Difference between revisions of "Clock"
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{{Oscillator | {{Oscillator | ||
|name | |name = Clock | ||
|pname | |pname = clock | ||
|f1 | |f1 = Muttering moat<!-- | ||
|family | |f2 = Sparkling spring--> | ||
|c | |family = Clock | ||
|bx | |c = 6 | ||
|by | |bx = 4 | ||
|p | |by = 4 | ||
|m | |fc = 19.4 | ||
|h | |p = 2 | ||
|v | |m = 1 | ||
|rotor = Clock | |h = 8 | ||
|discoverer | |v = 0.80 | ||
|discoveryear = 1970 | |rotor = Clock | ||
|rulemin | |discoverer = Simon Norton | ||
|rulemax | |discoveryear = 1970 | ||
| | |rulemin = B3/S3 | ||
|synthesis | |rulemax = B35678/S02345678 | ||
|synthesisRLE = true | |isorulemin = B3jn/S3y | ||
| | |isorulemax = B2-a34-j5678/S02345678 | ||
| | |synthesis = 4 | ||
| | |synthesisRLE = true | ||
| | |plaintext = true | ||
|animated | |rle = true | ||
|viewerconfig = #C [[ LOOP 2 GPS | |apgcode = xp2_2a54 | ||
}}'''Clock''' | |pentadecathlonid = 6P2.3 | ||
|animated = true | |||
|viewerconfig = #C [[ THUMBSIZE 3 ZOOM 42 HEIGHT 400 LOOP 2 GPS 2 ]] | |||
}} | |||
'''Clock''' is a {{period|2}} [[oscillator]] found by [[Simon Norton]] in May {{year|1970}}.<ref>{{CiteHickersonOscillators|accessdate=March 14, 2020}}</ref> The rotor of clock is a [[muttering moat]] and is identical to that of [[quad]]. | |||
Clock serves as the logo of [[WinLifeSearch]]. | |||
== | ==Use as a sparker== | ||
Clock can also serve as a weak [[corner dot]] [[sparker]] - although the edge cells cannot birth new cells without being destroyed, they can be used to suppress cell birth by overpopulation, as seen in [[p124 lumps of muck hassler]], [[period-184 glider gun]] and [[p82 pi-heptomino hassler]]. | |||
Very occasionally, a clock can suppress a long line. | |||
{{EmbedViewer | |||
|rle = 5b3o$5b3o$2bo3bo$2o$2b2o2bo$bo4bo3bo$6bo2bo2bo$9bo2bo$11bo! | |||
|position = center | |||
|viewerconfig = #C [[ GPS 2 THUMBSIZE 2 ]] | |||
|caption = In this p2 traffic light catalyst, a clock partially suppresses a six-cell edge. | |||
}} | |||
Clock can also be combined with [[fox]] to make a periodic catalyst. | |||
{{EmbedViewer | |||
|pname = foxandclockcatalystexamples | |||
|position = center | |||
|viewerconfig = #C [[ THUMBSIZE 2 GPS 4 ZOOM 12 HEIGHT 500 AUTOSTART T 0 PAUSE 4 T 26 PAUSE 2 LOOP 27 ]] | |||
}} | |||
== | ==Extensibility== | ||
< | |||
The clock is a part of a family of p2 oscillators that can be seen as stabilisations for the [[zebra stripes]]/[[chicken wire]] agar. Such [[extension]]s may lose [[symmetry]]. The next most simple oscillator in the family is [[cha cha]]. | |||
{|class="wikitable" | |||
|<center>[[Image:chacha.png|160px]]<br/>cha cha<br/>(long clock)</center> | |||
|<center>[[Image:verylongclock.png|160px]]<br/>[[Very long clock]]</center> | |||
|} | |||
==Occurrence== | |||
{{related|List of common oscillators}} | |||
Clock is the sixth most [[common]] oscillator in [[Achim Flammenkamp's census]], being somewhat less frequent than the [[pentadecathlon]], but much rarer than the [[blinker]], [[toad]], [[beacon]] or [[pulsar]]. It is by far the rarest {{cells|6|text=6-bit}} object, being about 45 times rarer than the [[snake]].<ref>{{citeAchim|accessdate=January 15, 2009}}</ref> It is also the sixty-second<!--one-minute?--> most common object on [[Adam P. Goucher]]'s [[Catagolue]].<ref>{{citeCatagolueStats|June 24, 2016}}</ref> | |||
