126 \cdot e^{z} - x \cdot y\right)}} \]
  7. associate--r-90.1%
    \[\leadsto x - \frac{y}{\color{blue}{\left(0 - 1.1283791670955126 \cdot e^{z}\right) + x \cdot y}} \]
  8. neg-sub090.4%
    \[\leadsto x - \frac{y}{\color{blue}{\left(-1.1283791670955126 \cdot e^{z}\right)} + x \cdot y} \]
  9. +-commutative90.4%
    \[\leadsto x - \frac{y}{\color{blue}{x \cdot y + \left(-1.1283791670955126 \cdot e^{z}\right)}} \]
  10. fma-define90.4%
    \[\leadsto x - \frac{y}{\color{blue}{\mathsf{fma}\left(x, y, -1.1283791670955126 \cdot e^{z}\right)}} \]
  11. *-commutative90.4%
    \[\leadsto x - \frac{y}{\mathsf{fma}\left(x, y, -\color{blue}{e^{z} \cdot 1.1283791670955126}\right)} \]
  12. distribute-rgt-neg-in90.4%
    \[\leadsto x - \frac{y}{\mathsf{fma}\left(x, y, \color{blue}{e^{z} \cdot \left(-1.1283791670955126\right)}\right)} \]
  13. metadata-eval90.4%
    \[\leadsto x - \frac{y}{\mathsf{fma}\left(x, y, e^{z} \cdot \color{blue}{-1.1283791670955126}\right)} \]
3. Simplified90.4%
  \[\leadsto \color{blue}{x - \frac{y}{\mathsf{fma}\left(x, y, e^{z} \cdot -1.1283791670955126\right)}} \]
4. Add Preprocessing
5. Taylor expanded in y around inf 100.0%
  \[\leadsto x - \color{blue}{\frac{1}{x}} \]
if 0.0 < (exp.f64 z) < 1
1. Initial program 99.9%
  \[x + \frac{y}{1.1283791670955126 \cdot e^{z} - x \cdot y} \]
2. Step-by-step derivation
  1. remove-double-neg99.9%
    \[\leadsto x + \frac{\color{blue}{-\left(-y\right)}}{1.1283791670955126 \cdot e^{z} - x \cdot y} \]
  2. distribute-frac-neg99.9%
    \[\leadsto x + \color{blue}{\left(-\frac{-y}{1.1283791670955126 \cdot e^{z} - x \cdot y}\right)} \]
  3. unsub-neg99.9%
    \[\leadsto \color{blue}{x - \frac{-y}{1.1283791670955126 \cdot e^{z} - x \cdot y}} \]
  4. distribute-frac-neg99.9%
    \[\leadsto x - \color{blue}{\left(-\frac{y}{1.1283791670955126 \cdot e^{z} - x \cdot y}\right)} \]
  5. distribute-neg-frac299.9%
    \[\leadsto x - \color{blue}{\frac{y}{-\left(1.1283791670955126 \cdot e^{z} - x \cdot y\right)}} \]
  6. neg-sub099.9%
    \[\leadsto x - \frac{y}{\color{blue}{0 - \left(1.1283791670955126 \cdot e^{z} - x \cdot y\right)}} \]
  7. associate--r-99.9%
    \[\leadsto x - \frac{y}{\color{blue}{\left(0 - 1.1283791670955126 \cdot e^{z}\right) + x \cdot y}} \]
  8. neg-sub099.9%
    \[\leadsto x - \frac{y}{\color{blue}{\left(-1.1283791670955126 \cdot e^{z}\right)} + x \cdot y} \]
  9. +-commutative99.9%
    \[\leadsto x - \frac{y}{\color{blue}{x \cdot y + \left(-1.1283791670955126 \cdot e^{z}\right)}} \]
  10. fma-define99.9%
    \[\leadsto x - \frac{y}{\color{blue}{\mathsf{fma}\left(x, y, -1.1283791670955126 \cdot e^{z}\right)}} \]
  11. *-commutative99.9%
    \[\leadsto x - \frac{y}{\mathsf{fma}\left(x, y, -\color{blue}{e^{z} \cdot 1.1283791670955126}\right)} \]
  12. distribute-rgt-neg-in99.9%
    \[\leadsto x - \frac{y}{\mathsf{fma}\left(x, y, \color{blue}{e^{z} \cdot \left(-1.1283791670955126\right)}\right)} \]
  13. metadata-eval99.9%
    \[\leadsto x - \frac{y}{\mathsf{fma}\left(x, y, e^{z} \cdot \color{blue}{-1.1283791670955126}\right)} \]
3. Simplified99.9%
  \[\leadsto \color{blue}{x - \frac{y}{\mathsf{fma}\left(x, y, e^{z} \cdot -1.1283791670955126\right)}} \]
4. Add Preprocessing
5. Taylor expanded in z around 0 99.9%
  \[\leadsto x - \color{blue}{\frac{y}{x \cdot y - 1.1283791670955126}} \]
if 1 < (exp.f64 z)
1. Initial program 95.3%
  \[x + \frac{y}{1.1283791670955126 \cdot e^{z} - x \cdot y} \]
2. Step-by-step derivation
  1. remove-double-neg95.3%
    \[\leadsto x + \frac{\color{blue}{-\left(-y\right)}}{1.1283791670955126 \cdot e^{z} - x \cdot y} \]
  2. distribute-frac-neg95.3%
    \[\leadsto x + \color{blue}{\left(-\frac{-y}{1.1283791670955126 \cdot e^{z} - x \cdot y}\right)} \]
  3. unsub-neg95.3%
    \[\leadsto \color{blue}{x - \frac{-y}{1.1283791670955126 \cdot e^{z} - x \cdot y}} \]
  4. distribute-frac-neg95.3%
    \[\leadsto x - \color{blue}{\left(-\frac{y}{1.1283791670955126 \cdot e^{z} - x \cdot y}\right)} \]
  5. distribute-neg-frac295.3%
    \[\leadsto x - \color{blue}{\frac{y}{-\left(1.1283791670955126 \cdot e^{z} - x \cdot y\right)}} \]
  6. neg-sub095.3%
    \[\leadsto x - \frac{y}{\color{blue}{0 - \left(1.1283791670955126 \cdot e^{z} - x \cdot y\right)}} \]
  7. associate--r-95.3%
    \[\leadsto x - \frac{y}{\color{blue}{\left(0 - 1.1283791670955126 \cdot e^{z}\right) + x \cdot y}} \]
  8. neg-sub095.3%
    \[\leadsto x - \frac{y}{\color{blue}{\left(-1.1283791670955126 \cdot e^{z}\right)} + x \cdot y} \]
  9. +-commutative95.3%
    \[\leadsto x - \frac{y}{\color{blue}{x \cdot y + \left(-1.1283791670955126 \cdot e^{z}\right)}} \]
  10. fma-define100.0%
    \[\leadsto x - \frac{y}{\color{blue}{\mathsf{fma}\left(x, y, -1.1283791670955126 \cdot e^{z}\right)}} \]
  11. *-commutative100.0%
    \[\leadsto x - \frac{y}{\mathsf{fma}\left(x, y, -\color{blue}{e^{z} \cdot 1.1283791670955126}\right)} \]
  12. distribute-rgt-neg-in100.0%
    \[\leadsto x - \frac{y}{\mathsf{fma}\left(x, y, \color{blue}{e^{z} \cdot \left(-1.1283791670955126\right)}\right)} \]
  13. metadata-eval100.0%
    \[\leadsto x - \frac{y}{\mathsf{fma}\left(x, y, e^{z} \cdot \color{blue}{-1.1283791670955126}\right)} \]
3. Simplified100.0%
  \[\leadsto \color{blue}{x - \frac{y}{\mathsf{fma}\left(x, y, e^{z} \cdot -1.1283791670955126\right)}} \]
4. Add Preprocessing
5. Taylor expanded in y around 0 100.0%
  \[\leadsto x - \color{blue}{-0.8862269254527579 \cdot \frac{y}{e^{z}}} \]
6. Step-by-step derivation
  1. *-commutative100.0%
    \[\leadsto x - \color{blue}{\frac{y}{e^{z}} \cdot -0.8862269254527579} \]
7. Simplified100.0%
  \[\leadsto x - \color{blue}{\frac{y}{e^{z}} \cdot -0.8862269254527579} \]
8. Taylor expanded in x around inf 100.0%
  \[\leadsto \color{blue}{x} \]
Recombined 3 regimes into one program.
Final simplification99.9%
\[\leadsto \begin{array}{l} \mathbf{if}\;e^{z} \leq 0:\\ \;\;\;\;x - \frac{1}{x}\\ \mathbf{elif}\;e^{z} \leq 1:\\ \;\;\;\;x + \frac{y}{1.1283791670955126 - x \cdot y}\\ \mathbf{else}:\\ \;\;\;\;x\\ \end{array} \]
Add Preprocessing

