SGH与FGH对照

本条目展示SGH与FGH的对照

$g_{ε_{0} \times 2} (n) = g_{ε_{0} + ε_{0} [n]} (n) = (n ↑ ↑ n) \times 2$

$g_{ε_{0} \times ω} (n) = g_{ε_{0} \times n} (n) = (n ↑ ↑ n) \times n$

$g_{ε_{0} \times ω^{2}} (n) = g_{ε_{0} \times ω \times n} (n) = (n ↑ ↑ n) \times n^{2}$

$g_{ε_{0} \times ω^{ω}} (n) = g_{ε_{0} \times ω^{n}} (n) = (n ↑ ↑ n) \times n^{n}$

$g_{ε_{0} \times ω^{ω^{ω}}} (n) = (n ↑ ↑ n) \times (n ↑ ↑ 3)$

$g_{ε_{0}^{2}} (n) = g_{ε_{0} \times ε_{0} [n]} (n) = (n ↑ ↑ n)^{2}$

$g_{ε_{0}^{3}} (n) = (n ↑ ↑ n)^{3}$

$g_{ε_{0}^{ω}} (n) = g_{ε_{0}^{n}} (n) = (n ↑ ↑ n)^{n}$

$g_{ε_{0}^{ω^{ω}}} (n) = (n ↑ ↑ n)^{n^{n}}$

$g_{ε_{0}^{ε_{0}}} (n) = (n ↑ ↑ n)^{n ↑ ↑ n} = (n ↑ ↑ n) ↑ ↑ 2$

$g_{ε_{0}^{ε_{0}^{ε_{0}}}} (n) = (n ↑ ↑ n) ↑ ↑ 3$

$g_{ε_{1}} (n) = (n ↑ ↑ n) ↑ ↑ n \approx n ↑ ↑ (n \times 2)$

$g_{ε_{2}} (n) = ((n ↑ ↑ n) ↑ ↑ n) ↑ ↑ n \approx n ↑ ↑ (n \times 3)$

$n ↑ ↑ (n \times 3) \sim ε_{2}$

$n ↑ ↑ (n \times 3 + 1) \sim ε_{2}^{ε_{2}}$

$n ↑ ↑ (n \times 3 + 2) \sim ε_{2}^{ε_{2}^{ε_{2}}}$

$n ↑ ↑ (n \times 4) \sim ε_{3}$

$n ↑ ↑ (n \times 5) \sim ε_{4}$

\begin{align} & n\uparrow\uparrow(n^2)\sim\varepsilon_\omega\\&

n\uparrow\uparrow(n^2+1)\sim\varepsilon_\omega^{\varepsilon_\omega}\\&

n\uparrow\uparrow(n^2+n)\sim\varepsilon_{\omega+1}\\&

n\uparrow\uparrow(n^2\times2)\sim\varepsilon_{\omega\times2}\\&

n\uparrow\uparrow(n^3)\sim\varepsilon_{\omega^2}\\&

n\uparrow\uparrow(n^n)=n\uparrow\uparrow n\uparrow\uparrow2\sim\varepsilon_{\omega^\omega}\\&

n\uparrow\uparrow(n^n+n)\sim\varepsilon_{\omega^\omega+1}\\&

n\uparrow\uparrow(n^{n+1})\sim\varepsilon_{\omega^{\omega+1}}\\&

n\uparrow\uparrow(n^{n^2})\sim\varepsilon_{\omega^{\omega^2}}\\&

n\uparrow\uparrow n\uparrow\uparrow3\sim\varepsilon_{\omega^{\omega^\omega}}\\&

n\uparrow\uparrow n\uparrow\uparrow n=n\uparrow\uparrow\uparrow 3\sim\varepsilon_{\varepsilon_0}\\&

n\uparrow\uparrow (n\uparrow\uparrow n+n)\sim\varepsilon_{\varepsilon_0+1}\\&

n\uparrow\uparrow ((n\uparrow\uparrow n)\times2)\sim\varepsilon_{\varepsilon_0\times2}\\&