The smallest predecessor to the clock that doesn't contain a clock itself has eight cells.<ref name="post157066" /> | |||
==Glider synthesis== | |||
{{Small constructible periodic object}} | |||
==In other rules== | |||
In [[outer-totalistic]] rules, clock can follow at least three different p2 cycles depending on the rule, which all have mod 1. | |||
* In rules such as B4/S1 the inner two cells oscillate similarly to a [[duoplet]] in [[Seeds]]. | |||
* In rules such as B3/S3, the outer cells oscillate (this being the sequence seen in Life). | |||
* In rules such as B34/S, both of these evolutions take place simultaneously, causing it to evolve into an inverted version of itself and therefore making it a [[phoenix]]. | |||
This gives three different p2 sequences: | |||
{| style="margin-left: auto; margin-right: auto;" class="wikitable" | |||
|+ Evolution of the clock across different rules | |||
|- | |||
| align="center" | [[File:Xp2 2a54 b3s23.gif]] | |||
| align="center" | [[File:Xp2 2a54 b34s.gif]] | |||
| align="center" | [[File:Xp2 2a54 b4s1.gif]] | |||
|- | |||
| B3/S3 to B35678/S02345678 | |||
| B34/S to B345678/S0245678 | |||
| B4/S1 to B45678/S01245678 | |||
|} | |||
Further sequences are possible in [[non-totalistic cellular automaton|non-totalistic rules]]; for instance, in B3j/S1, clock cycles with one phase of [[toad]]. Other rules with period-2 clock evolution sequences include B3j/S12a3y4k, B3j4j/S13aiy6c, B3jn4aj/S1c3y4a6a and B3n/S12ce3jy4y. | |||
In most rules similar to Life where the clock works the same way it does in Life, the clock is similarly rare; its unusual uncommonness is not unique to Life. | |||
==See also== | ==See also== | ||
*[[Bi-clock]] | * [[Bi-clock]] | ||
*[[Clock 2]] | * [[Clock 2]] | ||
*[[ | * [[Clock insertion]] | ||
==References== | |||
<references> | |||
<ref name="post157066">{{LinkForumThread | |||
|format = ref | |||
|p = 157066 | |||
|title = Re: Can we substantiate this claim? | |||
|author = Dave Greene | |||
|date = February 6, 2023 | |||
}}</ref> | |||
</references> | |||
==External links== | ==External links== | ||
{{ | * {{LinkLexicon|filename=lex_c.htm#clock}} | ||
{{ | * {{LinkCatagolue|xp2_2a54}} | ||
{{ | * {{LinkNiemiec|p2.htm#p2-6|The 3 six-bit period 2 oscillators|rle=0/6ck.rle}} | ||
* {{LinkPentadecathlonObject|id=6P2.3|archivedate=20221110164149}} | |||
* {{LinkGoLNews|2007/01/natural_clock.html|title=Natural Clock|date=January 30, 2007|author=Heinrich Koenig}} | |||
{{Symmetry|180degree|osc=flip}} | {{Symmetry|180degree|osc=flip}} | ||
{{Sparker|p=2|type=dot|strength=weak}} | |||
[[Category:Extendable oscillators]] |
Latest revision as of 22:16, 11 February 2024
Clock | |||||||||
View animated image | |||||||||
View static image | |||||||||
Pattern type | Oscillator | ||||||||
---|---|---|---|---|---|---|---|---|---|
Oscillator type | Muttering moat | ||||||||
Family | Clock | ||||||||
Number of cells | 6 | ||||||||
Bounding box | 4 × 4 | ||||||||
Frequency class | 19.4 | ||||||||
Period | 2 | ||||||||
Mod | 1 | ||||||||
Heat | 8 | ||||||||
Volatility | 0.80 | ||||||||
Strict volatility | 0.80 | ||||||||
Rotor type | Clock | ||||||||
Discovered by | Simon Norton | ||||||||
Year of discovery | 1970 | ||||||||
| |||||||||
| |||||||||
| |||||||||
|
Clock is a period-2 oscillator found by Simon Norton in May 1970.[1] The rotor of clock is a muttering moat and is identical to that of quad.
