
(FPCore (x)
:precision binary64
(let* ((t_0 (/ 1.0 (+ 1.0 (* 0.3275911 (fabs x))))))
(-
1.0
(*
(*
t_0
(+
0.254829592
(*
t_0
(+
-0.284496736
(*
t_0
(+ 1.421413741 (* t_0 (+ -1.453152027 (* t_0 1.061405429)))))))))
(exp (- (* (fabs x) (fabs x))))))))double code(double x) {
double t_0 = 1.0 / (1.0 + (0.3275911 * fabs(x)));
return 1.0 - ((t_0 * (0.254829592 + (t_0 * (-0.284496736 + (t_0 * (1.421413741 + (t_0 * (-1.453152027 + (t_0 * 1.061405429))))))))) * exp(-(fabs(x) * fabs(x))));
}
module fmin_fmax_functions
implicit none
private
public fmax
public fmin
interface fmax
module procedure fmax88
module procedure fmax44
module procedure fmax84
module procedure fmax48
end interface
interface fmin
module procedure fmin88
module procedure fmin44
module procedure fmin84
module procedure fmin48
end interface
contains
real(8) function fmax88(x, y) result (res)
real(8), intent (in) :: x
real(8), intent (in) :: y
res = merge(y, merge(x, max(x, y), y /= y), x /= x)
end function
real(4) function fmax44(x, y) result (res)
real(4), intent (in) :: x
real(4), intent (in) :: y
res = merge(y, merge(x, max(x, y), y /= y), x /= x)
end function
real(8) function fmax84(x, y) result(res)
real(8), intent (in) :: x
real(4), intent (in) :: y
res = merge(dble(y), merge(x, max(x, dble(y)), y /= y), x /= x)
end function
real(8) function fmax48(x, y) result(res)
real(4), intent (in) :: x
real(8), intent (in) :: y
res = merge(y, merge(dble(x), max(dble(x), y), y /= y), x /= x)
end function
real(8) function fmin88(x, y) result (res)
real(8), intent (in) :: x
real(8), intent (in) :: y
res = merge(y, merge(x, min(x, y), y /= y), x /= x)
end function
real(4) function fmin44(x, y) result (res)
real(4), intent (in) :: x
real(4), intent (in) :: y
res = merge(y, merge(x, min(x, y), y /= y), x /= x)
end function
real(8) function fmin84(x, y) result(res)
real(8), intent (in) :: x
real(4), intent (in) :: y
res = merge(dble(y), merge(x, min(x, dble(y)), y /= y), x /= x)
end function
real(8) function fmin48(x, y) result(res)
real(4), intent (in) :: x
real(8), intent (in) :: y
res = merge(y, merge(dble(x), min(dble(x), y), y /= y), x /= x)
end function
end module
real(8) function code(x)
use fmin_fmax_functions
real(8), intent (in) :: x
real(8) :: t_0
t_0 = 1.0d0 / (1.0d0 + (0.3275911d0 * abs(x)))
code = 1.0d0 - ((t_0 * (0.254829592d0 + (t_0 * ((-0.284496736d0) + (t_0 * (1.421413741d0 + (t_0 * ((-1.453152027d0) + (t_0 * 1.061405429d0))))))))) * exp(-(abs(x) * abs(x))))
end function
public static double code(double x) {
double t_0 = 1.0 / (1.0 + (0.3275911 * Math.abs(x)));
return 1.0 - ((t_0 * (0.254829592 + (t_0 * (-0.284496736 + (t_0 * (1.421413741 + (t_0 * (-1.453152027 + (t_0 * 1.061405429))))))))) * Math.exp(-(Math.abs(x) * Math.abs(x))));
}
def code(x): t_0 = 1.0 / (1.0 + (0.3275911 * math.fabs(x))) return 1.0 - ((t_0 * (0.254829592 + (t_0 * (-0.284496736 + (t_0 * (1.421413741 + (t_0 * (-1.453152027 + (t_0 * 1.061405429))))))))) * math.exp(-(math.fabs(x) * math.fabs(x))))
function code(x) t_0 = Float64(1.0 / Float64(1.0 + Float64(0.3275911 * abs(x)))) return Float64(1.0 - Float64(Float64(t_0 * Float64(0.254829592 + Float64(t_0 * Float64(-0.284496736 + Float64(t_0 * Float64(1.421413741 + Float64(t_0 * Float64(-1.453152027 + Float64(t_0 * 1.061405429))))))))) * exp(Float64(-Float64(abs(x) * abs(x)))))) end
function tmp = code(x) t_0 = 1.0 / (1.0 + (0.3275911 * abs(x))); tmp = 1.0 - ((t_0 * (0.254829592 + (t_0 * (-0.284496736 + (t_0 * (1.421413741 + (t_0 * (-1.453152027 + (t_0 * 1.061405429))))))))) * exp(-(abs(x) * abs(x)))); end
code[x_] := Block[{t$95$0 = N[(1.0 / N[(1.0 + N[(0.3275911 * N[Abs[x], $MachinePrecision]), $MachinePrecision]), $MachinePrecision]), $MachinePrecision]}, N[(1.0 - N[(N[(t$95$0 * N[(0.254829592 + N[(t$95$0 * N[(-0.284496736 + N[(t$95$0 * N[(1.421413741 + N[(t$95$0 * N[(-1.453152027 + N[(t$95$0 * 1.061405429), $MachinePrecision]), $MachinePrecision]), $MachinePrecision]), $MachinePrecision]), $MachinePrecision]), $MachinePrecision]), $MachinePrecision]), $MachinePrecision]), $MachinePrecision] * N[Exp[(-N[(N[Abs[x], $MachinePrecision] * N[Abs[x], $MachinePrecision]), $MachinePrecision])], $MachinePrecision]), $MachinePrecision]), $MachinePrecision]]
\begin{array}{l}
t_0 := \frac{1}{1 + 0.3275911 \cdot \left|x\right|}\\
1 - \left(t\_0 \cdot \left(0.254829592 + t\_0 \cdot \left(-0.284496736 + t\_0 \cdot \left(1.421413741 + t\_0 \cdot \left(-1.453152027 + t\_0 \cdot 1.061405429\right)\right)\right)\right)\right) \cdot e^{-\left|x\right| \cdot \left|x\right|}
\end{array}
Herbie found 13 alternatives:
| Alternative | Accuracy | Speedup |
|---|
(FPCore (x)
:precision binary64
(let* ((t_0 (/ 1.0 (+ 1.0 (* 0.3275911 (fabs x))))))
(-
1.0
(*
(*
t_0
(+
0.254829592
(*
t_0
(+
-0.284496736
(*
t_0
(+ 1.421413741 (* t_0 (+ -1.453152027 (* t_0 1.061405429)))))))))
(exp (- (* (fabs x) (fabs x))))))))double code(double x) {
double t_0 = 1.0 / (1.0 + (0.3275911 * fabs(x)));
return 1.0 - ((t_0 * (0.254829592 + (t_0 * (-0.284496736 + (t_0 * (1.421413741 + (t_0 * (-1.453152027 + (t_0 * 1.061405429))))))))) * exp(-(fabs(x) * fabs(x))));
}
module fmin_fmax_functions
implicit none
private
public fmax
public fmin
interface fmax
module procedure fmax88
module procedure fmax44
module procedure fmax84
module procedure fmax48
end interface
interface fmin
module procedure fmin88
module procedure fmin44
module procedure fmin84
module procedure fmin48
end interface
contains
real(8) function fmax88(x, y) result (res)
real(8), intent (in) :: x
real(8), intent (in) :: y
res = merge(y, merge(x, max(x, y), y /= y), x /= x)
end function
real(4) function fmax44(x, y) result (res)
real(4), intent (in) :: x
real(4), intent (in) :: y
res = merge(y, merge(x, max(x, y), y /= y), x /= x)
end function
real(8) function fmax84(x, y) result(res)
real(8), intent (in) :: x
real(4), intent (in) :: y
res = merge(dble(y), merge(x, max(x, dble(y)), y /= y), x /= x)
end function
real(8) function fmax48(x, y) result(res)
real(4), intent (in) :: x
real(8), intent (in) :: y
res = merge(y, merge(dble(x), max(dble(x), y), y /= y), x /= x)
end function
real(8) function fmin88(x, y) result (res)
real(8), intent (in) :: x
real(8), intent (in) :: y
res = merge(y, merge(x, min(x, y), y /= y), x /= x)