Alternative 4: 73.0% accurate, 7.4× speedup?

\[\begin{array}{l} \\ \begin{array}{l} \mathbf{if}\;z \leq -1 \cdot 10^{-59}:\\ \;\;\;\;x\\ \mathbf{elif}\;z \leq 1.55 \cdot 10^{-28}:\\ \;\;\;\;x - y \cdot -0.8862269254527579\\ \mathbf{else}:\\ \;\;\;\;x\\ \end{array} \end{array} \]

(FPCore (x y z)
 :precision binary64
 (if (<= z -1e-59) x (if (<= z 1.55e-28) (- x (* y -0.8862269254527579)) x)))

double code(double x, double y, double z) {
	double tmp;
	if (z <= -1e-59) {
		tmp = x;
	} else if (z <= 1.55e-28) {
		tmp = x - (y * -0.8862269254527579);
	} else {
		tmp = x;
	}
	return tmp;
}

real(8) function code(x, y, z)
    real(8), intent (in) :: x
    real(8), intent (in) :: y
    real(8), intent (in) :: z
    real(8) :: tmp
    if (z <= (-1d-59)) then
        tmp = x
    else if (z <= 1.55d-28) then
        tmp = x - (y * (-0.8862269254527579d0))
    else
        tmp = x
    end if
    code = tmp
end function

public static double code(double x, double y, double z) {
	double tmp;
	if (z <= -1e-59) {
		tmp = x;
	} else if (z <= 1.55e-28) {
		tmp = x - (y * -0.8862269254527579);
	} else {
		tmp = x;
	}
	return tmp;
}

def code(x, y, z):
	tmp = 0
	if z <= -1e-59:
		tmp = x
	elif z <= 1.55e-28:
		tmp = x - (y * -0.8862269254527579)
	else:
		tmp = x
	return tmp

function code(x, y, z)
	tmp = 0.0
	if (z <= -1e-59)
		tmp = x;
	elseif (z <= 1.55e-28)
		tmp = Float64(x - Float64(y * -0.8862269254527579));
	else
		tmp = x;
	end
	return tmp
end

function tmp_2 = code(x, y, z)
	tmp = 0.0;
	if (z <= -1e-59)
		tmp = x;
	elseif (z <= 1.55e-28)
		tmp = x - (y * -0.8862269254527579);
	else
		tmp = x;
	end
	tmp_2 = tmp;
end

code[x_, y_, z_] := If[LessEqual[z, -1e-59], x, If[LessEqual[z, 1.55e-28], N[(x - N[(y * -0.8862269254527579), $MachinePrecision]), $MachinePrecision], x]]

\begin{array}{l}

\\
\begin{array}{l}
\mathbf{if}\;z \leq -1 \cdot 10^{-59}:\\
\;\;\;\;x\\

\mathbf{elif}\;z \leq 1.55 \cdot 10^{-28}:\\
\;\;\;\;x - y \cdot -0.8862269254527579\\

