OCA:Sticky

From LifeWiki
Revision as of 04:42, 25 July 2024 by Pifricted (talk | contribs)
Jump to navigation Jump to search
Proposedmove.png It has been proposed that this page be moved to User:tommyaweosme/OCA:Sticky due to the following reason: Page is messy, and Sticky does not seem notable
Ambox notice.png This article needs to be expanded with: Turing completeness proof.


Ambox notice.png This article may require cleanup to meet LifeWiki's quality standards.
Sticky
#R Sticky ! [[ RANDOMIZE RANDSEED 1729 THUMBLAUNCH THUMBNAIL THUMBSIZE 2 GRID ZOOM 6 WIDTH 600 HEIGHT 600 LABEL 90 -20 2 "#G" AUTOSTART PAUSE 2 GPS 8 LOOP 256 ]] #C [[ THUMBSIZE 2 THEME 6 GRID GRIDMAJOR 0 SUPPRESS THUMBLAUNCH ]]
(click above to open LifeViewer)
Character Chaotic
Radiation.png This article is a stub. You can help LifeWiki by expanding it.

Sticky is a chaotic multi-state ruletable designed for circuitry. It was created by Redstoneboi on May 14, 2018.

Mechanics

A blue cell and a grey cell behind it makes a photon going in that direction. If it hits a red cell, it splits in two directions. These two directions can be blocked by placing red cells next to one or both directions of the red cell to create a reflector or eater.

A photon can also drag a red cell to the next cell, destroying the photon in the process. This is very useful for slide guns. Certain photon collisions can result in a red cell, thus technology like spaceships and replicators being possible.

Patterns

Diodes

x = 15, y = 16, rule = Sticky 7.A$5.2A.2A$4.A5.A$BC4.A$4.A5.A$5.2A.2A$7.A3$7.A$5.2A.2A$4.A5.A$6.A6. CB$4.A5.A$5.2A.2A$7.A! #C [[ THUMBSIZE 2 THEME 6 GRID GRIDMAJOR 0 SUPPRESS THUMBLAUNCH ]] #C [[ AUTOSTART GPS 4 LOOP 20 ]]
Sarp discovered a simple diode design.[1].
(click above to open LifeViewer)
x = 19, y = 11, rule = Sticky 17.B$17.C3$.2A10.2A$A5.A5.A5.A$.A3.A7.A3.A3$2.C$2.B! #C [[ THUMBSIZE 2 THEME 6 GRID GRIDMAJOR 0 SUPPRESS THUMBLAUNCH ]] #C [[ AUTOSTART GPS 4 LOOP 20 ]]
diode design by Redstoneboi.
(click above to open LifeViewer)

Logic gates

There is an and gate constructed with Sarp's diode.

x = 16, y = 43, rule = Sticky 9.A$7.2A.2A$6.A5.A.A$8.A6.A$6.A5.A$7.2A.2A$8.3A$7.2A.2A$6.A5.A$BC6.A6. A$6.A5.A.A$7.2A.2A$9.A3$9.A$7.2A.2A$6.A5.A.A$BC6.A6.A$6.A5.A$7.2A.2A$ 8.3A$7.2A.2A$6.A5.A$8.A6.A$6.A5.A.A$7.2A.2A$9.A3$9.A$7.2A.2A$6.A5.A.A $BC6.A6.A$6.A5.A$7.2A.2A$8.3A$7.2A.2A$6.A5.A$BC6.A6.A$6.A5.A.A$7.2A.2A $9.A! #C [[ THUMBSIZE 2 THEME 6 GRID GRIDMAJOR 0 SUPPRESS THUMBLAUNCH ]] #C [[ AUTOSTART GPS 4 HEIGHT 800 LOOP 35 ]]
And gate
(click above to open LifeViewer)

Memory

A simple memory bit design was discovered by Redstoneboi.[2]

x = 7, y = 19, rule = Sticky 4.B$4.C5$4.B$4.C3$4A.2A$A4.2A$A2.A2.A$A5.A$A5.A$2A3.2A$2A.4A$2A.4A$2A .4A! #C [[ THUMBSIZE 2 THEME 6 GRID GRIDMAJOR 0 SUPPRESS THUMBLAUNCH ]]
Optimized version of Redstoneboi's memory bit.
(click above to open LifeViewer)

Stamp collection

Redstoneboi made a stamp collection of every logic thing at that time a few days after the creation of the rule.

x = 74, y = 25, rule = Sticky .2A67.2A.A$AC.A64.2A3.A$.B10.A7.2A8.2A.2A8.3A.3A6.A3.A6.A5.A$A6.A3.A3. A3.A5.A3.A8.A3.A7.A4.A5.A7.A.A.A$.2A3.A6.A6.A3.A5.A3.A2.A5.A2.A2.A10. A11.A3$.B.C6.B.C6.B.C7.B.C10.B.C3.C.B3.B.C9.B.C$.B.B6.B.B6.B.B7.B.B10. B.B3.B5.B.B9.B.B$.B8.B8.B9.B3.C.B6.B11.B3.C.B5.B3.C.B$.B8.B18.B3.B8.B 11.B3.B7.B3.B$.B8.B20.C10.B13.C11.C$.B8.B20.B10.B13.B11.B$10.B31.B$10. B31.B$44.C$44.B$33.C24.C11.C$33.B24.B11.B5$48.C$48.B! #C [[ THUMBSIZE 2 THEME 6 GRID GRIDMAJOR 0 SUPPRESS THUMBLAUNCH ]]
Redstoneboi's stamp collection
(click above to open LifeViewer)

Spaceships

An 106c/23932 orthogonoid has been discovered by islpting.[3] A diagonal spaceship in Sticky has not yet been constructed, but it is being worked on.

Islptng's 106c/23932 apaceship

Replicators

Islptng discovered a replicator in Sticky preceding the orthogonoid. It constructs the top line first, then the bottom line, and then the constructor thing below and to the right of the bottom line, and then it fills the space in between the two lines with code.

Islptng's Replicators

Variants

Life-Based Sticky

Life-based Sticky is Sticky but the red cells emulate life. This Sticky variant is turing-complete without a doubt.

StickyR2

StickyR2 is Sticky but a collision of two photons in such a way it would trigger b2i with blue cells, it makes a red cell instead of dying.

StickyBoxes

StickyBoxes is StickyR2 but the collision makes an orange cell instead. A collision between a photon and an orange cell results in the orange cell dying. Thus, orange cells are a memory cell when used right. There is no way to read an orange cell, however.

See also

References

  1. https://conwaylife.com/forums/viewtopic.php?f=11&t=3537#p63663
  2. https://conwaylife.com/forums/viewtopic.php?f=11&t=3537#p63684
  3. https://conwaylife.com/forums/viewtopic.php?f=11&t=3537&start=100#p186079
Retrieved from "https://conwaylife.com/w/index.php?title=OCA:Sticky&oldid=150998"