end function
real(4) function fmin44(x, y) result (res)
real(4), intent (in) :: x
real(4), intent (in) :: y
res = merge(y, merge(x, min(x, y), y /= y), x /= x)
end function
real(8) function fmin84(x, y) result(res)
real(8), intent (in) :: x
real(4), intent (in) :: y
res = merge(dble(y), merge(x, min(x, dble(y)), y /= y), x /= x)
end function
real(8) function fmin48(x, y) result(res)
real(4), intent (in) :: x
real(8), intent (in) :: y
res = merge(y, merge(dble(x), min(dble(x), y), y /= y), x /= x)
end function
end module
real(8) function code(x)
use fmin_fmax_functions
real(8), intent (in) :: x
real(8) :: t_0
t_0 = 1.0d0 / (1.0d0 + (0.3275911d0 * abs(x)))
code = 1.0d0 - ((t_0 * (0.254829592d0 + (t_0 * ((-0.284496736d0) + (t_0 * (1.421413741d0 + (t_0 * ((-1.453152027d0) + (t_0 * 1.061405429d0))))))))) * exp(-(abs(x) * abs(x))))
end function
public static double code(double x) {
double t_0 = 1.0 / (1.0 + (0.3275911 * Math.abs(x)));
return 1.0 - ((t_0 * (0.254829592 + (t_0 * (-0.284496736 + (t_0 * (1.421413741 + (t_0 * (-1.453152027 + (t_0 * 1.061405429))))))))) * Math.exp(-(Math.abs(x) * Math.abs(x))));
}
def code(x): t_0 = 1.0 / (1.0 + (0.3275911 * math.fabs(x))) return 1.0 - ((t_0 * (0.254829592 + (t_0 * (-0.284496736 + (t_0 * (1.421413741 + (t_0 * (-1.453152027 + (t_0 * 1.061405429))))))))) * math.exp(-(math.fabs(x) * math.fabs(x))))
function code(x) t_0 = Float64(1.0 / Float64(1.0 + Float64(0.3275911 * abs(x)))) return Float64(1.0 - Float64(Float64(t_0 * Float64(0.254829592 + Float64(t_0 * Float64(-0.284496736 + Float64(t_0 * Float64(1.421413741 + Float64(t_0 * Float64(-1.453152027 + Float64(t_0 * 1.061405429))))))))) * exp(Float64(-Float64(abs(x) * abs(x)))))) end
function tmp = code(x) t_0 = 1.0 / (1.0 + (0.3275911 * abs(x))); tmp = 1.0 - ((t_0 * (0.254829592 + (t_0 * (-0.284496736 + (t_0 * (1.421413741 + (t_0 * (-1.453152027 + (t_0 * 1.061405429))))))))) * exp(-(abs(x) * abs(x)))); end
code[x_] := Block[{t$95$0 = N[(1.0 / N[(1.0 + N[(0.3275911 * N[Abs[x], $MachinePrecision]), $MachinePrecision]), $MachinePrecision]), $MachinePrecision]}, N[(1.0 - N[(N[(t$95$0 * N[(0.254829592 + N[(t$95$0 * N[(-0.284496736 + N[(t$95$0 * N[(1.421413741 + N[(t$95$0 * N[(-1.453152027 + N[(t$95$0 * 1.061405429), $MachinePrecision]), $MachinePrecision]), $MachinePrecision]), $MachinePrecision]), $MachinePrecision]), $MachinePrecision]), $MachinePrecision]), $MachinePrecision]), $MachinePrecision] * N[Exp[(-N[(N[Abs[x], $MachinePrecision] * N[Abs[x], $MachinePrecision]), $MachinePrecision])], $MachinePrecision]), $MachinePrecision]), $MachinePrecision]]
\begin{array}{l}
t_0 := \frac{1}{1 + 0.3275911 \cdot \left|x\right|}\\
1 - \left(t\_0 \cdot \left(0.254829592 + t\_0 \cdot \left(-0.284496736 + t\_0 \cdot \left(1.421413741 + t\_0 \cdot \left(-1.453152027 + t\_0 \cdot 1.061405429\right)\right)\right)\right)\right) \cdot e^{-\left|x\right| \cdot \left|x\right|}
\end{array}
(FPCore (x)
:precision binary64
(let* ((t_0 (exp (* x x)))
(t_1 (fma -0.3275911 (fabs x) -1.0))
(t_2 (fma 0.3275911 (fabs x) 1.0))
(t_3
(-
(/
(-
(/
(- (/ (- (/ -1.061405429 t_2) -1.453152027) t_2) 1.421413741)
t_2)
-0.284496736)
t_1)
-0.254829592))
(t_4 (* t_0 t_2))
(t_5 (fma (fabs x) 0.3275911 1.0)))
(/
(-
(pow 1.0 3.0)
(/
1.0
(/
(pow t_4 3.0)
(pow
(-
(/
(-
(/ (- (/ (- (/ 1.061405429 t_2) 1.453152027) t_1) 1.421413741) t_2)
-0.284496736)
t_1)
-0.254829592)
3.0))))
(fma
(/ (- (pow (/ t_3 (* t_1 t_0)) 2.0) (* 1.0 1.0)) (- (/ t_3 t_4) 1.0))
(/
(-
(/
(-
(/ (- (/ (- (/ -1.061405429 t_5) -1.453152027) t_5) 1.421413741) t_5)
-0.284496736)
t_1)
-0.254829592)
(* t_5 t_0))
1.0))))double code(double x) {
double t_0 = exp((x * x));
double t_1 = fma(-0.3275911, fabs(x), -1.0);
double t_2 = fma(0.3275911, fabs(x), 1.0);
double t_3 = (((((((-1.061405429 / t_2) - -1.453152027) / t_2) - 1.421413741) / t_2) - -0.284496736) / t_1) - -0.254829592;
double t_4 = t_0 * t_2;
double t_5 = fma(fabs(x), 0.3275911, 1.0);
return (pow(1.0, 3.0) - (1.0 / (pow(t_4, 3.0) / pow(((((((((1.061405429 / t_2) - 1.453152027) / t_1) - 1.421413741) / t_2) - -0.284496736) / t_1) - -0.254829592), 3.0)))) / fma(((pow((t_3 / (t_1 * t_0)), 2.0) - (1.0 * 1.0)) / ((t_3 / t_4) - 1.0)), (((((((((-1.061405429 / t_5) - -1.453152027) / t_5) - 1.421413741) / t_5) - -0.284496736) / t_1) - -0.254829592) / (t_5 * t_0)), 1.0);
}
function code(x) t_0 = exp(Float64(x * x)) t_1 = fma(-0.3275911, abs(x), -1.0) t_2 = fma(0.3275911, abs(x), 1.0) t_3 = Float64(Float64(Float64(Float64(Float64(Float64(Float64(Float64(-1.061405429 / t_2) - -1.453152027) / t_2) - 1.421413741) / t_2) - -0.284496736) / t_1) - -0.254829592) t_4 = Float64(t_0 * t_2) t_5 = fma(abs(x), 0.3275911, 1.0) return Float64(Float64((1.0 ^ 3.0) - Float64(1.0 / Float64((t_4 ^ 3.0) / (Float64(Float64(Float64(Float64(Float64(Float64(Float64(Float64(1.061405429 / t_2) - 1.453152027) / t_1) - 1.421413741) / t_2) - -0.284496736) / t_1) - -0.254829592) ^ 3.0)))) / fma(Float64(Float64((Float64(t_3 / Float64(t_1 * t_0)) ^ 2.0) - Float64(1.0 * 1.0)) / Float64(Float64(t_3 / t_4) - 1.0)), Float64(Float64(Float64(Float64(Float64(Float64(Float64(Float64(Float64(-1.061405429 / t_5) - -1.453152027) / t_5) - 1.421413741) / t_5) - -0.284496736) / t_1) - -0.254829592) / Float64(t_5 * t_0)), 1.0)) end
code[x_] := Block[{t$95$0 = N[Exp[N[(x * x), $MachinePrecision]], $MachinePrecision]}, Block[{t$95$1 = N[(-0.3275911 * N[Abs[x], $MachinePrecision] + -1.0), $MachinePrecision]}, Block[{t$95$2 = N[(0.3275911 * N[Abs[x], $MachinePrecision] + 1.0), $MachinePrecision]}, Block[{t$95$3 = N[(N[(N[(N[(N[(N[(N[(N[(-1.061405429 / t$95$2), $MachinePrecision] - -1.453152027), $MachinePrecision] / t$95$2), $MachinePrecision] - 1.421413741), $MachinePrecision] / t$95$2), $MachinePrecision] - -0.284496736), $MachinePrecision] / t$95$1), $MachinePrecision] - -0.254829592), $MachinePrecision]}, Block[{t$95$4 = N[(t$95$0 * t$95$2), $MachinePrecision]}, Block[{t$95$5 = N[(N[Abs[x], $MachinePrecision] * 0.3275911 + 1.0), $MachinePrecision]}, N[(N[(N[Power[1.0, 3.0], $MachinePrecision] - N[(1.0 / N[(N[Power[t$95$4, 3.0], $MachinePrecision] / N[Power[N[(N[(N[(N[(N[(N[(N[(N[(1.061405429 / t$95$2), $MachinePrecision] - 1.453152027), $MachinePrecision] / t$95$1), $MachinePrecision] - 1.421413741), $MachinePrecision] / t$95$2), $MachinePrecision] - -0.284496736), $MachinePrecision] / t$95$1), $MachinePrecision] - -0.254829592), $MachinePrecision], 3.0], $MachinePrecision]), $MachinePrecision]), $MachinePrecision]), $MachinePrecision] / N[(N[(N[(N[Power[N[(t$95$3 / N[(t$95$1 * t$95$0), $MachinePrecision]), $MachinePrecision], 2.0], $MachinePrecision] - N[(1.0 * 1.0), $MachinePrecision]), $MachinePrecision] / N[(N[(t$95$3 / t$95$4), $MachinePrecision] - 1.0), $MachinePrecision]), $MachinePrecision] * N[(N[(N[(N[(N[(N[(N[(N[(N[(-1.061405429 / t$95$5), $MachinePrecision] - -1.453152027), $MachinePrecision] / t$95$5), $MachinePrecision] - 1.421413741), $MachinePrecision] / t$95$5), $MachinePrecision] - -0.284496736), $MachinePrecision] / t$95$1), $MachinePrecision] - -0.254829592), $MachinePrecision] / N[(t$95$5 * t$95$0), $MachinePrecision]), $MachinePrecision] + 1.0), $MachinePrecision]), $MachinePrecision]]]]]]]
