Result for expq2 (section 3.11)

Alternative 1: 100.0% accurate, 1.9× speedup?

\[\begin{array}{l} \\ \frac{-1}{\mathsf{expm1}\left(-x\right)} \end{array} \]

(FPCore (x) :precision binary64 (/ -1.0 (expm1 (- x))))

double code(double x) {
	return -1.0 / expm1(-x);
}

public static double code(double x) {
	return -1.0 / Math.expm1(-x);
}

def code(x):
	return -1.0 / math.expm1(-x)

function code(x)
	return Float64(-1.0 / expm1(Float64(-x)))
end

code[x_] := N[(-1.0 / N[(Exp[(-x)] - 1), $MachinePrecision]), $MachinePrecision]

\begin{array}{l}

\\
\frac{-1}{\mathsf{expm1}\left(-x\right)}
\end{array}

Derivation

Initial program 42.0%
\[\frac{e^{x}}{e^{x} - 1} \]
Add Preprocessing
Step-by-step derivation
1. lift-/.f64N/A
  \[\leadsto \color{blue}{\frac{e^{x}}{e^{x} - 1}} \]
2. clear-numN/A
  \[\leadsto \color{blue}{\frac{1}{\frac{e^{x} - 1}{e^{x}}}} \]
3. frac-2negN/A
  \[\leadsto \color{blue}{\frac{\mathsf{neg}\left(1\right)}{\mathsf{neg}\left(\frac{e^{x} - 1}{e^{x}}\right)}} \]
4. lower-/.f64N/A
  \[\leadsto \color{blue}{\frac{\mathsf{neg}\left(1\right)}{\mathsf{neg}\left(\frac{e^{x} - 1}{e^{x}}\right)}} \]
5. metadata-evalN/A
  \[\leadsto \frac{\color{blue}{-1}}{\mathsf{neg}\left(\frac{e^{x} - 1}{e^{x}}\right)} \]
6. distribute-neg-fracN/A
  \[\leadsto \frac{-1}{\color{blue}{\frac{\mathsf{neg}\left(\left(e^{x} - 1\right)\right)}{e^{x}}}} \]
7. neg-sub0N/A
  \[\leadsto \frac{-1}{\frac{\color{blue}{0 - \left(e^{x} - 1\right)}}{e^{x}}} \]
8. lift--.f64N/A
  \[\leadsto \frac{-1}{\frac{0 - \color{blue}{\left(e^{x} - 1\right)}}{e^{x}}} \]
9. associate-+l-N/A
  \[\leadsto \frac{-1}{\frac{\color{blue}{\left(0 - e^{x}\right) + 1}}{e^{x}}} \]
10. neg-sub0N/A
  \[\leadsto \frac{-1}{\frac{\color{blue}{\left(\mathsf{neg}\left(e^{x}\right)\right)} + 1}{e^{x}}} \]
11. +-commutativeN/A
  \[\leadsto \frac{-1}{\frac{\color{blue}{1 + \left(\mathsf{neg}\left(e^{x}\right)\right)}}{e^{x}}} \]
12. sub-negN/A
  \[\leadsto \frac{-1}{\frac{\color{blue}{1 - e^{x}}}{e^{x}}} \]
13. div-subN/A
  \[\leadsto \frac{-1}{\color{blue}{\frac{1}{e^{x}} - \frac{e^{x}}{e^{x}}}} \]
14. *-inversesN/A
  \[\leadsto \frac{-1}{\frac{1}{e^{x}} - \color{blue}{1}} \]
15. lift-exp.f64N/A
  \[\leadsto \frac{-1}{\frac{1}{\color{blue}{e^{x}}} - 1} \]
16. rec-expN/A
  \[\leadsto \frac{-1}{\color{blue}{e^{\mathsf{neg}\left(x\right)}} - 1} \]
17. lower-expm1.f64N/A
  \[\leadsto \frac{-1}{\color{blue}{\mathsf{expm1}\left(\mathsf{neg}\left(x\right)\right)}} \]
18. lower-neg.f64100.0
  \[\leadsto \frac{-1}{\mathsf{expm1}\left(\color{blue}{-x}\right)} \]
Applied rewrites100.0%
\[\leadsto \color{blue}{\frac{-1}{\mathsf{expm1}\left(-x\right)}} \]
Add Preprocessing

Alternative 2: 91.4% accurate, 0.9× speedup?

\[\begin{array}{l} \\ \begin{array}{l} \mathbf{if}\;e^{x} \leq 2 \cdot 10^{-70}:\\ \;\;\;\;\frac{-1}{\left(\left(\mathsf{fma}\left(0.041666666666666664, x, -0.16666666666666666\right) \cdot x\right) \cdot x\right) \cdot x}\\ \mathbf{else}:\\ \;\;\;\;\mathsf{fma}\left(\mathsf{fma}\left(x \cdot x, -0.001388888888888889, 0.08333333333333333\right), x, 0.5 + {x}^{-1}\right)\\ \end{array} \end{array} \]

(FPCore (x)
 :precision binary64
 (if (<= (exp x) 2e-70)
   (/ -1.0 (* (* (* (fma 0.041666666666666664 x -0.16666666666666666) x) x) x))
   (fma
    (fma (* x x) -0.001388888888888889 0.08333333333333333)
    x
    (+ 0.5 (pow x -1.0)))))

double code(double x) {
	double tmp;
	if (exp(x) <= 2e-70) {
		tmp = -1.0 / (((fma(0.041666666666666664, x, -0.16666666666666666) * x) * x) * x);
	} else {
		tmp = fma(fma((x * x), -0.001388888888888889, 0.08333333333333333), x, (0.5 + pow(x, -1.0)));
	}
	return tmp;
}

function code(x)
	tmp = 0.0
	if (exp(x) <= 2e-70)
		tmp = Float64(-1.0 / Float64(Float64(Float64(fma(0.041666666666666664, x, -0.16666666666666666) * x) * x) * x));
	else
		tmp = fma(fma(Float64(x * x), -0.001388888888888889, 0.08333333333333333), x, Float64(0.5 + (x ^ -1.0)));
	end
	return tmp
end

code[x_] := If[LessEqual[N[Exp[x], $MachinePrecision], 2e-70], N[(-1.0 / N[(N[(N[(N[(0.041666666666666664 * x + -0.16666666666666666), $MachinePrecision] * x), $MachinePrecision] * x), $MachinePrecision] * x), $MachinePrecision]), $MachinePrecision], N[(N[(N[(x * x), $MachinePrecision] * -0.001388888888888889 + 0.08333333333333333), $MachinePrecision] * x + N[(0.5 + N[Power[x, -1.0], $MachinePrecision]), $MachinePrecision]), $MachinePrecision]]

\begin{array}{l}

\\
\begin{array}{l}
\mathbf{if}\;e^{x} \leq 2 \cdot 10^{-70}:\\
\;\;\;\;\frac{-1}{\left(\left(\mathsf{fma}\left(0.041666666666666664, x, -0.16666666666666666\right) \cdot x\right) \cdot x\right) \cdot x}\\

\mathbf{else}:\\
\;\;\;\;\mathsf{fma}\left(\mathsf{fma}\left(x \cdot x, -0.001388888888888889, 0.08333333333333333\right), x, 0.5 + {x}^{-1}\right)\\


\end{array}
\end{array}

Derivation

Split input into 2 regimes
if (exp.f64 x) < 1.99999999999999999e-70
1. Initial program 100.0%
  \[\frac{e^{x}}{e^{x} - 1} \]
2. Add Preprocessing
3. Step-by-step derivation
  1. lift-/.f64N/A
    \[\leadsto \color{blue}{\frac{e^{x}}{e^{x} - 1}} \]
  2. clear-numN/A
    \[\leadsto \color{blue}{\frac{1}{\frac{e^{x} - 1}{e^{x}}}} \]
  3. frac-2negN/A
    \[\leadsto \color{blue}{\frac{\mathsf{neg}\left(1\right)}{\mathsf{neg}\left(\frac{e^{x} - 1}{e^{x}}\right)}} \]
  4. lower-/.f64N/A
    \[\leadsto \color{blue}{\frac{\mathsf{neg}\left(1\right)}{\mathsf{neg}\left(\frac{e^{x} - 1}{e^{x}}\right)}} \]
  5. metadata-evalN/A
    \[\leadsto \frac{\color{blue}{-1}}{\mathsf{neg}\left(\frac{e^{x} - 1}{e^{x}}\right)} \]
  6. distribute-neg-fracN/A
    \[\leadsto \frac{-1}{\color{blue}{\frac{\mathsf{neg}\left(\left(e^{x} - 1\right)\right)}{e^{x}}}} \]
  7. neg-sub0N/A
    \[\leadsto \frac{-1}{\frac{\color{blue}{0 - \left(e^{x} - 1\right)}}{e^{x}}} \]
  8. lift--.f64N/A
    \[\leadsto \frac{-1}{\frac{0 - \color{blue}{\left(e^{x} - 1\right)}}{e^{x}}} \]
  9. associate-+l-N/A
    \[\leadsto \frac{-1}{\frac{\color{blue}{\left(0 - e^{x}\right) + 1}}{e^{x}}} \]
  10. neg-sub0N/A
    \[\leadsto \frac{-1}{\frac{\color{blue}{\left(\mathsf{neg}\left(e^{x}\right)\right)} + 1}{e^{x}}} \]
  11. +-commutativeN/A
    \[\leadsto \frac{-1}{\frac{\color{blue}{1 + \left(\mathsf{neg}\left(e^{x}\right)\right)}}{e^{x}}} \]
  12. sub-negN/A
    \[\leadsto \frac{-1}{\frac{\color{blue}{1 - e^{x}}}{e^{x}}} \]
  13. div-subN/A
    \[\leadsto \frac{-1}{\color{blue}{\frac{1}{e^{x}} - \frac{e^{x}}{e^{x}}}} \]
  14. *-inversesN/A
    \[\leadsto \frac{-1}{\frac{1}{e^{x}} - \color{blue}{1}} \]
  15. lift-exp.f64N/A
    \[\leadsto \frac{-1}{\frac{1}{\color{blue}{e^{x}}} - 1} \]
  16. rec-expN/A
    \[\leadsto \frac{-1}{\color{blue}{e^{\mathsf{neg}\left(x\right)}} - 1} \]
  17. lower-expm1.f64N/A
    \[\leadsto \frac{-1}{\color{blue}{\mathsf{expm1}\left(\mathsf{neg}\left(x\right)\right)}} \]
  18. lower-neg.f64100.0
    \[\leadsto \frac{-1}{\mathsf{expm1}\left(\color{blue}{-x}\right)} \]
4. Applied rewrites100.0%
  \[\leadsto \color{blue}{\frac{-1}{\mathsf{expm1}\left(-x\right)}} \]
5. Taylor expanded in x around 0
  \[\leadsto \frac{-1}{\color{blue}{x \cdot \left(x \cdot \left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right)\right) - 1\right)}} \]
6. Step-by-step derivation
  1. *-commutativeN/A
    \[\leadsto \frac{-1}{\color{blue}{\left(x \cdot \left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right)\right) - 1\right) \cdot x}} \]
  2. lower-*.f64N/A
    \[\leadsto \frac{-1}{\color{blue}{\left(x \cdot \left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right)\right) - 1\right) \cdot x}} \]
  3. sub-negN/A
    \[\leadsto \frac{-1}{\color{blue}{\left(x \cdot \left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right)\right) + \left(\mathsf{neg}\left(1\right)\right)\right)} \cdot x} \]
  4. *-commutativeN/A
    \[\leadsto \frac{-1}{\left(\color{blue}{\left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right)\right) \cdot x} + \left(\mathsf{neg}\left(1\right)\right)\right) \cdot x} \]
  5. metadata-evalN/A
    \[\leadsto \frac{-1}{\left(\left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right)\right) \cdot x + \color{blue}{-1}\right) \cdot x} \]
  6. lower-fma.f64N/A
    \[\leadsto \frac{-1}{\color{blue}{\mathsf{fma}\left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right), x, -1\right)} \cdot x} \]
  7. +-commutativeN/A
    \[\leadsto \frac{-1}{\mathsf{fma}\left(\color{blue}{x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right) + \frac{1}{2}}, x, -1\right) \cdot x} \]
  8. *-commutativeN/A
    \[\leadsto \frac{-1}{\mathsf{fma}\left(\color{blue}{\left(\frac{1}{24} \cdot x - \frac{1}{6}\right) \cdot x} + \frac{1}{2}, x, -1\right) \cdot x} \]
  9. lower-fma.f64N/A
    \[\leadsto \frac{-1}{\mathsf{fma}\left(\color{blue}{\mathsf{fma}\left(\frac{1}{24} \cdot x - \frac{1}{6}, x, \frac{1}{2}\right)}, x, -1\right) \cdot x} \]
  10. sub-negN/A
    \[\leadsto \frac{-1}{\mathsf{fma}\left(\mathsf{fma}\left(\color{blue}{\frac{1}{24} \cdot x + \left(\mathsf{neg}\left(\frac{1}{6}\right)\right)}, x, \frac{1}{2}\right), x, -1\right) \cdot x} \]
  11. metadata-evalN/A
    \[\leadsto \frac{-1}{\mathsf{fma}\left(\mathsf{fma}\left(\frac{1}{24} \cdot x + \color{blue}{\frac{-1}{6}}, x, \frac{1}{2}\right), x, -1\right) \cdot x} \]
  12. lower-fma.f6475.7
    \[\leadsto \frac{-1}{\mathsf{fma}\left(\mathsf{fma}\left(\color{blue}{\mathsf{fma}\left(0.041666666666666664, x, -0.16666666666666666\right)}, x, 0.5\right), x, -1\right) \cdot x} \]
7. Applied rewrites75.7%
  \[\leadsto \frac{-1}{\color{blue}{\mathsf{fma}\left(\mathsf{fma}\left(\mathsf{fma}\left(0.041666666666666664, x, -0.16666666666666666\right), x, 0.5\right), x, -1\right) \cdot x}} \]
8. Taylor expanded in x around inf
  \[\leadsto \frac{-1}{\left({x}^{3} \cdot \left(\frac{1}{24} - \frac{1}{6} \cdot \frac{1}{x}\right)\right) \cdot x} \]
9. Step-by-step derivation
10. Applied rewrites75.7%
  \[\leadsto \frac{-1}{\left(\left(\mathsf{fma}\left(0.041666666666666664, x, -0.16666666666666666\right) \cdot x\right) \cdot x\right) \cdot x} \]
if 1.99999999999999999e-70 < (exp.f64 x)
1. Initial program 7.2%
  \[\frac{e^{x}}{e^{x} - 1} \]
2. Add Preprocessing
3. Taylor expanded in x around 0
  \[\leadsto \color{blue}{\frac{1 + x \cdot \left(\frac{1}{2} + x \cdot \left(\frac{1}{12} + \frac{-1}{720} \cdot {x}^{2}\right)\right)}{x}} \]
4. Step-by-step derivation
  1. *-lft-identityN/A
    \[\leadsto \color{blue}{1 \cdot \frac{1 + x \cdot \left(\frac{1}{2} + x \cdot \left(\frac{1}{12} + \frac{-1}{720} \cdot {x}^{2}\right)\right)}{x}} \]
  2. associate-/l*N/A
    \[\leadsto \color{blue}{\frac{1 \cdot \left(1 + x \cdot \left(\frac{1}{2} + x \cdot \left(\frac{1}{12} + \frac{-1}{720} \cdot {x}^{2}\right)\right)\right)}{x}} \]
  3. associate-*l/N/A
    \[\leadsto \color{blue}{\frac{1}{x} \cdot \left(1 + x \cdot \left(\frac{1}{2} + x \cdot \left(\frac{1}{12} + \frac{-1}{720} \cdot {x}^{2}\right)\right)\right)} \]
  4. distribute-lft-inN/A
    \[\leadsto \frac{1}{x} \cdot \left(1 + \color{blue}{\left(x \cdot \frac{1}{2} + x \cdot \left(x \cdot \left(\frac{1}{12} + \frac{-1}{720} \cdot {x}^{2}\right)\right)\right)}\right) \]
  5. *-commutativeN/A
    \[\leadsto \frac{1}{x} \cdot \left(1 + \left(\color{blue}{\frac{1}{2} \cdot x} + x \cdot \left(x \cdot \left(\frac{1}{12} + \frac{-1}{720} \cdot {x}^{2}\right)\right)\right)\right) \]
  6. associate-+r+N/A
    \[\leadsto \frac{1}{x} \cdot \color{blue}{\left(\left(1 + \frac{1}{2} \cdot x\right) + x \cdot \left(x \cdot \left(\frac{1}{12} + \frac{-1}{720} \cdot {x}^{2}\right)\right)\right)} \]
  7. distribute-lft-inN/A
    \[\leadsto \color{blue}{\frac{1}{x} \cdot \left(1 + \frac{1}{2} \cdot x\right) + \frac{1}{x} \cdot \left(x \cdot \left(x \cdot \left(\frac{1}{12} + \frac{-1}{720} \cdot {x}^{2}\right)\right)\right)} \]
  8. associate-*l/N/A
    \[\leadsto \color{blue}{\frac{1 \cdot \left(1 + \frac{1}{2} \cdot x\right)}{x}} + \frac{1}{x} \cdot \left(x \cdot \left(x \cdot \left(\frac{1}{12} + \frac{-1}{720} \cdot {x}^{2}\right)\right)\right) \]
  9. *-lft-identityN/A
    \[\leadsto \frac{\color{blue}{1 + \frac{1}{2} \cdot x}}{x} + \frac{1}{x} \cdot \left(x \cdot \left(x \cdot \left(\frac{1}{12} + \frac{-1}{720} \cdot {x}^{2}\right)\right)\right) \]
  10. +-commutativeN/A
    \[\leadsto \color{blue}{\frac{1}{x} \cdot \left(x \cdot \left(x \cdot \left(\frac{1}{12} + \frac{-1}{720} \cdot {x}^{2}\right)\right)\right) + \frac{1 + \frac{1}{2} \cdot x}{x}} \]
  11. associate-*r*N/A
    \[\leadsto \color{blue}{\left(\frac{1}{x} \cdot x\right) \cdot \left(x \cdot \left(\frac{1}{12} + \frac{-1}{720} \cdot {x}^{2}\right)\right)} + \frac{1 + \frac{1}{2} \cdot x}{x} \]
  12. lft-mult-inverseN/A
    \[\leadsto \color{blue}{1} \cdot \left(x \cdot \left(\frac{1}{12} + \frac{-1}{720} \cdot {x}^{2}\right)\right) + \frac{1 + \frac{1}{2} \cdot x}{x} \]
  13. *-lft-identityN/A
    \[\leadsto \color{blue}{x \cdot \left(\frac{1}{12} + \frac{-1}{720} \cdot {x}^{2}\right)} + \frac{1 + \frac{1}{2} \cdot x}{x} \]
  14. *-commutativeN/A
    \[\leadsto \color{blue}{\left(\frac{1}{12} + \frac{-1}{720} \cdot {x}^{2}\right) \cdot x} + \frac{1 + \frac{1}{2} \cdot x}{x} \]
5. Applied rewrites98.6%
  \[\leadsto \color{blue}{\mathsf{fma}\left(\mathsf{fma}\left(x \cdot x, -0.001388888888888889, 0.08333333333333333\right), x, 0.5 + \frac{1}{x}\right)} \]
Recombined 2 regimes into one program.
Final simplification90.0%
\[\leadsto \begin{array}{l} \mathbf{if}\;e^{x} \leq 2 \cdot 10^{-70}:\\ \;\;\;\;\frac{-1}{\left(\left(\mathsf{fma}\left(0.041666666666666664, x, -0.16666666666666666\right) \cdot x\right) \cdot x\right) \cdot x}\\ \mathbf{else}:\\ \;\;\;\;\mathsf{fma}\left(\mathsf{fma}\left(x \cdot x, -0.001388888888888889, 0.08333333333333333\right), x, 0.5 + {x}^{-1}\right)\\ \end{array} \]
Add Preprocessing