\mathbf{else}:\\
\;\;\;\;x\\


\end{array}
\end{array}

Derivation

Split input into 2 regimes
if z < -1e-59 or 1.54999999999999996e-28 < z
1. Initial program 93.9%
  \[x + \frac{y}{1.1283791670955126 \cdot e^{z} - x \cdot y} \]
2. Step-by-step derivation
  1. remove-double-neg93.9%
    \[\leadsto x + \frac{\color{blue}{-\left(-y\right)}}{1.1283791670955126 \cdot e^{z} - x \cdot y} \]
  2. distribute-frac-neg93.9%
    \[\leadsto x + \color{blue}{\left(-\frac{-y}{1.1283791670955126 \cdot e^{z} - x \cdot y}\right)} \]
  3. unsub-neg93.9%
    \[\leadsto \color{blue}{x - \frac{-y}{1.1283791670955126 \cdot e^{z} - x \cdot y}} \]
  4. distribute-frac-neg93.9%
    \[\leadsto x - \color{blue}{\left(-\frac{y}{1.1283791670955126 \cdot e^{z} - x \cdot y}\right)} \]
  5. distribute-neg-frac293.9%
    \[\leadsto x - \color{blue}{\frac{y}{-\left(1.1283791670955126 \cdot e^{z} - x \cdot y\right)}} \]
  6. neg-sub094.0%
    \[\leadsto x - \frac{y}{\color{blue}{0 - \left(1.1283791670955126 \cdot e^{z} - x \cdot y\right)}} \]
  7. associate--r-94.0%
    \[\leadsto x - \frac{y}{\color{blue}{\left(0 - 1.1283791670955126 \cdot e^{z}\right) + x \cdot y}} \]
  8. neg-sub094.1%
    \[\leadsto x - \frac{y}{\color{blue}{\left(-1.1283791670955126 \cdot e^{z}\right)} + x \cdot y} \]
  9. +-commutative94.1%
    \[\leadsto x - \frac{y}{\color{blue}{x \cdot y + \left(-1.1283791670955126 \cdot e^{z}\right)}} \]
  10. fma-define96.3%
    \[\leadsto x - \frac{y}{\color{blue}{\mathsf{fma}\left(x, y, -1.1283791670955126 \cdot e^{z}\right)}} \]
  11. *-commutative96.3%
    \[\leadsto x - \frac{y}{\mathsf{fma}\left(x, y, -\color{blue}{e^{z} \cdot 1.1283791670955126}\right)} \]
  12. distribute-rgt-neg-in96.3%
    \[\leadsto x - \frac{y}{\mathsf{fma}\left(x, y, \color{blue}{e^{z} \cdot \left(-1.1283791670955126\right)}\right)} \]
  13. metadata-eval96.3%
    \[\leadsto x - \frac{y}{\mathsf{fma}\left(x, y, e^{z} \cdot \color{blue}{-1.1283791670955126}\right)} \]
3. Simplified96.3%
  \[\leadsto \color{blue}{x - \frac{y}{\mathsf{fma}\left(x, y, e^{z} \cdot -1.1283791670955126\right)}} \]
4. Add Preprocessing
5. Taylor expanded in y around 0 56.6%
  \[\leadsto x - \color{blue}{-0.8862269254527579 \cdot \frac{y}{e^{z}}} \]
6. Step-by-step derivation
  1. *-commutative56.6%
    \[\leadsto x - \color{blue}{\frac{y}{e^{z}} \cdot -0.8862269254527579} \]
7. Simplified56.6%
  \[\leadsto x - \color{blue}{\frac{y}{e^{z}} \cdot -0.8862269254527579} \]
8. Taylor expanded in x around inf 77.4%
  \[\leadsto \color{blue}{x} \]
if -1e-59 < z < 1.54999999999999996e-28
1. Initial program 99.9%
  \[x + \frac{y}{1.1283791670955126 \cdot e^{z} - x \cdot y} \]
2. Step-by-step derivation
  1. remove-double-neg99.9%
    \[\leadsto x + \frac{\color{blue}{-\left(-y\right)}}{1.1283791670955126 \cdot e^{z} - x \cdot y} \]
  2. distribute-frac-neg99.9%
    \[\leadsto x + \color{blue}{\left(-\frac{-y}{1.1283791670955126 \cdot e^{z} - x \cdot y}\right)} \]
  3. unsub-neg99.9%
    \[\leadsto \color{blue}{x - \frac{-y}{1.1283791670955126 \cdot e^{z} - x \cdot y}} \]
  4. distribute-frac-neg99.9%
    \[\leadsto x - \color{blue}{\left(-\frac{y}{1.1283791670955126 \cdot e^{z} - x \cdot y}\right)} \]
  5. distribute-neg-frac299.9%
    \[\leadsto x - \color{blue}{\frac{y}{-\left(1.1283791670955126 \cdot e^{z} - x \cdot y\right)}} \]
  6. neg-sub099.9%
    \[\leadsto x - \frac{y}{\color{blue}{0 - \left(1.1283791670955126 \cdot e^{z} - x \cdot y\right)}} \]
  7. associate--r-99.9%
    \[\leadsto x - \frac{y}{\color{blue}{\left(0 - 1.1283791670955126 \cdot e^{z}\right) + x \cdot y}} \]
  8. neg-sub099.9%
    \[\leadsto x - \frac{y}{\color{blue}{\left(-1.1283791670955126 \cdot e^{z}\right)} + x \cdot y} \]
  9. +-commutative99.9%
    \[\leadsto x - \frac{y}{\color{blue}{x \cdot y + \left(-1.1283791670955126 \cdot e^{z}\right)}} \]
  10. fma-define99.9%
    \[\leadsto x - \frac{y}{\color{blue}{\mathsf{fma}\left(x, y, -1.1283791670955126 \cdot e^{z}\right)}} \]
  11. *-commutative99.9%
    \[\leadsto x - \frac{y}{\mathsf{fma}\left(x, y, -\color{blue}{e^{z} \cdot 1.1283791670955126}\right)} \]
  12. distribute-rgt-neg-in99.9%
    \[\leadsto x - \frac{y}{\mathsf{fma}\left(x, y, \color{blue}{e^{z} \cdot \left(-1.1283791670955126\right)}\right)} \]
  13. metadata-eval99.9%
    \[\leadsto x - \frac{y}{\mathsf{fma}\left(x, y, e^{z} \cdot \color{blue}{-1.1283791670955126}\right)} \]
3. Simplified99.9%
  \[\leadsto \color{blue}{x - \frac{y}{\mathsf{fma}\left(x, y, e^{z} \cdot -1.1283791670955126\right)}} \]
4. Add Preprocessing
5. Taylor expanded in z around 0 99.9%
  \[\leadsto x - \color{blue}{\frac{y}{x \cdot y - 1.1283791670955126}} \]
6. Taylor expanded in y around 0 78.4%
  \[\leadsto x - \color{blue}{-0.8862269254527579 \cdot y} \]
7. Step-by-step derivation
  1. *-commutative78.4%
    \[\leadsto x - \color{blue}{y \cdot -0.8862269254527579} \]
8. Simplified78.4%
  \[\leadsto x - \color{blue}{y \cdot -0.8862269254527579} \]
Recombined 2 regimes into one program.
Final simplification77.8%
\[\leadsto \begin{array}{l} \mathbf{if}\;z \leq -1 \cdot 10^{-59}:\\ \;\;\;\;x\\ \mathbf{elif}\;z \leq 1.55 \cdot 10^{-28}:\\ \;\;\;\;x - y \cdot -0.8862269254527579\\ \mathbf{else}:\\ \;\;\;\;x\\ \end{array} \]
Add Preprocessing

Alternative 5: 85.9% accurate, 7.4× speedup?

\[\begin{array}{l} \\ \begin{array}{l} \mathbf{if}\;z \leq -1.2 \cdot 10^{-76}:\\ \;\;\;\;x - \frac{1}{x}\\ \mathbf{elif}\;z \leq 1.5 \cdot 10^{-29}:\\ \;\;\;\;x - y \cdot -0.8862269254527579\\ \mathbf{else}:\\ \;\;\;\;x\\ \end{array} \end{array} \]

(FPCore (x y z)
 :precision binary64
 (if (<= z -1.2e-76)
   (- x (/ 1.0 x))
   (if (<= z 1.5e-29) (- x (* y -0.8862269254527579)) x)))

double code(double x, double y, double z) {
	double tmp;
	if (z <= -1.2e-76) {
		tmp = x - (1.0 / x);
	} else if (z <= 1.5e-29) {
		tmp = x - (y * -0.8862269254527579);
	} else {
		tmp = x;
	}
	return tmp;
}

real(8) function code(x, y, z)
    real(8), intent (in) :: x
    real(8), intent (in) :: y
    real(8), intent (in) :: z
    real(8) :: tmp
    if (z <= (-1.2d-76)) then
        tmp = x - (1.0d0 / x)
    else if (z <= 1.5d-29) then
        tmp = x - (y * (-0.8862269254527579d0))
    else
        tmp = x
    end if
    code = tmp
end function

public static double code(double x, double y, double z) {
	double tmp;
	if (z <= -1.2e-76) {
		tmp = x - (1.0 / x);
	} else if (z <= 1.5e-29) {
		tmp = x - (y * -0.8862269254527579);
	} else {
		tmp = x;
	}
	return tmp;
}

def code(x, y, z):
	tmp = 0
	if z <= -1.2e-76:
		tmp = x - (1.0 / x)
	elif z <= 1.5e-29:
		tmp = x - (y * -0.8862269254527579)
	else:
		tmp = x
	return tmp

