ENA, Section 1.4, Exercise 1

Percentage Accurate: 94.5% → 99.3%

Time: 16.5s

Precision: binary64

Cost: 38720

\[1.99 \leq x \land x \leq 2.01\]

Math

\[\cos x \cdot e^{10 \cdot \left(x \cdot x\right)} \]

↓

\[\cos x \cdot \sqrt{\sqrt[3]{{\left({\left(e^{60}\right)}^{x}\right)}^{x}}} \]

FPCore

(FPCore (x) :precision binary64 (* (cos x) (exp (* 10.0 (* x x)))))

↓

(FPCore (x)
 :precision binary64
 (* (cos x) (sqrt (cbrt (pow (pow (exp 60.0) x) x)))))

C

double code(double x) {
	return cos(x) * exp((10.0 * (x * x)));
}

↓

double code(double x) {
	return cos(x) * sqrt(cbrt(pow(pow(exp(60.0), x), x)));
}

Java

public static double code(double x) {
	return Math.cos(x) * Math.exp((10.0 * (x * x)));
}

↓

public static double code(double x) {
	return Math.cos(x) * Math.sqrt(Math.cbrt(Math.pow(Math.pow(Math.exp(60.0), x), x)));
}

Julia

function code(x)
	return Float64(cos(x) * exp(Float64(10.0 * Float64(x * x))))
end

↓

function code(x)
	return Float64(cos(x) * sqrt(cbrt(((exp(60.0) ^ x) ^ x))))
end

Wolfram

code[x_] := N[(N[Cos[x], $MachinePrecision] * N[Exp[N[(10.0 * N[(x * x), $MachinePrecision]), $MachinePrecision]], $MachinePrecision]), $MachinePrecision]

↓

code[x_] := N[(N[Cos[x], $MachinePrecision] * N[Sqrt[N[Power[N[Power[N[Power[N[Exp[60.0], $MachinePrecision], x], $MachinePrecision], x], $MachinePrecision], 1/3], $MachinePrecision]], $MachinePrecision]), $MachinePrecision]

Derivation

1. Initial program 94.5%

   \[\cos x \cdot e^{10 \cdot \left(x \cdot x\right)} \]

2. Applied egg-rr 98.7%

   \[\leadsto \cos x \cdot \color{blue}{\sqrt[3]{{\left({\left(e^{30}\right)}^{x}\right)}^{x}}} \]
   Step-by-step derivation