\begin{array}{l}
t_0 := e^{x \cdot x}\\
t_1 := \mathsf{fma}\left(-0.3275911, \left|x\right|, -1\right)\\
t_2 := \mathsf{fma}\left(0.3275911, \left|x\right|, 1\right)\\
t_3 := \frac{\frac{\frac{\frac{-1.061405429}{t\_2} - -1.453152027}{t\_2} - 1.421413741}{t\_2} - -0.284496736}{t\_1} - -0.254829592\\
t_4 := t\_0 \cdot t\_2\\
t_5 := \mathsf{fma}\left(\left|x\right|, 0.3275911, 1\right)\\
\frac{{1}^{3} - \frac{1}{\frac{{t\_4}^{3}}{{\left(\frac{\frac{\frac{\frac{1.061405429}{t\_2} - 1.453152027}{t\_1} - 1.421413741}{t\_2} - -0.284496736}{t\_1} - -0.254829592\right)}^{3}}}}{\mathsf{fma}\left(\frac{{\left(\frac{t\_3}{t\_1 \cdot t\_0}\right)}^{2} - 1 \cdot 1}{\frac{t\_3}{t\_4} - 1}, \frac{\frac{\frac{\frac{\frac{-1.061405429}{t\_5} - -1.453152027}{t\_5} - 1.421413741}{t\_5} - -0.284496736}{t\_1} - -0.254829592}{t\_5 \cdot t\_0}, 1\right)}
\end{array}
Initial program 79.2%
Applied rewrites79.2%
Applied rewrites80.3%
lift-fma.f64N/A
Applied rewrites80.3%
Applied rewrites80.4%
(FPCore (x)
:precision binary64
(let* ((t_0 (fma (fabs x) 0.3275911 1.0))
(t_1 (fma -0.3275911 (fabs x) -1.0))
(t_2 (exp (* x x)))
(t_3 (fma 0.3275911 (fabs x) 1.0))
(t_4
(*
(-
(/
(-
(/
(- (/ (- (/ -1.061405429 t_3) -1.453152027) t_3) 1.421413741)
t_3)
-0.284496736)
t_1)
-0.254829592)
(/ -1.0 (* t_1 t_2)))))
(/
(-
(pow 1.0 3.0)
(*
(pow (* t_0 t_2) -3.0)
(pow
(pow
(-
(/
(-
(/ (- (/ (- (/ 1.061405429 t_0) 1.453152027) t_1) 1.421413741) t_0)
-0.284496736)
t_1)
-0.254829592)
-3.0)
-1.0)))
(fma 1.0 1.0 (fma t_4 t_4 t_4)))))double code(double x) {
double t_0 = fma(fabs(x), 0.3275911, 1.0);
double t_1 = fma(-0.3275911, fabs(x), -1.0);
double t_2 = exp((x * x));
double t_3 = fma(0.3275911, fabs(x), 1.0);
double t_4 = ((((((((-1.061405429 / t_3) - -1.453152027) / t_3) - 1.421413741) / t_3) - -0.284496736) / t_1) - -0.254829592) * (-1.0 / (t_1 * t_2));
return (pow(1.0, 3.0) - (pow((t_0 * t_2), -3.0) * pow(pow(((((((((1.061405429 / t_0) - 1.453152027) / t_1) - 1.421413741) / t_0) - -0.284496736) / t_1) - -0.254829592), -3.0), -1.0))) / fma(1.0, 1.0, fma(t_4, t_4, t_4));
}
function code(x) t_0 = fma(abs(x), 0.3275911, 1.0) t_1 = fma(-0.3275911, abs(x), -1.0) t_2 = exp(Float64(x * x)) t_3 = fma(0.3275911, abs(x), 1.0) t_4 = Float64(Float64(Float64(Float64(Float64(Float64(Float64(Float64(Float64(-1.061405429 / t_3) - -1.453152027) / t_3) - 1.421413741) / t_3) - -0.284496736) / t_1) - -0.254829592) * Float64(-1.0 / Float64(t_1 * t_2))) return Float64(Float64((1.0 ^ 3.0) - Float64((Float64(t_0 * t_2) ^ -3.0) * ((Float64(Float64(Float64(Float64(Float64(Float64(Float64(Float64(1.061405429 / t_0) - 1.453152027) / t_1) - 1.421413741) / t_0) - -0.284496736) / t_1) - -0.254829592) ^ -3.0) ^ -1.0))) / fma(1.0, 1.0, fma(t_4, t_4, t_4))) end
code[x_] := Block[{t$95$0 = N[(N[Abs[x], $MachinePrecision] * 0.3275911 + 1.0), $MachinePrecision]}, Block[{t$95$1 = N[(-0.3275911 * N[Abs[x], $MachinePrecision] + -1.0), $MachinePrecision]}, Block[{t$95$2 = N[Exp[N[(x * x), $MachinePrecision]], $MachinePrecision]}, Block[{t$95$3 = N[(0.3275911 * N[Abs[x], $MachinePrecision] + 1.0), $MachinePrecision]}, Block[{t$95$4 = N[(N[(N[(N[(N[(N[(N[(N[(N[(-1.061405429 / t$95$3), $MachinePrecision] - -1.453152027), $MachinePrecision] / t$95$3), $MachinePrecision] - 1.421413741), $MachinePrecision] / t$95$3), $MachinePrecision] - -0.284496736), $MachinePrecision] / t$95$1), $MachinePrecision] - -0.254829592), $MachinePrecision] * N[(-1.0 / N[(t$95$1 * t$95$2), $MachinePrecision]), $MachinePrecision]), $MachinePrecision]}, N[(N[(N[Power[1.0, 3.0], $MachinePrecision] - N[(N[Power[N[(t$95$0 * t$95$2), $MachinePrecision], -3.0], $MachinePrecision] * N[Power[N[Power[N[(N[(N[(N[(N[(N[(N[(N[(1.061405429 / t$95$0), $MachinePrecision] - 1.453152027), $MachinePrecision] / t$95$1), $MachinePrecision] - 1.421413741), $MachinePrecision] / t$95$0), $MachinePrecision] - -0.284496736), $MachinePrecision] / t$95$1), $MachinePrecision] - -0.254829592), $MachinePrecision], -3.0], $MachinePrecision], -1.0], $MachinePrecision]), $MachinePrecision]), $MachinePrecision] / N[(1.0 * 1.0 + N[(t$95$4 * t$95$4 + t$95$4), $MachinePrecision]), $MachinePrecision]), $MachinePrecision]]]]]]
\begin{array}{l}
t_0 := \mathsf{fma}\left(\left|x\right|, 0.3275911, 1\right)\\
t_1 := \mathsf{fma}\left(-0.3275911, \left|x\right|, -1\right)\\
t_2 := e^{x \cdot x}\\
t_3 := \mathsf{fma}\left(0.3275911, \left|x\right|, 1\right)\\
t_4 := \left(\frac{\frac{\frac{\frac{-1.061405429}{t\_3} - -1.453152027}{t\_3} - 1.421413741}{t\_3} - -0.284496736}{t\_1} - -0.254829592\right) \cdot \frac{-1}{t\_1 \cdot t\_2}\\
\frac{{1}^{3} - {\left(t\_0 \cdot t\_2\right)}^{-3} \cdot {\left({\left(\frac{\frac{\frac{\frac{1.061405429}{t\_0} - 1.453152027}{t\_1} - 1.421413741}{t\_0} - -0.284496736}{t\_1} - -0.254829592\right)}^{-3}\right)}^{-1}}{\mathsf{fma}\left(1, 1, \mathsf{fma}\left(t\_4, t\_4, t\_4\right)\right)}
\end{array}
Initial program 79.2%
Applied rewrites79.2%
Applied rewrites80.3%
Applied rewrites80.3%
Applied rewrites80.3%
Applied rewrites80.3%
Applied rewrites80.3%
(FPCore (x)
:precision binary64
(let* ((t_0 (fma (fabs x) 0.3275911 1.0))
(t_1 (fma -0.3275911 (fabs x) -1.0))
(t_2 (exp (* x x)))
(t_3 (fma 0.3275911 (fabs x) 1.0))
(t_4
(-
(/
(-
(/
(- (/ (- (/ -1.061405429 t_3) -1.453152027) t_3) 1.421413741)
t_3)
-0.284496736)
t_1)
-0.254829592)))
(/