function code(x, y, z)
	tmp = 0.0
	if (z <= -1.2e-76)
		tmp = Float64(x - Float64(1.0 / x));
	elseif (z <= 1.5e-29)
		tmp = Float64(x - Float64(y * -0.8862269254527579));
	else
		tmp = x;
	end
	return tmp
end

function tmp_2 = code(x, y, z)
	tmp = 0.0;
	if (z <= -1.2e-76)
		tmp = x - (1.0 / x);
	elseif (z <= 1.5e-29)
		tmp = x - (y * -0.8862269254527579);
	else
		tmp = x;
	end
	tmp_2 = tmp;
end

code[x_, y_, z_] := If[LessEqual[z, -1.2e-76], N[(x - N[(1.0 / x), $MachinePrecision]), $MachinePrecision], If[LessEqual[z, 1.5e-29], N[(x - N[(y * -0.8862269254527579), $MachinePrecision]), $MachinePrecision], x]]

\begin{array}{l}

\\
\begin{array}{l}
\mathbf{if}\;z \leq -1.2 \cdot 10^{-76}:\\
\;\;\;\;x - \frac{1}{x}\\

\mathbf{elif}\;z \leq 1.5 \cdot 10^{-29}:\\
\;\;\;\;x - y \cdot -0.8862269254527579\\

\mathbf{else}:\\
\;\;\;\;x\\


\end{array}
\end{array}

Derivation

Split input into 3 regimes
if z < -1.20000000000000007e-76
1. Initial program 92.8%
  \[x + \frac{y}{1.1283791670955126 \cdot e^{z} - x \cdot y} \]
2. Step-by-step derivation
  1. remove-double-neg92.8%
    \[\leadsto x + \frac{\color{blue}{-\left(-y\right)}}{1.1283791670955126 \cdot e^{z} - x \cdot y} \]
  2. distribute-frac-neg92.8%
    \[\leadsto x + \color{blue}{\left(-\frac{-y}{1.1283791670955126 \cdot e^{z} - x \cdot y}\right)} \]
  3. unsub-neg92.8%
    \[\leadsto \color{blue}{x - \frac{-y}{1.1283791670955126 \cdot e^{z} - x \cdot y}} \]
  4. distribute-frac-neg92.8%
    \[\leadsto x - \color{blue}{\left(-\frac{y}{1.1283791670955126 \cdot e^{z} - x \cdot y}\right)} \]
  5. distribute-neg-frac292.8%
    \[\leadsto x - \color{blue}{\frac{y}{-\left(1.1283791670955126 \cdot e^{z} - x \cdot y\right)}} \]
  6. neg-sub093.0%
    \[\leadsto x - \frac{y}{\color{blue}{0 - \left(1.1283791670955126 \cdot e^{z} - x \cdot y\right)}} \]
  7. associate--r-93.0%
    \[\leadsto x - \frac{y}{\color{blue}{\left(0 - 1.1283791670955126 \cdot e^{z}\right) + x \cdot y}} \]
  8. neg-sub093.2%
    \[\leadsto x - \frac{y}{\color{blue}{\left(-1.1283791670955126 \cdot e^{z}\right)} + x \cdot y} \]
  9. +-commutative93.2%
    \[\leadsto x - \frac{y}{\color{blue}{x \cdot y + \left(-1.1283791670955126 \cdot e^{z}\right)}} \]
  10. fma-define93.2%
    \[\leadsto x - \frac{y}{\color{blue}{\mathsf{fma}\left(x, y, -1.1283791670955126 \cdot e^{z}\right)}} \]
  11. *-commutative93.2%
    \[\leadsto x - \frac{y}{\mathsf{fma}\left(x, y, -\color{blue}{e^{z} \cdot 1.1283791670955126}\right)} \]
  12. distribute-rgt-neg-in93.2%
    \[\leadsto x - \frac{y}{\mathsf{fma}\left(x, y, \color{blue}{e^{z} \cdot \left(-1.1283791670955126\right)}\right)} \]
  13. metadata-eval93.2%
    \[\leadsto x - \frac{y}{\mathsf{fma}\left(x, y, e^{z} \cdot \color{blue}{-1.1283791670955126}\right)} \]
3. Simplified93.2%
  \[\leadsto \color{blue}{x - \frac{y}{\mathsf{fma}\left(x, y, e^{z} \cdot -1.1283791670955126\right)}} \]
4. Add Preprocessing
5. Taylor expanded in y around inf 93.5%
  \[\leadsto x - \color{blue}{\frac{1}{x}} \]
if -1.20000000000000007e-76 < z < 1.5000000000000001e-29
1. Initial program 99.9%
  \[x + \frac{y}{1.1283791670955126 \cdot e^{z} - x \cdot y} \]
2. Step-by-step derivation
  1. remove-double-neg99.9%
    \[\leadsto x + \frac{\color{blue}{-\left(-y\right)}}{1.1283791670955126 \cdot e^{z} - x \cdot y} \]
  2. distribute-frac-neg99.9%
    \[\leadsto x + \color{blue}{\left(-\frac{-y}{1.1283791670955126 \cdot e^{z} - x \cdot y}\right)} \]
  3. unsub-neg99.9%
    \[\leadsto \color{blue}{x - \frac{-y}{1.1283791670955126 \cdot e^{z} - x \cdot y}} \]
  4. distribute-frac-neg99.9%
    \[\leadsto x - \color{blue}{\left(-\frac{y}{1.1283791670955126 \cdot e^{z} - x \cdot y}\right)} \]
  5. distribute-neg-frac299.9%
    \[\leadsto x - \color{blue}{\frac{y}{-\left(1.1283791670955126 \cdot e^{z} - x \cdot y\right)}} \]
  6. neg-sub099.9%
    \[\leadsto x - \frac{y}{\color{blue}{0 - \left(1.1283791670955126 \cdot e^{z} - x \cdot y\right)}} \]
  7. associate--r-99.9%
    \[\leadsto x - \frac{y}{\color{blue}{\left(0 - 1.1283791670955126 \cdot e^{z}\right) + x \cdot y}} \]
  8. neg-sub099.9%
    \[\leadsto x - \frac{y}{\color{blue}{\left(-1.1283791670955126 \cdot e^{z}\right)} + x \cdot y} \]
  9. +-commutative99.9%
    \[\leadsto x - \frac{y}{\color{blue}{x \cdot y + \left(-1.1283791670955126 \cdot e^{z}\right)}} \]
  10. fma-define99.9%
    \[\leadsto x - \frac{y}{\color{blue}{\mathsf{fma}\left(x, y, -1.1283791670955126 \cdot e^{z}\right)}} \]
  11. *-commutative99.9%
    \[\leadsto x - \frac{y}{\mathsf{fma}\left(x, y, -\color{blue}{e^{z} \cdot 1.1283791670955126}\right)} \]
  12. distribute-rgt-neg-in99.9%
    \[\leadsto x - \frac{y}{\mathsf{fma}\left(x, y, \color{blue}{e^{z} \cdot \left(-1.1283791670955126\right)}\right)} \]
  13. metadata-eval99.9%
    \[\leadsto x - \frac{y}{\mathsf{fma}\left(x, y, e^{z} \cdot \color{blue}{-1.1283791670955126}\right)} \]
3. Simplified99.9%
  \[\leadsto \color{blue}{x - \frac{y}{\mathsf{fma}\left(x, y, e^{z} \cdot -1.1283791670955126\right)}} \]
4. Add Preprocessing
5. Taylor expanded in z around 0 99.9%
  \[\leadsto x - \color{blue}{\frac{y}{x \cdot y - 1.1283791670955126}} \]
6. Taylor expanded in y around 0 79.9%
  \[\leadsto x - \color{blue}{-0.8862269254527579 \cdot y} \]
7. Step-by-step derivation
  1. *-commutative79.9%
    \[\leadsto x - \color{blue}{y \cdot -0.8862269254527579} \]
8. Simplified79.9%
  \[\leadsto x - \color{blue}{y \cdot -0.8862269254527579} \]
if 1.5000000000000001e-29 < z
1. Initial program 95.5%
  \[x + \frac{y}{1.1283791670955126 \cdot e^{z} - x \cdot y} \]
2. Step-by-step derivation
  1. remove-double-neg95.5%
    \[\leadsto x + \frac{\color{blue}{-\left(-y\right)}}{1.1283791670955126 \cdot e^{z} - x \cdot y} \]
  2. distribute-frac-neg95.5%
    \[\leadsto x + \color{blue}{\left(-\frac{-y}{1.1283791670955126 \cdot e^{z} - x \cdot y}\right)} \]
  3. unsub-neg95.5%
    \[\leadsto \color{blue}{x - \frac{-y}{1.1283791670955126 \cdot e^{z} - x \cdot y}} \]
  4. distribute-frac-neg95.5%
    \[\leadsto x - \color{blue}{\left(-\frac{y}{1.1283791670955126 \cdot e^{z} - x \cdot y}\right)} \]
  5. distribute-neg-frac295.5%
    \[\leadsto x - \color{blue}{\frac{y}{-\left(1.1283791670955126 \cdot e^{z} - x \cdot y\right)}} \]
  6. neg-sub095.5%
    \[\leadsto x - \frac{y}{\color{blue}{0 - \left(1.1283791670955126 \cdot e^{z} - x \cdot y\right)}} \]
  7. associate--r-95.5%
    \[\leadsto x - \frac{y}{\color{blue}{\left(0 - 1.1283791670955126 \cdot e^{z}\right) + x \cdot y}} \]
  8. neg-sub095.5%
    \[\leadsto x - \frac{y}{\color{blue}{\left(-1.1283791670955126 \cdot e^{z}\right)} + x \cdot y} \]
  9. +-commutative95.5%
    \[\leadsto x - \frac{y}{\color{blue}{x \cdot y + \left(-1.1283791670955126 \cdot e^{z}\right)}} \]
  10. fma-define100.0%
    \[\leadsto x - \frac{y}{\color{blue}{\mathsf{fma}\left(x, y, -1.1283791670955126 \cdot e^{z}\right)}} \]
  11. *-commutative100.0%
    \[\leadsto x - \frac{y}{\mathsf{fma}\left(x, y, -\color{blue}{e^{z} \cdot 1.1283791670955126}\right)} \]
  12. distribute-rgt-neg-in100.0%
    \[\leadsto x - \frac{y}{\mathsf{fma}\left(x, y, \color{blue}{e^{z} \cdot \left(-1.1283791670955126\right)}\right)} \]
  13. metadata-eval100.0%
    \[\leadsto x - \frac{y}{\mathsf{fma}\left(x, y, e^{z} \cdot \color{blue}{-1.1283791670955126}\right)} \]
3. Simplified100.0%
  \[\leadsto \color{blue}{x - \frac{y}{\mathsf{fma}\left(x, y, e^{z} \cdot -1.1283791670955126\right)}} \]
4. Add Preprocessing
5. Taylor expanded in y around 0 97.1%
  \[\leadsto x - \color{blue}{-0.8862269254527579 \cdot \frac{y}{e^{z}}} \]
6. Step-by-step derivation
  1. *-commutative97.1%
    \[\leadsto x - \color{blue}{\frac{y}{e^{z}} \cdot -0.8862269254527579} \]
7. Simplified97.1%
  \[\leadsto x - \color{blue}{\frac{y}{e^{z}} \cdot -0.8862269254527579} \]
8. Taylor expanded in x around inf 98.5%
  \[\leadsto \color{blue}{x} \]
Recombined 3 regimes into one program.
Final simplification88.8%
\[\leadsto \begin{array}{l} \mathbf{if}\;z \leq -1.2 \cdot 10^{-76}:\\ \;\;\;\;x - \frac{1}{x}\\ \mathbf{elif}\;z \leq 1.5 \cdot 10^{-29}:\\ \;\;\;\;x - y \cdot -0.8862269254527579\\ \mathbf{else}:\\ \;\;\;\;x\\ \end{array} \]
Add Preprocessing