Clock serves as the logo of WinLifeSearch.
Use as a sparker
Clock can also serve as a weak corner dot sparker - although the edge cells cannot birth new cells without being destroyed, they can be used to suppress cell birth by overpopulation, as seen in p124 lumps of muck hassler, period-184 glider gun and p82 pi-heptomino hassler.
Very occasionally, a clock can suppress a long line.
In this p2 traffic light catalyst, a clock partially suppresses a six-cell edge. (click above to open LifeViewer) |
Clock can also be combined with fox to make a periodic catalyst.
(click above to open LifeViewer) RLE: here Plaintext: here |
Extensibility
The clock is a part of a family of p2 oscillators that can be seen as stabilisations for the zebra stripes/chicken wire agar. Such extensions may lose symmetry. The next most simple oscillator in the family is cha cha.
cha cha (long clock) |
Very long clock |
Occurrence
- See also: List of common oscillators
Clock is the sixth most common oscillator in Achim Flammenkamp's census, being somewhat less frequent than the pentadecathlon, but much rarer than the blinker, toad, beacon or pulsar. It is by far the rarest 6-bit object, being about 45 times rarer than the snake.[2] It is also the sixty-second most common object on Adam P. Goucher's Catagolue.[3]
The smallest predecessor to the clock that doesn't contain a clock itself has eight cells.[4]
Glider synthesis
All strict still lifes with a population of 21 or fewer cells, all oscillators with 16 or fewer cells, and all spaceships with 31 or fewer cells are known to be glider-constructible. A glider synthesis of this object can be found in the infobox to the right.
In other rules
In outer-totalistic rules, clock can follow at least three different p2 cycles depending on the rule, which all have mod 1.
- In rules such as B4/S1 the inner two cells oscillate similarly to a duoplet in Seeds.
- In rules such as B3/S3, the outer cells oscillate (this being the sequence seen in Life).
- In rules such as B34/S, both of these evolutions take place simultaneously, causing it to evolve into an inverted version of itself and therefore making it a phoenix.
This gives three different p2 sequences:
B3/S3 to B35678/S02345678 | B34/S to B345678/S0245678 | B4/S1 to B45678/S01245678 |
Further sequences are possible in non-totalistic rules; for instance, in B3j/S1, clock cycles with one phase of toad. Other rules with period-2 clock evolution sequences include B3j/S12a3y4k, B3j4j/S13aiy6c, B3jn4aj/S1c3y4a6a and B3n/S12ce3jy4y.
In most rules similar to Life where the clock works the same way it does in Life, the clock is similarly rare; its unusual uncommonness is not unique to Life.
See also
References
- ↑ Dean Hickerson's oscillator stamp collection. Retrieved on March 14, 2020.
- ↑ Achim Flammenkamp (September 7, 2004). "Most seen natural occurring ash objects in Game of Life". Retrieved on January 15, 2009.
- ↑ Adam P. Goucher. "Statistics". Catagolue. Retrieved on June 24, 2016.
- ↑ Dave Greene (February 6, 2023). Re: Can we substantiate this claim? (discussion thread) at the ConwayLife.com forums
External links
- Clock at the Life Lexicon
- Clock at Adam P. Goucher's Catagolue
- The 3 six-bit period 2 oscillators at Mark D. Niemiec's Life Page (download pattern file: 0/6ck.rle)
- 6P2.3 at Heinrich Koenig's Game of Life Object Catalogs
- Natural Clock at Game of Life News. Posted by Heinrich Koenig on January 30, 2007.
- Patterns
- Patterns with Catagolue frequency class 19
- Natural periodic objects
- Oscillators with 6 cells
- Periodic objects with minimum population 6
- Patterns with 6 cells
- Patterns found by Simon Norton
- Patterns found in 1970
- Patterns that can be constructed with 4 gliders
- Oscillators
- Clock variants
- Muttering moats
- Oscillators with period 2
- Oscillators with mod 1
- Oscillators with heat 8
- Oscillators with volatility 0.80
- Oscillators with strict volatility 0.80
- Oscillators with rotor Clock
- Patterns with 180-degree rotation symmetry
- Flipping oscillators
- Sparkers
- Sparkers with period 2
- Dot sparkers
- Weak sparkers
- Extendable oscillators