TMBR: December 2025: Difference between revisions
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→Holdouts Reductions.: Added BB(2,7) |
→BB Adjacent.: Added some functions |
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=== BB Adjacent. === | === BB Adjacent. === | ||
* [[Instruction-Limited Busy Beaver]] was introduced and calculated up to BBi(7). | |||
* [[Reversible Turing Machine]] Busy Beaver values were calculated up to BB<sub>rev</sub>(5). | |||
* [[Terminating Turmite]]s (Relative Movement Turing Machines) were introduced. | |||
* John Tromp introduced the <math>BB \lambda _1(n)</math> function for [[Busy Beaver for lambda calculus#Oracle Busy Beaver|Busy Beaver for lambda calculus with an oracle]] and computed it up to <math>BB \lambda _1(22)</math>. | |||
* Instruction-Limited Greedy Busy Beaver gBBi(n) and an [[Instruction-Limited Busy Beaver#Instruction-Limited Busy Beaver Variants|Instruction-Limited variant]] of the [[Blanking Busy Beaver]] (BLBi(n)) were introduced. gBBi(n) was computed up to n = 13 and BLBi(n) was computed up to n = 7. | |||
* @savask shared the [[Bug Game]] (and fast-growing <math>Bug(H,W)</math> function). | |||
* [[Fractran|Busy Beaver for Fractan]] (BBf) was introduced on 1 Nov by Jason Yuen.<sup>[https://discord.com/channels/960643023006490684/1362008236118511758/1433148101170040924]</sup> Exact values have been proven up to BBf(19) = 370 and exhaustive enumeration has been run up to size 21 (with BBf(21) ≥ 31,957,632 and 587 holdouts). | |||
* [[Cyclic Tree Busy Beaver]] (CTBB) was introduced by @Jack on 14 Nov.<sup>[https://discord.com/channels/960643023006490684/1438694294042181742]</sup> The exact value is known for CTBB(2) = 5 and lower bounds have been found up to size 7 with CTBB(7) > 4↑↑↑↑(4↑↑↑3). | |||
TODO | TODO | ||
Revision as of 21:07, 10 December 2025
| Prev: November 2025 | This Month in Beaver Research | Next: January 2026 |
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).
This Year in Beaver Research (TYBR - "Thank You Beaver Researchers!")
Holdouts Reductions.
- BB(6) - Reduced from 3571 to 1416 holdouts. Hence, 2155 machines were solved this year. This is a 60% reduction.
- BB(7) - Enumeration was completed, the number of holdouts was reduced from an initial 85,853,789 to 20,405,295 machines, a 76.23% reduction.
- BB(4,3) - Reduced from 460,916,384 to 9,401,447 holdouts, a 97.96% reduction.
- BB(3,4) - Reduced from 434,787,751 to 15,136,283 holdouts, a 96.52% reduction.
- BB(2,5) - Reduced from 217 to 75, a 65.43% reduction.
- BB(2,7) - Enumeration started, 50K of the 1M subtasks have been enumerated (5%).
New Methods.
TODO
Meta.
TODO
BB Adjacent.
- Instruction-Limited Busy Beaver was introduced and calculated up to BBi(7).
- Reversible Turing Machine Busy Beaver values were calculated up to BBrev(5).
- Terminating Turmites (Relative Movement Turing Machines) were introduced.
- John Tromp introduced the function for Busy Beaver for lambda calculus with an oracle and computed it up to .
- Instruction-Limited Greedy Busy Beaver gBBi(n) and an Instruction-Limited variant of the Blanking Busy Beaver (BLBi(n)) were introduced. gBBi(n) was computed up to n = 13 and BLBi(n) was computed up to n = 7.
- @savask shared the Bug Game (and fast-growing function).
- Busy Beaver for Fractan (BBf) was introduced on 1 Nov by Jason Yuen.[1] Exact values have been proven up to BBf(19) = 370 and exhaustive enumeration has been run up to size 21 (with BBf(21) ≥ 31,957,632 and 587 holdouts).
- Cyclic Tree Busy Beaver (CTBB) was introduced by @Jack on 14 Nov.[2] The exact value is known for CTBB(2) = 5 and lower bounds have been found up to size 7 with CTBB(7) > 4↑↑↑↑(4↑↑↑3).
TODO
BB Adjacent
TODO. Register machines, General Recursive Functions.