Alternative 3: 91.4% accurate, 0.9× speedup?

\[\begin{array}{l} \\ \begin{array}{l} \mathbf{if}\;e^{x} \leq 2 \cdot 10^{-70}:\\ \;\;\;\;\frac{-1}{\left(\left(\left(x \cdot x\right) \cdot 0.041666666666666664\right) \cdot x\right) \cdot x}\\ \mathbf{else}:\\ \;\;\;\;\mathsf{fma}\left(\mathsf{fma}\left(x \cdot x, -0.001388888888888889, 0.08333333333333333\right), x, 0.5 + {x}^{-1}\right)\\ \end{array} \end{array} \]

(FPCore (x)
 :precision binary64
 (if (<= (exp x) 2e-70)
   (/ -1.0 (* (* (* (* x x) 0.041666666666666664) x) x))
   (fma
    (fma (* x x) -0.001388888888888889 0.08333333333333333)
    x
    (+ 0.5 (pow x -1.0)))))

double code(double x) {
	double tmp;
	if (exp(x) <= 2e-70) {
		tmp = -1.0 / ((((x * x) * 0.041666666666666664) * x) * x);
	} else {
		tmp = fma(fma((x * x), -0.001388888888888889, 0.08333333333333333), x, (0.5 + pow(x, -1.0)));
	}
	return tmp;
}

function code(x)
	tmp = 0.0
	if (exp(x) <= 2e-70)
		tmp = Float64(-1.0 / Float64(Float64(Float64(Float64(x * x) * 0.041666666666666664) * x) * x));
	else
		tmp = fma(fma(Float64(x * x), -0.001388888888888889, 0.08333333333333333), x, Float64(0.5 + (x ^ -1.0)));
	end
	return tmp
end

code[x_] := If[LessEqual[N[Exp[x], $MachinePrecision], 2e-70], N[(-1.0 / N[(N[(N[(N[(x * x), $MachinePrecision] * 0.041666666666666664), $MachinePrecision] * x), $MachinePrecision] * x), $MachinePrecision]), $MachinePrecision], N[(N[(N[(x * x), $MachinePrecision] * -0.001388888888888889 + 0.08333333333333333), $MachinePrecision] * x + N[(0.5 + N[Power[x, -1.0], $MachinePrecision]), $MachinePrecision]), $MachinePrecision]]

\begin{array}{l}

\\
\begin{array}{l}
\mathbf{if}\;e^{x} \leq 2 \cdot 10^{-70}:\\
\;\;\;\;\frac{-1}{\left(\left(\left(x \cdot x\right) \cdot 0.041666666666666664\right) \cdot x\right) \cdot x}\\

\mathbf{else}:\\
\;\;\;\;\mathsf{fma}\left(\mathsf{fma}\left(x \cdot x, -0.001388888888888889, 0.08333333333333333\right), x, 0.5 + {x}^{-1}\right)\\


\end{array}
\end{array}

Derivation

Split input into 2 regimes
if (exp.f64 x) < 1.99999999999999999e-70
1. Initial program 100.0%
  \[\frac{e^{x}}{e^{x} - 1} \]
2. Add Preprocessing
3. Step-by-step derivation
  1. lift-/.f64N/A
    \[\leadsto \color{blue}{\frac{e^{x}}{e^{x} - 1}} \]
  2. clear-numN/A
    \[\leadsto \color{blue}{\frac{1}{\frac{e^{x} - 1}{e^{x}}}} \]
  3. frac-2negN/A
    \[\leadsto \color{blue}{\frac{\mathsf{neg}\left(1\right)}{\mathsf{neg}\left(\frac{e^{x} - 1}{e^{x}}\right)}} \]
  4. lower-/.f64N/A
    \[\leadsto \color{blue}{\frac{\mathsf{neg}\left(1\right)}{\mathsf{neg}\left(\frac{e^{x} - 1}{e^{x}}\right)}} \]
  5. metadata-evalN/A
    \[\leadsto \frac{\color{blue}{-1}}{\mathsf{neg}\left(\frac{e^{x} - 1}{e^{x}}\right)} \]
  6. distribute-neg-fracN/A
    \[\leadsto \frac{-1}{\color{blue}{\frac{\mathsf{neg}\left(\left(e^{x} - 1\right)\right)}{e^{x}}}} \]
  7. neg-sub0N/A
    \[\leadsto \frac{-1}{\frac{\color{blue}{0 - \left(e^{x} - 1\right)}}{e^{x}}} \]
  8. lift--.f64N/A
    \[\leadsto \frac{-1}{\frac{0 - \color{blue}{\left(e^{x} - 1\right)}}{e^{x}}} \]
  9. associate-+l-N/A
    \[\leadsto \frac{-1}{\frac{\color{blue}{\left(0 - e^{x}\right) + 1}}{e^{x}}} \]
  10. neg-sub0N/A
    \[\leadsto \frac{-1}{\frac{\color{blue}{\left(\mathsf{neg}\left(e^{x}\right)\right)} + 1}{e^{x}}} \]
  11. +-commutativeN/A
    \[\leadsto \frac{-1}{\frac{\color{blue}{1 + \left(\mathsf{neg}\left(e^{x}\right)\right)}}{e^{x}}} \]
  12. sub-negN/A
    \[\leadsto \frac{-1}{\frac{\color{blue}{1 - e^{x}}}{e^{x}}} \]
  13. div-subN/A
    \[\leadsto \frac{-1}{\color{blue}{\frac{1}{e^{x}} - \frac{e^{x}}{e^{x}}}} \]
  14. *-inversesN/A
    \[\leadsto \frac{-1}{\frac{1}{e^{x}} - \color{blue}{1}} \]
  15. lift-exp.f64N/A
    \[\leadsto \frac{-1}{\frac{1}{\color{blue}{e^{x}}} - 1} \]
  16. rec-expN/A
    \[\leadsto \frac{-1}{\color{blue}{e^{\mathsf{neg}\left(x\right)}} - 1} \]
  17. lower-expm1.f64N/A
    \[\leadsto \frac{-1}{\color{blue}{\mathsf{expm1}\left(\mathsf{neg}\left(x\right)\right)}} \]
  18. lower-neg.f64100.0
    \[\leadsto \frac{-1}{\mathsf{expm1}\left(\color{blue}{-x}\right)} \]
4. Applied rewrites100.0%
  \[\leadsto \color{blue}{\frac{-1}{\mathsf{expm1}\left(-x\right)}} \]
5. Taylor expanded in x around 0
  \[\leadsto \frac{-1}{\color{blue}{x \cdot \left(x \cdot \left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right)\right) - 1\right)}} \]
6. Step-by-step derivation
  1. *-commutativeN/A
    \[\leadsto \frac{-1}{\color{blue}{\left(x \cdot \left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right)\right) - 1\right) \cdot x}} \]
  2. lower-*.f64N/A
    \[\leadsto \frac{-1}{\color{blue}{\left(x \cdot \left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right)\right) - 1\right) \cdot x}} \]
  3. sub-negN/A
    \[\leadsto \frac{-1}{\color{blue}{\left(x \cdot \left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right)\right) + \left(\mathsf{neg}\left(1\right)\right)\right)} \cdot x} \]
  4. *-commutativeN/A
    \[\leadsto \frac{-1}{\left(\color{blue}{\left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right)\right) \cdot x} + \left(\mathsf{neg}\left(1\right)\right)\right) \cdot x} \]
  5. metadata-evalN/A
    \[\leadsto \frac{-1}{\left(\left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right)\right) \cdot x + \color{blue}{-1}\right) \cdot x} \]
  6. lower-fma.f64N/A
    \[\leadsto \frac{-1}{\color{blue}{\mathsf{fma}\left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right), x, -1\right)} \cdot x} \]
  7. +-commutativeN/A
    \[\leadsto \frac{-1}{\mathsf{fma}\left(\color{blue}{x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right) + \frac{1}{2}}, x, -1\right) \cdot x} \]
  8. *-commutativeN/A
    \[\leadsto \frac{-1}{\mathsf{fma}\left(\color{blue}{\left(\frac{1}{24} \cdot x - \frac{1}{6}\right) \cdot x} + \frac{1}{2}, x, -1\right) \cdot x} \]
  9. lower-fma.f64N/A
    \[\leadsto \frac{-1}{\mathsf{fma}\left(\color{blue}{\mathsf{fma}\left(\frac{1}{24} \cdot x - \frac{1}{6}, x, \frac{1}{2}\right)}, x, -1\right) \cdot x} \]
  10. sub-negN/A
    \[\leadsto \frac{-1}{\mathsf{fma}\left(\mathsf{fma}\left(\color{blue}{\frac{1}{24} \cdot x + \left(\mathsf{neg}\left(\frac{1}{6}\right)\right)}, x, \frac{1}{2}\right), x, -1\right) \cdot x} \]
  11. metadata-evalN/A
    \[\leadsto \frac{-1}{\mathsf{fma}\left(\mathsf{fma}\left(\frac{1}{24} \cdot x + \color{blue}{\frac{-1}{6}}, x, \frac{1}{2}\right), x, -1\right) \cdot x} \]
  12. lower-fma.f6475.7
    \[\leadsto \frac{-1}{\mathsf{fma}\left(\mathsf{fma}\left(\color{blue}{\mathsf{fma}\left(0.041666666666666664, x, -0.16666666666666666\right)}, x, 0.5\right), x, -1\right) \cdot x} \]
7. Applied rewrites75.7%
  \[\leadsto \frac{-1}{\color{blue}{\mathsf{fma}\left(\mathsf{fma}\left(\mathsf{fma}\left(0.041666666666666664, x, -0.16666666666666666\right), x, 0.5\right), x, -1\right) \cdot x}} \]
8. Taylor expanded in x around inf
  \[\leadsto \frac{-1}{\left({x}^{3} \cdot \left(\frac{1}{24} - \frac{1}{6} \cdot \frac{1}{x}\right)\right) \cdot x} \]
9. Step-by-step derivation
10. Applied rewrites75.7%
  \[\leadsto \frac{-1}{\left(\left(\mathsf{fma}\left(0.041666666666666664, x, -0.16666666666666666\right) \cdot x\right) \cdot x\right) \cdot x} \]
11. Taylor expanded in x around inf
  \[\leadsto \frac{-1}{\left(\left(\frac{1}{24} \cdot {x}^{2}\right) \cdot x\right) \cdot x} \]
12. Step-by-step derivation
13. Applied rewrites75.7%
  \[\leadsto \frac{-1}{\left(\left(\left(x \cdot x\right) \cdot 0.041666666666666664\right) \cdot x\right) \cdot x} \]
if 1.99999999999999999e-70 < (exp.f64 x)
1. Initial program 7.2%
  \[\frac{e^{x}}{e^{x} - 1} \]
2. Add Preprocessing
3. Taylor expanded in x around 0
  \[\leadsto \color{blue}{\frac{1 + x \cdot \left(\frac{1}{2} + x \cdot \left(\frac{1}{12} + \frac{-1}{720} \cdot {x}^{2}\right)\right)}{x}} \]
4. Step-by-step derivation
  1. *-lft-identityN/A
    \[\leadsto \color{blue}{1 \cdot \frac{1 + x \cdot \left(\frac{1}{2} + x \cdot \left(\frac{1}{12} + \frac{-1}{720} \cdot {x}^{2}\right)\right)}{x}} \]
  2. associate-/l*N/A
    \[\leadsto \color{blue}{\frac{1 \cdot \left(1 + x \cdot \left(\frac{1}{2} + x \cdot \left(\frac{1}{12} + \frac{-1}{720} \cdot {x}^{2}\right)\right)\right)}{x}} \]
  3. associate-*l/N/A
    \[\leadsto \color{blue}{\frac{1}{x} \cdot \left(1 + x \cdot \left(\frac{1}{2} + x \cdot \left(\frac{1}{12} + \frac{-1}{720} \cdot {x}^{2}\right)\right)\right)} \]
  4. distribute-lft-inN/A
    \[\leadsto \frac{1}{x} \cdot \left(1 + \color{blue}{\left(x \cdot \frac{1}{2} + x \cdot \left(x \cdot \left(\frac{1}{12} + \frac{-1}{720} \cdot {x}^{2}\right)\right)\right)}\right) \]
  5. *-commutativeN/A
    \[\leadsto \frac{1}{x} \cdot \left(1 + \left(\color{blue}{\frac{1}{2} \cdot x} + x \cdot \left(x \cdot \left(\frac{1}{12} + \frac{-1}{720} \cdot {x}^{2}\right)\right)\right)\right) \]
  6. associate-+r+N/A
    \[\leadsto \frac{1}{x} \cdot \color{blue}{\left(\left(1 + \frac{1}{2} \cdot x\right) + x \cdot \left(x \cdot \left(\frac{1}{12} + \frac{-1}{720} \cdot {x}^{2}\right)\right)\right)} \]
  7. distribute-lft-inN/A
    \[\leadsto \color{blue}{\frac{1}{x} \cdot \left(1 + \frac{1}{2} \cdot x\right) + \frac{1}{x} \cdot \left(x \cdot \left(x \cdot \left(\frac{1}{12} + \frac{-1}{720} \cdot {x}^{2}\right)\right)\right)} \]
  8. associate-*l/N/A
    \[\leadsto \color{blue}{\frac{1 \cdot \left(1 + \frac{1}{2} \cdot x\right)}{x}} + \frac{1}{x} \cdot \left(x \cdot \left(x \cdot \left(\frac{1}{12} + \frac{-1}{720} \cdot {x}^{2}\right)\right)\right) \]
  9. *-lft-identityN/A
    \[\leadsto \frac{\color{blue}{1 + \frac{1}{2} \cdot x}}{x} + \frac{1}{x} \cdot \left(x \cdot \left(x \cdot \left(\frac{1}{12} + \frac{-1}{720} \cdot {x}^{2}\right)\right)\right) \]
  10. +-commutativeN/A
    \[\leadsto \color{blue}{\frac{1}{x} \cdot \left(x \cdot \left(x \cdot \left(\frac{1}{12} + \frac{-1}{720} \cdot {x}^{2}\right)\right)\right) + \frac{1 + \frac{1}{2} \cdot x}{x}} \]
  11. associate-*r*N/A
    \[\leadsto \color{blue}{\left(\frac{1}{x} \cdot x\right) \cdot \left(x \cdot \left(\frac{1}{12} + \frac{-1}{720} \cdot {x}^{2}\right)\right)} + \frac{1 + \frac{1}{2} \cdot x}{x} \]
  12. lft-mult-inverseN/A
    \[\leadsto \color{blue}{1} \cdot \left(x \cdot \left(\frac{1}{12} + \frac{-1}{720} \cdot {x}^{2}\right)\right) + \frac{1 + \frac{1}{2} \cdot x}{x} \]
  13. *-lft-identityN/A
    \[\leadsto \color{blue}{x \cdot \left(\frac{1}{12} + \frac{-1}{720} \cdot {x}^{2}\right)} + \frac{1 + \frac{1}{2} \cdot x}{x} \]
  14. *-commutativeN/A
    \[\leadsto \color{blue}{\left(\frac{1}{12} + \frac{-1}{720} \cdot {x}^{2}\right) \cdot x} + \frac{1 + \frac{1}{2} \cdot x}{x} \]
5. Applied rewrites98.6%
  \[\leadsto \color{blue}{\mathsf{fma}\left(\mathsf{fma}\left(x \cdot x, -0.001388888888888889, 0.08333333333333333\right), x, 0.5 + \frac{1}{x}\right)} \]
Recombined 2 regimes into one program.
Final simplification90.0%
\[\leadsto \begin{array}{l} \mathbf{if}\;e^{x} \leq 2 \cdot 10^{-70}:\\ \;\;\;\;\frac{-1}{\left(\left(\left(x \cdot x\right) \cdot 0.041666666666666664\right) \cdot x\right) \cdot x}\\ \mathbf{else}:\\ \;\;\;\;\mathsf{fma}\left(\mathsf{fma}\left(x \cdot x, -0.001388888888888889, 0.08333333333333333\right), x, 0.5 + {x}^{-1}\right)\\ \end{array} \]
Add Preprocessing

Alternative 4: 83.1% accurate, 1.0× speedup?

\[\begin{array}{l} \\ \begin{array}{l} \mathbf{if}\;e^{x} \leq 2 \cdot 10^{-70}:\\ \;\;\;\;\frac{-1}{\left(0.5 \cdot x\right) \cdot x}\\ \mathbf{else}:\\ \;\;\;\;\mathsf{fma}\left(0.08333333333333333, x, 0.5 + {x}^{-1}\right)\\ \end{array} \end{array} \]

(FPCore (x)
 :precision binary64
 (if (<= (exp x) 2e-70)
   (/ -1.0 (* (* 0.5 x) x))
   (fma 0.08333333333333333 x (+ 0.5 (pow x -1.0)))))

double code(double x) {
	double tmp;
	if (exp(x) <= 2e-70) {
		tmp = -1.0 / ((0.5 * x) * x);
	} else {
		tmp = fma(0.08333333333333333, x, (0.5 + pow(x, -1.0)));
	}
	return tmp;
}

function code(x)
	tmp = 0.0
	if (exp(x) <= 2e-70)
		tmp = Float64(-1.0 / Float64(Float64(0.5 * x) * x));
	else
		tmp = fma(0.08333333333333333, x, Float64(0.5 + (x ^ -1.0)));
	end
	return tmp
end

code[x_] := If[LessEqual[N[Exp[x], $MachinePrecision], 2e-70], N[(-1.0 / N[(N[(0.5 * x), $MachinePrecision] * x), $MachinePrecision]), $MachinePrecision], N[(0.08333333333333333 * x + N[(0.5 + N[Power[x, -1.0], $MachinePrecision]), $MachinePrecision]), $MachinePrecision]]

\begin{array}{l}

\\
\begin{array}{l}
\mathbf{if}\;e^{x} \leq 2 \cdot 10^{-70}:\\
\;\;\;\;\frac{-1}{\left(0.5 \cdot x\right) \cdot x}\\

\mathbf{else}:\\
\;\;\;\;\mathsf{fma}\left(0.08333333333333333, x, 0.5 + {x}^{-1}\right)\\