Alternative 6: 86.0% accurate, 7.4× speedup?

\[\begin{array}{l} \\ \begin{array}{l} \mathbf{if}\;z \leq -2.75 \cdot 10^{-76}:\\ \;\;\;\;x - \frac{1}{x}\\ \mathbf{elif}\;z \leq 1.7 \cdot 10^{-28}:\\ \;\;\;\;x - \frac{y}{-1.1283791670955126}\\ \mathbf{else}:\\ \;\;\;\;x\\ \end{array} \end{array} \]

(FPCore (x y z)
 :precision binary64
 (if (<= z -2.75e-76)
   (- x (/ 1.0 x))
   (if (<= z 1.7e-28) (- x (/ y -1.1283791670955126)) x)))

double code(double x, double y, double z) {
	double tmp;
	if (z <= -2.75e-76) {
		tmp = x - (1.0 / x);
	} else if (z <= 1.7e-28) {
		tmp = x - (y / -1.1283791670955126);
	} else {
		tmp = x;
	}
	return tmp;
}

real(8) function code(x, y, z)
    real(8), intent (in) :: x
    real(8), intent (in) :: y
    real(8), intent (in) :: z
    real(8) :: tmp
    if (z <= (-2.75d-76)) then
        tmp = x - (1.0d0 / x)
    else if (z <= 1.7d-28) then
        tmp = x - (y / (-1.1283791670955126d0))
    else
        tmp = x
    end if
    code = tmp
end function

public static double code(double x, double y, double z) {
	double tmp;
	if (z <= -2.75e-76) {
		tmp = x - (1.0 / x);
	} else if (z <= 1.7e-28) {
		tmp = x - (y / -1.1283791670955126);
	} else {
		tmp = x;
	}
	return tmp;
}

def code(x, y, z):
	tmp = 0
	if z <= -2.75e-76:
		tmp = x - (1.0 / x)
	elif z <= 1.7e-28:
		tmp = x - (y / -1.1283791670955126)
	else:
		tmp = x
	return tmp

function code(x, y, z)
	tmp = 0.0
	if (z <= -2.75e-76)
		tmp = Float64(x - Float64(1.0 / x));
	elseif (z <= 1.7e-28)
		tmp = Float64(x - Float64(y / -1.1283791670955126));
	else
		tmp = x;
	end
	return tmp
end

function tmp_2 = code(x, y, z)
	tmp = 0.0;
	if (z <= -2.75e-76)
		tmp = x - (1.0 / x);
	elseif (z <= 1.7e-28)
		tmp = x - (y / -1.1283791670955126);
	else
		tmp = x;
	end
	tmp_2 = tmp;
end

code[x_, y_, z_] := If[LessEqual[z, -2.75e-76], N[(x - N[(1.0 / x), $MachinePrecision]), $MachinePrecision], If[LessEqual[z, 1.7e-28], N[(x - N[(y / -1.1283791670955126), $MachinePrecision]), $MachinePrecision], x]]

\begin{array}{l}

\\
\begin{array}{l}
\mathbf{if}\;z \leq -2.75 \cdot 10^{-76}:\\
\;\;\;\;x - \frac{1}{x}\\

