BB(2)
The 2-state 2-symbol Busy Beaver problem BB(2) was solved by Tibor Radó using pencil and paper and announced in his seminal Busy Beaver paper, On Non-Computable Functions.[1]
Deciders
The only decider needed to prove BB(2) is Translated Cycler. All 26 infinite TMs listed below are Translated Cyclers. This can be verified with the following command from Shawn Ligocki's GitHub repository to enumerate the BB(2) TMs in TNF, run each of them for 1000 steps, and look for TMs that are Translated Cyclers which never halt:
> lr_enum 2 2 1000 halt.txt infinite.txt holdout.txt false
which leaves 0 holdouts.
Champions
S(2) = 6 and there are 5 shift champions in TNF:
1RB1LB_1LA1RZ(bbch) leaves 4 ones (the ones champion)1RB0LB_1LA1RZ(bbch) leaves 3 ones1RB1RZ_1LB1LA(bbch) leaves 3 ones1RB1RZ_0LB1LA(bbch) leaves 2 ones0RB1RZ_1LA1RB(bbch) leaves 2 ones
Σ(2) = 4 and there is one unique ones champion in TNF:
1RB1LB_1LA1RZ(bbch) runs for 6 steps (a shift champion)
Enumeration
In TNF-1RB there are exactly 41 BB(2) TMs of which 15 halt:
1RB1LB_1LA1RZ Halt 6 4 1RB1RZ_1LB1LA Halt 6 3 1RB0LB_1LA1RZ Halt 6 3 1RB1RZ_0LB1LA Halt 6 2 1RB1LA_1LA1RZ Halt 5 3 1RB1LA_0LA1RZ Halt 5 2 1RB1RZ_1LB1RA Halt 4 2 1RB1RB_1LA1RZ Halt 4 2 1RB1RZ_1LB0RA Halt 4 1 1RB0RB_1LA1RZ Halt 4 1 1RB1RZ_1LA--- Halt 3 2 1RB---_1LB1RZ Halt 3 2 1RB1RZ_0LA--- Halt 3 1 1RB---_0LB1RZ Halt 3 1 1RB---_1RZ--- Halt 2 2
and 26 are infinite:
1RB1RB_0LA--- 1RB1RA_1LA--- 1RB1RA_0LA--- 1RB1LB_0LA--- 1RB0RB_0LA--- 1RB0RA_1LA--- 1RB0RA_0LA--- 1RB0LB_0LA--- 1RB0LA_1LA--- 1RB0LA_0LA--- 1RB---_1RB--- 1RB---_1RA--- 1RB---_1LB1RB 1RB---_1LB1LB 1RB---_1LB0RB 1RB---_1LB0LB 1RB---_1LB0LA 1RB---_0RB--- 1RB---_0RA--- 1RB---_0LB1RB 1RB---_0LB1RA 1RB---_0LB1LB 1RB---_0LB0RB 1RB---_0LB0RA 1RB---_0LB0LB 1RB---_0LB0LA
References
- ↑ Rado, T. (1962), On Non-Computable Functions. Bell System Technical Journal, 41: 877-884. https://doi.org/10.1002/j.1538-7305.1962.tb00480.x