\end{array}
\end{array}

Derivation

Split input into 2 regimes
if (exp.f64 x) < 1.99999999999999999e-70
1. Initial program 100.0%
  \[\frac{e^{x}}{e^{x} - 1} \]
2. Add Preprocessing
3. Step-by-step derivation
  1. lift-/.f64N/A
    \[\leadsto \color{blue}{\frac{e^{x}}{e^{x} - 1}} \]
  2. clear-numN/A
    \[\leadsto \color{blue}{\frac{1}{\frac{e^{x} - 1}{e^{x}}}} \]
  3. frac-2negN/A
    \[\leadsto \color{blue}{\frac{\mathsf{neg}\left(1\right)}{\mathsf{neg}\left(\frac{e^{x} - 1}{e^{x}}\right)}} \]
  4. lower-/.f64N/A
    \[\leadsto \color{blue}{\frac{\mathsf{neg}\left(1\right)}{\mathsf{neg}\left(\frac{e^{x} - 1}{e^{x}}\right)}} \]
  5. metadata-evalN/A
    \[\leadsto \frac{\color{blue}{-1}}{\mathsf{neg}\left(\frac{e^{x} - 1}{e^{x}}\right)} \]
  6. distribute-neg-fracN/A
    \[\leadsto \frac{-1}{\color{blue}{\frac{\mathsf{neg}\left(\left(e^{x} - 1\right)\right)}{e^{x}}}} \]
  7. neg-sub0N/A
    \[\leadsto \frac{-1}{\frac{\color{blue}{0 - \left(e^{x} - 1\right)}}{e^{x}}} \]
  8. lift--.f64N/A
    \[\leadsto \frac{-1}{\frac{0 - \color{blue}{\left(e^{x} - 1\right)}}{e^{x}}} \]
  9. associate-+l-N/A
    \[\leadsto \frac{-1}{\frac{\color{blue}{\left(0 - e^{x}\right) + 1}}{e^{x}}} \]
  10. neg-sub0N/A
    \[\leadsto \frac{-1}{\frac{\color{blue}{\left(\mathsf{neg}\left(e^{x}\right)\right)} + 1}{e^{x}}} \]
  11. +-commutativeN/A
    \[\leadsto \frac{-1}{\frac{\color{blue}{1 + \left(\mathsf{neg}\left(e^{x}\right)\right)}}{e^{x}}} \]
  12. sub-negN/A
    \[\leadsto \frac{-1}{\frac{\color{blue}{1 - e^{x}}}{e^{x}}} \]
  13. div-subN/A
    \[\leadsto \frac{-1}{\color{blue}{\frac{1}{e^{x}} - \frac{e^{x}}{e^{x}}}} \]
  14. *-inversesN/A
    \[\leadsto \frac{-1}{\frac{1}{e^{x}} - \color{blue}{1}} \]
  15. lift-exp.f64N/A
    \[\leadsto \frac{-1}{\frac{1}{\color{blue}{e^{x}}} - 1} \]
  16. rec-expN/A
    \[\leadsto \frac{-1}{\color{blue}{e^{\mathsf{neg}\left(x\right)}} - 1} \]
  17. lower-expm1.f64N/A
    \[\leadsto \frac{-1}{\color{blue}{\mathsf{expm1}\left(\mathsf{neg}\left(x\right)\right)}} \]
  18. lower-neg.f64100.0
    \[\leadsto \frac{-1}{\mathsf{expm1}\left(\color{blue}{-x}\right)} \]
4. Applied rewrites100.0%
  \[\leadsto \color{blue}{\frac{-1}{\mathsf{expm1}\left(-x\right)}} \]
5. Taylor expanded in x around 0
  \[\leadsto \frac{-1}{\color{blue}{x \cdot \left(\frac{1}{2} \cdot x - 1\right)}} \]
6. Step-by-step derivation
  1. *-commutativeN/A
    \[\leadsto \frac{-1}{\color{blue}{\left(\frac{1}{2} \cdot x - 1\right) \cdot x}} \]
  2. lower-*.f64N/A
    \[\leadsto \frac{-1}{\color{blue}{\left(\frac{1}{2} \cdot x - 1\right) \cdot x}} \]
  3. sub-negN/A
    \[\leadsto \frac{-1}{\color{blue}{\left(\frac{1}{2} \cdot x + \left(\mathsf{neg}\left(1\right)\right)\right)} \cdot x} \]
  4. metadata-evalN/A
    \[\leadsto \frac{-1}{\left(\frac{1}{2} \cdot x + \color{blue}{-1}\right) \cdot x} \]
  5. lower-fma.f6459.4
    \[\leadsto \frac{-1}{\color{blue}{\mathsf{fma}\left(0.5, x, -1\right)} \cdot x} \]
7. Applied rewrites59.4%
  \[\leadsto \frac{-1}{\color{blue}{\mathsf{fma}\left(0.5, x, -1\right) \cdot x}} \]
8. Taylor expanded in x around inf
  \[\leadsto \frac{-1}{\left(\frac{1}{2} \cdot x\right) \cdot x} \]
9. Step-by-step derivation
10. Applied rewrites59.4%
  \[\leadsto \frac{-1}{\left(0.5 \cdot x\right) \cdot x} \]
if 1.99999999999999999e-70 < (exp.f64 x)
1. Initial program 7.2%
  \[\frac{e^{x}}{e^{x} - 1} \]
2. Add Preprocessing
3. Taylor expanded in x around 0
  \[\leadsto \color{blue}{\frac{1 + x \cdot \left(\frac{1}{2} + \frac{1}{12} \cdot x\right)}{x}} \]
4. Step-by-step derivation
  1. *-lft-identityN/A
    \[\leadsto \color{blue}{1 \cdot \frac{1 + x \cdot \left(\frac{1}{2} + \frac{1}{12} \cdot x\right)}{x}} \]
  2. associate-/l*N/A
    \[\leadsto \color{blue}{\frac{1 \cdot \left(1 + x \cdot \left(\frac{1}{2} + \frac{1}{12} \cdot x\right)\right)}{x}} \]
  3. associate-*l/N/A
    \[\leadsto \color{blue}{\frac{1}{x} \cdot \left(1 + x \cdot \left(\frac{1}{2} + \frac{1}{12} \cdot x\right)\right)} \]
  4. distribute-lft-inN/A
    \[\leadsto \frac{1}{x} \cdot \left(1 + \color{blue}{\left(x \cdot \frac{1}{2} + x \cdot \left(\frac{1}{12} \cdot x\right)\right)}\right) \]
  5. *-commutativeN/A
    \[\leadsto \frac{1}{x} \cdot \left(1 + \left(\color{blue}{\frac{1}{2} \cdot x} + x \cdot \left(\frac{1}{12} \cdot x\right)\right)\right) \]
  6. associate-+r+N/A
    \[\leadsto \frac{1}{x} \cdot \color{blue}{\left(\left(1 + \frac{1}{2} \cdot x\right) + x \cdot \left(\frac{1}{12} \cdot x\right)\right)} \]
  7. distribute-rgt-inN/A
    \[\leadsto \color{blue}{\left(1 + \frac{1}{2} \cdot x\right) \cdot \frac{1}{x} + \left(x \cdot \left(\frac{1}{12} \cdot x\right)\right) \cdot \frac{1}{x}} \]
  8. associate-/l*N/A
    \[\leadsto \color{blue}{\frac{\left(1 + \frac{1}{2} \cdot x\right) \cdot 1}{x}} + \left(x \cdot \left(\frac{1}{12} \cdot x\right)\right) \cdot \frac{1}{x} \]
  9. *-rgt-identityN/A
    \[\leadsto \frac{\color{blue}{1 + \frac{1}{2} \cdot x}}{x} + \left(x \cdot \left(\frac{1}{12} \cdot x\right)\right) \cdot \frac{1}{x} \]
  10. *-commutativeN/A
    \[\leadsto \frac{1 + \frac{1}{2} \cdot x}{x} + \color{blue}{\frac{1}{x} \cdot \left(x \cdot \left(\frac{1}{12} \cdot x\right)\right)} \]
  11. associate-*r*N/A
    \[\leadsto \frac{1 + \frac{1}{2} \cdot x}{x} + \color{blue}{\left(\frac{1}{x} \cdot x\right) \cdot \left(\frac{1}{12} \cdot x\right)} \]
  12. lft-mult-inverseN/A
    \[\leadsto \frac{1 + \frac{1}{2} \cdot x}{x} + \color{blue}{1} \cdot \left(\frac{1}{12} \cdot x\right) \]
  13. *-lft-identityN/A
    \[\leadsto \frac{1 + \frac{1}{2} \cdot x}{x} + \color{blue}{\frac{1}{12} \cdot x} \]
  14. +-commutativeN/A
    \[\leadsto \color{blue}{\frac{1}{12} \cdot x + \frac{1 + \frac{1}{2} \cdot x}{x}} \]
  15. lower-fma.f64N/A
    \[\leadsto \color{blue}{\mathsf{fma}\left(\frac{1}{12}, x, \frac{1 + \frac{1}{2} \cdot x}{x}\right)} \]
  16. *-rgt-identityN/A
    \[\leadsto \mathsf{fma}\left(\frac{1}{12}, x, \frac{\color{blue}{\left(1 + \frac{1}{2} \cdot x\right) \cdot 1}}{x}\right) \]
  17. associate-/l*N/A
    \[\leadsto \mathsf{fma}\left(\frac{1}{12}, x, \color{blue}{\left(1 + \frac{1}{2} \cdot x\right) \cdot \frac{1}{x}}\right) \]
  18. +-commutativeN/A
    \[\leadsto \mathsf{fma}\left(\frac{1}{12}, x, \color{blue}{\left(\frac{1}{2} \cdot x + 1\right)} \cdot \frac{1}{x}\right) \]
  19. distribute-lft1-inN/A
    \[\leadsto \mathsf{fma}\left(\frac{1}{12}, x, \color{blue}{\left(\frac{1}{2} \cdot x\right) \cdot \frac{1}{x} + \frac{1}{x}}\right) \]
  20. lower-+.f64N/A
    \[\leadsto \mathsf{fma}\left(\frac{1}{12}, x, \color{blue}{\left(\frac{1}{2} \cdot x\right) \cdot \frac{1}{x} + \frac{1}{x}}\right) \]
5. Applied rewrites98.0%
  \[\leadsto \color{blue}{\mathsf{fma}\left(0.08333333333333333, x, 0.5 + \frac{1}{x}\right)} \]
Recombined 2 regimes into one program.
Final simplification83.5%
\[\leadsto \begin{array}{l} \mathbf{if}\;e^{x} \leq 2 \cdot 10^{-70}:\\ \;\;\;\;\frac{-1}{\left(0.5 \cdot x\right) \cdot x}\\ \mathbf{else}:\\ \;\;\;\;\mathsf{fma}\left(0.08333333333333333, x, 0.5 + {x}^{-1}\right)\\ \end{array} \]
Add Preprocessing

Alternative 5: 88.7% accurate, 1.8× speedup?

\[\begin{array}{l} \\ \begin{array}{l} \mathbf{if}\;x \leq -3.45:\\ \;\;\;\;\frac{-1}{\left(\mathsf{fma}\left(-0.16666666666666666, x, 0.5\right) \cdot x\right) \cdot x}\\ \mathbf{else}:\\ \;\;\;\;\mathsf{fma}\left(0.08333333333333333, x, 0.5 + {x}^{-1}\right)\\ \end{array} \end{array} \]

(FPCore (x)
 :precision binary64
 (if (<= x -3.45)
   (/ -1.0 (* (* (fma -0.16666666666666666 x 0.5) x) x))
   (fma 0.08333333333333333 x (+ 0.5 (pow x -1.0)))))

double code(double x) {
	double tmp;
	if (x <= -3.45) {
		tmp = -1.0 / ((fma(-0.16666666666666666, x, 0.5) * x) * x);
	} else {
		tmp = fma(0.08333333333333333, x, (0.5 + pow(x, -1.0)));
	}
	return tmp;
}

function code(x)
	tmp = 0.0
	if (x <= -3.45)
		tmp = Float64(-1.0 / Float64(Float64(fma(-0.16666666666666666, x, 0.5) * x) * x));
	else
		tmp = fma(0.08333333333333333, x, Float64(0.5 + (x ^ -1.0)));
	end
	return tmp
end

code[x_] := If[LessEqual[x, -3.45], N[(-1.0 / N[(N[(N[(-0.16666666666666666 * x + 0.5), $MachinePrecision] * x), $MachinePrecision] * x), $MachinePrecision]), $MachinePrecision], N[(0.08333333333333333 * x + N[(0.5 + N[Power[x, -1.0], $MachinePrecision]), $MachinePrecision]), $MachinePrecision]]

\begin{array}{l}

\\
\begin{array}{l}
\mathbf{if}\;x \leq -3.45:\\
\;\;\;\;\frac{-1}{\left(\mathsf{fma}\left(-0.16666666666666666, x, 0.5\right) \cdot x\right) \cdot x}\\

\mathbf{else}:\\
\;\;\;\;\mathsf{fma}\left(0.08333333333333333, x, 0.5 + {x}^{-1}\right)\\


\end{array}
\end{array}

Derivation

Split input into 2 regimes
if x < -3.4500000000000002
1. Initial program 100.0%
  \[\frac{e^{x}}{e^{x} - 1} \]
2. Add Preprocessing
3. Step-by-step derivation
  1. lift-/.f64N/A
    \[\leadsto \color{blue}{\frac{e^{x}}{e^{x} - 1}} \]
  2. clear-numN/A
    \[\leadsto \color{blue}{\frac{1}{\frac{e^{x} - 1}{e^{x}}}} \]
  3. frac-2negN/A
    \[\leadsto \color{blue}{\frac{\mathsf{neg}\left(1\right)}{\mathsf{neg}\left(\frac{e^{x} - 1}{e^{x}}\right)}} \]
  4. lower-/.f64N/A
    \[\leadsto \color{blue}{\frac{\mathsf{neg}\left(1\right)}{\mathsf{neg}\left(\frac{e^{x} - 1}{e^{x}}\right)}} \]
  5. metadata-evalN/A
    \[\leadsto \frac{\color{blue}{-1}}{\mathsf{neg}\left(\frac{e^{x} - 1}{e^{x}}\right)} \]
  6. distribute-neg-fracN/A
    \[\leadsto \frac{-1}{\color{blue}{\frac{\mathsf{neg}\left(\left(e^{x} - 1\right)\right)}{e^{x}}}} \]
  7. neg-sub0N/A
    \[\leadsto \frac{-1}{\frac{\color{blue}{0 - \left(e^{x} - 1\right)}}{e^{x}}} \]
  8. lift--.f64N/A
    \[\leadsto \frac{-1}{\frac{0 - \color{blue}{\left(e^{x} - 1\right)}}{e^{x}}} \]
  9. associate-+l-N/A
    \[\leadsto \frac{-1}{\frac{\color{blue}{\left(0 - e^{x}\right) + 1}}{e^{x}}} \]
  10. neg-sub0N/A
    \[\leadsto \frac{-1}{\frac{\color{blue}{\left(\mathsf{neg}\left(e^{x}\right)\right)} + 1}{e^{x}}} \]
  11. +-commutativeN/A
    \[\leadsto \frac{-1}{\frac{\color{blue}{1 + \left(\mathsf{neg}\left(e^{x}\right)\right)}}{e^{x}}} \]
  12. sub-negN/A
    \[\leadsto \frac{-1}{\frac{\color{blue}{1 - e^{x}}}{e^{x}}} \]
  13. div-subN/A
    \[\leadsto \frac{-1}{\color{blue}{\frac{1}{e^{x}} - \frac{e^{x}}{e^{x}}}} \]
  14. *-inversesN/A
    \[\leadsto \frac{-1}{\frac{1}{e^{x}} - \color{blue}{1}} \]
  15. lift-exp.f64N/A
    \[\leadsto \frac{-1}{\frac{1}{\color{blue}{e^{x}}} - 1} \]
  16. rec-expN/A
    \[\leadsto \frac{-1}{\color{blue}{e^{\mathsf{neg}\left(x\right)}} - 1} \]
  17. lower-expm1.f64N/A
    \[\leadsto \frac{-1}{\color{blue}{\mathsf{expm1}\left(\mathsf{neg}\left(x\right)\right)}} \]
  18. lower-neg.f64100.0
    \[\leadsto \frac{-1}{\mathsf{expm1}\left(\color{blue}{-x}\right)} \]
4. Applied rewrites100.0%
  \[\leadsto \color{blue}{\frac{-1}{\mathsf{expm1}\left(-x\right)}} \]
5. Taylor expanded in x around 0
  \[\leadsto \frac{-1}{\color{blue}{x \cdot \left(x \cdot \left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right)\right) - 1\right)}} \]
6. Step-by-step derivation
  1. *-commutativeN/A
    \[\leadsto \frac{-1}{\color{blue}{\left(x \cdot \left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right)\right) - 1\right) \cdot x}} \]
  2. lower-*.f64N/A
    \[\leadsto \frac{-1}{\color{blue}{\left(x \cdot \left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right)\right) - 1\right) \cdot x}} \]
  3. sub-negN/A
    \[\leadsto \frac{-1}{\color{blue}{\left(x \cdot \left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right)\right) + \left(\mathsf{neg}\left(1\right)\right)\right)} \cdot x} \]
  4. *-commutativeN/A
    \[\leadsto \frac{-1}{\left(\color{blue}{\left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right)\right) \cdot x} + \left(\mathsf{neg}\left(1\right)\right)\right) \cdot x} \]
  5. metadata-evalN/A
    \[\leadsto \frac{-1}{\left(\left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right)\right) \cdot x + \color{blue}{-1}\right) \cdot x} \]
  6. lower-fma.f64N/A
    \[\leadsto \frac{-1}{\color{blue}{\mathsf{fma}\left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right), x, -1\right)} \cdot x} \]
  7. +-commutativeN/A
    \[\leadsto \frac{-1}{\mathsf{fma}\left(\color{blue}{x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right) + \frac{1}{2}}, x, -1\right) \cdot x} \]
  8. *-commutativeN/A
    \[\leadsto \frac{-1}{\mathsf{fma}\left(\color{blue}{\left(\frac{1}{24} \cdot x - \frac{1}{6}\right) \cdot x} + \frac{1}{2}, x, -1\right) \cdot x} \]
  9. lower-fma.f64N/A
    \[\leadsto \frac{-1}{\mathsf{fma}\left(\color{blue}{\mathsf{fma}\left(\frac{1}{24} \cdot x - \frac{1}{6}, x, \frac{1}{2}\right)}, x, -1\right) \cdot x} \]
  10. sub-negN/A
    \[\leadsto \frac{-1}{\mathsf{fma}\left(\mathsf{fma}\left(\color{blue}{\frac{1}{24} \cdot x + \left(\mathsf{neg}\left(\frac{1}{6}\right)\right)}, x, \frac{1}{2}\right), x, -1\right) \cdot x} \]
  11. metadata-evalN/A
    \[\leadsto \frac{-1}{\mathsf{fma}\left(\mathsf{fma}\left(\frac{1}{24} \cdot x + \color{blue}{\frac{-1}{6}}, x, \frac{1}{2}\right), x, -1\right) \cdot x} \]
  12. lower-fma.f6475.7
    \[\leadsto \frac{-1}{\mathsf{fma}\left(\mathsf{fma}\left(\color{blue}{\mathsf{fma}\left(0.041666666666666664, x, -0.16666666666666666\right)}, x, 0.5\right), x, -1\right) \cdot x} \]
7. Applied rewrites75.7%
  \[\leadsto \frac{-1}{\color{blue}{\mathsf{fma}\left(\mathsf{fma}\left(\mathsf{fma}\left(0.041666666666666664, x, -0.16666666666666666\right), x, 0.5\right), x, -1\right) \cdot x}} \]
8. Taylor expanded in x around inf
  \[\leadsto \frac{-1}{\left({x}^{3} \cdot \left(\left(\frac{1}{24} + \frac{\frac{1}{2}}{{x}^{2}}\right) - \frac{1}{6} \cdot \frac{1}{x}\right)\right) \cdot x} \]
10. Applied rewrites75.7%
  \[\leadsto \frac{-1}{\left(\mathsf{fma}\left(\mathsf{fma}\left(0.041666666666666664, x, -0.16666666666666666\right), x, 0.5\right) \cdot x\right) \cdot x} \]
11. Taylor expanded in x around 0
  \[\leadsto \frac{-1}{\left(x \cdot \left(\frac{1}{2} + \frac{-1}{6} \cdot x\right)\right) \cdot x} \]
12. Step-by-step derivation
13. Applied rewrites68.5%
  \[\leadsto \frac{-1}{\left(\mathsf{fma}\left(-0.16666666666666666, x, 0.5\right) \cdot x\right) \cdot x} \]
if -3.4500000000000002 < x
1. Initial program 7.2%
  \[\frac{e^{x}}{e^{x} - 1} \]
2. Add Preprocessing
3. Taylor expanded in x around 0
  \[\leadsto \color{blue}{\frac{1 + x \cdot \left(\frac{1}{2} + \frac{1}{12} \cdot x\right)}{x}} \]
4. Step-by-step derivation
  1. *-lft-identityN/A
    \[\leadsto \color{blue}{1 \cdot \frac{1 + x \cdot \left(\frac{1}{2} + \frac{1}{12} \cdot x\right)}{x}} \]
  2. associate-/l*N/A
    \[\leadsto \color{blue}{\frac{1 \cdot \left(1 + x \cdot \left(\frac{1}{2} + \frac{1}{12} \cdot x\right)\right)}{x}} \]
  3. associate-*l/N/A
    \[\leadsto \color{blue}{\frac{1}{x} \cdot \left(1 + x \cdot \left(\frac{1}{2} + \frac{1}{12} \cdot x\right)\right)} \]
  4. distribute-lft-inN/A
    \[\leadsto \frac{1}{x} \cdot \left(1 + \color{blue}{\left(x \cdot \frac{1}{2} + x \cdot \left(\frac{1}{12} \cdot x\right)\right)}\right) \]
  5. *-commutativeN/A
    \[\leadsto \frac{1}{x} \cdot \left(1 + \left(\color{blue}{\frac{1}{2} \cdot x} + x \cdot \left(\frac{1}{12} \cdot x\right)\right)\right) \]
  6. associate-+r+N/A
    \[\leadsto \frac{1}{x} \cdot \color{blue}{\left(\left(1 + \frac{1}{2} \cdot x\right) + x \cdot \left(\frac{1}{12} \cdot x\right)\right)} \]
  7. distribute-rgt-inN/A
    \[\leadsto \color{blue}{\left(1 + \frac{1}{2} \cdot x\right) \cdot \frac{1}{x} + \left(x \cdot \left(\frac{1}{12} \cdot x\right)\right) \cdot \frac{1}{x}} \]
  8. associate-/l*N/A
    \[\leadsto \color{blue}{\frac{\left(1 + \frac{1}{2} \cdot x\right) \cdot 1}{x}} + \left(x \cdot \left(\frac{1}{12} \cdot x\right)\right) \cdot \frac{1}{x} \]
  9. *-rgt-identityN/A
    \[\leadsto \frac{\color{blue}{1 + \frac{1}{2} \cdot x}}{x} + \left(x \cdot \left(\frac{1}{12} \cdot x\right)\right) \cdot \frac{1}{x} \]
  10. *-commutativeN/A
    \[\leadsto \frac{1 + \frac{1}{2} \cdot x}{x} + \color{blue}{\frac{1}{x} \cdot \left(x \cdot \left(\frac{1}{12} \cdot x\right)\right)} \]
  11. associate-*r*N/A
    \[\leadsto \frac{1 + \frac{1}{2} \cdot x}{x} + \color{blue}{\left(\frac{1}{x} \cdot x\right) \cdot \left(\frac{1}{12} \cdot x\right)} \]
  12. lft-mult-inverseN/A
    \[\leadsto \frac{1 + \frac{1}{2} \cdot x}{x} + \color{blue}{1} \cdot \left(\frac{1}{12} \cdot x\right) \]
  13. *-lft-identityN/A
    \[\leadsto \frac{1 + \frac{1}{2} \cdot x}{x} + \color{blue}{\frac{1}{12} \cdot x} \]
  14. +-commutativeN/A
    \[\leadsto \color{blue}{\frac{1}{12} \cdot x + \frac{1 + \frac{1}{2} \cdot x}{x}} \]
  15. lower-fma.f64N/A
    \[\leadsto \color{blue}{\mathsf{fma}\left(\frac{1}{12}, x, \frac{1 + \frac{1}{2} \cdot x}{x}\right)} \]
  16. *-rgt-identityN/A
    \[\leadsto \mathsf{fma}\left(\frac{1}{12}, x, \frac{\color{blue}{\left(1 + \frac{1}{2} \cdot x\right) \cdot 1}}{x}\right) \]
  17. associate-/l*N/A
    \[\leadsto \mathsf{fma}\left(\frac{1}{12}, x, \color{blue}{\left(1 + \frac{1}{2} \cdot x\right) \cdot \frac{1}{x}}\right) \]
  18. +-commutativeN/A
    \[\leadsto \mathsf{fma}\left(\frac{1}{12}, x, \color{blue}{\left(\frac{1}{2} \cdot x + 1\right)} \cdot \frac{1}{x}\right) \]
  19. distribute-lft1-inN/A
    \[\leadsto \mathsf{fma}\left(\frac{1}{12}, x, \color{blue}{\left(\frac{1}{2} \cdot x\right) \cdot \frac{1}{x} + \frac{1}{x}}\right) \]
  20. lower-+.f64N/A
    \[\leadsto \mathsf{fma}\left(\frac{1}{12}, x, \color{blue}{\left(\frac{1}{2} \cdot x\right) \cdot \frac{1}{x} + \frac{1}{x}}\right) \]
5. Applied rewrites98.0%
  \[\leadsto \color{blue}{\mathsf{fma}\left(0.08333333333333333, x, 0.5 + \frac{1}{x}\right)} \]
Recombined 2 regimes into one program.
Final simplification86.9%
\[\leadsto \begin{array}{l} \mathbf{if}\;x \leq -3.45:\\ \;\;\;\;\frac{-1}{\left(\mathsf{fma}\left(-0.16666666666666666, x, 0.5\right) \cdot x\right) \cdot x}\\ \mathbf{else}:\\ \;\;\;\;\mathsf{fma}\left(0.08333333333333333, x, 0.5 + {x}^{-1}\right)\\ \end{array} \]
Add Preprocessing

