** @mxdys [https://discord.com/channels/960643023006490684/1239205785913790465/1429892916763033601 shared a new holdouts list on October 20th,] consisting of 1618 machines up to equivalence, or 3067 individual machines. This means 73 newly solved machines, a 4% reduction.
** @mxdys [https://discord.com/channels/960643023006490684/1239205785913790465/1429892916763033601 shared a new holdouts list on October 20th,] consisting of 1618 machines up to equivalence, or 3067 individual machines. This means 73 newly solved machines, a 4% reduction.
** @Bricks [https://discord.com/channels/960643023006490684/1239205785913790465/1430227817957953638 shared a machine] which they thought could be susceptible to [[Block Analysis|block-analysis]] based on a [[TMBR: October 2025#Misc|method they call Subtape Saturation Heuristic.]] [[1RB1RF 0LC1RC 1RD1LC ---0RE 1RA1LF 1RA0LE|Shawn Ligocki's analysis]], simulated by @Bricks showed the machine to halt with a sigma score of 4,419,340,317.
** @Bricks [https://discord.com/channels/960643023006490684/1239205785913790465/1430227817957953638 shared a machine] which they thought could be susceptible to [[Block Analysis|block-analysis]] based on a [[TMBR: October 2025#Misc|method they call Subtape Saturation Heuristic.]] [[1RB1RF 0LC1RC 1RD1LC ---0RE 1RA1LF 1RA0LE|Shawn Ligocki's analysis]], simulated by @Bricks showed the machine to halt with a sigma score of 4,419,340,317. [https://discord.com/channels/960643023006490684/1239205785913790465/1431135577234997299 Quick_Sim confirmed the result].
** [https://discord.com/channels/960643023006490684/1239205785913790465/1431225455557611611 Analysis by Racheline] showed a machine to be non-halting.
** [https://discord.com/channels/960643023006490684/1239205785913790465/1431225455557611611 Analysis by Racheline] showed a machine to be non-halting.
** [https://discord.com/channels/960643023006490684/1400456788955893840/1433455522715009135 mxdys decided a machine] from the [[TMBR: August 2025#Misc|50 Random Holdouts]] introduced back in August, making 10/50 solved.
** [https://discord.com/channels/960643023006490684/1400456788955893840/1433455522715009135 mxdys decided a machine] from the [[TMBR: August 2025#Misc|50 Random Holdouts]] introduced back in August, making 10/50 solved.
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).
@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
Design for a disk to physically simulate Antihydra.3d printed version of Antihydra disk.@coda shared a mechanical implementation of a Turing Machine, Antihydra.[9] @zts439 3d-printed a prototype (see image at right).[10]
@mxdys shared a new holdouts list on October 20th, consisting of 1618 machines up to equivalence, or 3067 individual machines. This means 73 newly solved machines, a 4% reduction.
Andrew Ducharme has continued reducing the number of holdouts with Stage 4 of Phase 2. Afterwards, Terry Ligocki ran Stage 5 of Phase 2. Initially, in the beginning of the month there were 22,801,601 holdouts, and 20,405,295 holdouts remain. (10.51% reduction)
_holdouts_decrease_over_time.png)