BB(3)

The 3-state 2-symbol Busy Beaver problem BB(3) was proven by Shen Lin in his 1963 doctoral dissertation^[1] and republished in 1965.^[2] Allen Brady independently proved it in his 1964 PhD dissertation.^[3]

Champions

S(3) = 21 and there is only one shift champion (in TNF):

1RB1RZ_1LB0RC_1LC1LA (bbch)

Σ(3) = 6 and there are 5 ones champions (in TNF):

1RB1RZ_0RC1RB_1LC1LA (bbch)
1RB1RC_1LC1RZ_1RA0LB (bbch)
1RB1LC_1LA1RB_1LB1RZ (bbch)
1RB1RA_1LC1RZ_1RA1LB (bbch)
1RB1LC_1RC1RZ_1LA0LB (bbch)

Deciders

In order to prove BB(3), Lin discovered Translated Cyclers and described the first algorithm for proving them infinite.

References

↑ Shen Lin. 1963. Computer studies of Turing machine problems. PhD dissertation. Ohio State University. https://etd.ohiolink.edu/acprod/odb_etd/etd/r/1501/10?clear=10&p10_accession_num=osu1486554418657614
↑ Lin, Shen; Radó, Tibor (April 1965). "Computer Studies of Turing Machine Problems". Journal of the ACM. 12 (2): 196–212. https://doi.org/10.1145/321264.321270
↑ Allen Brady. 1964. Solutions of Restricted Cases of the Halting Problem Applied to the Determination of Particular Values of a Non-Computable Function. PhD dissertation. Oregon State University. https://ir.library.oregonstate.edu/downloads/6q182n74x

[1] Shen Lin. 1963. Computer studies of Turing machine problems. PhD dissertation. Ohio State University. https://etd.ohiolink.edu/acprod/odb_etd/etd/r/1501/10?clear=10&p10_accession_num=osu1486554418657614

[2] Lin, Shen; Radó, Tibor (April 1965). "Computer Studies of Turing Machine Problems". Journal of the ACM. 12 (2): 196–212. https://doi.org/10.1145/321264.321270

[3] Allen Brady. 1964. Solutions of Restricted Cases of the Halting Problem Applied to the Determination of Particular Values of a Non-Computable Function. PhD dissertation. Oregon State University. https://ir.library.oregonstate.edu/downloads/6q182n74x

[1]

[2]

[3]

BB(3)

Champions

Deciders

References

Navigation menu