Alternative 6: 88.7% accurate, 1.8× speedup?

\[\begin{array}{l} \\ \begin{array}{l} \mathbf{if}\;x \leq -4.2:\\ \;\;\;\;\frac{-1}{\left(\left(-0.16666666666666666 \cdot x\right) \cdot x\right) \cdot x}\\ \mathbf{else}:\\ \;\;\;\;\mathsf{fma}\left(0.08333333333333333, x, 0.5 + {x}^{-1}\right)\\ \end{array} \end{array} \]

(FPCore (x)
 :precision binary64
 (if (<= x -4.2)
   (/ -1.0 (* (* (* -0.16666666666666666 x) x) x))
   (fma 0.08333333333333333 x (+ 0.5 (pow x -1.0)))))

double code(double x) {
	double tmp;
	if (x <= -4.2) {
		tmp = -1.0 / (((-0.16666666666666666 * x) * x) * x);
	} else {
		tmp = fma(0.08333333333333333, x, (0.5 + pow(x, -1.0)));
	}
	return tmp;
}

function code(x)
	tmp = 0.0
	if (x <= -4.2)
		tmp = Float64(-1.0 / Float64(Float64(Float64(-0.16666666666666666 * x) * x) * x));
	else
		tmp = fma(0.08333333333333333, x, Float64(0.5 + (x ^ -1.0)));
	end
	return tmp
end

code[x_] := If[LessEqual[x, -4.2], N[(-1.0 / N[(N[(N[(-0.16666666666666666 * x), $MachinePrecision] * x), $MachinePrecision] * x), $MachinePrecision]), $MachinePrecision], N[(0.08333333333333333 * x + N[(0.5 + N[Power[x, -1.0], $MachinePrecision]), $MachinePrecision]), $MachinePrecision]]

\begin{array}{l}

\\
\begin{array}{l}
\mathbf{if}\;x \leq -4.2:\\
\;\;\;\;\frac{-1}{\left(\left(-0.16666666666666666 \cdot x\right) \cdot x\right) \cdot x}\\

\mathbf{else}:\\
\;\;\;\;\mathsf{fma}\left(0.08333333333333333, x, 0.5 + {x}^{-1}\right)\\


\end{array}
\end{array}

Derivation

Split input into 2 regimes
if x < -4.20000000000000018
1. Initial program 100.0%
  \[\frac{e^{x}}{e^{x} - 1} \]
2. Add Preprocessing
3. Step-by-step derivation
  1. lift-/.f64N/A
    \[\leadsto \color{blue}{\frac{e^{x}}{e^{x} - 1}} \]
  2. clear-numN/A
    \[\leadsto \color{blue}{\frac{1}{\frac{e^{x} - 1}{e^{x}}}} \]
  3. frac-2negN/A
    \[\leadsto \color{blue}{\frac{\mathsf{neg}\left(1\right)}{\mathsf{neg}\left(\frac{e^{x} - 1}{e^{x}}\right)}} \]
  4. lower-/.f64N/A
    \[\leadsto \color{blue}{\frac{\mathsf{neg}\left(1\right)}{\mathsf{neg}\left(\frac{e^{x} - 1}{e^{x}}\right)}} \]
  5. metadata-evalN/A
    \[\leadsto \frac{\color{blue}{-1}}{\mathsf{neg}\left(\frac{e^{x} - 1}{e^{x}}\right)} \]
  6. distribute-neg-fracN/A
    \[\leadsto \frac{-1}{\color{blue}{\frac{\mathsf{neg}\left(\left(e^{x} - 1\right)\right)}{e^{x}}}} \]
  7. neg-sub0N/A
    \[\leadsto \frac{-1}{\frac{\color{blue}{0 - \left(e^{x} - 1\right)}}{e^{x}}} \]
  8. lift--.f64N/A
    \[\leadsto \frac{-1}{\frac{0 - \color{blue}{\left(e^{x} - 1\right)}}{e^{x}}} \]
  9. associate-+l-N/A
    \[\leadsto \frac{-1}{\frac{\color{blue}{\left(0 - e^{x}\right) + 1}}{e^{x}}} \]
  10. neg-sub0N/A
    \[\leadsto \frac{-1}{\frac{\color{blue}{\left(\mathsf{neg}\left(e^{x}\right)\right)} + 1}{e^{x}}} \]
  11. +-commutativeN/A
    \[\leadsto \frac{-1}{\frac{\color{blue}{1 + \left(\mathsf{neg}\left(e^{x}\right)\right)}}{e^{x}}} \]
  12. sub-negN/A
    \[\leadsto \frac{-1}{\frac{\color{blue}{1 - e^{x}}}{e^{x}}} \]
  13. div-subN/A
    \[\leadsto \frac{-1}{\color{blue}{\frac{1}{e^{x}} - \frac{e^{x}}{e^{x}}}} \]
  14. *-inversesN/A
    \[\leadsto \frac{-1}{\frac{1}{e^{x}} - \color{blue}{1}} \]
  15. lift-exp.f64N/A
    \[\leadsto \frac{-1}{\frac{1}{\color{blue}{e^{x}}} - 1} \]
  16. rec-expN/A
    \[\leadsto \frac{-1}{\color{blue}{e^{\mathsf{neg}\left(x\right)}} - 1} \]
  17. lower-expm1.f64N/A
    \[\leadsto \frac{-1}{\color{blue}{\mathsf{expm1}\left(\mathsf{neg}\left(x\right)\right)}} \]
  18. lower-neg.f64100.0
    \[\leadsto \frac{-1}{\mathsf{expm1}\left(\color{blue}{-x}\right)} \]
4. Applied rewrites100.0%
  \[\leadsto \color{blue}{\frac{-1}{\mathsf{expm1}\left(-x\right)}} \]
5. Taylor expanded in x around 0
  \[\leadsto \frac{-1}{\color{blue}{x \cdot \left(x \cdot \left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right)\right) - 1\right)}} \]
6. Step-by-step derivation
  1. *-commutativeN/A
    \[\leadsto \frac{-1}{\color{blue}{\left(x \cdot \left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right)\right) - 1\right) \cdot x}} \]
  2. lower-*.f64N/A
    \[\leadsto \frac{-1}{\color{blue}{\left(x \cdot \left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right)\right) - 1\right) \cdot x}} \]
  3. sub-negN/A
    \[\leadsto \frac{-1}{\color{blue}{\left(x \cdot \left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right)\right) + \left(\mathsf{neg}\left(1\right)\right)\right)} \cdot x} \]
  4. *-commutativeN/A
    \[\leadsto \frac{-1}{\left(\color{blue}{\left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right)\right) \cdot x} + \left(\mathsf{neg}\left(1\right)\right)\right) \cdot x} \]
  5. metadata-evalN/A
    \[\leadsto \frac{-1}{\left(\left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right)\right) \cdot x + \color{blue}{-1}\right) \cdot x} \]
  6. lower-fma.f64N/A
    \[\leadsto \frac{-1}{\color{blue}{\mathsf{fma}\left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right), x, -1\right)} \cdot x} \]
  7. +-commutativeN/A
    \[\leadsto \frac{-1}{\mathsf{fma}\left(\color{blue}{x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right) + \frac{1}{2}}, x, -1\right) \cdot x} \]
  8. *-commutativeN/A
    \[\leadsto \frac{-1}{\mathsf{fma}\left(\color{blue}{\left(\frac{1}{24} \cdot x - \frac{1}{6}\right) \cdot x} + \frac{1}{2}, x, -1\right) \cdot x} \]
  9. lower-fma.f64N/A
    \[\leadsto \frac{-1}{\mathsf{fma}\left(\color{blue}{\mathsf{fma}\left(\frac{1}{24} \cdot x - \frac{1}{6}, x, \frac{1}{2}\right)}, x, -1\right) \cdot x} \]
  10. sub-negN/A
    \[\leadsto \frac{-1}{\mathsf{fma}\left(\mathsf{fma}\left(\color{blue}{\frac{1}{24} \cdot x + \left(\mathsf{neg}\left(\frac{1}{6}\right)\right)}, x, \frac{1}{2}\right), x, -1\right) \cdot x} \]
  11. metadata-evalN/A
    \[\leadsto \frac{-1}{\mathsf{fma}\left(\mathsf{fma}\left(\frac{1}{24} \cdot x + \color{blue}{\frac{-1}{6}}, x, \frac{1}{2}\right), x, -1\right) \cdot x} \]
  12. lower-fma.f6475.7
    \[\leadsto \frac{-1}{\mathsf{fma}\left(\mathsf{fma}\left(\color{blue}{\mathsf{fma}\left(0.041666666666666664, x, -0.16666666666666666\right)}, x, 0.5\right), x, -1\right) \cdot x} \]
7. Applied rewrites75.7%
  \[\leadsto \frac{-1}{\color{blue}{\mathsf{fma}\left(\mathsf{fma}\left(\mathsf{fma}\left(0.041666666666666664, x, -0.16666666666666666\right), x, 0.5\right), x, -1\right) \cdot x}} \]
8. Taylor expanded in x around inf
  \[\leadsto \frac{-1}{\left({x}^{3} \cdot \left(\frac{1}{24} - \frac{1}{6} \cdot \frac{1}{x}\right)\right) \cdot x} \]
9. Step-by-step derivation
10. Applied rewrites75.7%
  \[\leadsto \frac{-1}{\left(\left(\mathsf{fma}\left(0.041666666666666664, x, -0.16666666666666666\right) \cdot x\right) \cdot x\right) \cdot x} \]
11. Taylor expanded in x around 0
  \[\leadsto \frac{-1}{\left(\left(\frac{-1}{6} \cdot x\right) \cdot x\right) \cdot x} \]
12. Step-by-step derivation
13. Applied rewrites68.5%
  \[\leadsto \frac{-1}{\left(\left(-0.16666666666666666 \cdot x\right) \cdot x\right) \cdot x} \]
if -4.20000000000000018 < x
1. Initial program 7.2%
  \[\frac{e^{x}}{e^{x} - 1} \]
2. Add Preprocessing
3. Taylor expanded in x around 0
  \[\leadsto \color{blue}{\frac{1 + x \cdot \left(\frac{1}{2} + \frac{1}{12} \cdot x\right)}{x}} \]
4. Step-by-step derivation
  1. *-lft-identityN/A
    \[\leadsto \color{blue}{1 \cdot \frac{1 + x \cdot \left(\frac{1}{2} + \frac{1}{12} \cdot x\right)}{x}} \]
  2. associate-/l*N/A
    \[\leadsto \color{blue}{\frac{1 \cdot \left(1 + x \cdot \left(\frac{1}{2} + \frac{1}{12} \cdot x\right)\right)}{x}} \]
  3. associate-*l/N/A
    \[\leadsto \color{blue}{\frac{1}{x} \cdot \left(1 + x \cdot \left(\frac{1}{2} + \frac{1}{12} \cdot x\right)\right)} \]
  4. distribute-lft-inN/A
    \[\leadsto \frac{1}{x} \cdot \left(1 + \color{blue}{\left(x \cdot \frac{1}{2} + x \cdot \left(\frac{1}{12} \cdot x\right)\right)}\right) \]
  5. *-commutativeN/A
    \[\leadsto \frac{1}{x} \cdot \left(1 + \left(\color{blue}{\frac{1}{2} \cdot x} + x \cdot \left(\frac{1}{12} \cdot x\right)\right)\right) \]
  6. associate-+r+N/A
    \[\leadsto \frac{1}{x} \cdot \color{blue}{\left(\left(1 + \frac{1}{2} \cdot x\right) + x \cdot \left(\frac{1}{12} \cdot x\right)\right)} \]
  7. distribute-rgt-inN/A
    \[\leadsto \color{blue}{\left(1 + \frac{1}{2} \cdot x\right) \cdot \frac{1}{x} + \left(x \cdot \left(\frac{1}{12} \cdot x\right)\right) \cdot \frac{1}{x}} \]
  8. associate-/l*N/A
    \[\leadsto \color{blue}{\frac{\left(1 + \frac{1}{2} \cdot x\right) \cdot 1}{x}} + \left(x \cdot \left(\frac{1}{12} \cdot x\right)\right) \cdot \frac{1}{x} \]
  9. *-rgt-identityN/A
    \[\leadsto \frac{\color{blue}{1 + \frac{1}{2} \cdot x}}{x} + \left(x \cdot \left(\frac{1}{12} \cdot x\right)\right) \cdot \frac{1}{x} \]
  10. *-commutativeN/A
    \[\leadsto \frac{1 + \frac{1}{2} \cdot x}{x} + \color{blue}{\frac{1}{x} \cdot \left(x \cdot \left(\frac{1}{12} \cdot x\right)\right)} \]
  11. associate-*r*N/A
    \[\leadsto \frac{1 + \frac{1}{2} \cdot x}{x} + \color{blue}{\left(\frac{1}{x} \cdot x\right) \cdot \left(\frac{1}{12} \cdot x\right)} \]
  12. lft-mult-inverseN/A
    \[\leadsto \frac{1 + \frac{1}{2} \cdot x}{x} + \color{blue}{1} \cdot \left(\frac{1}{12} \cdot x\right) \]
  13. *-lft-identityN/A
    \[\leadsto \frac{1 + \frac{1}{2} \cdot x}{x} + \color{blue}{\frac{1}{12} \cdot x} \]
  14. +-commutativeN/A
    \[\leadsto \color{blue}{\frac{1}{12} \cdot x + \frac{1 + \frac{1}{2} \cdot x}{x}} \]
  15. lower-fma.f64N/A
    \[\leadsto \color{blue}{\mathsf{fma}\left(\frac{1}{12}, x, \frac{1 + \frac{1}{2} \cdot x}{x}\right)} \]
  16. *-rgt-identityN/A
    \[\leadsto \mathsf{fma}\left(\frac{1}{12}, x, \frac{\color{blue}{\left(1 + \frac{1}{2} \cdot x\right) \cdot 1}}{x}\right) \]
  17. associate-/l*N/A
    \[\leadsto \mathsf{fma}\left(\frac{1}{12}, x, \color{blue}{\left(1 + \frac{1}{2} \cdot x\right) \cdot \frac{1}{x}}\right) \]
  18. +-commutativeN/A
    \[\leadsto \mathsf{fma}\left(\frac{1}{12}, x, \color{blue}{\left(\frac{1}{2} \cdot x + 1\right)} \cdot \frac{1}{x}\right) \]
  19. distribute-lft1-inN/A
    \[\leadsto \mathsf{fma}\left(\frac{1}{12}, x, \color{blue}{\left(\frac{1}{2} \cdot x\right) \cdot \frac{1}{x} + \frac{1}{x}}\right) \]
  20. lower-+.f64N/A
    \[\leadsto \mathsf{fma}\left(\frac{1}{12}, x, \color{blue}{\left(\frac{1}{2} \cdot x\right) \cdot \frac{1}{x} + \frac{1}{x}}\right) \]
5. Applied rewrites98.0%
  \[\leadsto \color{blue}{\mathsf{fma}\left(0.08333333333333333, x, 0.5 + \frac{1}{x}\right)} \]
Recombined 2 regimes into one program.
Final simplification86.9%
\[\leadsto \begin{array}{l} \mathbf{if}\;x \leq -4.2:\\ \;\;\;\;\frac{-1}{\left(\left(-0.16666666666666666 \cdot x\right) \cdot x\right) \cdot x}\\ \mathbf{else}:\\ \;\;\;\;\mathsf{fma}\left(0.08333333333333333, x, 0.5 + {x}^{-1}\right)\\ \end{array} \]
Add Preprocessing