(-
(pow 1.0 3.0)
(*
(pow (* t_0 t_2) -3.0)
(pow
(pow
(-
(/
(-
(/ (- (/ (- (/ 1.061405429 t_0) 1.453152027) t_1) 1.421413741) t_0)
-0.284496736)
t_1)
-0.254829592)
-3.0)
-1.0)))
(fma (* (- (/ t_4 (* t_2 t_3)) -1.0) t_4) (/ -1.0 (* t_1 t_2)) 1.0))))double code(double x) {
double t_0 = fma(fabs(x), 0.3275911, 1.0);
double t_1 = fma(-0.3275911, fabs(x), -1.0);
double t_2 = exp((x * x));
double t_3 = fma(0.3275911, fabs(x), 1.0);
double t_4 = (((((((-1.061405429 / t_3) - -1.453152027) / t_3) - 1.421413741) / t_3) - -0.284496736) / t_1) - -0.254829592;
return (pow(1.0, 3.0) - (pow((t_0 * t_2), -3.0) * pow(pow(((((((((1.061405429 / t_0) - 1.453152027) / t_1) - 1.421413741) / t_0) - -0.284496736) / t_1) - -0.254829592), -3.0), -1.0))) / fma((((t_4 / (t_2 * t_3)) - -1.0) * t_4), (-1.0 / (t_1 * t_2)), 1.0);
}
function code(x) t_0 = fma(abs(x), 0.3275911, 1.0) t_1 = fma(-0.3275911, abs(x), -1.0) t_2 = exp(Float64(x * x)) t_3 = fma(0.3275911, abs(x), 1.0) t_4 = Float64(Float64(Float64(Float64(Float64(Float64(Float64(Float64(-1.061405429 / t_3) - -1.453152027) / t_3) - 1.421413741) / t_3) - -0.284496736) / t_1) - -0.254829592) return Float64(Float64((1.0 ^ 3.0) - Float64((Float64(t_0 * t_2) ^ -3.0) * ((Float64(Float64(Float64(Float64(Float64(Float64(Float64(Float64(1.061405429 / t_0) - 1.453152027) / t_1) - 1.421413741) / t_0) - -0.284496736) / t_1) - -0.254829592) ^ -3.0) ^ -1.0))) / fma(Float64(Float64(Float64(t_4 / Float64(t_2 * t_3)) - -1.0) * t_4), Float64(-1.0 / Float64(t_1 * t_2)), 1.0)) end
code[x_] := Block[{t$95$0 = N[(N[Abs[x], $MachinePrecision] * 0.3275911 + 1.0), $MachinePrecision]}, Block[{t$95$1 = N[(-0.3275911 * N[Abs[x], $MachinePrecision] + -1.0), $MachinePrecision]}, Block[{t$95$2 = N[Exp[N[(x * x), $MachinePrecision]], $MachinePrecision]}, Block[{t$95$3 = N[(0.3275911 * N[Abs[x], $MachinePrecision] + 1.0), $MachinePrecision]}, Block[{t$95$4 = N[(N[(N[(N[(N[(N[(N[(N[(-1.061405429 / t$95$3), $MachinePrecision] - -1.453152027), $MachinePrecision] / t$95$3), $MachinePrecision] - 1.421413741), $MachinePrecision] / t$95$3), $MachinePrecision] - -0.284496736), $MachinePrecision] / t$95$1), $MachinePrecision] - -0.254829592), $MachinePrecision]}, N[(N[(N[Power[1.0, 3.0], $MachinePrecision] - N[(N[Power[N[(t$95$0 * t$95$2), $MachinePrecision], -3.0], $MachinePrecision] * N[Power[N[Power[N[(N[(N[(N[(N[(N[(N[(N[(1.061405429 / t$95$0), $MachinePrecision] - 1.453152027), $MachinePrecision] / t$95$1), $MachinePrecision] - 1.421413741), $MachinePrecision] / t$95$0), $MachinePrecision] - -0.284496736), $MachinePrecision] / t$95$1), $MachinePrecision] - -0.254829592), $MachinePrecision], -3.0], $MachinePrecision], -1.0], $MachinePrecision]), $MachinePrecision]), $MachinePrecision] / N[(N[(N[(N[(t$95$4 / N[(t$95$2 * t$95$3), $MachinePrecision]), $MachinePrecision] - -1.0), $MachinePrecision] * t$95$4), $MachinePrecision] * N[(-1.0 / N[(t$95$1 * t$95$2), $MachinePrecision]), $MachinePrecision] + 1.0), $MachinePrecision]), $MachinePrecision]]]]]]
\begin{array}{l}
t_0 := \mathsf{fma}\left(\left|x\right|, 0.3275911, 1\right)\\
t_1 := \mathsf{fma}\left(-0.3275911, \left|x\right|, -1\right)\\
t_2 := e^{x \cdot x}\\
t_3 := \mathsf{fma}\left(0.3275911, \left|x\right|, 1\right)\\
t_4 := \frac{\frac{\frac{\frac{-1.061405429}{t\_3} - -1.453152027}{t\_3} - 1.421413741}{t\_3} - -0.284496736}{t\_1} - -0.254829592\\
\frac{{1}^{3} - {\left(t\_0 \cdot t\_2\right)}^{-3} \cdot {\left({\left(\frac{\frac{\frac{\frac{1.061405429}{t\_0} - 1.453152027}{t\_1} - 1.421413741}{t\_0} - -0.284496736}{t\_1} - -0.254829592\right)}^{-3}\right)}^{-1}}{\mathsf{fma}\left(\left(\frac{t\_4}{t\_2 \cdot t\_3} - -1\right) \cdot t\_4, \frac{-1}{t\_1 \cdot t\_2}, 1\right)}
\end{array}
Initial program 79.2%
Applied rewrites79.2%
Applied rewrites80.3%
Applied rewrites80.3%
Applied rewrites80.3%
(FPCore (x)
:precision binary64
(let* ((t_0 (fma (fabs x) 0.3275911 1.0))
(t_1 (fma -0.3275911 (fabs x) -1.0))
(t_2 (exp (* x x)))
(t_3 (fma 0.3275911 (fabs x) 1.0))
(t_4
(/
(-
(/
(-
(/
(- (/ (- (/ -1.061405429 t_3) -1.453152027) t_3) 1.421413741)
t_3)
-0.284496736)
t_1)
-0.254829592)
(* t_2 t_3))))
(/
(-
(pow 1.0 3.0)
(*
(pow (* t_0 t_2) -3.0)
(pow
(pow
(-
(/
(-
(/ (- (/ (- (/ 1.061405429 t_0) 1.453152027) t_1) 1.421413741) t_0)
-0.284496736)
t_1)
-0.254829592)
-3.0)
-1.0)))
(fma t_4 (- t_4 -1.0) 1.0))))double code(double x) {
double t_0 = fma(fabs(x), 0.3275911, 1.0);
double t_1 = fma(-0.3275911, fabs(x), -1.0);
double t_2 = exp((x * x));
double t_3 = fma(0.3275911, fabs(x), 1.0);
double t_4 = ((((((((-1.061405429 / t_3) - -1.453152027) / t_3) - 1.421413741) / t_3) - -0.284496736) / t_1) - -0.254829592) / (t_2 * t_3);
return (pow(1.0, 3.0) - (pow((t_0 * t_2), -3.0) * pow(pow(((((((((1.061405429 / t_0) - 1.453152027) / t_1) - 1.421413741) / t_0) - -0.284496736) / t_1) - -0.254829592), -3.0), -1.0))) / fma(t_4, (t_4 - -1.0), 1.0);
}
function code(x) t_0 = fma(abs(x), 0.3275911, 1.0) t_1 = fma(-0.3275911, abs(x), -1.0) t_2 = exp(Float64(x * x)) t_3 = fma(0.3275911, abs(x), 1.0) t_4 = Float64(Float64(Float64(Float64(Float64(Float64(Float64(Float64(Float64(-1.061405429 / t_3) - -1.453152027) / t_3) - 1.421413741) / t_3) - -0.284496736) / t_1) - -0.254829592) / Float64(t_2 * t_3)) return Float64(Float64((1.0 ^ 3.0) - Float64((Float64(t_0 * t_2) ^ -3.0) * ((Float64(Float64(Float64(Float64(Float64(Float64(Float64(Float64(1.061405429 / t_0) - 1.453152027) / t_1) - 1.421413741) / t_0) - -0.284496736) / t_1) - -0.254829592) ^ -3.0) ^ -1.0))) / fma(t_4, Float64(t_4 - -1.0), 1.0)) end
code[x_] := Block[{t$95$0 = N[(N[Abs[x], $MachinePrecision] * 0.3275911 + 1.0), $MachinePrecision]}, Block[{t$95$1 = N[(-0.3275911 * N[Abs[x], $MachinePrecision] + -1.0), $MachinePrecision]}, Block[{t$95$2 = N[Exp[N[(x * x), $MachinePrecision]], $MachinePrecision]}, Block[{t$95$3 = N[(0.3275911 * N[Abs[x], $MachinePrecision] + 1.0), $MachinePrecision]}, Block[{t$95$4 = N[(N[(N[(N[(N[(N[(N[(N[(N[(-1.061405429 / t$95$3), $MachinePrecision] - -1.453152027), $MachinePrecision] / t$95$3), $MachinePrecision] - 1.421413741), $MachinePrecision] / t$95$3), $MachinePrecision] - -0.284496736), $MachinePrecision] / t$95$1), $MachinePrecision] - -0.254829592), $MachinePrecision] / N[(t$95$2 * t$95$3), $MachinePrecision]), $MachinePrecision]}, N[(N[(N[Power[1.0, 3.0], $MachinePrecision] - N[(N[Power[N[(t$95$0 * t$95$2), $MachinePrecision], -3.0], $MachinePrecision] * N[Power[N[Power[N[(N[(N[(N[(N[(N[(N[(N[(1.061405429 / t$95$0), $MachinePrecision] - 1.453152027), $MachinePrecision] / t$95$1), $MachinePrecision] - 1.421413741), $MachinePrecision] / t$95$0), $MachinePrecision] - -0.284496736), $MachinePrecision] / t$95$1), $MachinePrecision] - -0.254829592), $MachinePrecision], -3.0], $MachinePrecision], -1.0], $MachinePrecision]), $MachinePrecision]), $MachinePrecision] / N[(t$95$4 * N[(t$95$4 - -1.0), $MachinePrecision] + 1.0), $MachinePrecision]), $MachinePrecision]]]]]]
