I thought DryLife was very interesting, so I made a thread about it.

Post any stuff you've found in DryLife, if you can.

http://imgur.com/8YwKexI - Indefinetly growing pattern. It's creating somewhat complex stuff, like boats with tails and pulsars.

In this rule, it seems that patterns rarely stabilize at all.

LWSS's are an impossiblity, and the only spaceships I've seen are gliders and a thing made out of 2 r-pentominoes.

## DryLife Exploration Thread

### DryLife Exploration Thread

Last edited by Pigeonbee on March 29th, 2016, 8:48 am, edited 1 time in total.

I am riveted by really, really long-lasting methuselahs.

Trying to seach for them in golly by placing random blocks and hoping for the best, and also by modding existing ones.

Trying to seach for them in golly by placing random blocks and hoping for the best, and also by modding existing ones.

### Re: DryLife Exploration Thread

Don't miss out on reading this already existing thread: viewtopic.php?f=11&t=490 If you're interested in DryLife, it makes for very exciting reading! Maybe seeing what's already been done will help someone build something new.

### Re: DryLife Exploration Thread

Code: Select all

```
x = 35, y = 30, rule = B37/S23
3o29b3o13$16b3o3$16b3o13$3o29b3o!
```

Bored of using the Moore neighbourhood for everything? Introducing the Range-2 von Neumann isotropic non-totalistic rulespace!

- A for awesome
**Posts:**1993**Joined:**September 13th, 2014, 5:36 pm**Location:**0x-1-
**Contact:**

### Re: DryLife Exploration Thread

34-cell c/3 orthogonal (min. pop. gen. 2):
Found during a depth-first 2c/6 search, despite being short-wide and period 3.

Code: Select all

```
x = 17, y = 7, rule = B37/S23
3bo9bo$b3o9b3o$bo2bob2ob2obo2bo$o4bobobobo4bo$bob3obobob3obo2$b3o9b
3o!
```

x₁=ηx

V ⃰_η=c²√(Λη)

K=(Λu²)/2

Pₐ=1−1/(∫^∞_t₀(p(t)ˡ⁽ᵗ⁾)dt)

$$x_1=\eta x$$

$$V^*_\eta=c^2\sqrt{\Lambda\eta}$$

$$K=\frac{\Lambda u^2}2$$

$$P_a=1-\frac1{\int^\infty_{t_0}p(t)^{l(t)}dt}$$

http://conwaylife.com/wiki/A_for_all

Aidan F. Pierce

V ⃰_η=c²√(Λη)

K=(Λu²)/2

Pₐ=1−1/(∫^∞_t₀(p(t)ˡ⁽ᵗ⁾)dt)

$$x_1=\eta x$$

$$V^*_\eta=c^2\sqrt{\Lambda\eta}$$

$$K=\frac{\Lambda u^2}2$$

$$P_a=1-\frac1{\int^\infty_{t_0}p(t)^{l(t)}dt}$$

http://conwaylife.com/wiki/A_for_all

Aidan F. Pierce

- A for awesome
**Posts:**1993**Joined:**September 13th, 2014, 5:36 pm**Location:**0x-1-
**Contact:**

### Re: DryLife Exploration Thread

A weird sparky wick/fuse that leaves behind dock-on-docks:

Code: Select all

```
x = 130, y = 9, rule = B37/S23
bo16bo4bo16bo4bo16bo4bo16bo4bo16bo4bo16bo$obo14bobo2bobo14bobo2bobo14b
obo2bobo14bobo2bobo14bobo2bobo14bobo$o2bo12bo2bo2bo2bo12bo2bo2bo2bo12b
o2bo2bo2bo12bo2bo2bo2bo12bo2bo2bo2bo12bo2bo$3o14b3o2b3o14b3o2b3o14b3o
2b3o14b3o2b3o14b3o2b3o14b3o2$3o14b3o2b3o14b3o2b3o14b3o2b3o14b3o2b3o14b
3o2b3o14b3o$o2bo12bo2bo2bo2bo12bo2bo2bo2bo12bo2bo2bo2bo12bo2bo2bo2bo
12bo2bo2bo2bo12bo2bo$obo14bobo2bobo14bobo2bobo14bobo2bobo14bobo2bobo
14bobo2bobo14bobo$bo16bo4bo16bo4bo16bo4bo16bo4bo16bo4bo16bo!
```

x₁=ηx

V ⃰_η=c²√(Λη)

K=(Λu²)/2

Pₐ=1−1/(∫^∞_t₀(p(t)ˡ⁽ᵗ⁾)dt)

$$x_1=\eta x$$

$$V^*_\eta=c^2\sqrt{\Lambda\eta}$$

$$K=\frac{\Lambda u^2}2$$

$$P_a=1-\frac1{\int^\infty_{t_0}p(t)^{l(t)}dt}$$

http://conwaylife.com/wiki/A_for_all

Aidan F. Pierce

V ⃰_η=c²√(Λη)

K=(Λu²)/2

Pₐ=1−1/(∫^∞_t₀(p(t)ˡ⁽ᵗ⁾)dt)

$$x_1=\eta x$$

$$V^*_\eta=c^2\sqrt{\Lambda\eta}$$

$$K=\frac{\Lambda u^2}2$$

$$P_a=1-\frac1{\int^\infty_{t_0}p(t)^{l(t)}dt}$$

http://conwaylife.com/wiki/A_for_all

Aidan F. Pierce

### Re: DryLife Exploration Thread

Well, it is the usual unit cell construction in DryLife and relative rules, but counts I hope:

../forums/viewtopic.php?f=11&t=2597&start=25

So it is Turing-complete, based a trick on right-angle kickback reactions on inverted sparse Glider stream signals.

../forums/viewtopic.php?f=11&t=2597&start=25

So it is Turing-complete, based a trick on right-angle kickback reactions on inverted sparse Glider stream signals.