Alternative 7: 66.3% accurate, 2.1× speedup?

\[\begin{array}{l} \\ {x}^{-1} \end{array} \]

(FPCore (x) :precision binary64 (pow x -1.0))

double code(double x) {
	return pow(x, -1.0);
}

real(8) function code(x)
    real(8), intent (in) :: x
    code = x ** (-1.0d0)
end function

public static double code(double x) {
	return Math.pow(x, -1.0);
}

def code(x):
	return math.pow(x, -1.0)

function code(x)
	return x ^ -1.0
end

function tmp = code(x)
	tmp = x ^ -1.0;
end

code[x_] := N[Power[x, -1.0], $MachinePrecision]

\begin{array}{l}

\\
{x}^{-1}
\end{array}

Derivation

Initial program 42.0%
\[\frac{e^{x}}{e^{x} - 1} \]
Add Preprocessing
Taylor expanded in x around 0
\[\leadsto \color{blue}{\frac{1}{x}} \]
Step-by-step derivation
1. lower-/.f6462.5
  \[\leadsto \color{blue}{\frac{1}{x}} \]
Applied rewrites62.5%
\[\leadsto \color{blue}{\frac{1}{x}} \]
Final simplification62.4%
\[\leadsto {x}^{-1} \]
Add Preprocessing

Alternative 8: 95.3% accurate, 3.3× speedup?

\[\begin{array}{l} \\ \frac{-1}{\mathsf{fma}\left(\mathsf{fma}\left(\left(-\mathsf{fma}\left(0.001736111111111111, x \cdot x, -0.027777777777777776\right)\right) \cdot \mathsf{fma}\left(\mathsf{fma}\left(\mathsf{fma}\left(0.09375, x, -0.375\right), x, 1.5\right), x, -6\right), x, 0.5\right), x, -1\right) \cdot x} \end{array} \]

(FPCore (x)
 :precision binary64
 (/
  -1.0
  (*
   (fma
    (fma
     (*
      (- (fma 0.001736111111111111 (* x x) -0.027777777777777776))
      (fma (fma (fma 0.09375 x -0.375) x 1.5) x -6.0))
     x
     0.5)
    x
    -1.0)
   x)))

double code(double x) {
	return -1.0 / (fma(fma((-fma(0.001736111111111111, (x * x), -0.027777777777777776) * fma(fma(fma(0.09375, x, -0.375), x, 1.5), x, -6.0)), x, 0.5), x, -1.0) * x);
}

function code(x)
	return Float64(-1.0 / Float64(fma(fma(Float64(Float64(-fma(0.001736111111111111, Float64(x * x), -0.027777777777777776)) * fma(fma(fma(0.09375, x, -0.375), x, 1.5), x, -6.0)), x, 0.5), x, -1.0) * x))
end

code[x_] := N[(-1.0 / N[(N[(N[(N[((-N[(0.001736111111111111 * N[(x * x), $MachinePrecision] + -0.027777777777777776), $MachinePrecision]) * N[(N[(N[(0.09375 * x + -0.375), $MachinePrecision] * x + 1.5), $MachinePrecision] * x + -6.0), $MachinePrecision]), $MachinePrecision] * x + 0.5), $MachinePrecision] * x + -1.0), $MachinePrecision] * x), $MachinePrecision]), $MachinePrecision]

\begin{array}{l}

\\
\frac{-1}{\mathsf{fma}\left(\mathsf{fma}\left(\left(-\mathsf{fma}\left(0.001736111111111111, x \cdot x, -0.027777777777777776\right)\right) \cdot \mathsf{fma}\left(\mathsf{fma}\left(\mathsf{fma}\left(0.09375, x, -0.375\right), x, 1.5\right), x, -6\right), x, 0.5\right), x, -1\right) \cdot x}
\end{array}

Derivation

Initial program 42.0%
\[\frac{e^{x}}{e^{x} - 1} \]
Add Preprocessing
Step-by-step derivation
1. lift-/.f64N/A
  \[\leadsto \color{blue}{\frac{e^{x}}{e^{x} - 1}} \]
2. clear-numN/A
  \[\leadsto \color{blue}{\frac{1}{\frac{e^{x} - 1}{e^{x}}}} \]
3. frac-2negN/A
  \[\leadsto \color{blue}{\frac{\mathsf{neg}\left(1\right)}{\mathsf{neg}\left(\frac{e^{x} - 1}{e^{x}}\right)}} \]
4. lower-/.f64N/A
  \[\leadsto \color{blue}{\frac{\mathsf{neg}\left(1\right)}{\mathsf{neg}\left(\frac{e^{x} - 1}{e^{x}}\right)}} \]
5. metadata-evalN/A
  \[\leadsto \frac{\color{blue}{-1}}{\mathsf{neg}\left(\frac{e^{x} - 1}{e^{x}}\right)} \]
6. distribute-neg-fracN/A
  \[\leadsto \frac{-1}{\color{blue}{\frac{\mathsf{neg}\left(\left(e^{x} - 1\right)\right)}{e^{x}}}} \]
7. neg-sub0N/A
  \[\leadsto \frac{-1}{\frac{\color{blue}{0 - \left(e^{x} - 1\right)}}{e^{x}}} \]
8. lift--.f64N/A
  \[\leadsto \frac{-1}{\frac{0 - \color{blue}{\left(e^{x} - 1\right)}}{e^{x}}} \]
9. associate-+l-N/A
  \[\leadsto \frac{-1}{\frac{\color{blue}{\left(0 - e^{x}\right) + 1}}{e^{x}}} \]
10. neg-sub0N/A
  \[\leadsto \frac{-1}{\frac{\color{blue}{\left(\mathsf{neg}\left(e^{x}\right)\right)} + 1}{e^{x}}} \]
11. +-commutativeN/A
  \[\leadsto \frac{-1}{\frac{\color{blue}{1 + \left(\mathsf{neg}\left(e^{x}\right)\right)}}{e^{x}}} \]
12. sub-negN/A
  \[\leadsto \frac{-1}{\frac{\color{blue}{1 - e^{x}}}{e^{x}}} \]
13. div-subN/A
  \[\leadsto \frac{-1}{\color{blue}{\frac{1}{e^{x}} - \frac{e^{x}}{e^{x}}}} \]
14. *-inversesN/A
  \[\leadsto \frac{-1}{\frac{1}{e^{x}} - \color{blue}{1}} \]
15. lift-exp.f64N/A
  \[\leadsto \frac{-1}{\frac{1}{\color{blue}{e^{x}}} - 1} \]
16. rec-expN/A
  \[\leadsto \frac{-1}{\color{blue}{e^{\mathsf{neg}\left(x\right)}} - 1} \]
17. lower-expm1.f64N/A
  \[\leadsto \frac{-1}{\color{blue}{\mathsf{expm1}\left(\mathsf{neg}\left(x\right)\right)}} \]
18. lower-neg.f64100.0
  \[\leadsto \frac{-1}{\mathsf{expm1}\left(\color{blue}{-x}\right)} \]
Applied rewrites100.0%
\[\leadsto \color{blue}{\frac{-1}{\mathsf{expm1}\left(-x\right)}} \]
Taylor expanded in x around 0
\[\leadsto \frac{-1}{\color{blue}{x \cdot \left(x \cdot \left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right)\right) - 1\right)}} \]
Step-by-step derivation
1. *-commutativeN/A
  \[\leadsto \frac{-1}{\color{blue}{\left(x \cdot \left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right)\right) - 1\right) \cdot x}} \]
2. lower-*.f64N/A
  \[\leadsto \frac{-1}{\color{blue}{\left(x \cdot \left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right)\right) - 1\right) \cdot x}} \]
3. sub-negN/A
  \[\leadsto \frac{-1}{\color{blue}{\left(x \cdot \left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right)\right) + \left(\mathsf{neg}\left(1\right)\right)\right)} \cdot x} \]
4. *-commutativeN/A
  \[\leadsto \frac{-1}{\left(\color{blue}{\left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right)\right) \cdot x} + \left(\mathsf{neg}\left(1\right)\right)\right) \cdot x} \]
5. metadata-evalN/A
  \[\leadsto \frac{-1}{\left(\left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right)\right) \cdot x + \color{blue}{-1}\right) \cdot x} \]
6. lower-fma.f64N/A
  \[\leadsto \frac{-1}{\color{blue}{\mathsf{fma}\left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right), x, -1\right)} \cdot x} \]
7. +-commutativeN/A
  \[\leadsto \frac{-1}{\mathsf{fma}\left(\color{blue}{x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right) + \frac{1}{2}}, x, -1\right) \cdot x} \]
8. *-commutativeN/A
  \[\leadsto \frac{-1}{\mathsf{fma}\left(\color{blue}{\left(\frac{1}{24} \cdot x - \frac{1}{6}\right) \cdot x} + \frac{1}{2}, x, -1\right) \cdot x} \]
9. lower-fma.f64N/A
  \[\leadsto \frac{-1}{\mathsf{fma}\left(\color{blue}{\mathsf{fma}\left(\frac{1}{24} \cdot x - \frac{1}{6}, x, \frac{1}{2}\right)}, x, -1\right) \cdot x} \]
10. sub-negN/A
  \[\leadsto \frac{-1}{\mathsf{fma}\left(\mathsf{fma}\left(\color{blue}{\frac{1}{24} \cdot x + \left(\mathsf{neg}\left(\frac{1}{6}\right)\right)}, x, \frac{1}{2}\right), x, -1\right) \cdot x} \]
11. metadata-evalN/A
  \[\leadsto \frac{-1}{\mathsf{fma}\left(\mathsf{fma}\left(\frac{1}{24} \cdot x + \color{blue}{\frac{-1}{6}}, x, \frac{1}{2}\right), x, -1\right) \cdot x} \]
12. lower-fma.f6489.5
  \[\leadsto \frac{-1}{\mathsf{fma}\left(\mathsf{fma}\left(\color{blue}{\mathsf{fma}\left(0.041666666666666664, x, -0.16666666666666666\right)}, x, 0.5\right), x, -1\right) \cdot x} \]
Applied rewrites89.5%
\[\leadsto \frac{-1}{\color{blue}{\mathsf{fma}\left(\mathsf{fma}\left(\mathsf{fma}\left(0.041666666666666664, x, -0.16666666666666666\right), x, 0.5\right), x, -1\right) \cdot x}} \]
Step-by-step derivation
Applied rewrites89.5%
\[\leadsto \frac{-1}{\mathsf{fma}\left(\mathsf{fma}\left(\left(-\mathsf{fma}\left(0.001736111111111111, x \cdot x, -0.027777777777777776\right)\right) \cdot \frac{1}{-\mathsf{fma}\left(0.041666666666666664, x, 0.16666666666666666\right)}, x, 0.5\right), x, -1\right) \cdot x} \]
Taylor expanded in x around 0
\[\leadsto \frac{-1}{\mathsf{fma}\left(\mathsf{fma}\left(\left(-\mathsf{fma}\left(\frac{1}{576}, x \cdot x, \frac{-1}{36}\right)\right) \cdot \left(x \cdot \left(\frac{3}{2} + x \cdot \left(\frac{3}{32} \cdot x - \frac{3}{8}\right)\right) - 6\right), x, \frac{1}{2}\right), x, -1\right) \cdot x} \]
Step-by-step derivation
Applied rewrites94.8%
\[\leadsto \frac{-1}{\mathsf{fma}\left(\mathsf{fma}\left(\left(-\mathsf{fma}\left(0.001736111111111111, x \cdot x, -0.027777777777777776\right)\right) \cdot \mathsf{fma}\left(\mathsf{fma}\left(\mathsf{fma}\left(0.09375, x, -0.375\right), x, 1.5\right), x, -6\right), x, 0.5\right), x, -1\right) \cdot x} \]
Add Preprocessing

Alternative 9: 94.8% accurate, 3.6× speedup?

\[\begin{array}{l} \\ \frac{-1}{\mathsf{fma}\left(\mathsf{fma}\left(\left(-\mathsf{fma}\left(0.001736111111111111, x \cdot x, -0.027777777777777776\right)\right) \cdot \mathsf{fma}\left(\mathsf{fma}\left(-0.375, x, 1.5\right), x, -6\right), x, 0.5\right), x, -1\right) \cdot x} \end{array} \]

(FPCore (x)
 :precision binary64
 (/
  -1.0
  (*
   (fma
    (fma
     (*
      (- (fma 0.001736111111111111 (* x x) -0.027777777777777776))
      (fma (fma -0.375 x 1.5) x -6.0))
     x
     0.5)
    x
    -1.0)
   x)))

double code(double x) {
	return -1.0 / (fma(fma((-fma(0.001736111111111111, (x * x), -0.027777777777777776) * fma(fma(-0.375, x, 1.5), x, -6.0)), x, 0.5), x, -1.0) * x);
}

function code(x)
	return Float64(-1.0 / Float64(fma(fma(Float64(Float64(-fma(0.001736111111111111, Float64(x * x), -0.027777777777777776)) * fma(fma(-0.375, x, 1.5), x, -6.0)), x, 0.5), x, -1.0) * x))
end

code[x_] := N[(-1.0 / N[(N[(N[(N[((-N[(0.001736111111111111 * N[(x * x), $MachinePrecision] + -0.027777777777777776), $MachinePrecision]) * N[(N[(-0.375 * x + 1.5), $MachinePrecision] * x + -6.0), $MachinePrecision]), $MachinePrecision] * x + 0.5), $MachinePrecision] * x + -1.0), $MachinePrecision] * x), $MachinePrecision]), $MachinePrecision]

\begin{array}{l}

\\
\frac{-1}{\mathsf{fma}\left(\mathsf{fma}\left(\left(-\mathsf{fma}\left(0.001736111111111111, x \cdot x, -0.027777777777777776\right)\right) \cdot \mathsf{fma}\left(\mathsf{fma}\left(-0.375, x, 1.5\right), x, -6\right), x, 0.5\right), x, -1\right) \cdot x}
\end{array}

Derivation

Initial program 42.0%
\[\frac{e^{x}}{e^{x} - 1} \]
Add Preprocessing
Step-by-step derivation
1. lift-/.f64N/A
  \[\leadsto \color{blue}{\frac{e^{x}}{e^{x} - 1}} \]
2. clear-numN/A
  \[\leadsto \color{blue}{\frac{1}{\frac{e^{x} - 1}{e^{x}}}} \]
3. frac-2negN/A
  \[\leadsto \color{blue}{\frac{\mathsf{neg}\left(1\right)}{\mathsf{neg}\left(\frac{e^{x} - 1}{e^{x}}\right)}} \]
4. lower-/.f64N/A
  \[\leadsto \color{blue}{\frac{\mathsf{neg}\left(1\right)}{\mathsf{neg}\left(\frac{e^{x} - 1}{e^{x}}\right)}} \]
5. metadata-evalN/A
  \[\leadsto \frac{\color{blue}{-1}}{\mathsf{neg}\left(\frac{e^{x} - 1}{e^{x}}\right)} \]
6. distribute-neg-fracN/A
  \[\leadsto \frac{-1}{\color{blue}{\frac{\mathsf{neg}\left(\left(e^{x} - 1\right)\right)}{e^{x}}}} \]
7. neg-sub0N/A
  \[\leadsto \frac{-1}{\frac{\color{blue}{0 - \left(e^{x} - 1\right)}}{e^{x}}} \]
8. lift--.f64N/A
  \[\leadsto \frac{-1}{\frac{0 - \color{blue}{\left(e^{x} - 1\right)}}{e^{x}}} \]
9. associate-+l-N/A
  \[\leadsto \frac{-1}{\frac{\color{blue}{\left(0 - e^{x}\right) + 1}}{e^{x}}} \]
10. neg-sub0N/A
  \[\leadsto \frac{-1}{\frac{\color{blue}{\left(\mathsf{neg}\left(e^{x}\right)\right)} + 1}{e^{x}}} \]
11. +-commutativeN/A
  \[\leadsto \frac{-1}{\frac{\color{blue}{1 + \left(\mathsf{neg}\left(e^{x}\right)\right)}}{e^{x}}} \]
12. sub-negN/A
  \[\leadsto \frac{-1}{\frac{\color{blue}{1 - e^{x}}}{e^{x}}} \]
13. div-subN/A
  \[\leadsto \frac{-1}{\color{blue}{\frac{1}{e^{x}} - \frac{e^{x}}{e^{x}}}} \]
14. *-inversesN/A
  \[\leadsto \frac{-1}{\frac{1}{e^{x}} - \color{blue}{1}} \]
15. lift-exp.f64N/A
  \[\leadsto \frac{-1}{\frac{1}{\color{blue}{e^{x}}} - 1} \]
16. rec-expN/A
  \[\leadsto \frac{-1}{\color{blue}{e^{\mathsf{neg}\left(x\right)}} - 1} \]
17. lower-expm1.f64N/A
  \[\leadsto \frac{-1}{\color{blue}{\mathsf{expm1}\left(\mathsf{neg}\left(x\right)\right)}} \]
18. lower-neg.f64100.0
  \[\leadsto \frac{-1}{\mathsf{expm1}\left(\color{blue}{-x}\right)} \]
Applied rewrites100.0%
\[\leadsto \color{blue}{\frac{-1}{\mathsf{expm1}\left(-x\right)}} \]
Taylor expanded in x around 0
\[\leadsto \frac{-1}{\color{blue}{x \cdot \left(x \cdot \left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right)\right) - 1\right)}} \]
Step-by-step derivation
1. *-commutativeN/A
  \[\leadsto \frac{-1}{\color{blue}{\left(x \cdot \left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right)\right) - 1\right) \cdot x}} \]
2. lower-*.f64N/A
  \[\leadsto \frac{-1}{\color{blue}{\left(x \cdot \left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right)\right) - 1\right) \cdot x}} \]
3. sub-negN/A
  \[\leadsto \frac{-1}{\color{blue}{\left(x \cdot \left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right)\right) + \left(\mathsf{neg}\left(1\right)\right)\right)} \cdot x} \]
4. *-commutativeN/A
  \[\leadsto \frac{-1}{\left(\color{blue}{\left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right)\right) \cdot x} + \left(\mathsf{neg}\left(1\right)\right)\right) \cdot x} \]
5. metadata-evalN/A
  \[\leadsto \frac{-1}{\left(\left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right)\right) \cdot x + \color{blue}{-1}\right) \cdot x} \]
6. lower-fma.f64N/A
  \[\leadsto \frac{-1}{\color{blue}{\mathsf{fma}\left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right), x, -1\right)} \cdot x} \]
7. +-commutativeN/A
  \[\leadsto \frac{-1}{\mathsf{fma}\left(\color{blue}{x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right) + \frac{1}{2}}, x, -1\right) \cdot x} \]
8. *-commutativeN/A
  \[\leadsto \frac{-1}{\mathsf{fma}\left(\color{blue}{\left(\frac{1}{24} \cdot x - \frac{1}{6}\right) \cdot x} + \frac{1}{2}, x, -1\right) \cdot x} \]
9. lower-fma.f64N/A
  \[\leadsto \frac{-1}{\mathsf{fma}\left(\color{blue}{\mathsf{fma}\left(\frac{1}{24} \cdot x - \frac{1}{6}, x, \frac{1}{2}\right)}, x, -1\right) \cdot x} \]
10. sub-negN/A
  \[\leadsto \frac{-1}{\mathsf{fma}\left(\mathsf{fma}\left(\color{blue}{\frac{1}{24} \cdot x + \left(\mathsf{neg}\left(\frac{1}{6}\right)\right)}, x, \frac{1}{2}\right), x, -1\right) \cdot x} \]
11. metadata-evalN/A
  \[\leadsto \frac{-1}{\mathsf{fma}\left(\mathsf{fma}\left(\frac{1}{24} \cdot x + \color{blue}{\frac{-1}{6}}, x, \frac{1}{2}\right), x, -1\right) \cdot x} \]
12. lower-fma.f6489.5
  \[\leadsto \frac{-1}{\mathsf{fma}\left(\mathsf{fma}\left(\color{blue}{\mathsf{fma}\left(0.041666666666666664, x, -0.16666666666666666\right)}, x, 0.5\right), x, -1\right) \cdot x} \]
Applied rewrites89.5%
\[\leadsto \frac{-1}{\color{blue}{\mathsf{fma}\left(\mathsf{fma}\left(\mathsf{fma}\left(0.041666666666666664, x, -0.16666666666666666\right), x, 0.5\right), x, -1\right) \cdot x}} \]
Step-by-step derivation
Applied rewrites89.5%
\[\leadsto \frac{-1}{\mathsf{fma}\left(\mathsf{fma}\left(\left(-\mathsf{fma}\left(0.001736111111111111, x \cdot x, -0.027777777777777776\right)\right) \cdot \frac{1}{-\mathsf{fma}\left(0.041666666666666664, x, 0.16666666666666666\right)}, x, 0.5\right), x, -1\right) \cdot x} \]
Taylor expanded in x around 0
\[\leadsto \frac{-1}{\mathsf{fma}\left(\mathsf{fma}\left(\left(-\mathsf{fma}\left(\frac{1}{576}, x \cdot x, \frac{-1}{36}\right)\right) \cdot \left(x \cdot \left(\frac{3}{2} + \frac{-3}{8} \cdot x\right) - 6\right), x, \frac{1}{2}\right), x, -1\right) \cdot x} \]
Step-by-step derivation
Applied rewrites94.5%
\[\leadsto \frac{-1}{\mathsf{fma}\left(\mathsf{fma}\left(\left(-\mathsf{fma}\left(0.001736111111111111, x \cdot x, -0.027777777777777776\right)\right) \cdot \mathsf{fma}\left(\mathsf{fma}\left(-0.375, x, 1.5\right), x, -6\right), x, 0.5\right), x, -1\right) \cdot x} \]
Add Preprocessing

