BB(6): Difference between revisions

The 6-state, 2-symbol Busy Beaver problem BB(6) is unsolved. With the discovery of Antihydra in 2024, we now know that we must solve a Collatz-like problem in order to solve BB(6).

The current BB(6) champion 1RB0LD_1RC0RF_1LC1LA_0LE1RZ_1LF0RB_0RC0RE (bbch) was discovered by Pavel Kropitz in 2022 proving the lower bound:^[1]

$${\displaystyle S(6)>\Sigma (6)>10\uparrow \uparrow 15}$$

Techniques

In order to simulate the current BB(6) champion requires accelerated simulation that can handle Collatz Level 2 inductive rules. In other words, it requires a simulator that can prove the rules:

$${\displaystyle {\begin{array}{l}C(4k)&\to &Halt({\frac {3^{k+3}-11}{2}})\\C(4k+1)&\to &C({\frac {3^{k+3}-11}{2}})\\C(4k+2)&\to &C({\frac {3^{k+3}-11}{2}})\\C(4k+3)&\to &C({\frac {3^{k+3}+1}{2}})\\\end{array}}}$$

and also compute the remainder mod 3 of numbers produced by applying these rules 15 times (which requires some fancy math related to Euler's_totient_function).

Cryptids

There have been quite a few Cryptids found in the BB(6) search space. None of them are known definitively to halt or run forever. Proving whether or not they halt would require solving a Collatz-like problem in order to be tractable. However, using probabilistic assumptions they have been categorized as probviously halting, probviously non-halting or (in one case) 40% chance to halt eventually, 60% chance to become a translated cycler.

Probviously non-halting Collatz-like Cryptids:

• Antihydra
• 1RB1RC_1LC1LE_1RA1RD_0RF0RE_1LA0LB_---1RA (bbch) a variant of Hydra and Antihydra
• 1RB1LD_1RC1RE_0LA1LB_0LD1LC_1RF0RA_---0RC (bbch) similar to Antihydra
• 1RB0LD_1RC1RF_1LA0RA_0LA0LE_1LD1LA_0RB--- (bbch) similar to Antihydra
• 1RB0LB_1LC0RE_1LA1LD_0LC---_0RB0RF_1RE1RB (bbch) similar to Antihydra

Probviously halting (or translated cycling) Collatz-like Cryptids:

• 1RB1RA_0RC1RC_1LD0LF_0LE1LE_1RA0LB_---0LC (bbch) a family of 16 related TMs
• 1RB1RE_1LC1LD_---1LA_1LB1LE_0RF0RA_1LD1RF (bbch)
• 1RB0RE_1LC1LD_0RA0LD_1LB0LA_1RF1RA_---1LB (bbch)
• 1RB0LC_0LC0RF_1RD1LC_0RA1LE_---0LD_1LF1LA (bbch)
• 1RB1LE_0LC0LB_1RD1LC_1RD1RA_1RF0LA_---1RE (bbch): 2/5 chance to halt, 3/5 chance to become a translated cycler.
• 1RB0LC_1LC0RD_1LF1LA_1LB1RE_1RB1LE_---0LE (bbch)
• 1RB0RD_0RC1RE_1RD0LA_1LE1LC_1RF0LD_---0RA (bbch)

There are also a number of machines which also appear to depend upon different (not Collatz-like) apparently chaotic behavior and so also appear to be Cryptids. However, nobody has yet proposed a clear analysis of how their behavior is connected to open mathematical problems (like Collatz-like problems).

Potential Cryptids:

• 1RB1RE_1LC0RA_0RD1LB_---1RC_1LF1RE_0LB0LE (bbch)
• 1RB0LD_1LC0RA_1RA1LB_1LA1LE_1RF0LC_---0RE (bbch)
• 1RB0RB_1LC1RE_1LF0LD_1RA1LD_1RC1RB_---1LC (bbch)
• 1RB1LA_1LC0RE_1LF1LD_0RB0LA_1RC1RE_---0LD (bbch)

Top Halters

The current top 10 BB(6) halters (known by Shawn Ligocki) are:

Runtimes are not available, but are presumed to be about ${\displaystyle score^{2}}$ which is roughly indistinguishable in tetration notation. Fractional tetration notation is described in "Extending Up-arrow Notation". For a longer list of halting TMs see https://github.com/sligocki/busy-beaver/blob/main/Machines/bb/6x2.txt. For historical perspective see Pascal Michel's Historical survey of Busy Beavers.

Holdouts

@mxdys's informal holdouts list is down to 4408 TMs as of 8 Nov 2024.

References