   [Start] 94.5%	\[ \cos x \cdot e^{10 \cdot \left(x \cdot x\right)} \]
   associate-*r* [=>] 94.6%	\[ \cos x \cdot e^{\color{blue}{\left(10 \cdot x\right) \cdot x}} \]
   add-log-exp [=>] 94.6%	\[ \cos x \cdot e^{\left(10 \cdot x\right) \cdot \color{blue}{\log \left(e^{x}\right)}} \]
   log-pow [<=] 94.4%	\[ \cos x \cdot e^{\color{blue}{\log \left({\left(e^{x}\right)}^{\left(10 \cdot x\right)}\right)}} \]
   pow-pow [<=] 94.9%	\[ \cos x \cdot e^{\log \color{blue}{\left({\left({\left(e^{x}\right)}^{10}\right)}^{x}\right)}} \]
   add-exp-log [<=] 96.8%	\[ \cos x \cdot \color{blue}{{\left({\left(e^{x}\right)}^{10}\right)}^{x}} \]
   add-cbrt-cube [=>] 96.8%	\[ \cos x \cdot \color{blue}{\sqrt[3]{\left({\left({\left(e^{x}\right)}^{10}\right)}^{x} \cdot {\left({\left(e^{x}\right)}^{10}\right)}^{x}\right) \cdot {\left({\left(e^{x}\right)}^{10}\right)}^{x}}} \]
   add-exp-log [=>] 96.5%	\[ \cos x \cdot \sqrt[3]{\left({\left({\left(e^{x}\right)}^{10}\right)}^{x} \cdot {\left({\left(e^{x}\right)}^{10}\right)}^{x}\right) \cdot \color{blue}{e^{\log \left({\left({\left(e^{x}\right)}^{10}\right)}^{x}\right)}}} \]
   pow-pow [=>] 96.1%	\[ \cos x \cdot \sqrt[3]{\left({\left({\left(e^{x}\right)}^{10}\right)}^{x} \cdot {\left({\left(e^{x}\right)}^{10}\right)}^{x}\right) \cdot e^{\log \color{blue}{\left({\left(e^{x}\right)}^{\left(10 \cdot x\right)}\right)}}} \]
   log-pow [=>] 96.4%	\[ \cos x \cdot \sqrt[3]{\left({\left({\left(e^{x}\right)}^{10}\right)}^{x} \cdot {\left({\left(e^{x}\right)}^{10}\right)}^{x}\right) \cdot e^{\color{blue}{\left(10 \cdot x\right) \cdot \log \left(e^{x}\right)}}} \]
   add-log-exp [<=] 96.4%	\[ \cos x \cdot \sqrt[3]{\left({\left({\left(e^{x}\right)}^{10}\right)}^{x} \cdot {\left({\left(e^{x}\right)}^{10}\right)}^{x}\right) \cdot e^{\left(10 \cdot x\right) \cdot \color{blue}{x}}} \]
   associate-*r* [<=] 96.4%	\[ \cos x \cdot \sqrt[3]{\left({\left({\left(e^{x}\right)}^{10}\right)}^{x} \cdot {\left({\left(e^{x}\right)}^{10}\right)}^{x}\right) \cdot e^{\color{blue}{10 \cdot \left(x \cdot x\right)}}} \]
   pow-exp [<=] 96.9%	\[ \cos x \cdot \sqrt[3]{\left({\left({\left(e^{x}\right)}^{10}\right)}^{x} \cdot {\left({\left(e^{x}\right)}^{10}\right)}^{x}\right) \cdot \color{blue}{{\left(e^{10}\right)}^{\left(x \cdot x\right)}}} \]
   *-commutative [=>] 96.9%	\[ \cos x \cdot \sqrt[3]{\color{blue}{{\left(e^{10}\right)}^{\left(x \cdot x\right)} \cdot \left({\left({\left(e^{x}\right)}^{10}\right)}^{x} \cdot {\left({\left(e^{x}\right)}^{10}\right)}^{x}\right)}} \]

3. Applied egg-rr 99.1%

   \[\leadsto \cos x \cdot \sqrt[3]{{\color{blue}{\left(\sqrt{{\left(e^{60}\right)}^{x}}\right)}}^{x}} \]
   Step-by-step derivation

   [Start] 98.7%	\[ \cos x \cdot \sqrt[3]{{\left({\left(e^{30}\right)}^{x}\right)}^{x}} \]
   add-sqr-sqrt [=>] 98.6%	\[ \cos x \cdot \sqrt[3]{{\color{blue}{\left(\sqrt{{\left(e^{30}\right)}^{x}} \cdot \sqrt{{\left(e^{30}\right)}^{x}}\right)}}^{x}} \]
   sqrt-unprod [=>] 98.7%	\[ \cos x \cdot \sqrt[3]{{\color{blue}{\left(\sqrt{{\left(e^{30}\right)}^{x} \cdot {\left(e^{30}\right)}^{x}}\right)}}^{x}} \]
   pow-prod-down [=>] 98.8%	\[ \cos x \cdot \sqrt[3]{{\left(\sqrt{\color{blue}{{\left(e^{30} \cdot e^{30}\right)}^{x}}}\right)}^{x}} \]
   prod-exp [=>] 99.1%	\[ \cos x \cdot \sqrt[3]{{\left(\sqrt{{\color{blue}{\left(e^{30 + 30}\right)}}^{x}}\right)}^{x}} \]
   metadata-eval [=>] 99.1%	\[ \cos x \cdot \sqrt[3]{{\left(\sqrt{{\left(e^{\color{blue}{60}}\right)}^{x}}\right)}^{x}} \]

4. Applied egg-rr 99.4%

   \[\leadsto \cos x \cdot \color{blue}{\sqrt{\sqrt[3]{{\left({\left(e^{60}\right)}^{x}\right)}^{x}}}} \]
   Step-by-step derivation