Alternative 10: 94.0% accurate, 4.1× speedup?

\[\begin{array}{l} \\ \frac{-1}{\mathsf{fma}\left(\mathsf{fma}\left(\left(-\mathsf{fma}\left(0.001736111111111111, x \cdot x, -0.027777777777777776\right)\right) \cdot \mathsf{fma}\left(1.5, x, -6\right), x, 0.5\right), x, -1\right) \cdot x} \end{array} \]

(FPCore (x)
 :precision binary64
 (/
  -1.0
  (*
   (fma
    (fma
     (*
      (- (fma 0.001736111111111111 (* x x) -0.027777777777777776))
      (fma 1.5 x -6.0))
     x
     0.5)
    x
    -1.0)
   x)))

double code(double x) {
	return -1.0 / (fma(fma((-fma(0.001736111111111111, (x * x), -0.027777777777777776) * fma(1.5, x, -6.0)), x, 0.5), x, -1.0) * x);
}

function code(x)
	return Float64(-1.0 / Float64(fma(fma(Float64(Float64(-fma(0.001736111111111111, Float64(x * x), -0.027777777777777776)) * fma(1.5, x, -6.0)), x, 0.5), x, -1.0) * x))
end

code[x_] := N[(-1.0 / N[(N[(N[(N[((-N[(0.001736111111111111 * N[(x * x), $MachinePrecision] + -0.027777777777777776), $MachinePrecision]) * N[(1.5 * x + -6.0), $MachinePrecision]), $MachinePrecision] * x + 0.5), $MachinePrecision] * x + -1.0), $MachinePrecision] * x), $MachinePrecision]), $MachinePrecision]

\begin{array}{l}

\\
\frac{-1}{\mathsf{fma}\left(\mathsf{fma}\left(\left(-\mathsf{fma}\left(0.001736111111111111, x \cdot x, -0.027777777777777776\right)\right) \cdot \mathsf{fma}\left(1.5, x, -6\right), x, 0.5\right), x, -1\right) \cdot x}
\end{array}

Derivation

Initial program 42.0%
\[\frac{e^{x}}{e^{x} - 1} \]
Add Preprocessing
Step-by-step derivation
1. lift-/.f64N/A
  \[\leadsto \color{blue}{\frac{e^{x}}{e^{x} - 1}} \]
2. clear-numN/A
  \[\leadsto \color{blue}{\frac{1}{\frac{e^{x} - 1}{e^{x}}}} \]
3. frac-2negN/A
  \[\leadsto \color{blue}{\frac{\mathsf{neg}\left(1\right)}{\mathsf{neg}\left(\frac{e^{x} - 1}{e^{x}}\right)}} \]
4. lower-/.f64N/A
  \[\leadsto \color{blue}{\frac{\mathsf{neg}\left(1\right)}{\mathsf{neg}\left(\frac{e^{x} - 1}{e^{x}}\right)}} \]
5. metadata-evalN/A
  \[\leadsto \frac{\color{blue}{-1}}{\mathsf{neg}\left(\frac{e^{x} - 1}{e^{x}}\right)} \]
6. distribute-neg-fracN/A
  \[\leadsto \frac{-1}{\color{blue}{\frac{\mathsf{neg}\left(\left(e^{x} - 1\right)\right)}{e^{x}}}} \]
7. neg-sub0N/A
  \[\leadsto \frac{-1}{\frac{\color{blue}{0 - \left(e^{x} - 1\right)}}{e^{x}}} \]
8. lift--.f64N/A
  \[\leadsto \frac{-1}{\frac{0 - \color{blue}{\left(e^{x} - 1\right)}}{e^{x}}} \]
9. associate-+l-N/A
  \[\leadsto \frac{-1}{\frac{\color{blue}{\left(0 - e^{x}\right) + 1}}{e^{x}}} \]
10. neg-sub0N/A
  \[\leadsto \frac{-1}{\frac{\color{blue}{\left(\mathsf{neg}\left(e^{x}\right)\right)} + 1}{e^{x}}} \]
11. +-commutativeN/A
  \[\leadsto \frac{-1}{\frac{\color{blue}{1 + \left(\mathsf{neg}\left(e^{x}\right)\right)}}{e^{x}}} \]
12. sub-negN/A
  \[\leadsto \frac{-1}{\frac{\color{blue}{1 - e^{x}}}{e^{x}}} \]
13. div-subN/A
  \[\leadsto \frac{-1}{\color{blue}{\frac{1}{e^{x}} - \frac{e^{x}}{e^{x}}}} \]
14. *-inversesN/A
  \[\leadsto \frac{-1}{\frac{1}{e^{x}} - \color{blue}{1}} \]
15. lift-exp.f64N/A
  \[\leadsto \frac{-1}{\frac{1}{\color{blue}{e^{x}}} - 1} \]
16. rec-expN/A
  \[\leadsto \frac{-1}{\color{blue}{e^{\mathsf{neg}\left(x\right)}} - 1} \]
17. lower-expm1.f64N/A
  \[\leadsto \frac{-1}{\color{blue}{\mathsf{expm1}\left(\mathsf{neg}\left(x\right)\right)}} \]
18. lower-neg.f64100.0
  \[\leadsto \frac{-1}{\mathsf{expm1}\left(\color{blue}{-x}\right)} \]
Applied rewrites100.0%
\[\leadsto \color{blue}{\frac{-1}{\mathsf{expm1}\left(-x\right)}} \]
Taylor expanded in x around 0
\[\leadsto \frac{-1}{\color{blue}{x \cdot \left(x \cdot \left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right)\right) - 1\right)}} \]
Step-by-step derivation
1. *-commutativeN/A
  \[\leadsto \frac{-1}{\color{blue}{\left(x \cdot \left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right)\right) - 1\right) \cdot x}} \]
2. lower-*.f64N/A
  \[\leadsto \frac{-1}{\color{blue}{\left(x \cdot \left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right)\right) - 1\right) \cdot x}} \]
3. sub-negN/A
  \[\leadsto \frac{-1}{\color{blue}{\left(x \cdot \left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right)\right) + \left(\mathsf{neg}\left(1\right)\right)\right)} \cdot x} \]
4. *-commutativeN/A
  \[\leadsto \frac{-1}{\left(\color{blue}{\left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right)\right) \cdot x} + \left(\mathsf{neg}\left(1\right)\right)\right) \cdot x} \]
5. metadata-evalN/A
  \[\leadsto \frac{-1}{\left(\left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right)\right) \cdot x + \color{blue}{-1}\right) \cdot x} \]
6. lower-fma.f64N/A
  \[\leadsto \frac{-1}{\color{blue}{\mathsf{fma}\left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right), x, -1\right)} \cdot x} \]
7. +-commutativeN/A
  \[\leadsto \frac{-1}{\mathsf{fma}\left(\color{blue}{x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right) + \frac{1}{2}}, x, -1\right) \cdot x} \]
8. *-commutativeN/A
  \[\leadsto \frac{-1}{\mathsf{fma}\left(\color{blue}{\left(\frac{1}{24} \cdot x - \frac{1}{6}\right) \cdot x} + \frac{1}{2}, x, -1\right) \cdot x} \]
9. lower-fma.f64N/A
  \[\leadsto \frac{-1}{\mathsf{fma}\left(\color{blue}{\mathsf{fma}\left(\frac{1}{24} \cdot x - \frac{1}{6}, x, \frac{1}{2}\right)}, x, -1\right) \cdot x} \]
10. sub-negN/A
  \[\leadsto \frac{-1}{\mathsf{fma}\left(\mathsf{fma}\left(\color{blue}{\frac{1}{24} \cdot x + \left(\mathsf{neg}\left(\frac{1}{6}\right)\right)}, x, \frac{1}{2}\right), x, -1\right) \cdot x} \]
11. metadata-evalN/A
  \[\leadsto \frac{-1}{\mathsf{fma}\left(\mathsf{fma}\left(\frac{1}{24} \cdot x + \color{blue}{\frac{-1}{6}}, x, \frac{1}{2}\right), x, -1\right) \cdot x} \]
12. lower-fma.f6489.5
  \[\leadsto \frac{-1}{\mathsf{fma}\left(\mathsf{fma}\left(\color{blue}{\mathsf{fma}\left(0.041666666666666664, x, -0.16666666666666666\right)}, x, 0.5\right), x, -1\right) \cdot x} \]
Applied rewrites89.5%
\[\leadsto \frac{-1}{\color{blue}{\mathsf{fma}\left(\mathsf{fma}\left(\mathsf{fma}\left(0.041666666666666664, x, -0.16666666666666666\right), x, 0.5\right), x, -1\right) \cdot x}} \]
Step-by-step derivation
Applied rewrites89.5%
\[\leadsto \frac{-1}{\mathsf{fma}\left(\mathsf{fma}\left(\left(-\mathsf{fma}\left(0.001736111111111111, x \cdot x, -0.027777777777777776\right)\right) \cdot \frac{1}{-\mathsf{fma}\left(0.041666666666666664, x, 0.16666666666666666\right)}, x, 0.5\right), x, -1\right) \cdot x} \]
Taylor expanded in x around 0
\[\leadsto \frac{-1}{\mathsf{fma}\left(\mathsf{fma}\left(\left(-\mathsf{fma}\left(\frac{1}{576}, x \cdot x, \frac{-1}{36}\right)\right) \cdot \left(\frac{3}{2} \cdot x - 6\right), x, \frac{1}{2}\right), x, -1\right) \cdot x} \]
Step-by-step derivation
Applied rewrites94.0%
\[\leadsto \frac{-1}{\mathsf{fma}\left(\mathsf{fma}\left(\left(-\mathsf{fma}\left(0.001736111111111111, x \cdot x, -0.027777777777777776\right)\right) \cdot \mathsf{fma}\left(1.5, x, -6\right), x, 0.5\right), x, -1\right) \cdot x} \]
Add Preprocessing

Alternative 11: 92.8% accurate, 4.6× speedup?

(FPCore (x)
 :precision binary64
 (/
  -1.0
  (*
   (fma
    (fma
     (* (- (fma 0.001736111111111111 (* x x) -0.027777777777777776)) -6.0)
     x
     0.5)
    x
    -1.0)
   x)))

double code(double x) {
	return -1.0 / (fma(fma((-fma(0.001736111111111111, (x * x), -0.027777777777777776) * -6.0), x, 0.5), x, -1.0) * x);
}

function code(x)
	return Float64(-1.0 / Float64(fma(fma(Float64(Float64(-fma(0.001736111111111111, Float64(x * x), -0.027777777777777776)) * -6.0), x, 0.5), x, -1.0) * x))
end

code[x_] := N[(-1.0 / N[(N[(N[(N[((-N[(0.001736111111111111 * N[(x * x), $MachinePrecision] + -0.027777777777777776), $MachinePrecision]) * -6.0), $MachinePrecision] * x + 0.5), $MachinePrecision] * x + -1.0), $MachinePrecision] * x), $MachinePrecision]), $MachinePrecision]

\begin{array}{l}

\\
\frac{-1}{\mathsf{fma}\left(\mathsf{fma}\left(\left(-\mathsf{fma}\left(0.001736111111111111, x \cdot x, -0.027777777777777776\right)\right) \cdot -6, x, 0.5\right), x, -1\right) \cdot x}
\end{array}

Derivation

Initial program 42.0%
\[\frac{e^{x}}{e^{x} - 1} \]
Add Preprocessing
Step-by-step derivation
1. lift-/.f64N/A
  \[\leadsto \color{blue}{\frac{e^{x}}{e^{x} - 1}} \]
2. clear-numN/A
  \[\leadsto \color{blue}{\frac{1}{\frac{e^{x} - 1}{e^{x}}}} \]
3. frac-2negN/A
  \[\leadsto \color{blue}{\frac{\mathsf{neg}\left(1\right)}{\mathsf{neg}\left(\frac{e^{x} - 1}{e^{x}}\right)}} \]
4. lower-/.f64N/A
  \[\leadsto \color{blue}{\frac{\mathsf{neg}\left(1\right)}{\mathsf{neg}\left(\frac{e^{x} - 1}{e^{x}}\right)}} \]
5. metadata-evalN/A
  \[\leadsto \frac{\color{blue}{-1}}{\mathsf{neg}\left(\frac{e^{x} - 1}{e^{x}}\right)} \]
6. distribute-neg-fracN/A
  \[\leadsto \frac{-1}{\color{blue}{\frac{\mathsf{neg}\left(\left(e^{x} - 1\right)\right)}{e^{x}}}} \]
7. neg-sub0N/A
  \[\leadsto \frac{-1}{\frac{\color{blue}{0 - \left(e^{x} - 1\right)}}{e^{x}}} \]
8. lift--.f64N/A
  \[\leadsto \frac{-1}{\frac{0 - \color{blue}{\left(e^{x} - 1\right)}}{e^{x}}} \]
9. associate-+l-N/A
  \[\leadsto \frac{-1}{\frac{\color{blue}{\left(0 - e^{x}\right) + 1}}{e^{x}}} \]
10. neg-sub0N/A
  \[\leadsto \frac{-1}{\frac{\color{blue}{\left(\mathsf{neg}\left(e^{x}\right)\right)} + 1}{e^{x}}} \]
11. +-commutativeN/A
  \[\leadsto \frac{-1}{\frac{\color{blue}{1 + \left(\mathsf{neg}\left(e^{x}\right)\right)}}{e^{x}}} \]
12. sub-negN/A
  \[\leadsto \frac{-1}{\frac{\color{blue}{1 - e^{x}}}{e^{x}}} \]
13. div-subN/A
  \[\leadsto \frac{-1}{\color{blue}{\frac{1}{e^{x}} - \frac{e^{x}}{e^{x}}}} \]
14. *-inversesN/A
  \[\leadsto \frac{-1}{\frac{1}{e^{x}} - \color{blue}{1}} \]
15. lift-exp.f64N/A
  \[\leadsto \frac{-1}{\frac{1}{\color{blue}{e^{x}}} - 1} \]
16. rec-expN/A
  \[\leadsto \frac{-1}{\color{blue}{e^{\mathsf{neg}\left(x\right)}} - 1} \]
17. lower-expm1.f64N/A
  \[\leadsto \frac{-1}{\color{blue}{\mathsf{expm1}\left(\mathsf{neg}\left(x\right)\right)}} \]
18. lower-neg.f64100.0
  \[\leadsto \frac{-1}{\mathsf{expm1}\left(\color{blue}{-x}\right)} \]
Applied rewrites100.0%
\[\leadsto \color{blue}{\frac{-1}{\mathsf{expm1}\left(-x\right)}} \]
Taylor expanded in x around 0
\[\leadsto \frac{-1}{\color{blue}{x \cdot \left(x \cdot \left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right)\right) - 1\right)}} \]
Step-by-step derivation
1. *-commutativeN/A
  \[\leadsto \frac{-1}{\color{blue}{\left(x \cdot \left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right)\right) - 1\right) \cdot x}} \]
2. lower-*.f64N/A
  \[\leadsto \frac{-1}{\color{blue}{\left(x \cdot \left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right)\right) - 1\right) \cdot x}} \]
3. sub-negN/A
  \[\leadsto \frac{-1}{\color{blue}{\left(x \cdot \left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right)\right) + \left(\mathsf{neg}\left(1\right)\right)\right)} \cdot x} \]
4. *-commutativeN/A
  \[\leadsto \frac{-1}{\left(\color{blue}{\left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right)\right) \cdot x} + \left(\mathsf{neg}\left(1\right)\right)\right) \cdot x} \]
5. metadata-evalN/A
  \[\leadsto \frac{-1}{\left(\left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right)\right) \cdot x + \color{blue}{-1}\right) \cdot x} \]
6. lower-fma.f64N/A
  \[\leadsto \frac{-1}{\color{blue}{\mathsf{fma}\left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right), x, -1\right)} \cdot x} \]
7. +-commutativeN/A
  \[\leadsto \frac{-1}{\mathsf{fma}\left(\color{blue}{x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right) + \frac{1}{2}}, x, -1\right) \cdot x} \]
8. *-commutativeN/A
  \[\leadsto \frac{-1}{\mathsf{fma}\left(\color{blue}{\left(\frac{1}{24} \cdot x - \frac{1}{6}\right) \cdot x} + \frac{1}{2}, x, -1\right) \cdot x} \]
9. lower-fma.f64N/A
  \[\leadsto \frac{-1}{\mathsf{fma}\left(\color{blue}{\mathsf{fma}\left(\frac{1}{24} \cdot x - \frac{1}{6}, x, \frac{1}{2}\right)}, x, -1\right) \cdot x} \]
10. sub-negN/A
  \[\leadsto \frac{-1}{\mathsf{fma}\left(\mathsf{fma}\left(\color{blue}{\frac{1}{24} \cdot x + \left(\mathsf{neg}\left(\frac{1}{6}\right)\right)}, x, \frac{1}{2}\right), x, -1\right) \cdot x} \]
11. metadata-evalN/A
  \[\leadsto \frac{-1}{\mathsf{fma}\left(\mathsf{fma}\left(\frac{1}{24} \cdot x + \color{blue}{\frac{-1}{6}}, x, \frac{1}{2}\right), x, -1\right) \cdot x} \]
12. lower-fma.f6489.5
  \[\leadsto \frac{-1}{\mathsf{fma}\left(\mathsf{fma}\left(\color{blue}{\mathsf{fma}\left(0.041666666666666664, x, -0.16666666666666666\right)}, x, 0.5\right), x, -1\right) \cdot x} \]
Applied rewrites89.5%
\[\leadsto \frac{-1}{\color{blue}{\mathsf{fma}\left(\mathsf{fma}\left(\mathsf{fma}\left(0.041666666666666664, x, -0.16666666666666666\right), x, 0.5\right), x, -1\right) \cdot x}} \]
Step-by-step derivation
Applied rewrites89.5%
\[\leadsto \frac{-1}{\mathsf{fma}\left(\mathsf{fma}\left(\left(-\mathsf{fma}\left(0.001736111111111111, x \cdot x, -0.027777777777777776\right)\right) \cdot \frac{1}{-\mathsf{fma}\left(0.041666666666666664, x, 0.16666666666666666\right)}, x, 0.5\right), x, -1\right) \cdot x} \]
Taylor expanded in x around 0
\[\leadsto \frac{-1}{\mathsf{fma}\left(\mathsf{fma}\left(\left(-\mathsf{fma}\left(\frac{1}{576}, x \cdot x, \frac{-1}{36}\right)\right) \cdot -6, x, \frac{1}{2}\right), x, -1\right) \cdot x} \]
Step-by-step derivation
Applied rewrites92.5%
\[\leadsto \frac{-1}{\mathsf{fma}\left(\mathsf{fma}\left(\left(-\mathsf{fma}\left(0.001736111111111111, x \cdot x, -0.027777777777777776\right)\right) \cdot -6, x, 0.5\right), x, -1\right) \cdot x} \]
Add Preprocessing