\begin{array}{l}
t_0 := \mathsf{fma}\left(\left|x\right|, 0.3275911, 1\right)\\
t_1 := \mathsf{fma}\left(-0.3275911, \left|x\right|, -1\right)\\
t_2 := e^{x \cdot x}\\
t_3 := \mathsf{fma}\left(0.3275911, \left|x\right|, 1\right)\\
t_4 := \frac{\frac{\frac{\frac{\frac{-1.061405429}{t\_3} - -1.453152027}{t\_3} - 1.421413741}{t\_3} - -0.284496736}{t\_1} - -0.254829592}{t\_2 \cdot t\_3}\\
\frac{{1}^{3} - {\left(t\_0 \cdot t\_2\right)}^{-3} \cdot {\left({\left(\frac{\frac{\frac{\frac{1.061405429}{t\_0} - 1.453152027}{t\_1} - 1.421413741}{t\_0} - -0.284496736}{t\_1} - -0.254829592\right)}^{-3}\right)}^{-1}}{\mathsf{fma}\left(t\_4, t\_4 - -1, 1\right)}
\end{array}
Initial program 79.2%
Applied rewrites79.2%
Applied rewrites80.3%
Applied rewrites80.3%
Applied rewrites80.3%
(FPCore (x)
:precision binary64
(let* ((t_0 (exp (* x x)))
(t_1 (fma -0.3275911 (fabs x) -1.0))
(t_2 (fma 0.3275911 (fabs x) 1.0))
(t_3 (fma (fabs x) 0.3275911 1.0))
(t_4
(/
(-
(/
(-
(/
(- (/ (- (/ -1.061405429 t_3) -1.453152027) t_3) 1.421413741)
t_3)
-0.284496736)
t_1)
-0.254829592)
(* t_3 t_0))))
(/
(-
(pow 1.0 3.0)
(/
1.0
(/
(pow (* t_0 t_2) 3.0)
(pow
(-
(/
(-
(/ (- (/ (- (/ 1.061405429 t_2) 1.453152027) t_1) 1.421413741) t_2)
-0.284496736)
t_1)
-0.254829592)
3.0))))
(fma (- t_4 -1.0) t_4 1.0))))double code(double x) {
double t_0 = exp((x * x));
double t_1 = fma(-0.3275911, fabs(x), -1.0);
double t_2 = fma(0.3275911, fabs(x), 1.0);
double t_3 = fma(fabs(x), 0.3275911, 1.0);
double t_4 = ((((((((-1.061405429 / t_3) - -1.453152027) / t_3) - 1.421413741) / t_3) - -0.284496736) / t_1) - -0.254829592) / (t_3 * t_0);
return (pow(1.0, 3.0) - (1.0 / (pow((t_0 * t_2), 3.0) / pow(((((((((1.061405429 / t_2) - 1.453152027) / t_1) - 1.421413741) / t_2) - -0.284496736) / t_1) - -0.254829592), 3.0)))) / fma((t_4 - -1.0), t_4, 1.0);
}
function code(x) t_0 = exp(Float64(x * x)) t_1 = fma(-0.3275911, abs(x), -1.0) t_2 = fma(0.3275911, abs(x), 1.0) t_3 = fma(abs(x), 0.3275911, 1.0) t_4 = Float64(Float64(Float64(Float64(Float64(Float64(Float64(Float64(Float64(-1.061405429 / t_3) - -1.453152027) / t_3) - 1.421413741) / t_3) - -0.284496736) / t_1) - -0.254829592) / Float64(t_3 * t_0)) return Float64(Float64((1.0 ^ 3.0) - Float64(1.0 / Float64((Float64(t_0 * t_2) ^ 3.0) / (Float64(Float64(Float64(Float64(Float64(Float64(Float64(Float64(1.061405429 / t_2) - 1.453152027) / t_1) - 1.421413741) / t_2) - -0.284496736) / t_1) - -0.254829592) ^ 3.0)))) / fma(Float64(t_4 - -1.0), t_4, 1.0)) end
code[x_] := Block[{t$95$0 = N[Exp[N[(x * x), $MachinePrecision]], $MachinePrecision]}, Block[{t$95$1 = N[(-0.3275911 * N[Abs[x], $MachinePrecision] + -1.0), $MachinePrecision]}, Block[{t$95$2 = N[(0.3275911 * N[Abs[x], $MachinePrecision] + 1.0), $MachinePrecision]}, Block[{t$95$3 = N[(N[Abs[x], $MachinePrecision] * 0.3275911 + 1.0), $MachinePrecision]}, Block[{t$95$4 = N[(N[(N[(N[(N[(N[(N[(N[(N[(-1.061405429 / t$95$3), $MachinePrecision] - -1.453152027), $MachinePrecision] / t$95$3), $MachinePrecision] - 1.421413741), $MachinePrecision] / t$95$3), $MachinePrecision] - -0.284496736), $MachinePrecision] / t$95$1), $MachinePrecision] - -0.254829592), $MachinePrecision] / N[(t$95$3 * t$95$0), $MachinePrecision]), $MachinePrecision]}, N[(N[(N[Power[1.0, 3.0], $MachinePrecision] - N[(1.0 / N[(N[Power[N[(t$95$0 * t$95$2), $MachinePrecision], 3.0], $MachinePrecision] / N[Power[N[(N[(N[(N[(N[(N[(N[(N[(1.061405429 / t$95$2), $MachinePrecision] - 1.453152027), $MachinePrecision] / t$95$1), $MachinePrecision] - 1.421413741), $MachinePrecision] / t$95$2), $MachinePrecision] - -0.284496736), $MachinePrecision] / t$95$1), $MachinePrecision] - -0.254829592), $MachinePrecision], 3.0], $MachinePrecision]), $MachinePrecision]), $MachinePrecision]), $MachinePrecision] / N[(N[(t$95$4 - -1.0), $MachinePrecision] * t$95$4 + 1.0), $MachinePrecision]), $MachinePrecision]]]]]]
\begin{array}{l}
t_0 := e^{x \cdot x}\\
t_1 := \mathsf{fma}\left(-0.3275911, \left|x\right|, -1\right)\\
t_2 := \mathsf{fma}\left(0.3275911, \left|x\right|, 1\right)\\
t_3 := \mathsf{fma}\left(\left|x\right|, 0.3275911, 1\right)\\
t_4 := \frac{\frac{\frac{\frac{\frac{-1.061405429}{t\_3} - -1.453152027}{t\_3} - 1.421413741}{t\_3} - -0.284496736}{t\_1} - -0.254829592}{t\_3 \cdot t\_0}\\
\frac{{1}^{3} - \frac{1}{\frac{{\left(t\_0 \cdot t\_2\right)}^{3}}{{\left(\frac{\frac{\frac{\frac{1.061405429}{t\_2} - 1.453152027}{t\_1} - 1.421413741}{t\_2} - -0.284496736}{t\_1} - -0.254829592\right)}^{3}}}}{\mathsf{fma}\left(t\_4 - -1, t\_4, 1\right)}
\end{array}
Initial program 79.2%
Applied rewrites79.2%
Applied rewrites80.3%
lift-fma.f64N/A
Applied rewrites80.3%
(FPCore (x)
:precision binary64
(let* ((t_0 (fma (fabs x) 0.3275911 1.0))
(t_1 (fma -0.3275911 (fabs x) -1.0))
(t_2 (fma 0.3275911 (fabs x) 1.0))
(t_3 (exp (* x x)))
(t_4
(/
(-
(/
(-
(/
(- (/ (- (/ 1.061405429 t_2) 1.453152027) t_1) 1.421413741)
t_2)
-0.284496736)
t_1)
-0.254829592)
(* t_3 t_2))))
(/
(-
(pow 1.0 3.0)
(pow
(/
(-
(/
(-
(/ (- (/ (- (/ -1.061405429 t_0) -1.453152027) t_0) 1.421413741) t_0)
-0.284496736)
t_1)
-0.254829592)
(* t_3 t_0))
3.0))
(- (* (- t_4 -1.0) t_4) -1.0))))double code(double x) {
double t_0 = fma(fabs(x), 0.3275911, 1.0);
double t_1 = fma(-0.3275911, fabs(x), -1.0);
double t_2 = fma(0.3275911, fabs(x), 1.0);
double t_3 = exp((x * x));
double t_4 = ((((((((1.061405429 / t_2) - 1.453152027) / t_1) - 1.421413741) / t_2) - -0.284496736) / t_1) - -0.254829592) / (t_3 * t_2);
return (pow(1.0, 3.0) - pow((((((((((-1.061405429 / t_0) - -1.453152027) / t_0) - 1.421413741) / t_0) - -0.284496736) / t_1) - -0.254829592) / (t_3 * t_0)), 3.0)) / (((t_4 - -1.0) * t_4) - -1.0);