   [Start] 99.1%	\[ \cos x \cdot \sqrt[3]{{\left(\sqrt{{\left(e^{60}\right)}^{x}}\right)}^{x}} \]
   add-sqr-sqrt [=>] 98.9%	\[ \cos x \cdot \color{blue}{\left(\sqrt{\sqrt[3]{{\left(\sqrt{{\left(e^{60}\right)}^{x}}\right)}^{x}}} \cdot \sqrt{\sqrt[3]{{\left(\sqrt{{\left(e^{60}\right)}^{x}}\right)}^{x}}}\right)} \]
   sqrt-unprod [=>] 99.1%	\[ \cos x \cdot \color{blue}{\sqrt{\sqrt[3]{{\left(\sqrt{{\left(e^{60}\right)}^{x}}\right)}^{x}} \cdot \sqrt[3]{{\left(\sqrt{{\left(e^{60}\right)}^{x}}\right)}^{x}}}} \]
   cbrt-unprod [=>] 99.4%	\[ \cos x \cdot \sqrt{\color{blue}{\sqrt[3]{{\left(\sqrt{{\left(e^{60}\right)}^{x}}\right)}^{x} \cdot {\left(\sqrt{{\left(e^{60}\right)}^{x}}\right)}^{x}}}} \]
   pow-prod-down [=>] 99.4%	\[ \cos x \cdot \sqrt{\sqrt[3]{\color{blue}{{\left(\sqrt{{\left(e^{60}\right)}^{x}} \cdot \sqrt{{\left(e^{60}\right)}^{x}}\right)}^{x}}}} \]
   add-sqr-sqrt [<=] 99.4%	\[ \cos x \cdot \sqrt{\sqrt[3]{{\color{blue}{\left({\left(e^{60}\right)}^{x}\right)}}^{x}}} \]

5. Final simplification 99.4%

   \[\leadsto \cos x \cdot \sqrt{\sqrt[3]{{\left({\left(e^{60}\right)}^{x}\right)}^{x}}} \]

Alternatives

Alternative 1
Accuracy	99.3%
Cost	38720

\[\cos x \cdot \sqrt{\sqrt[3]{{\left({\left(e^{60}\right)}^{x}\right)}^{x}}} \]

Alternative 2
Accuracy	99.1%
Cost	38720

\[\cos x \cdot \sqrt[3]{{\left(\sqrt{{\left(e^{60}\right)}^{x}}\right)}^{x}} \]

Alternative 3
Accuracy	98.7%
Cost	32320

\[\cos x \cdot \sqrt[3]{{\left({\left(e^{30}\right)}^{x}\right)}^{x}} \]

Alternative 4
Accuracy	98.0%
Cost	25920

\[\cos x \cdot {\left({\left(e^{10}\right)}^{x}\right)}^{x} \]

Alternative 5
Accuracy	95.3%
Cost	19584

\[\cos x \cdot {\left(e^{10}\right)}^{\left(x \cdot x\right)} \]

Alternative 6
Accuracy	95.0%
Cost	19584

\[\cos x \cdot {\left(e^{x \cdot 10}\right)}^{x} \]

Alternative 7
Accuracy	94.5%
Cost	13248

\[\cos x \cdot e^{10 \cdot \left(x \cdot x\right)} \]

Alternative 8
Accuracy	94.4%
Cost	13248

\[\cos x \cdot e^{x \cdot \left(x \cdot 10\right)} \]

Alternative 9
Accuracy	18.2%
Cost	7232

\[e^{10 \cdot \left(x \cdot x\right)} \cdot \left(1 + \left(x \cdot x\right) \cdot -0.5\right) \]

Alternative 10
Accuracy	9.7%
Cost	320

\[x \cdot \left(x \cdot -0.5\right) \]

Reproduce

herbie shell --seed 2023272 
(FPCore (x)
  :name "ENA, Section 1.4, Exercise 1"
  :precision binary64
  :pre (and (<= 1.99 x) (<= x 2.01))
  (* (cos x) (exp (* 10.0 (* x x)))))