Alternative 12: 91.2% accurate, 6.1× speedup?

\[\begin{array}{l} \\ \frac{-1}{\mathsf{fma}\left(\mathsf{fma}\left(\mathsf{fma}\left(0.041666666666666664, x, -0.16666666666666666\right), x, 0.5\right), x, -1\right) \cdot x} \end{array} \]

(FPCore (x)
 :precision binary64
 (/
  -1.0
  (*
   (fma (fma (fma 0.041666666666666664 x -0.16666666666666666) x 0.5) x -1.0)
   x)))

double code(double x) {
	return -1.0 / (fma(fma(fma(0.041666666666666664, x, -0.16666666666666666), x, 0.5), x, -1.0) * x);
}

function code(x)
	return Float64(-1.0 / Float64(fma(fma(fma(0.041666666666666664, x, -0.16666666666666666), x, 0.5), x, -1.0) * x))
end

code[x_] := N[(-1.0 / N[(N[(N[(N[(0.041666666666666664 * x + -0.16666666666666666), $MachinePrecision] * x + 0.5), $MachinePrecision] * x + -1.0), $MachinePrecision] * x), $MachinePrecision]), $MachinePrecision]

\begin{array}{l}

\\
\frac{-1}{\mathsf{fma}\left(\mathsf{fma}\left(\mathsf{fma}\left(0.041666666666666664, x, -0.16666666666666666\right), x, 0.5\right), x, -1\right) \cdot x}
\end{array}

Derivation

Initial program 42.0%
\[\frac{e^{x}}{e^{x} - 1} \]
Add Preprocessing
Step-by-step derivation
1. lift-/.f64N/A
  \[\leadsto \color{blue}{\frac{e^{x}}{e^{x} - 1}} \]
2. clear-numN/A
  \[\leadsto \color{blue}{\frac{1}{\frac{e^{x} - 1}{e^{x}}}} \]
3. frac-2negN/A
  \[\leadsto \color{blue}{\frac{\mathsf{neg}\left(1\right)}{\mathsf{neg}\left(\frac{e^{x} - 1}{e^{x}}\right)}} \]
4. lower-/.f64N/A
  \[\leadsto \color{blue}{\frac{\mathsf{neg}\left(1\right)}{\mathsf{neg}\left(\frac{e^{x} - 1}{e^{x}}\right)}} \]
5. metadata-evalN/A
  \[\leadsto \frac{\color{blue}{-1}}{\mathsf{neg}\left(\frac{e^{x} - 1}{e^{x}}\right)} \]
6. distribute-neg-fracN/A
  \[\leadsto \frac{-1}{\color{blue}{\frac{\mathsf{neg}\left(\left(e^{x} - 1\right)\right)}{e^{x}}}} \]
7. neg-sub0N/A
  \[\leadsto \frac{-1}{\frac{\color{blue}{0 - \left(e^{x} - 1\right)}}{e^{x}}} \]
8. lift--.f64N/A
  \[\leadsto \frac{-1}{\frac{0 - \color{blue}{\left(e^{x} - 1\right)}}{e^{x}}} \]
9. associate-+l-N/A
  \[\leadsto \frac{-1}{\frac{\color{blue}{\left(0 - e^{x}\right) + 1}}{e^{x}}} \]
10. neg-sub0N/A
  \[\leadsto \frac{-1}{\frac{\color{blue}{\left(\mathsf{neg}\left(e^{x}\right)\right)} + 1}{e^{x}}} \]
11. +-commutativeN/A
  \[\leadsto \frac{-1}{\frac{\color{blue}{1 + \left(\mathsf{neg}\left(e^{x}\right)\right)}}{e^{x}}} \]
12. sub-negN/A
  \[\leadsto \frac{-1}{\frac{\color{blue}{1 - e^{x}}}{e^{x}}} \]
13. div-subN/A
  \[\leadsto \frac{-1}{\color{blue}{\frac{1}{e^{x}} - \frac{e^{x}}{e^{x}}}} \]
14. *-inversesN/A
  \[\leadsto \frac{-1}{\frac{1}{e^{x}} - \color{blue}{1}} \]
15. lift-exp.f64N/A
  \[\leadsto \frac{-1}{\frac{1}{\color{blue}{e^{x}}} - 1} \]
16. rec-expN/A
  \[\leadsto \frac{-1}{\color{blue}{e^{\mathsf{neg}\left(x\right)}} - 1} \]
17. lower-expm1.f64N/A
  \[\leadsto \frac{-1}{\color{blue}{\mathsf{expm1}\left(\mathsf{neg}\left(x\right)\right)}} \]
18. lower-neg.f64100.0
  \[\leadsto \frac{-1}{\mathsf{expm1}\left(\color{blue}{-x}\right)} \]
Applied rewrites100.0%
\[\leadsto \color{blue}{\frac{-1}{\mathsf{expm1}\left(-x\right)}} \]
Taylor expanded in x around 0
\[\leadsto \frac{-1}{\color{blue}{x \cdot \left(x \cdot \left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right)\right) - 1\right)}} \]
Step-by-step derivation
1. *-commutativeN/A
  \[\leadsto \frac{-1}{\color{blue}{\left(x \cdot \left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right)\right) - 1\right) \cdot x}} \]
2. lower-*.f64N/A
  \[\leadsto \frac{-1}{\color{blue}{\left(x \cdot \left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right)\right) - 1\right) \cdot x}} \]
3. sub-negN/A
  \[\leadsto \frac{-1}{\color{blue}{\left(x \cdot \left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right)\right) + \left(\mathsf{neg}\left(1\right)\right)\right)} \cdot x} \]
4. *-commutativeN/A
  \[\leadsto \frac{-1}{\left(\color{blue}{\left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right)\right) \cdot x} + \left(\mathsf{neg}\left(1\right)\right)\right) \cdot x} \]
5. metadata-evalN/A
  \[\leadsto \frac{-1}{\left(\left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right)\right) \cdot x + \color{blue}{-1}\right) \cdot x} \]
6. lower-fma.f64N/A
  \[\leadsto \frac{-1}{\color{blue}{\mathsf{fma}\left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right), x, -1\right)} \cdot x} \]
7. +-commutativeN/A
  \[\leadsto \frac{-1}{\mathsf{fma}\left(\color{blue}{x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right) + \frac{1}{2}}, x, -1\right) \cdot x} \]
8. *-commutativeN/A
  \[\leadsto \frac{-1}{\mathsf{fma}\left(\color{blue}{\left(\frac{1}{24} \cdot x - \frac{1}{6}\right) \cdot x} + \frac{1}{2}, x, -1\right) \cdot x} \]
9. lower-fma.f64N/A
  \[\leadsto \frac{-1}{\mathsf{fma}\left(\color{blue}{\mathsf{fma}\left(\frac{1}{24} \cdot x - \frac{1}{6}, x, \frac{1}{2}\right)}, x, -1\right) \cdot x} \]
10. sub-negN/A
  \[\leadsto \frac{-1}{\mathsf{fma}\left(\mathsf{fma}\left(\color{blue}{\frac{1}{24} \cdot x + \left(\mathsf{neg}\left(\frac{1}{6}\right)\right)}, x, \frac{1}{2}\right), x, -1\right) \cdot x} \]
11. metadata-evalN/A
  \[\leadsto \frac{-1}{\mathsf{fma}\left(\mathsf{fma}\left(\frac{1}{24} \cdot x + \color{blue}{\frac{-1}{6}}, x, \frac{1}{2}\right), x, -1\right) \cdot x} \]
12. lower-fma.f6489.5
  \[\leadsto \frac{-1}{\mathsf{fma}\left(\mathsf{fma}\left(\color{blue}{\mathsf{fma}\left(0.041666666666666664, x, -0.16666666666666666\right)}, x, 0.5\right), x, -1\right) \cdot x} \]
Applied rewrites89.5%
\[\leadsto \frac{-1}{\color{blue}{\mathsf{fma}\left(\mathsf{fma}\left(\mathsf{fma}\left(0.041666666666666664, x, -0.16666666666666666\right), x, 0.5\right), x, -1\right) \cdot x}} \]
Add Preprocessing

Alternative 13: 90.1% accurate, 6.5× speedup?

\[\begin{array}{l} \\ \frac{-1}{\mathsf{fma}\left(\left(x \cdot x\right) \cdot 0.041666666666666664, x, -1\right) \cdot x} \end{array} \]

(FPCore (x)
 :precision binary64
 (/ -1.0 (* (fma (* (* x x) 0.041666666666666664) x -1.0) x)))

double code(double x) {
	return -1.0 / (fma(((x * x) * 0.041666666666666664), x, -1.0) * x);
}

function code(x)
	return Float64(-1.0 / Float64(fma(Float64(Float64(x * x) * 0.041666666666666664), x, -1.0) * x))
end

code[x_] := N[(-1.0 / N[(N[(N[(N[(x * x), $MachinePrecision] * 0.041666666666666664), $MachinePrecision] * x + -1.0), $MachinePrecision] * x), $MachinePrecision]), $MachinePrecision]

\begin{array}{l}

\\
\frac{-1}{\mathsf{fma}\left(\left(x \cdot x\right) \cdot 0.041666666666666664, x, -1\right) \cdot x}
\end{array}

Derivation

Initial program 42.0%
\[\frac{e^{x}}{e^{x} - 1} \]
Add Preprocessing
Step-by-step derivation
1. lift-/.f64N/A
  \[\leadsto \color{blue}{\frac{e^{x}}{e^{x} - 1}} \]
2. clear-numN/A
  \[\leadsto \color{blue}{\frac{1}{\frac{e^{x} - 1}{e^{x}}}} \]
3. frac-2negN/A
  \[\leadsto \color{blue}{\frac{\mathsf{neg}\left(1\right)}{\mathsf{neg}\left(\frac{e^{x} - 1}{e^{x}}\right)}} \]
4. lower-/.f64N/A
  \[\leadsto \color{blue}{\frac{\mathsf{neg}\left(1\right)}{\mathsf{neg}\left(\frac{e^{x} - 1}{e^{x}}\right)}} \]
5. metadata-evalN/A
  \[\leadsto \frac{\color{blue}{-1}}{\mathsf{neg}\left(\frac{e^{x} - 1}{e^{x}}\right)} \]
6. distribute-neg-fracN/A
  \[\leadsto \frac{-1}{\color{blue}{\frac{\mathsf{neg}\left(\left(e^{x} - 1\right)\right)}{e^{x}}}} \]
7. neg-sub0N/A
  \[\leadsto \frac{-1}{\frac{\color{blue}{0 - \left(e^{x} - 1\right)}}{e^{x}}} \]
8. lift--.f64N/A
  \[\leadsto \frac{-1}{\frac{0 - \color{blue}{\left(e^{x} - 1\right)}}{e^{x}}} \]
9. associate-+l-N/A
  \[\leadsto \frac{-1}{\frac{\color{blue}{\left(0 - e^{x}\right) + 1}}{e^{x}}} \]
10. neg-sub0N/A
  \[\leadsto \frac{-1}{\frac{\color{blue}{\left(\mathsf{neg}\left(e^{x}\right)\right)} + 1}{e^{x}}} \]
11. +-commutativeN/A
  \[\leadsto \frac{-1}{\frac{\color{blue}{1 + \left(\mathsf{neg}\left(e^{x}\right)\right)}}{e^{x}}} \]
12. sub-negN/A
  \[\leadsto \frac{-1}{\frac{\color{blue}{1 - e^{x}}}{e^{x}}} \]
13. div-subN/A
  \[\leadsto \frac{-1}{\color{blue}{\frac{1}{e^{x}} - \frac{e^{x}}{e^{x}}}} \]
14. *-inversesN/A
  \[\leadsto \frac{-1}{\frac{1}{e^{x}} - \color{blue}{1}} \]
15. lift-exp.f64N/A
  \[\leadsto \frac{-1}{\frac{1}{\color{blue}{e^{x}}} - 1} \]
16. rec-expN/A
  \[\leadsto \frac{-1}{\color{blue}{e^{\mathsf{neg}\left(x\right)}} - 1} \]
17. lower-expm1.f64N/A
  \[\leadsto \frac{-1}{\color{blue}{\mathsf{expm1}\left(\mathsf{neg}\left(x\right)\right)}} \]
18. lower-neg.f64100.0
  \[\leadsto \frac{-1}{\mathsf{expm1}\left(\color{blue}{-x}\right)} \]
Applied rewrites100.0%
\[\leadsto \color{blue}{\frac{-1}{\mathsf{expm1}\left(-x\right)}} \]
Taylor expanded in x around 0
\[\leadsto \frac{-1}{\color{blue}{x \cdot \left(x \cdot \left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right)\right) - 1\right)}} \]
Step-by-step derivation
1. *-commutativeN/A
  \[\leadsto \frac{-1}{\color{blue}{\left(x \cdot \left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right)\right) - 1\right) \cdot x}} \]
2. lower-*.f64N/A
  \[\leadsto \frac{-1}{\color{blue}{\left(x \cdot \left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right)\right) - 1\right) \cdot x}} \]
3. sub-negN/A
  \[\leadsto \frac{-1}{\color{blue}{\left(x \cdot \left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right)\right) + \left(\mathsf{neg}\left(1\right)\right)\right)} \cdot x} \]
4. *-commutativeN/A
  \[\leadsto \frac{-1}{\left(\color{blue}{\left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right)\right) \cdot x} + \left(\mathsf{neg}\left(1\right)\right)\right) \cdot x} \]
5. metadata-evalN/A
  \[\leadsto \frac{-1}{\left(\left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right)\right) \cdot x + \color{blue}{-1}\right) \cdot x} \]
6. lower-fma.f64N/A
  \[\leadsto \frac{-1}{\color{blue}{\mathsf{fma}\left(\frac{1}{2} + x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right), x, -1\right)} \cdot x} \]
7. +-commutativeN/A
  \[\leadsto \frac{-1}{\mathsf{fma}\left(\color{blue}{x \cdot \left(\frac{1}{24} \cdot x - \frac{1}{6}\right) + \frac{1}{2}}, x, -1\right) \cdot x} \]
8. *-commutativeN/A
  \[\leadsto \frac{-1}{\mathsf{fma}\left(\color{blue}{\left(\frac{1}{24} \cdot x - \frac{1}{6}\right) \cdot x} + \frac{1}{2}, x, -1\right) \cdot x} \]
9. lower-fma.f64N/A
  \[\leadsto \frac{-1}{\mathsf{fma}\left(\color{blue}{\mathsf{fma}\left(\frac{1}{24} \cdot x - \frac{1}{6}, x, \frac{1}{2}\right)}, x, -1\right) \cdot x} \]
10. sub-negN/A
  \[\leadsto \frac{-1}{\mathsf{fma}\left(\mathsf{fma}\left(\color{blue}{\frac{1}{24} \cdot x + \left(\mathsf{neg}\left(\frac{1}{6}\right)\right)}, x, \frac{1}{2}\right), x, -1\right) \cdot x} \]
11. metadata-evalN/A
  \[\leadsto \frac{-1}{\mathsf{fma}\left(\mathsf{fma}\left(\frac{1}{24} \cdot x + \color{blue}{\frac{-1}{6}}, x, \frac{1}{2}\right), x, -1\right) \cdot x} \]
12. lower-fma.f6489.5
  \[\leadsto \frac{-1}{\mathsf{fma}\left(\mathsf{fma}\left(\color{blue}{\mathsf{fma}\left(0.041666666666666664, x, -0.16666666666666666\right)}, x, 0.5\right), x, -1\right) \cdot x} \]
Applied rewrites89.5%
\[\leadsto \frac{-1}{\color{blue}{\mathsf{fma}\left(\mathsf{fma}\left(\mathsf{fma}\left(0.041666666666666664, x, -0.16666666666666666\right), x, 0.5\right), x, -1\right) \cdot x}} \]
Taylor expanded in x around inf
\[\leadsto \frac{-1}{\mathsf{fma}\left(\frac{1}{24} \cdot {x}^{2}, x, -1\right) \cdot x} \]
Step-by-step derivation
Applied rewrites88.8%
\[\leadsto \frac{-1}{\mathsf{fma}\left(\left(x \cdot x\right) \cdot 0.041666666666666664, x, -1\right) \cdot x} \]
Add Preprocessing

Alternative 14: 88.5% accurate, 7.4× speedup?

\[\begin{array}{l} \\ \frac{-1}{\mathsf{fma}\left(\mathsf{fma}\left(-0.16666666666666666, x, 0.5\right), x, -1\right) \cdot x} \end{array} \]

(FPCore (x)
 :precision binary64
 (/ -1.0 (* (fma (fma -0.16666666666666666 x 0.5) x -1.0) x)))

double code(double x) {
	return -1.0 / (fma(fma(-0.16666666666666666, x, 0.5), x, -1.0) * x);
}

function code(x)
	return Float64(-1.0 / Float64(fma(fma(-0.16666666666666666, x, 0.5), x, -1.0) * x))
end

code[x_] := N[(-1.0 / N[(N[(N[(-0.16666666666666666 * x + 0.5), $MachinePrecision] * x + -1.0), $MachinePrecision] * x), $MachinePrecision]), $MachinePrecision]

\begin{array}{l}

\\
\frac{-1}{\mathsf{fma}\left(\mathsf{fma}\left(-0.16666666666666666, x, 0.5\right), x, -1\right) \cdot x}
\end{array}

