TMBR: October 2025

This edition of TMBR is in progress and has not yet been released. Please add any notes you think may be relevant (including in the form a of a TODO with a link to any relevant Discord discussion).

TODO: BB(3x3) month

TODO: BB(2x5) month next month (?)

Blog Posts

• 22 Oct 2025. Ben Brubaker. Why Busy Beaver Hunters Fear the Antihydra. (Hacker News thread)

Champions

• Polygon identified a new BB(4,3) champion with a score of over ${\displaystyle 10{\uparrow }^{4}4}$ (1RB1RD1LC_2LB1RB1LC_1RZ1LA1LD_0RB2RA2RD (bbch)). This TM was first proven to halt by Pavel Kropitz in May 2024, but its runtime was not known at the time.
• @Peacemaker II verified the BB(6) champion 1RB1RA_1RC1RZ_1LD0RF_1RA0LE_0LD1RC_1RA0RE (bbch) (and the other members of its "family") and calculated a more precise sigma score of 10↑↑10↑↑10↑↑8.10237 for it. https://discord.com/channels/960643023006490684/1387426381041893417/1429556125539369040
• @zts439 proved that Bug(8,8) = 506. https://discord.com/channels/960643023006490684/1362008236118511758/1423502208422510716

Theory

Piecewise Affine Functions (PAF) were explored as a generalization of the BMO1 rules:

• @Bard proved that 3 dimension PAF are Turing complete.^[1]
• @star proved that 2 dimension PAF are Turing complete.^[2][3]
• Shawn Ligocki wrote up a proof sketch that 2-region PAF are Turing complete.^[4]
• It was discovered that Amir Ben-Amram had already proven that 2-dim and 2-region PAF were Turing complete in 2015.
• BMO1 is a 2-dim, 2-region PAF so this provides some sense for the difficulty of the problem.
• This introduces a new type of Cryptids separate from previous Collatz-like ones.

Deciders

• Inductive deciders
  • @-d is developing a C++ version of Quick_Sim. It can currently solve "Diff Rules" (L1 Inductive Rules). It is 6-10x faster than the original python implementation.^[5][6]
  • Katelyn Douchette is working on an automated inductive decider.^[7][8] (see inductive proofs)

Misc

• 

  

  @coda shared a mechanical implementation of a Turing Machine, Antihydra.^[9] @zts439 3d-printed a prototype (see image at right).^[10]
• @Bricks shared a method to estimate susceptibility to Block Analysis and a spreadsheet of BB(6) holdouts quantified by it.^[11][12]
• @Pomme solved BMO #7, 1RB1RF_1RC0RA_1LD1RC_1LE0LE_0RA0LD_0RB--- (bbch). https://discord.com/channels/960643023006490684/1421782442213376000/1431483206208852001

Holdouts