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Bigrand megahyperfaxul is equal to $$a_\text{grand megahyperfaxul}$$, where $$a_n$$ = $$a_{n-1}![1]$$ and $$a_0 = 200![1]$$, using Hyperfactorial Array Notation. The term was coined by Lawrence Hollom.[1]

### Etymology

The name of this number is based on Latin prefix "bi-" and the number "grand megahyperfaxul".

### Approximations in other notations

Notation Approximation
Hyper-E notation $$\textrm E10\#\#201\#(\textrm E10\#\#201\#3)\#3$$
Chained arrow notation $$10 \rightarrow 198 \rightarrow (10\rightarrow 198 \rightarrow (10\rightarrow 198 \rightarrow (10\rightarrow 198 \rightarrow (10\rightarrow 198 \rightarrow 199))) \rightarrow 2) \rightarrow 2$$
BEAF $$\{10,\{10,\{10,198,\{10,198,\{10,198,199\}\}\},1,2\},1,2\}$$
Strong array notation s(10,s(10,s(10,198,s(10,198,s(10,198,199))),2,2),2,2)
Fast-growing hierarchy (using CNF's fundamental sequences) $$f_{\omega+1}(f_{\omega+1}(f_{\omega}(f_{\omega}(f_{\omega}(200)))))$$
Hardy hierarchy $$H_{(\omega^{\omega+1})2+(\omega^{\omega})3}(200)$$
Slow-growing hierarchy (using this system of fundamental sequences) $$g_{\Gamma_{\Gamma_{\varphi(\varphi(\varphi(198,0),0),0)}}}(200)$$