}
function code(x) t_0 = fma(abs(x), 0.3275911, 1.0) t_1 = fma(-0.3275911, abs(x), -1.0) t_2 = fma(0.3275911, abs(x), 1.0) t_3 = exp(Float64(x * x)) t_4 = Float64(Float64(Float64(Float64(Float64(Float64(Float64(Float64(Float64(1.061405429 / t_2) - 1.453152027) / t_1) - 1.421413741) / t_2) - -0.284496736) / t_1) - -0.254829592) / Float64(t_3 * t_2)) return Float64(Float64((1.0 ^ 3.0) - (Float64(Float64(Float64(Float64(Float64(Float64(Float64(Float64(Float64(-1.061405429 / t_0) - -1.453152027) / t_0) - 1.421413741) / t_0) - -0.284496736) / t_1) - -0.254829592) / Float64(t_3 * t_0)) ^ 3.0)) / Float64(Float64(Float64(t_4 - -1.0) * t_4) - -1.0)) end
code[x_] := Block[{t$95$0 = N[(N[Abs[x], $MachinePrecision] * 0.3275911 + 1.0), $MachinePrecision]}, Block[{t$95$1 = N[(-0.3275911 * N[Abs[x], $MachinePrecision] + -1.0), $MachinePrecision]}, Block[{t$95$2 = N[(0.3275911 * N[Abs[x], $MachinePrecision] + 1.0), $MachinePrecision]}, Block[{t$95$3 = N[Exp[N[(x * x), $MachinePrecision]], $MachinePrecision]}, Block[{t$95$4 = N[(N[(N[(N[(N[(N[(N[(N[(N[(1.061405429 / t$95$2), $MachinePrecision] - 1.453152027), $MachinePrecision] / t$95$1), $MachinePrecision] - 1.421413741), $MachinePrecision] / t$95$2), $MachinePrecision] - -0.284496736), $MachinePrecision] / t$95$1), $MachinePrecision] - -0.254829592), $MachinePrecision] / N[(t$95$3 * t$95$2), $MachinePrecision]), $MachinePrecision]}, N[(N[(N[Power[1.0, 3.0], $MachinePrecision] - N[Power[N[(N[(N[(N[(N[(N[(N[(N[(N[(-1.061405429 / t$95$0), $MachinePrecision] - -1.453152027), $MachinePrecision] / t$95$0), $MachinePrecision] - 1.421413741), $MachinePrecision] / t$95$0), $MachinePrecision] - -0.284496736), $MachinePrecision] / t$95$1), $MachinePrecision] - -0.254829592), $MachinePrecision] / N[(t$95$3 * t$95$0), $MachinePrecision]), $MachinePrecision], 3.0], $MachinePrecision]), $MachinePrecision] / N[(N[(N[(t$95$4 - -1.0), $MachinePrecision] * t$95$4), $MachinePrecision] - -1.0), $MachinePrecision]), $MachinePrecision]]]]]]
\begin{array}{l}
t_0 := \mathsf{fma}\left(\left|x\right|, 0.3275911, 1\right)\\
t_1 := \mathsf{fma}\left(-0.3275911, \left|x\right|, -1\right)\\
t_2 := \mathsf{fma}\left(0.3275911, \left|x\right|, 1\right)\\
t_3 := e^{x \cdot x}\\
t_4 := \frac{\frac{\frac{\frac{\frac{1.061405429}{t\_2} - 1.453152027}{t\_1} - 1.421413741}{t\_2} - -0.284496736}{t\_1} - -0.254829592}{t\_3 \cdot t\_2}\\
\frac{{1}^{3} - {\left(\frac{\frac{\frac{\frac{\frac{-1.061405429}{t\_0} - -1.453152027}{t\_0} - 1.421413741}{t\_0} - -0.284496736}{t\_1} - -0.254829592}{t\_3 \cdot t\_0}\right)}^{3}}{\left(t\_4 - -1\right) \cdot t\_4 - -1}
\end{array}
Initial program 79.2%
Applied rewrites79.2%
Applied rewrites79.2%
(FPCore (x)
:precision binary64
(let* ((t_0 (exp (* x x)))
(t_1 (fma 0.3275911 (fabs x) 1.0))
(t_2 (fma -0.3275911 (fabs x) -1.0))
(t_3
(-
(/
(-
(/ (- (/ (- (/ 1.061405429 t_1) 1.453152027) t_2) 1.421413741) t_1)
-0.284496736)
t_2)
-0.254829592))
(t_4 (/ t_3 (* t_0 t_1))))
(/ (- (pow t_4 3.0) 1.0) (fma (- t_4 -1.0) (/ t_3 (* t_0 t_2)) -1.0))))double code(double x) {
double t_0 = exp((x * x));
double t_1 = fma(0.3275911, fabs(x), 1.0);
double t_2 = fma(-0.3275911, fabs(x), -1.0);
double t_3 = (((((((1.061405429 / t_1) - 1.453152027) / t_2) - 1.421413741) / t_1) - -0.284496736) / t_2) - -0.254829592;
double t_4 = t_3 / (t_0 * t_1);
return (pow(t_4, 3.0) - 1.0) / fma((t_4 - -1.0), (t_3 / (t_0 * t_2)), -1.0);
}
function code(x) t_0 = exp(Float64(x * x)) t_1 = fma(0.3275911, abs(x), 1.0) t_2 = fma(-0.3275911, abs(x), -1.0) t_3 = Float64(Float64(Float64(Float64(Float64(Float64(Float64(Float64(1.061405429 / t_1) - 1.453152027) / t_2) - 1.421413741) / t_1) - -0.284496736) / t_2) - -0.254829592) t_4 = Float64(t_3 / Float64(t_0 * t_1)) return Float64(Float64((t_4 ^ 3.0) - 1.0) / fma(Float64(t_4 - -1.0), Float64(t_3 / Float64(t_0 * t_2)), -1.0)) end
code[x_] := Block[{t$95$0 = N[Exp[N[(x * x), $MachinePrecision]], $MachinePrecision]}, Block[{t$95$1 = N[(0.3275911 * N[Abs[x], $MachinePrecision] + 1.0), $MachinePrecision]}, Block[{t$95$2 = N[(-0.3275911 * N[Abs[x], $MachinePrecision] + -1.0), $MachinePrecision]}, Block[{t$95$3 = N[(N[(N[(N[(N[(N[(N[(N[(1.061405429 / t$95$1), $MachinePrecision] - 1.453152027), $MachinePrecision] / t$95$2), $MachinePrecision] - 1.421413741), $MachinePrecision] / t$95$1), $MachinePrecision] - -0.284496736), $MachinePrecision] / t$95$2), $MachinePrecision] - -0.254829592), $MachinePrecision]}, Block[{t$95$4 = N[(t$95$3 / N[(t$95$0 * t$95$1), $MachinePrecision]), $MachinePrecision]}, N[(N[(N[Power[t$95$4, 3.0], $MachinePrecision] - 1.0), $MachinePrecision] / N[(N[(t$95$4 - -1.0), $MachinePrecision] * N[(t$95$3 / N[(t$95$0 * t$95$2), $MachinePrecision]), $MachinePrecision] + -1.0), $MachinePrecision]), $MachinePrecision]]]]]]
\begin{array}{l}
t_0 := e^{x \cdot x}\\
t_1 := \mathsf{fma}\left(0.3275911, \left|x\right|, 1\right)\\
t_2 := \mathsf{fma}\left(-0.3275911, \left|x\right|, -1\right)\\
t_3 := \frac{\frac{\frac{\frac{1.061405429}{t\_1} - 1.453152027}{t\_2} - 1.421413741}{t\_1} - -0.284496736}{t\_2} - -0.254829592\\
t_4 := \frac{t\_3}{t\_0 \cdot t\_1}\\
\frac{{t\_4}^{3} - 1}{\mathsf{fma}\left(t\_4 - -1, \frac{t\_3}{t\_0 \cdot t\_2}, -1\right)}
\end{array}
Initial program 79.2%
Applied rewrites79.2%
Applied rewrites79.2%
(FPCore (x)
:precision binary64
(let* ((t_0 (fma 0.3275911 (fabs x) 1.0))
(t_1 (fma -0.3275911 (fabs x) -1.0))
(t_2
(-
(/
(-
(/ (- (/ (- (/ 1.061405429 t_0) 1.453152027) t_1) 1.421413741) t_0)
-0.284496736)
t_1)
-0.254829592))
(t_3 (exp (* x x))))
(/
(- (* 1.0 1.0) (pow (/ t_2 (* t_3 t_1)) 2.0))
(- (/ t_2 (* t_3 t_0)) -1.0))))double code(double x) {
double t_0 = fma(0.3275911, fabs(x), 1.0);
double t_1 = fma(-0.3275911, fabs(x), -1.0);
double t_2 = (((((((1.061405429 / t_0) - 1.453152027) / t_1) - 1.421413741) / t_0) - -0.284496736) / t_1) - -0.254829592;
double t_3 = exp((x * x));
return ((1.0 * 1.0) - pow((t_2 / (t_3 * t_1)), 2.0)) / ((t_2 / (t_3 * t_0)) - -1.0);
}
function code(x) t_0 = fma(0.3275911, abs(x), 1.0) t_1 = fma(-0.3275911, abs(x), -1.0) t_2 = Float64(Float64(Float64(Float64(Float64(Float64(Float64(Float64(1.061405429 / t_0) - 1.453152027) / t_1) - 1.421413741) / t_0) - -0.284496736) / t_1) - -0.254829592) t_3 = exp(Float64(x * x)) return Float64(Float64(Float64(1.0 * 1.0) - (Float64(t_2 / Float64(t_3 * t_1)) ^ 2.0)) / Float64(Float64(t_2 / Float64(t_3 * t_0)) - -1.0)) end
