Difference between revisions of "Caterloopillar"
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The general idea of adjustable speed spaceship was proposed by [[David Bell]] in October [[:Category:Patterns found in 2006|2006]] on the [[LifeCA]] mailing list<ref>{{cite web|url=http://www.conwaylife.com/forums/viewtopic.php?p=13217#p13217|title=Idea for various speed Caterpillars based on standard spaceships|author=David Bell|date=October 8, 2006|accessdate=April 11, 2016}}</ref>, and possibly earlier and independently by [[Jason Summers]]. [[Hartmut Holzwart]] revived discussion about the idea in September 2014 on the ConwayLife.com forums. | The general idea of adjustable speed spaceship was proposed by [[David Bell]] in October [[:Category:Patterns found in 2006|2006]] on the [[LifeCA]] mailing list<ref>{{cite web|url=http://www.conwaylife.com/forums/viewtopic.php?p=13217#p13217|title=Idea for various speed Caterpillars based on standard spaceships|author=David Bell|date=October 8, 2006|accessdate=April 11, 2016}}</ref>, and possibly earlier and independently by [[Jason Summers]]. [[Hartmut Holzwart]] revived discussion about the idea in September 2014 on the ConwayLife.com forums. | ||
During those discussions, [[:Category:Patterns found by Alexey Nigin|Alexey Nigin]] in 2014 proposed a a novel way of construction that | During those discussions, [[:Category:Patterns found by Alexey Nigin|Alexey Nigin]] in 2014 proposed a a novel way of construction that would avoid helices, instead it would use two streams upward and downward, that create each other using slow salvo<ref>{{cite web|url=http://www.conwaylife.com/forums/viewtopic.php?p=14268#p14268|title=A novel way of construction |author=Alexey Nigin|date=November 12th, 2014}}</ref>. Surprisingly enough the final design of the first Caterloopillar was very close to his description. | ||
Although [[Alexey Nigin]] proposed the Caterloopillar design, the idea was purely theoretical. The first example that showed the idea can be efficiently utilized was found by [[:Category:Patterns found by Michael Simkin|Michael Simkin]] few days after the initial suggestion<ref>{{cite web|url=http://www.conwaylife.com/forums/viewtopic.php?p=14297#p14297|title=Caterloopillar first reading head examples |author=Michael Simkin|date=November 14th, 2014}}</ref>. | Although [[Alexey Nigin]] proposed the Caterloopillar design, the idea was purely theoretical. The first example that showed the idea can be efficiently utilized was found by [[:Category:Patterns found by Michael Simkin|Michael Simkin]] few days after the initial suggestion<ref>{{cite web|url=http://www.conwaylife.com/forums/viewtopic.php?p=14297#p14297|title=Caterloopillar first reading head examples |author=Michael Simkin|date=November 14th, 2014}}</ref>. | ||
The name was also extensively discussed, with suggestions including ''strange loop'', ''strange-caterloopillar'', ''pushmi-pullyou'' and ''caterloop'', finally arriving to '''Caterloopillar'''. | The name was also extensively discussed, with suggestions including ''strange loop'', ''strange-caterloopillar'', ''pushmi-pullyou'' and ''caterloop'', finally arriving to '''Caterloopillar'''. | ||
==Implementation== | ==Implementation== |
Revision as of 16:20, 12 April 2016
Caterloopillar | |||||||
View static image | |||||||
Pattern type | Spaceship | ||||||
---|---|---|---|---|---|---|---|
Number of cells | 232815 | ||||||
Bounding box | 734 × 514927 | ||||||
Direction | Orthogonal | ||||||
Period | 2000 | ||||||
Mod | Unknown | ||||||
Speed | c/8 | Unknown | ||||||
Heat | Unknown | ||||||
Discovered by | Michael Simkin | ||||||
Year of discovery | 2016 | ||||||
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Caterloopillar is the name given to a family of spaceships containing two major parts - the front and the back. In Caterloopillar each part has the properties of universal construction, and thus each part is constructing the building blocks of the other part, while also reading and moving a construction tape. As the name suggests, this creates somewhat paradoxical design, similar to the Strange loop concept.
History
The general idea of adjustable speed spaceship was proposed by David Bell in October 2006 on the LifeCA mailing list[1], and possibly earlier and independently by Jason Summers. Hartmut Holzwart revived discussion about the idea in September 2014 on the ConwayLife.com forums.
During those discussions, Alexey Nigin in 2014 proposed a a novel way of construction that would avoid helices, instead it would use two streams upward and downward, that create each other using slow salvo[2]. Surprisingly enough the final design of the first Caterloopillar was very close to his description.
Although Alexey Nigin proposed the Caterloopillar design, the idea was purely theoretical. The first example that showed the idea can be efficiently utilized was found by Michael Simkin few days after the initial suggestion[3].
The name was also extensively discussed, with suggestions including strange loop, strange-caterloopillar, pushmi-pullyou and caterloop, finally arriving to Caterloopillar.
Implementation
The first Caterloopillar was constructed by Michael Simkin and completed on April 9, 2016; this Caterloopillar has a speed of c/8. Caterloopillars with many other speeds can be constructed using a slightly modified design. The major limitation of this implementation is upper bound of speed c/4, as the signal transferring is done by converting a still life into a glider and back, thus limiting the moving speed of the tape to c/4 (the speed of the glider).
See also
References
- ↑ David Bell (October 8, 2006). "Idea for various speed Caterpillars based on standard spaceships". Retrieved on April 11, 2016.
- ↑ Alexey Nigin (November 12th, 2014). "A novel way of construction".
- ↑ Michael Simkin (November 14th, 2014). "Caterloopillar first reading head examples".
External links
- Michael Simkin (April 9, 2016). "Caterloopillar WIP (all speeds < c/4)".
- Hartmut Holzwart (September 11, 2014). "David Bell's engineless caterpillar idea revisited".
- Caterloopillar GitHub repository
- Caterloopillar c/8 RLE file
- Patterns
- Spaceships with between 100,000 and 999,999 cells
- Periodic objects with minimum population between 100,000 and 999,999
- Patterns with between 100,000 and 999,999 cells
- Patterns found by Michael Simkin
- Patterns found in 2016
- Outer-totalistically endemic patterns
- Spaceships
- Spaceships with period 2000
- Orthogonal spaceships
- Spaceships with speed c/8
- Non-monotonic spaceships