\mathbf{elif}\;z \leq 1.7 \cdot 10^{-28}:\\
\;\;\;\;x - \frac{y}{-1.1283791670955126}\\

\mathbf{else}:\\
\;\;\;\;x\\


\end{array}
\end{array}

Derivation

Split input into 3 regimes
if z < -2.75000000000000007e-76
1. Initial program 92.8%
  \[x + \frac{y}{1.1283791670955126 \cdot e^{z} - x \cdot y} \]
2. Step-by-step derivation
  1. remove-double-neg92.8%
    \[\leadsto x + \frac{\color{blue}{-\left(-y\right)}}{1.1283791670955126 \cdot e^{z} - x \cdot y} \]
  2. distribute-frac-neg92.8%
    \[\leadsto x + \color{blue}{\left(-\frac{-y}{1.1283791670955126 \cdot e^{z} - x \cdot y}\right)} \]
  3. unsub-neg92.8%
    \[\leadsto \color{blue}{x - \frac{-y}{1.1283791670955126 \cdot e^{z} - x \cdot y}} \]
  4. distribute-frac-neg92.8%
    \[\leadsto x - \color{blue}{\left(-\frac{y}{1.1283791670955126 \cdot e^{z} - x \cdot y}\right)} \]
  5. distribute-neg-frac292.8%
    \[\leadsto x - \color{blue}{\frac{y}{-\left(1.1283791670955126 \cdot e^{z} - x \cdot y\right)}} \]
  6. neg-sub093.0%
    \[\leadsto x - \frac{y}{\color{blue}{0 - \left(1.1283791670955126 \cdot e^{z} - x \cdot y\right)}} \]
  7. associate--r-93.0%
    \[\leadsto x - \frac{y}{\color{blue}{\left(0 - 1.1283791670955126 \cdot e^{z}\right) + x \cdot y}} \]
  8. neg-sub093.2%
    \[\leadsto x - \frac{y}{\color{blue}{\left(-1.1283791670955126 \cdot e^{z}\right)} + x \cdot y} \]
  9. +-commutative93.2%
    \[\leadsto x - \frac{y}{\color{blue}{x \cdot y + \left(-1.1283791670955126 \cdot e^{z}\right)}} \]
  10. fma-define93.2%
    \[\leadsto x - \frac{y}{\color{blue}{\mathsf{fma}\left(x, y, -1.1283791670955126 \cdot e^{z}\right)}} \]
  11. *-commutative93.2%
    \[\leadsto x - \frac{y}{\mathsf{fma}\left(x, y, -\color{blue}{e^{z} \cdot 1.1283791670955126}\right)} \]
  12. distribute-rgt-neg-in93.2%
    \[\leadsto x - \frac{y}{\mathsf{fma}\left(x, y, \color{blue}{e^{z} \cdot \left(-1.1283791670955126\right)}\right)} \]
  13. metadata-eval93.2%
    \[\leadsto x - \frac{y}{\mathsf{fma}\left(x, y, e^{z} \cdot \color{blue}{-1.1283791670955126}\right)} \]
3. Simplified93.2%
  \[\leadsto \color{blue}{x - \frac{y}{\mathsf{fma}\left(x, y, e^{z} \cdot -1.1283791670955126\right)}} \]
4. Add Preprocessing
5. Taylor expanded in y around inf 93.5%
  \[\leadsto x - \color{blue}{\frac{1}{x}} \]
if -2.75000000000000007e-76 < z < 1.7e-28
1. Initial program 99.9%
  \[x + \frac{y}{1.1283791670955126 \cdot e^{z} - x \cdot y} \]
2. Step-by-step derivation
  1. remove-double-neg99.9%
    \[\leadsto x + \frac{\color{blue}{-\left(-y\right)}}{1.1283791670955126 \cdot e^{z} - x \cdot y} \]
  2. distribute-frac-neg99.9%
    \[\leadsto x + \color{blue}{\left(-\frac{-y}{1.1283791670955126 \cdot e^{z} - x \cdot y}\right)} \]
  3. unsub-neg99.9%
    \[\leadsto \color{blue}{x - \frac{-y}{1.1283791670955126 \cdot e^{z} - x \cdot y}} \]
  4. distribute-frac-neg99.9%
    \[\leadsto x - \color{blue}{\left(-\frac{y}{1.1283791670955126 \cdot e^{z} - x \cdot y}\right)} \]
  5. distribute-neg-frac299.9%
    \[\leadsto x - \color{blue}{\frac{y}{-\left(1.1283791670955126 \cdot e^{z} - x \cdot y\right)}} \]
  6. neg-sub099.9%
    \[\leadsto x - \frac{y}{\color{blue}{0 - \left(1.1283791670955126 \cdot e^{z} - x \cdot y\right)}} \]
  7. associate--r-99.9%
    \[\leadsto x - \frac{y}{\color{blue}{\left(0 - 1.1283791670955126 \cdot e^{z}\right) + x \cdot y}} \]
  8. neg-sub099.9%
    \[\leadsto x - \frac{y}{\color{blue}{\left(-1.1283791670955126 \cdot e^{z}\right)} + x \cdot y} \]
  9. +-commutative99.9%
    \[\leadsto x - \frac{y}{\color{blue}{x \cdot y + \left(-1.1283791670955126 \cdot e^{z}\right)}} \]
  10. fma-define99.9%
    \[\leadsto x - \frac{y}{\color{blue}{\mathsf{fma}\left(x, y, -1.1283791670955126 \cdot e^{z}\right)}} \]
  11. *-commutative99.9%
    \[\leadsto x - \frac{y}{\mathsf{fma}\left(x, y, -\color{blue}{e^{z} \cdot 1.1283791670955126}\right)} \]
  12. distribute-rgt-neg-in99.9%
    \[\leadsto x - \frac{y}{\mathsf{fma}\left(x, y, \color{blue}{e^{z} \cdot \left(-1.1283791670955126\right)}\right)} \]
  13. metadata-eval99.9%
    \[\leadsto x - \frac{y}{\mathsf{fma}\left(x, y, e^{z} \cdot \color{blue}{-1.1283791670955126}\right)} \]
3. Simplified99.9%
  \[\leadsto \color{blue}{x - \frac{y}{\mathsf{fma}\left(x, y, e^{z} \cdot -1.1283791670955126\right)}} \]
4. Add Preprocessing
5. Taylor expanded in z around 0 99.9%
  \[\leadsto x - \color{blue}{\frac{y}{x \cdot y - 1.1283791670955126}} \]
6. Taylor expanded in x around 0 79.9%
  \[\leadsto x - \frac{y}{\color{blue}{-1.1283791670955126}} \]
if 1.7e-28 < z
1. Initial program 95.5%
  \[x + \frac{y}{1.1283791670955126 \cdot e^{z} - x \cdot y} \]
2. Step-by-step derivation
  1. remove-double-neg95.5%
    \[\leadsto x + \frac{\color{blue}{-\left(-y\right)}}{1.1283791670955126 \cdot e^{z} - x \cdot y} \]
  2. distribute-frac-neg95.5%
    \[\leadsto x + \color{blue}{\left(-\frac{-y}{1.1283791670955126 \cdot e^{z} - x \cdot y}\right)} \]
  3. unsub-neg95.5%
    \[\leadsto \color{blue}{x - \frac{-y}{1.1283791670955126 \cdot e^{z} - x \cdot y}} \]
  4. distribute-frac-neg95.5%
    \[\leadsto x - \color{blue}{\left(-\frac{y}{1.1283791670955126 \cdot e^{z} - x \cdot y}\right)} \]
  5. distribute-neg-frac295.5%
    \[\leadsto x - \color{blue}{\frac{y}{-\left(1.1283791670955126 \cdot e^{z} - x \cdot y\right)}} \]
  6. neg-sub095.5%
    \[\leadsto x - \frac{y}{\color{blue}{0 - \left(1.1283791670955126 \cdot e^{z} - x \cdot y\right)}} \]
  7. associate--r-95.5%
    \[\leadsto x - \frac{y}{\color{blue}{\left(0 - 1.1283791670955126 \cdot e^{z}\right) + x \cdot y}} \]
  8. neg-sub095.5%
    \[\leadsto x - \frac{y}{\color{blue}{\left(-1.1283791670955126 \cdot e^{z}\right)} + x \cdot y} \]
  9. +-commutative95.5%
    \[\leadsto x - \frac{y}{\color{blue}{x \cdot y + \left(-1.1283791670955126 \cdot e^{z}\right)}} \]
  10. fma-define100.0%
    \[\leadsto x - \frac{y}{\color{blue}{\mathsf{fma}\left(x, y, -1.1283791670955126 \cdot e^{z}\right)}} \]
  11. *-commutative100.0%
    \[\leadsto x - \frac{y}{\mathsf{fma}\left(x, y, -\color{blue}{e^{z} \cdot 1.1283791670955126}\right)} \]
  12. distribute-rgt-neg-in100.0%
    \[\leadsto x - \frac{y}{\mathsf{fma}\left(x, y, \color{blue}{e^{z} \cdot \left(-1.1283791670955126\right)}\right)} \]
  13. metadata-eval100.0%
    \[\leadsto x - \frac{y}{\mathsf{fma}\left(x, y, e^{z} \cdot \color{blue}{-1.1283791670955126}\right)} \]
3. Simplified100.0%
  \[\leadsto \color{blue}{x - \frac{y}{\mathsf{fma}\left(x, y, e^{z} \cdot -1.1283791670955126\right)}} \]
4. Add Preprocessing
5. Taylor expanded in y around 0 97.1%
  \[\leadsto x - \color{blue}{-0.8862269254527579 \cdot \frac{y}{e^{z}}} \]
6. Step-by-step derivation
  1. *-commutative97.1%
    \[\leadsto x - \color{blue}{\frac{y}{e^{z}} \cdot -0.8862269254527579} \]
7. Simplified97.1%
  \[\leadsto x - \color{blue}{\frac{y}{e^{z}} \cdot -0.8862269254527579} \]
8. Taylor expanded in x around inf 98.5%
  \[\leadsto \color{blue}{x} \]
Recombined 3 regimes into one program.
Final simplification88.8%
\[\leadsto \begin{array}{l} \mathbf{if}\;z \leq -2.75 \cdot 10^{-76}:\\ \;\;\;\;x - \frac{1}{x}\\ \mathbf{elif}\;z \leq 1.7 \cdot 10^{-28}:\\ \;\;\;\;x - \frac{y}{-1.1283791670955126}\\ \mathbf{else}:\\ \;\;\;\;x\\ \end{array} \]
Add Preprocessing