code[x_] := Block[{t$95$0 = N[(0.3275911 * N[Abs[x], $MachinePrecision] + 1.0), $MachinePrecision]}, Block[{t$95$1 = N[(-0.3275911 * N[Abs[x], $MachinePrecision] + -1.0), $MachinePrecision]}, Block[{t$95$2 = N[(N[(N[(N[(N[(N[(N[(N[(1.061405429 / t$95$0), $MachinePrecision] - 1.453152027), $MachinePrecision] / t$95$1), $MachinePrecision] - 1.421413741), $MachinePrecision] / t$95$0), $MachinePrecision] - -0.284496736), $MachinePrecision] / t$95$1), $MachinePrecision] - -0.254829592), $MachinePrecision]}, Block[{t$95$3 = N[Exp[N[(x * x), $MachinePrecision]], $MachinePrecision]}, N[(N[(N[(1.0 * 1.0), $MachinePrecision] - N[Power[N[(t$95$2 / N[(t$95$3 * t$95$1), $MachinePrecision]), $MachinePrecision], 2.0], $MachinePrecision]), $MachinePrecision] / N[(N[(t$95$2 / N[(t$95$3 * t$95$0), $MachinePrecision]), $MachinePrecision] - -1.0), $MachinePrecision]), $MachinePrecision]]]]]
\begin{array}{l}
t_0 := \mathsf{fma}\left(0.3275911, \left|x\right|, 1\right)\\
t_1 := \mathsf{fma}\left(-0.3275911, \left|x\right|, -1\right)\\
t_2 := \frac{\frac{\frac{\frac{1.061405429}{t\_0} - 1.453152027}{t\_1} - 1.421413741}{t\_0} - -0.284496736}{t\_1} - -0.254829592\\
t_3 := e^{x \cdot x}\\
\frac{1 \cdot 1 - {\left(\frac{t\_2}{t\_3 \cdot t\_1}\right)}^{2}}{\frac{t\_2}{t\_3 \cdot t\_0} - -1}
\end{array}
Initial program 79.2%
Applied rewrites79.2%
Applied rewrites79.2%
(FPCore (x)
:precision binary64
(let* ((t_0 (fma -0.3275911 (fabs x) -1.0))
(t_1 (exp (* x x)))
(t_2 (fma (fabs x) 0.3275911 1.0))
(t_3
(-
(/
(-
(/ (- (/ (- (/ 1.061405429 t_2) 1.453152027) t_0) 1.421413741) t_2)
-0.284496736)
t_0)
-0.254829592)))
(*
(- (pow (/ t_3 (* t_0 t_1)) 2.0) 1.0)
(/ 1.0 (- -1.0 (/ t_3 (* t_2 t_1)))))))double code(double x) {
double t_0 = fma(-0.3275911, fabs(x), -1.0);
double t_1 = exp((x * x));
double t_2 = fma(fabs(x), 0.3275911, 1.0);
double t_3 = (((((((1.061405429 / t_2) - 1.453152027) / t_0) - 1.421413741) / t_2) - -0.284496736) / t_0) - -0.254829592;
return (pow((t_3 / (t_0 * t_1)), 2.0) - 1.0) * (1.0 / (-1.0 - (t_3 / (t_2 * t_1))));
}
function code(x) t_0 = fma(-0.3275911, abs(x), -1.0) t_1 = exp(Float64(x * x)) t_2 = fma(abs(x), 0.3275911, 1.0) t_3 = Float64(Float64(Float64(Float64(Float64(Float64(Float64(Float64(1.061405429 / t_2) - 1.453152027) / t_0) - 1.421413741) / t_2) - -0.284496736) / t_0) - -0.254829592) return Float64(Float64((Float64(t_3 / Float64(t_0 * t_1)) ^ 2.0) - 1.0) * Float64(1.0 / Float64(-1.0 - Float64(t_3 / Float64(t_2 * t_1))))) end
code[x_] := Block[{t$95$0 = N[(-0.3275911 * N[Abs[x], $MachinePrecision] + -1.0), $MachinePrecision]}, Block[{t$95$1 = N[Exp[N[(x * x), $MachinePrecision]], $MachinePrecision]}, Block[{t$95$2 = N[(N[Abs[x], $MachinePrecision] * 0.3275911 + 1.0), $MachinePrecision]}, Block[{t$95$3 = N[(N[(N[(N[(N[(N[(N[(N[(1.061405429 / t$95$2), $MachinePrecision] - 1.453152027), $MachinePrecision] / t$95$0), $MachinePrecision] - 1.421413741), $MachinePrecision] / t$95$2), $MachinePrecision] - -0.284496736), $MachinePrecision] / t$95$0), $MachinePrecision] - -0.254829592), $MachinePrecision]}, N[(N[(N[Power[N[(t$95$3 / N[(t$95$0 * t$95$1), $MachinePrecision]), $MachinePrecision], 2.0], $MachinePrecision] - 1.0), $MachinePrecision] * N[(1.0 / N[(-1.0 - N[(t$95$3 / N[(t$95$2 * t$95$1), $MachinePrecision]), $MachinePrecision]), $MachinePrecision]), $MachinePrecision]), $MachinePrecision]]]]]
\begin{array}{l}
t_0 := \mathsf{fma}\left(-0.3275911, \left|x\right|, -1\right)\\
t_1 := e^{x \cdot x}\\
t_2 := \mathsf{fma}\left(\left|x\right|, 0.3275911, 1\right)\\
t_3 := \frac{\frac{\frac{\frac{1.061405429}{t\_2} - 1.453152027}{t\_0} - 1.421413741}{t\_2} - -0.284496736}{t\_0} - -0.254829592\\
\left({\left(\frac{t\_3}{t\_0 \cdot t\_1}\right)}^{2} - 1\right) \cdot \frac{1}{-1 - \frac{t\_3}{t\_2 \cdot t\_1}}
\end{array}
Initial program 79.2%
Applied rewrites79.2%
Applied rewrites79.2%
Applied rewrites79.2%
(FPCore (x)
:precision binary64
(let* ((t_0 (fma (fabs x) 0.3275911 1.0))
(t_1 (fma -0.3275911 (fabs x) -1.0)))
(-
1.0
(/
(-
(/
(-
(/
(fma
(/ -1.0 t_1)
(- (/ -1.061405429 (fma 0.3275911 (fabs x) 1.0)) -1.453152027)
-1.421413741)
t_0)
-0.284496736)
t_1)
-0.254829592)
(* t_0 (exp (* x x)))))))double code(double x) {
double t_0 = fma(fabs(x), 0.3275911, 1.0);
double t_1 = fma(-0.3275911, fabs(x), -1.0);
return 1.0 - (((((fma((-1.0 / t_1), ((-1.061405429 / fma(0.3275911, fabs(x), 1.0)) - -1.453152027), -1.421413741) / t_0) - -0.284496736) / t_1) - -0.254829592) / (t_0 * exp((x * x))));
}
function code(x) t_0 = fma(abs(x), 0.3275911, 1.0) t_1 = fma(-0.3275911, abs(x), -1.0) return Float64(1.0 - Float64(Float64(Float64(Float64(Float64(fma(Float64(-1.0 / t_1), Float64(Float64(-1.061405429 / fma(0.3275911, abs(x), 1.0)) - -1.453152027), -1.421413741) / t_0) - -0.284496736) / t_1) - -0.254829592) / Float64(t_0 * exp(Float64(x * x))))) end
code[x_] := Block[{t$95$0 = N[(N[Abs[x], $MachinePrecision] * 0.3275911 + 1.0), $MachinePrecision]}, Block[{t$95$1 = N[(-0.3275911 * N[Abs[x], $MachinePrecision] + -1.0), $MachinePrecision]}, N[(1.0 - N[(N[(N[(N[(N[(N[(N[(-1.0 / t$95$1), $MachinePrecision] * N[(N[(-1.061405429 / N[(0.3275911 * N[Abs[x], $MachinePrecision] + 1.0), $MachinePrecision]), $MachinePrecision] - -1.453152027), $MachinePrecision] + -1.421413741), $MachinePrecision] / t$95$0), $MachinePrecision] - -0.284496736), $MachinePrecision] / t$95$1), $MachinePrecision] - -0.254829592), $MachinePrecision] / N[(t$95$0 * N[Exp[N[(x * x), $MachinePrecision]], $MachinePrecision]), $MachinePrecision]), $MachinePrecision]), $MachinePrecision]]]
\begin{array}{l}
t_0 := \mathsf{fma}\left(\left|x\right|, 0.3275911, 1\right)\\
t_1 := \mathsf{fma}\left(-0.3275911, \left|x\right|, -1\right)\\
1 - \frac{\frac{\frac{\mathsf{fma}\left(\frac{-1}{t\_1}, \frac{-1.061405429}{\mathsf{fma}\left(0.3275911, \left|x\right|, 1\right)} - -1.453152027, -1.421413741\right)}{t\_0} - -0.284496736}{t\_1} - -0.254829592}{t\_0 \cdot e^{x \cdot x}}
\end{array}
Initial program 79.2%
Applied rewrites79.2%
lift--.f64N/A
sub-flipN/A
lift-/.f64N/A
mult-flipN/A
lift-fma.f64N/A
+-commutativeN/A