n\uparrow\uparrow ((n\uparrow\uparrow n)\uparrow\uparrow 2)\approx n\uparrow\uparrow n\uparrow\uparrow(n+1)\sim\varepsilon_{\varepsilon_0^{\varepsilon_0}}\\&

n\uparrow\uparrow n\uparrow\uparrow(n\times2)\sim\varepsilon_{\varepsilon_1}\\&

n\uparrow\uparrow n\uparrow\uparrow(n^2)\sim\varepsilon_{\varepsilon_\omega}\\&

n\uparrow\uparrow n\uparrow\uparrow n\uparrow\uparrow n=n\uparrow\uparrow\uparrow4\sim\varepsilon_{\varepsilon_{\varepsilon_0}}\\&

n\uparrow\uparrow\uparrow n\sim\zeta_0\\&

(n\uparrow\uparrow\uparrow n)\uparrow\uparrow n\sim\varepsilon_{\zeta_0+1}\\&

(n\uparrow\uparrow\uparrow n)\uparrow\uparrow (n\times2)\sim\varepsilon_{\zeta_0+2}\\&

(n\uparrow\uparrow\uparrow n)\uparrow\uparrow (n\uparrow\uparrow n)\sim\varepsilon_{\zeta_0+\varepsilon_0}\\&

(n\uparrow\uparrow\uparrow n)\uparrow\uparrow (n\uparrow\uparrow\uparrow n)\approx n\uparrow\uparrow\uparrow(n+1)\sim\varepsilon_{\zeta_0\times2}\\&

(n\uparrow\uparrow\uparrow n)\uparrow\uparrow (n\uparrow\uparrow\uparrow n)\uparrow\uparrow n\sim\varepsilon_{\varepsilon_{\zeta_0+1}}\\&

(n\uparrow\uparrow\uparrow n)\uparrow\uparrow (n\uparrow\uparrow\uparrow n)\uparrow\uparrow (n\uparrow\uparrow\uparrow n)\sim\varepsilon_{\varepsilon_{\zeta_0\times2}}\\&

(n\uparrow\uparrow\uparrow n)\uparrow\uparrow \uparrow n\approx n\uparrow\uparrow\uparrow(n\times2)\sim\zeta_1\\&

(n\uparrow\uparrow\uparrow(n\times2))\uparrow\uparrow n\sim\varepsilon_{\zeta_1+1}\\&

(n\uparrow\uparrow\uparrow(n\times2))\uparrow\uparrow (n\uparrow\uparrow\uparrow n)\sim\varepsilon_{\zeta_1+\zeta_0}\\&

(n\uparrow\uparrow\uparrow(n\times2))\uparrow\uparrow (n\uparrow\uparrow\uparrow(n\times2))\sim\varepsilon_{\zeta_1\times2}\\&

(n\uparrow\uparrow\uparrow(n\times2))\uparrow\uparrow \uparrow n\approx n\uparrow\uparrow\uparrow(n\times3)\sim\zeta_2\\&

n\uparrow\uparrow\uparrow(n^2)\sim\zeta_\omega\\&

n\uparrow\uparrow\uparrow(n^n)\sim\zeta_{\omega^\omega}\\&

n\uparrow\uparrow\uparrow(n\uparrow\uparrow n)\sim\zeta_{\varepsilon_0}\\&

n\uparrow\uparrow\uparrow n\uparrow\uparrow\uparrow n \sim\zeta_{\zeta_0}\\&

n\uparrow\uparrow\uparrow\uparrow n \sim\eta_0\\&

(n\uparrow\uparrow\uparrow\uparrow n)\uparrow\uparrow\uparrow n \sim\zeta_{\eta_0+1}\\&

n\uparrow\uparrow\uparrow\uparrow (n\times2) \sim\eta_1\\&

n\uparrow^53 \sim\eta_{\eta_0}\\&

n\uparrow^5n \sim\varphi(4,0)\\&

n\uparrow^5(n\times2) \sim\varphi(4,1)\\&

n\uparrow^6 n \sim\varphi(5,0)\\&

n\uparrow^n n \sim\varphi(\omega,0)\\ \end{align}