Derivation

Initial program 42.0%
\[\frac{e^{x}}{e^{x} - 1} \]
Add Preprocessing
Step-by-step derivation
1. lift-/.f64N/A
  \[\leadsto \color{blue}{\frac{e^{x}}{e^{x} - 1}} \]
2. clear-numN/A
  \[\leadsto \color{blue}{\frac{1}{\frac{e^{x} - 1}{e^{x}}}} \]
3. frac-2negN/A
  \[\leadsto \color{blue}{\frac{\mathsf{neg}\left(1\right)}{\mathsf{neg}\left(\frac{e^{x} - 1}{e^{x}}\right)}} \]
4. lower-/.f64N/A
  \[\leadsto \color{blue}{\frac{\mathsf{neg}\left(1\right)}{\mathsf{neg}\left(\frac{e^{x} - 1}{e^{x}}\right)}} \]
5. metadata-evalN/A
  \[\leadsto \frac{\color{blue}{-1}}{\mathsf{neg}\left(\frac{e^{x} - 1}{e^{x}}\right)} \]
6. distribute-neg-fracN/A
  \[\leadsto \frac{-1}{\color{blue}{\frac{\mathsf{neg}\left(\left(e^{x} - 1\right)\right)}{e^{x}}}} \]
7. neg-sub0N/A
  \[\leadsto \frac{-1}{\frac{\color{blue}{0 - \left(e^{x} - 1\right)}}{e^{x}}} \]
8. lift--.f64N/A
  \[\leadsto \frac{-1}{\frac{0 - \color{blue}{\left(e^{x} - 1\right)}}{e^{x}}} \]
9. associate-+l-N/A
  \[\leadsto \frac{-1}{\frac{\color{blue}{\left(0 - e^{x}\right) + 1}}{e^{x}}} \]
10. neg-sub0N/A
  \[\leadsto \frac{-1}{\frac{\color{blue}{\left(\mathsf{neg}\left(e^{x}\right)\right)} + 1}{e^{x}}} \]
11. +-commutativeN/A
  \[\leadsto \frac{-1}{\frac{\color{blue}{1 + \left(\mathsf{neg}\left(e^{x}\right)\right)}}{e^{x}}} \]
12. sub-negN/A
  \[\leadsto \frac{-1}{\frac{\color{blue}{1 - e^{x}}}{e^{x}}} \]
13. div-subN/A
  \[\leadsto \frac{-1}{\color{blue}{\frac{1}{e^{x}} - \frac{e^{x}}{e^{x}}}} \]
14. *-inversesN/A
  \[\leadsto \frac{-1}{\frac{1}{e^{x}} - \color{blue}{1}} \]
15. lift-exp.f64N/A
  \[\leadsto \frac{-1}{\frac{1}{\color{blue}{e^{x}}} - 1} \]
16. rec-expN/A
  \[\leadsto \frac{-1}{\color{blue}{e^{\mathsf{neg}\left(x\right)}} - 1} \]
17. lower-expm1.f64N/A
  \[\leadsto \frac{-1}{\color{blue}{\mathsf{expm1}\left(\mathsf{neg}\left(x\right)\right)}} \]
18. lower-neg.f64100.0
  \[\leadsto \frac{-1}{\mathsf{expm1}\left(\color{blue}{-x}\right)} \]
Applied rewrites100.0%
\[\leadsto \color{blue}{\frac{-1}{\mathsf{expm1}\left(-x\right)}} \]
Taylor expanded in x around 0
\[\leadsto \frac{-1}{\color{blue}{x \cdot \left(x \cdot \left(\frac{1}{2} + \frac{-1}{6} \cdot x\right) - 1\right)}} \]
Step-by-step derivation
1. *-commutativeN/A
  \[\leadsto \frac{-1}{\color{blue}{\left(x \cdot \left(\frac{1}{2} + \frac{-1}{6} \cdot x\right) - 1\right) \cdot x}} \]
2. lower-*.f64N/A
  \[\leadsto \frac{-1}{\color{blue}{\left(x \cdot \left(\frac{1}{2} + \frac{-1}{6} \cdot x\right) - 1\right) \cdot x}} \]
3. sub-negN/A
  \[\leadsto \frac{-1}{\color{blue}{\left(x \cdot \left(\frac{1}{2} + \frac{-1}{6} \cdot x\right) + \left(\mathsf{neg}\left(1\right)\right)\right)} \cdot x} \]
4. *-commutativeN/A
  \[\leadsto \frac{-1}{\left(\color{blue}{\left(\frac{1}{2} + \frac{-1}{6} \cdot x\right) \cdot x} + \left(\mathsf{neg}\left(1\right)\right)\right) \cdot x} \]
5. metadata-evalN/A
  \[\leadsto \frac{-1}{\left(\left(\frac{1}{2} + \frac{-1}{6} \cdot x\right) \cdot x + \color{blue}{-1}\right) \cdot x} \]
6. lower-fma.f64N/A
  \[\leadsto \frac{-1}{\color{blue}{\mathsf{fma}\left(\frac{1}{2} + \frac{-1}{6} \cdot x, x, -1\right)} \cdot x} \]
7. +-commutativeN/A
  \[\leadsto \frac{-1}{\mathsf{fma}\left(\color{blue}{\frac{-1}{6} \cdot x + \frac{1}{2}}, x, -1\right) \cdot x} \]
8. lower-fma.f6486.5
  \[\leadsto \frac{-1}{\mathsf{fma}\left(\color{blue}{\mathsf{fma}\left(-0.16666666666666666, x, 0.5\right)}, x, -1\right) \cdot x} \]
Applied rewrites86.5%
\[\leadsto \frac{-1}{\color{blue}{\mathsf{fma}\left(\mathsf{fma}\left(-0.16666666666666666, x, 0.5\right), x, -1\right) \cdot x}} \]
Add Preprocessing

Alternative 15: 82.6% accurate, 9.3× speedup?

\[\begin{array}{l} \\ \frac{-1}{\mathsf{fma}\left(0.5, x, -1\right) \cdot x} \end{array} \]

(FPCore (x) :precision binary64 (/ -1.0 (* (fma 0.5 x -1.0) x)))

double code(double x) {
	return -1.0 / (fma(0.5, x, -1.0) * x);
}

function code(x)
	return Float64(-1.0 / Float64(fma(0.5, x, -1.0) * x))
end

code[x_] := N[(-1.0 / N[(N[(0.5 * x + -1.0), $MachinePrecision] * x), $MachinePrecision]), $MachinePrecision]

\begin{array}{l}

\\
\frac{-1}{\mathsf{fma}\left(0.5, x, -1\right) \cdot x}
\end{array}

Derivation

Initial program 42.0%
\[\frac{e^{x}}{e^{x} - 1} \]
Add Preprocessing
Step-by-step derivation
1. lift-/.f64N/A
  \[\leadsto \color{blue}{\frac{e^{x}}{e^{x} - 1}} \]
2. clear-numN/A
  \[\leadsto \color{blue}{\frac{1}{\frac{e^{x} - 1}{e^{x}}}} \]
3. frac-2negN/A
  \[\leadsto \color{blue}{\frac{\mathsf{neg}\left(1\right)}{\mathsf{neg}\left(\frac{e^{x} - 1}{e^{x}}\right)}} \]
4. lower-/.f64N/A
  \[\leadsto \color{blue}{\frac{\mathsf{neg}\left(1\right)}{\mathsf{neg}\left(\frac{e^{x} - 1}{e^{x}}\right)}} \]
5. metadata-evalN/A
  \[\leadsto \frac{\color{blue}{-1}}{\mathsf{neg}\left(\frac{e^{x} - 1}{e^{x}}\right)} \]
6. distribute-neg-fracN/A
  \[\leadsto \frac{-1}{\color{blue}{\frac{\mathsf{neg}\left(\left(e^{x} - 1\right)\right)}{e^{x}}}} \]
7. neg-sub0N/A
  \[\leadsto \frac{-1}{\frac{\color{blue}{0 - \left(e^{x} - 1\right)}}{e^{x}}} \]
8. lift--.f64N/A
  \[\leadsto \frac{-1}{\frac{0 - \color{blue}{\left(e^{x} - 1\right)}}{e^{x}}} \]
9. associate-+l-N/A
  \[\leadsto \frac{-1}{\frac{\color{blue}{\left(0 - e^{x}\right) + 1}}{e^{x}}} \]
10. neg-sub0N/A
  \[\leadsto \frac{-1}{\frac{\color{blue}{\left(\mathsf{neg}\left(e^{x}\right)\right)} + 1}{e^{x}}} \]
11. +-commutativeN/A
  \[\leadsto \frac{-1}{\frac{\color{blue}{1 + \left(\mathsf{neg}\left(e^{x}\right)\right)}}{e^{x}}} \]
12. sub-negN/A
  \[\leadsto \frac{-1}{\frac{\color{blue}{1 - e^{x}}}{e^{x}}} \]
13. div-subN/A
  \[\leadsto \frac{-1}{\color{blue}{\frac{1}{e^{x}} - \frac{e^{x}}{e^{x}}}} \]
14. *-inversesN/A
  \[\leadsto \frac{-1}{\frac{1}{e^{x}} - \color{blue}{1}} \]
15. lift-exp.f64N/A
  \[\leadsto \frac{-1}{\frac{1}{\color{blue}{e^{x}}} - 1} \]
16. rec-expN/A
  \[\leadsto \frac{-1}{\color{blue}{e^{\mathsf{neg}\left(x\right)}} - 1} \]
17. lower-expm1.f64N/A
  \[\leadsto \frac{-1}{\color{blue}{\mathsf{expm1}\left(\mathsf{neg}\left(x\right)\right)}} \]
18. lower-neg.f64100.0
  \[\leadsto \frac{-1}{\mathsf{expm1}\left(\color{blue}{-x}\right)} \]
Applied rewrites100.0%
\[\leadsto \color{blue}{\frac{-1}{\mathsf{expm1}\left(-x\right)}} \]
Taylor expanded in x around 0
\[\leadsto \frac{-1}{\color{blue}{x \cdot \left(\frac{1}{2} \cdot x - 1\right)}} \]
Step-by-step derivation
1. *-commutativeN/A
  \[\leadsto \frac{-1}{\color{blue}{\left(\frac{1}{2} \cdot x - 1\right) \cdot x}} \]
2. lower-*.f64N/A
  \[\leadsto \frac{-1}{\color{blue}{\left(\frac{1}{2} \cdot x - 1\right) \cdot x}} \]
3. sub-negN/A
  \[\leadsto \frac{-1}{\color{blue}{\left(\frac{1}{2} \cdot x + \left(\mathsf{neg}\left(1\right)\right)\right)} \cdot x} \]
4. metadata-evalN/A
  \[\leadsto \frac{-1}{\left(\frac{1}{2} \cdot x + \color{blue}{-1}\right) \cdot x} \]
5. lower-fma.f6482.9
  \[\leadsto \frac{-1}{\color{blue}{\mathsf{fma}\left(0.5, x, -1\right)} \cdot x} \]
Applied rewrites82.9%
\[\leadsto \frac{-1}{\color{blue}{\mathsf{fma}\left(0.5, x, -1\right) \cdot x}} \]
Add Preprocessing

Alternative 16: 3.2% accurate, 215.0× speedup?

\[\begin{array}{l} \\ 0.5 \end{array} \]

(FPCore (x) :precision binary64 0.5)

double code(double x) {
	return 0.5;
}

real(8) function code(x)
    real(8), intent (in) :: x
    code = 0.5d0
end function

public static double code(double x) {
	return 0.5;
}

def code(x):
	return 0.5

function code(x)
	return 0.5
end

function tmp = code(x)
	tmp = 0.5;
end

code[x_] := 0.5

\begin{array}{l}

\\
0.5
\end{array}

Derivation

Initial program 42.0%
\[\frac{e^{x}}{e^{x} - 1} \]
Add Preprocessing
Taylor expanded in x around 0
\[\leadsto \color{blue}{\frac{1 + \frac{1}{2} \cdot x}{x}} \]
Step-by-step derivation
1. *-rgt-identityN/A
  \[\leadsto \frac{\color{blue}{\left(1 + \frac{1}{2} \cdot x\right) \cdot 1}}{x} \]
2. associate-/l*N/A
  \[\leadsto \color{blue}{\left(1 + \frac{1}{2} \cdot x\right) \cdot \frac{1}{x}} \]
3. +-commutativeN/A
  \[\leadsto \color{blue}{\left(\frac{1}{2} \cdot x + 1\right)} \cdot \frac{1}{x} \]
4. distribute-lft1-inN/A
  \[\leadsto \color{blue}{\left(\frac{1}{2} \cdot x\right) \cdot \frac{1}{x} + \frac{1}{x}} \]
5. lower-+.f64N/A
  \[\leadsto \color{blue}{\left(\frac{1}{2} \cdot x\right) \cdot \frac{1}{x} + \frac{1}{x}} \]
6. associate-*l*N/A
  \[\leadsto \color{blue}{\frac{1}{2} \cdot \left(x \cdot \frac{1}{x}\right)} + \frac{1}{x} \]
7. rgt-mult-inverseN/A
  \[\leadsto \frac{1}{2} \cdot \color{blue}{1} + \frac{1}{x} \]
8. metadata-evalN/A
  \[\leadsto \color{blue}{\frac{1}{2}} + \frac{1}{x} \]
9. lower-/.f6461.9
  \[\leadsto 0.5 + \color{blue}{\frac{1}{x}} \]
Applied rewrites61.9%
\[\leadsto \color{blue}{0.5 + \frac{1}{x}} \]
Taylor expanded in x around inf
\[\leadsto \frac{1}{2} \]
Step-by-step derivation
Applied rewrites3.4%
\[\leadsto 0.5 \]
Add Preprocessing

expq2 (section 3.11)

Specification

Local Percentage Accuracy vs ?

Accuracy vs Speed?

Initial Program: 38.3% accurate, 1.0× speedup?

Alternative 1: 100.0% accurate, 1.9× speedup?

Alternative 2: 91.4% accurate, 0.9× speedup?

`if (exp.f64 x) < 1.99999999999999999e-70`

`if 1.99999999999999999e-70 < (exp.f64 x)`

Alternative 3: 91.4% accurate, 0.9× speedup?

`if (exp.f64 x) < 1.99999999999999999e-70`

`if 1.99999999999999999e-70 < (exp.f64 x)`

Alternative 4: 83.1% accurate, 1.0× speedup?

`if (exp.f64 x) < 1.99999999999999999e-70`

`if 1.99999999999999999e-70 < (exp.f64 x)`

Alternative 5: 88.7% accurate, 1.8× speedup?

`if x < -3.4500000000000002`

`if -3.4500000000000002 < x`

Alternative 6: 88.7% accurate, 1.8× speedup?

`if x < -4.20000000000000018`

`if -4.20000000000000018 < x`

Alternative 7: 66.3% accurate, 2.1× speedup?

Alternative 8: 95.3% accurate, 3.3× speedup?

Alternative 9: 94.8% accurate, 3.6× speedup?

Alternative 10: 94.0% accurate, 4.1× speedup?

Alternative 11: 92.8% accurate, 4.6× speedup?

Alternative 12: 91.2% accurate, 6.1× speedup?

Alternative 13: 90.1% accurate, 6.5× speedup?

Alternative 14: 88.5% accurate, 7.4× speedup?

Alternative 15: 82.6% accurate, 9.3× speedup?

Alternative 16: 3.2% accurate, 215.0× speedup?

Developer Target 1: 100.0% accurate, 1.9× speedup?

Reproduce

Specification

Local Percentage Accuracy vs ?

Accuracy vs Speed?

Initial Program: 38.3% accurate, 1.0× speedupMathFPCoreCFortranJavaPythonJuliaMATLABWolframTeX?

Alternative 1: 100.0% accurate, 1.9× speedupMathFPCoreCJavaPythonJuliaWolframTeX?

Alternative 2: 91.4% accurate, 0.9× speedupMathFPCoreCJuliaWolframTeX?

if (exp.f64 x) < 1.99999999999999999e-70

if 1.99999999999999999e-70 < (exp.f64 x)

Alternative 3: 91.4% accurate, 0.9× speedupMathFPCoreCJuliaWolframTeX?

if (exp.f64 x) < 1.99999999999999999e-70

if 1.99999999999999999e-70 < (exp.f64 x)

Alternative 4: 83.1% accurate, 1.0× speedupMathFPCoreCJuliaWolframTeX?

if (exp.f64 x) < 1.99999999999999999e-70

if 1.99999999999999999e-70 < (exp.f64 x)

Alternative 5: 88.7% accurate, 1.8× speedupMathFPCoreCJuliaWolframTeX?

if x < -3.4500000000000002

if -3.4500000000000002 < x

Alternative 6: 88.7% accurate, 1.8× speedupMathFPCoreCJuliaWolframTeX?

if x < -4.20000000000000018

if -4.20000000000000018 < x

Alternative 7: 66.3% accurate, 2.1× speedupMathFPCoreCFortranJavaPythonJuliaMATLABWolframTeX?

Alternative 8: 95.3% accurate, 3.3× speedupMathFPCoreCJuliaWolframTeX?

Alternative 9: 94.8% accurate, 3.6× speedupMathFPCoreCJuliaWolframTeX?

Alternative 10: 94.0% accurate, 4.1× speedupMathFPCoreCJuliaWolframTeX?

Alternative 11: 92.8% accurate, 4.6× speedupMathFPCoreCJuliaWolframTeX?

Alternative 12: 91.2% accurate, 6.1× speedupMathFPCoreCJuliaWolframTeX?

Alternative 13: 90.1% accurate, 6.5× speedupMathFPCoreCJuliaWolframTeX?

Alternative 14: 88.5% accurate, 7.4× speedupMathFPCoreCJuliaWolframTeX?

Alternative 15: 82.6% accurate, 9.3× speedupMathFPCoreCJuliaWolframTeX?

Alternative 16: 3.2% accurate, 215.0× speedupMathFPCoreCFortranJavaPythonJuliaMATLABWolframTeX?

Developer Target 1: 100.0% accurate, 1.9× speedupMathFPCoreCJavaPythonJuliaWolframTeX?

Reproduce

Initial Program: 38.3% accurate, 1.0× speedup?

Alternative 1: 100.0% accurate, 1.9× speedup?

Alternative 2: 91.4% accurate, 0.9× speedup?

`if (exp.f64 x) < 1.99999999999999999e-70`

`if 1.99999999999999999e-70 < (exp.f64 x)`

Alternative 3: 91.4% accurate, 0.9× speedup?

`if (exp.f64 x) < 1.99999999999999999e-70`

`if 1.99999999999999999e-70 < (exp.f64 x)`

Alternative 4: 83.1% accurate, 1.0× speedup?

`if (exp.f64 x) < 1.99999999999999999e-70`

`if 1.99999999999999999e-70 < (exp.f64 x)`

Alternative 5: 88.7% accurate, 1.8× speedup?

`if x < -3.4500000000000002`

`if -3.4500000000000002 < x`

Alternative 6: 88.7% accurate, 1.8× speedup?

`if x < -4.20000000000000018`

`if -4.20000000000000018 < x`

Alternative 7: 66.3% accurate, 2.1× speedup?

Alternative 8: 95.3% accurate, 3.3× speedup?

Alternative 9: 94.8% accurate, 3.6× speedup?

Alternative 10: 94.0% accurate, 4.1× speedup?

Alternative 11: 92.8% accurate, 4.6× speedup?

Alternative 12: 91.2% accurate, 6.1× speedup?

Alternative 13: 90.1% accurate, 6.5× speedup?

Alternative 14: 88.5% accurate, 7.4× speedup?

Alternative 15: 82.6% accurate, 9.3× speedup?

Alternative 16: 3.2% accurate, 215.0× speedup?

Developer Target 1: 100.0% accurate, 1.9× speedup?