*-commutativeN/A
lift-*.f64N/A
lift-+.f64N/A
lift-/.f64N/A
*-commutativeN/A
lower-fma.f64N/A
Applied rewrites79.2%
(FPCore (x)
:precision binary64
(let* ((t_0 (fma (fabs x) 0.3275911 1.0)))
(-
1.0
(/
(-
(/
(-
(/ (- (/ (- (/ -1.061405429 t_0) -1.453152027) t_0) 1.421413741) t_0)
-0.284496736)
(fma -0.3275911 (fabs x) -1.0))
-0.254829592)
(* t_0 (exp (* x x)))))))double code(double x) {
double t_0 = fma(fabs(x), 0.3275911, 1.0);
return 1.0 - (((((((((-1.061405429 / t_0) - -1.453152027) / t_0) - 1.421413741) / t_0) - -0.284496736) / fma(-0.3275911, fabs(x), -1.0)) - -0.254829592) / (t_0 * exp((x * x))));
}
function code(x) t_0 = fma(abs(x), 0.3275911, 1.0) return Float64(1.0 - Float64(Float64(Float64(Float64(Float64(Float64(Float64(Float64(Float64(-1.061405429 / t_0) - -1.453152027) / t_0) - 1.421413741) / t_0) - -0.284496736) / fma(-0.3275911, abs(x), -1.0)) - -0.254829592) / Float64(t_0 * exp(Float64(x * x))))) end
code[x_] := Block[{t$95$0 = N[(N[Abs[x], $MachinePrecision] * 0.3275911 + 1.0), $MachinePrecision]}, N[(1.0 - N[(N[(N[(N[(N[(N[(N[(N[(N[(-1.061405429 / t$95$0), $MachinePrecision] - -1.453152027), $MachinePrecision] / t$95$0), $MachinePrecision] - 1.421413741), $MachinePrecision] / t$95$0), $MachinePrecision] - -0.284496736), $MachinePrecision] / N[(-0.3275911 * N[Abs[x], $MachinePrecision] + -1.0), $MachinePrecision]), $MachinePrecision] - -0.254829592), $MachinePrecision] / N[(t$95$0 * N[Exp[N[(x * x), $MachinePrecision]], $MachinePrecision]), $MachinePrecision]), $MachinePrecision]), $MachinePrecision]]
\begin{array}{l}
t_0 := \mathsf{fma}\left(\left|x\right|, 0.3275911, 1\right)\\
1 - \frac{\frac{\frac{\frac{\frac{-1.061405429}{t\_0} - -1.453152027}{t\_0} - 1.421413741}{t\_0} - -0.284496736}{\mathsf{fma}\left(-0.3275911, \left|x\right|, -1\right)} - -0.254829592}{t\_0 \cdot e^{x \cdot x}}
\end{array}
Initial program 79.2%
Applied rewrites79.2%
(FPCore (x)
:precision binary64
(let* ((t_0 (fma (fabs x) 0.3275911 1.0)))
(-
1.0
(/
(-
(/
(-
(/
(fma (- (/ -1.061405429 t_0) -1.453152027) (/ 1.0 t_0) -1.421413741)
t_0)
-0.284496736)
(fma -0.3275911 (fabs x) -1.0))
-0.254829592)
(* t_0 1.0)))))double code(double x) {
double t_0 = fma(fabs(x), 0.3275911, 1.0);
return 1.0 - (((((fma(((-1.061405429 / t_0) - -1.453152027), (1.0 / t_0), -1.421413741) / t_0) - -0.284496736) / fma(-0.3275911, fabs(x), -1.0)) - -0.254829592) / (t_0 * 1.0));
}
function code(x) t_0 = fma(abs(x), 0.3275911, 1.0) return Float64(1.0 - Float64(Float64(Float64(Float64(Float64(fma(Float64(Float64(-1.061405429 / t_0) - -1.453152027), Float64(1.0 / t_0), -1.421413741) / t_0) - -0.284496736) / fma(-0.3275911, abs(x), -1.0)) - -0.254829592) / Float64(t_0 * 1.0))) end
code[x_] := Block[{t$95$0 = N[(N[Abs[x], $MachinePrecision] * 0.3275911 + 1.0), $MachinePrecision]}, N[(1.0 - N[(N[(N[(N[(N[(N[(N[(N[(-1.061405429 / t$95$0), $MachinePrecision] - -1.453152027), $MachinePrecision] * N[(1.0 / t$95$0), $MachinePrecision] + -1.421413741), $MachinePrecision] / t$95$0), $MachinePrecision] - -0.284496736), $MachinePrecision] / N[(-0.3275911 * N[Abs[x], $MachinePrecision] + -1.0), $MachinePrecision]), $MachinePrecision] - -0.254829592), $MachinePrecision] / N[(t$95$0 * 1.0), $MachinePrecision]), $MachinePrecision]), $MachinePrecision]]
\begin{array}{l}
t_0 := \mathsf{fma}\left(\left|x\right|, 0.3275911, 1\right)\\
1 - \frac{\frac{\frac{\mathsf{fma}\left(\frac{-1.061405429}{t\_0} - -1.453152027, \frac{1}{t\_0}, -1.421413741\right)}{t\_0} - -0.284496736}{\mathsf{fma}\left(-0.3275911, \left|x\right|, -1\right)} - -0.254829592}{t\_0 \cdot 1}
\end{array}
Initial program 79.2%
Applied rewrites79.2%
Taylor expanded in x around 0
Applied rewrites77.7%
lift--.f64N/A
sub-flipN/A
lift-/.f64N/A
mult-flipN/A
lift-fma.f64N/A
*-commutativeN/A
lift-fma.f64N/A
metadata-evalN/A
lower-fma.f64N/A
lower-/.f6477.7
lift-fma.f64N/A
*-commutativeN/A
lift-fma.f6477.7
Applied rewrites77.7%
(FPCore (x)
:precision binary64
(let* ((t_0 (fma -0.3275911 (fabs x) -1.0))
(t_1 (fma 0.3275911 (fabs x) 1.0)))
(-
1.0
(*
(-
(/
(-
(/ (- (/ (- (/ -1.061405429 t_1) -1.453152027) t_1) 1.421413741) t_1)
-0.284496736)
t_0)
-0.254829592)
(/ -1.0 t_0)))))double code(double x) {
double t_0 = fma(-0.3275911, fabs(x), -1.0);
double t_1 = fma(0.3275911, fabs(x), 1.0);
return 1.0 - (((((((((-1.061405429 / t_1) - -1.453152027) / t_1) - 1.421413741) / t_1) - -0.284496736) / t_0) - -0.254829592) * (-1.0 / t_0));
}
function code(x) t_0 = fma(-0.3275911, abs(x), -1.0) t_1 = fma(0.3275911, abs(x), 1.0) return Float64(1.0 - Float64(Float64(Float64(Float64(Float64(Float64(Float64(Float64(Float64(-1.061405429 / t_1) - -1.453152027) / t_1) - 1.421413741) / t_1) - -0.284496736) / t_0) - -0.254829592) * Float64(-1.0 / t_0))) end
code[x_] := Block[{t$95$0 = N[(-0.3275911 * N[Abs[x], $MachinePrecision] + -1.0), $MachinePrecision]}, Block[{t$95$1 = N[(0.3275911 * N[Abs[x], $MachinePrecision] + 1.0), $MachinePrecision]}, N[(1.0 - N[(N[(N[(N[(N[(N[(N[(N[(N[(-1.061405429 / t$95$1), $MachinePrecision] - -1.453152027), $MachinePrecision] / t$95$1), $MachinePrecision] - 1.421413741), $MachinePrecision] / t$95$1), $MachinePrecision] - -0.284496736), $MachinePrecision] / t$95$0), $MachinePrecision] - -0.254829592), $MachinePrecision] * N[(-1.0 / t$95$0), $MachinePrecision]), $MachinePrecision]), $MachinePrecision]]]
\begin{array}{l}
t_0 := \mathsf{fma}\left(-0.3275911, \left|x\right|, -1\right)\\
t_1 := \mathsf{fma}\left(0.3275911, \left|x\right|, 1\right)\\
1 - \left(\frac{\frac{\frac{\frac{-1.061405429}{t\_1} - -1.453152027}{t\_1} - 1.421413741}{t\_1} - -0.284496736}{t\_0} - -0.254829592\right) \cdot \frac{-1}{t\_0}
\end{array}
Initial program 79.2%
Applied rewrites79.2%
Taylor expanded in x around 0
lower-/.f64N/A
lower--.f64N/A
lower-*.f64N/A
lower-fabs.f6477.7
Applied rewrites77.7%
Applied rewrites77.7%
herbie shell --seed 2025170
(FPCore (x)
:name "Jmat.Real.erf"
:precision binary64
(- 1.0 (* (* (/ 1.0 (+ 1.0 (* 0.3275911 (fabs x)))) (+ 0.254829592 (* (/ 1.0 (+ 1.0 (* 0.3275911 (fabs x)))) (+ -0.284496736 (* (/ 1.0 (+ 1.0 (* 0.3275911 (fabs x)))) (+ 1.421413741 (* (/ 1.0 (+ 1.0 (* 0.3275911 (fabs x)))) (+ -1.453152027 (* (/ 1.0 (+ 1.0 (* 0.3275911 (fabs x)))) 1.061405429))))))))) (exp (- (* (fabs x) (fabs x)))))))