Alternative 7: 68.4% accurate, 111.0× speedup?

\[\begin{array}{l} \\ x \end{array} \]

(FPCore (x y z) :precision binary64 x)

double code(double x, double y, double z) {
	return x;
}

real(8) function code(x, y, z)
    real(8), intent (in) :: x
    real(8), intent (in) :: y
    real(8), intent (in) :: z
    code = x
end function

public static double code(double x, double y, double z) {
	return x;
}

def code(x, y, z):
	return x

function code(x, y, z)
	return x
end

function tmp = code(x, y, z)
	tmp = x;
end

code[x_, y_, z_] := x

\begin{array}{l}

\\
x
\end{array}

Derivation

Initial program 96.7%
\[x + \frac{y}{1.1283791670955126 \cdot e^{z} - x \cdot y} \]
Step-by-step derivation
1. remove-double-neg96.7%
  \[\leadsto x + \frac{\color{blue}{-\left(-y\right)}}{1.1283791670955126 \cdot e^{z} - x \cdot y} \]
2. distribute-frac-neg96.7%
  \[\leadsto x + \color{blue}{\left(-\frac{-y}{1.1283791670955126 \cdot e^{z} - x \cdot y}\right)} \]
3. unsub-neg96.7%
  \[\leadsto \color{blue}{x - \frac{-y}{1.1283791670955126 \cdot e^{z} - x \cdot y}} \]
4. distribute-frac-neg96.7%
  \[\leadsto x - \color{blue}{\left(-\frac{y}{1.1283791670955126 \cdot e^{z} - x \cdot y}\right)} \]
5. distribute-neg-frac296.7%
  \[\leadsto x - \color{blue}{\frac{y}{-\left(1.1283791670955126 \cdot e^{z} - x \cdot y\right)}} \]
6. neg-sub096.7%
  \[\leadsto x - \frac{y}{\color{blue}{0 - \left(1.1283791670955126 \cdot e^{z} - x \cdot y\right)}} \]
7. associate--r-96.7%
  \[\leadsto x - \frac{y}{\color{blue}{\left(0 - 1.1283791670955126 \cdot e^{z}\right) + x \cdot y}} \]
8. neg-sub096.8%
  \[\leadsto x - \frac{y}{\color{blue}{\left(-1.1283791670955126 \cdot e^{z}\right)} + x \cdot y} \]
9. +-commutative96.8%
  \[\leadsto x - \frac{y}{\color{blue}{x \cdot y + \left(-1.1283791670955126 \cdot e^{z}\right)}} \]
10. fma-define97.9%
  \[\leadsto x - \frac{y}{\color{blue}{\mathsf{fma}\left(x, y, -1.1283791670955126 \cdot e^{z}\right)}} \]
11. *-commutative97.9%
  \[\leadsto x - \frac{y}{\mathsf{fma}\left(x, y, -\color{blue}{e^{z} \cdot 1.1283791670955126}\right)} \]
12. distribute-rgt-neg-in97.9%
  \[\leadsto x - \frac{y}{\mathsf{fma}\left(x, y, \color{blue}{e^{z} \cdot \left(-1.1283791670955126\right)}\right)} \]
13. metadata-eval97.9%
  \[\leadsto x - \frac{y}{\mathsf{fma}\left(x, y, e^{z} \cdot \color{blue}{-1.1283791670955126}\right)} \]
Simplified97.9%
\[\leadsto \color{blue}{x - \frac{y}{\mathsf{fma}\left(x, y, e^{z} \cdot -1.1283791670955126\right)}} \]
Add Preprocessing
Taylor expanded in y around 0 66.7%
\[\leadsto x - \color{blue}{-0.8862269254527579 \cdot \frac{y}{e^{z}}} \]
Step-by-step derivation
1. *-commutative66.7%
  \[\leadsto x - \color{blue}{\frac{y}{e^{z}} \cdot -0.8862269254527579} \]
Simplified66.7%
\[\leadsto x - \color{blue}{\frac{y}{e^{z}} \cdot -0.8862269254527579} \]
Taylor expanded in x around inf 70.1%
\[\leadsto \color{blue}{x} \]
Final simplification70.1%
\[\leadsto x \]
Add Preprocessing

