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Not to be confused with goplapulus.

The golapulus (also called gonglapulus) is equal to $$\lbrace 10,10 (100) 2 \rbrace \& 10 = 10^{100} \& 10 \& 10$$ using the array of operator and BEAF.[1] It has gongulus entries. The term was coined by Jonathan Bowers.

Golapulus has a multitude of possible formal definitions and thus it is an ill-defined number which can't be approximated by any well-defined notation. Since climbing method presumably stops working at {X,X,2(1)2} & n for each natural n > 0, this is also completely undefined number for now.

Approximations

Notation Approximation
Bird's Array Notation $$\{10,100 [1 [1 [2 \backslash_3 2] 2] 2] 2\}$$ (Nested Hyper-Nested Array Notation)

$$\{10,100 [1 [1 [2 \neg 2] 2 \neg 2] 2] 2\}$$ (Hierarchial Hyper-Nested Array Notation)

Fast-growing hierarchy $$f_{\vartheta(\Omega^{\Omega^{\omega}})}(100)$$

Sources

1. Bowers, JonathanInfinity Scrapers. Retrieved January 2013.