Numeric.SpecFunctions:invErfc from math-functions-0.1.5.2, A

Specification

Local Percentage Accuracy vs ?

Accuracy vs Speed?

Initial Program: 95.8% accurate, 1.0× speedup?

Alternative 1: 99.9% accurate, 0.4× speedup?

`if (exp.f64 z) < 0.0`

`if 0.0 < (exp.f64 z)`

Alternative 2: 98.6% accurate, 0.5× speedup?

`if (+.f64 x (/.f64 y (-.f64 (.f64 #s(literal 5641895835477563/5000000000000000 binary64) (exp.f64 z)) (.f64 x y)))) < 4.99999999999999976e270`

`if 4.99999999999999976e270 < (+.f64 x (/.f64 y (-.f64 (.f64 #s(literal 5641895835477563/5000000000000000 binary64) (exp.f64 z)) (.f64 x y))))`

Alternative 3: 99.1% accurate, 0.5× speedup?

`if (exp.f64 z) < 0.0`

`if 0.0 < (exp.f64 z) < 1`

`if 1 < (exp.f64 z)`

Alternative 4: 73.0% accurate, 7.4× speedup?

`if z < -1e-59 or 1.54999999999999996e-28 < z`

`if -1e-59 < z < 1.54999999999999996e-28`

Alternative 5: 85.9% accurate, 7.4× speedup?

`if z < -1.20000000000000007e-76`

`if -1.20000000000000007e-76 < z < 1.5000000000000001e-29`

`if 1.5000000000000001e-29 < z`

Alternative 6: 86.0% accurate, 7.4× speedup?

`if z < -2.75000000000000007e-76`

`if -2.75000000000000007e-76 < z < 1.7e-28`

`if 1.7e-28 < z`

Alternative 7: 68.4% accurate, 111.0× speedup?

Developer target: 99.9% accurate, 1.0× speedup?

Reproduce

Specification

Local Percentage Accuracy vs ?

Accuracy vs Speed?

Initial Program: 95.8% accurate, 1.0× speedupMathFPCoreCFortranJavaPythonJuliaMATLABWolframTeX?

Alternative 1: 99.9% accurate, 0.4× speedupMathFPCoreCJuliaWolframTeX?

if (exp.f64 z) < 0.0

if 0.0 < (exp.f64 z)

Alternative 2: 98.6% accurate, 0.5× speedupMathFPCoreCFortranJavaPythonJuliaMATLABWolframTeX?

if (+.f64 x (/.f64 y (-.f64 (*.f64 #s(literal 5641895835477563/5000000000000000 binary64) (exp.f64 z)) (*.f64 x y)))) < 4.99999999999999976e270

if 4.99999999999999976e270 < (+.f64 x (/.f64 y (-.f64 (*.f64 #s(literal 5641895835477563/5000000000000000 binary64) (exp.f64 z)) (*.f64 x y))))

Alternative 3: 99.1% accurate, 0.5× speedupMathFPCoreCFortranJavaPythonJuliaMATLABWolframTeX?

if (exp.f64 z) < 0.0

if 0.0 < (exp.f64 z) < 1

if 1 < (exp.f64 z)

Alternative 4: 73.0% accurate, 7.4× speedupMathFPCoreCFortranJavaPythonJuliaMATLABWolframTeX?

if z < -1e-59 or 1.54999999999999996e-28 < z

if -1e-59 < z < 1.54999999999999996e-28

Alternative 5: 85.9% accurate, 7.4× speedupMathFPCoreCFortranJavaPythonJuliaMATLABWolframTeX?

if z < -1.20000000000000007e-76

if -1.20000000000000007e-76 < z < 1.5000000000000001e-29

if 1.5000000000000001e-29 < z

Alternative 6: 86.0% accurate, 7.4× speedupMathFPCoreCFortranJavaPythonJuliaMATLABWolframTeX?

if z < -2.75000000000000007e-76

if -2.75000000000000007e-76 < z < 1.7e-28

if 1.7e-28 < z

Alternative 7: 68.4% accurate, 111.0× speedupMathFPCoreCFortranJavaPythonJuliaMATLABWolframTeX?

Developer target: 99.9% accurate, 1.0× speedupMathFPCoreCFortranJavaPythonJuliaMATLABWolframTeX?

Reproduce

Initial Program: 95.8% accurate, 1.0× speedup?

Alternative 1: 99.9% accurate, 0.4× speedup?

`if (exp.f64 z) < 0.0`

`if 0.0 < (exp.f64 z)`

Alternative 2: 98.6% accurate, 0.5× speedup?

`if (+.f64 x (/.f64 y (-.f64 (.f64 #s(literal 5641895835477563/5000000000000000 binary64) (exp.f64 z)) (.f64 x y)))) < 4.99999999999999976e270`

`if 4.99999999999999976e270 < (+.f64 x (/.f64 y (-.f64 (.f64 #s(literal 5641895835477563/5000000000000000 binary64) (exp.f64 z)) (.f64 x y))))`

Alternative 3: 99.1% accurate, 0.5× speedup?

`if (exp.f64 z) < 0.0`

`if 0.0 < (exp.f64 z) < 1`

`if 1 < (exp.f64 z)`

Alternative 4: 73.0% accurate, 7.4× speedup?

`if z < -1e-59 or 1.54999999999999996e-28 < z`

`if -1e-59 < z < 1.54999999999999996e-28`

Alternative 5: 85.9% accurate, 7.4× speedup?

`if z < -1.20000000000000007e-76`

`if -1.20000000000000007e-76 < z < 1.5000000000000001e-29`

`if 1.5000000000000001e-29 < z`

Alternative 6: 86.0% accurate, 7.4× speedup?

`if z < -2.75000000000000007e-76`

`if -2.75000000000000007e-76 < z < 1.7e-28`

`if 1.7e-28 < z`

Alternative 7: 68.4% accurate, 111.0× speedup?

Developer target: 99.9% accurate, 1.0× speedup?