## Search found 60 matches

- June 14th, 2019, 2:22 pm
- Forum: Other Cellular Automata
- Topic: Quantum Computer
- Replies:
**66** - Views:
**37425**

### Re: Quantum Computer

I think the reason why the original X-shape pattern in post (1.), works, is that if you rotate the pattern 90 degrees, nothing changes, it lines up with the previous image, so rotating it 90 degrees again doesn't change either. Somebody on another forum made a spinning device, a small solid cylinder...

- May 3rd, 2019, 2:08 pm
- Forum: Other Cellular Automata
- Topic: Quantum Computer
- Replies:
**66** - Views:
**37425**

- May 3rd, 2019, 1:27 pm
- Forum: Other Cellular Automata
- Topic: Quantum Computer
- Replies:
**66** - Views:
**37425**

### Re: Quantum Computer

I think you can just wrap the edges with the klein bottle wrapping. That wrapping allows a shift of 1 on the edges on the klein bottle side. I believe the X pattern is superfluous i.e. you can use any random pattern in the rule B3/S12456 to create a quantum computer. Why? The rule B3/S12456 is explo...

- April 1st, 2019, 8:53 am
- Forum: Other Cellular Automata
- Topic: Quantum Computer
- Replies:
**66** - Views:
**37425**

### Re: Quantum Computer

https://en.wikipedia.org/wiki/List_of_fractals_by_Hausdorff_dimension The hexagonal lattice plus flipped hexagonal lattice makes a length of 3, and a mass of 13 when it closes in on the dark X (explanation of fractals in https://www.youtube.com/watch?v=gB9n2gHsHN4) In the list of fractals, hausdorff...

- March 30th, 2019, 9:53 am
- Forum: Other Cellular Automata
- Topic: Quantum Computer
- Replies:
**66** - Views:
**37425**

### Re: Quantum Computer

This may not work, but in the hexagonal lattice, when you flip it left to right, it makes a dark X in the interior boundary when added to the hexagonal lattice. This all has to do with what I noticed in the shrinking rule B35/S5678. I took the original X pattern, then added like a checkerboard of wh...

- March 18th, 2019, 5:13 pm
- Forum: Other Cellular Automata
- Topic: Quantum Computer
- Replies:
**66** - Views:
**37425**

### Re: Quantum Computer

What I originally noticed from the X found in the first post, is when I made a video of it, at exactly ten seconds in, a phantom cloud appears along the curved edge of the X. Now what I'm trying to get, is when you remove a large number of squares in a large X, about the center, what closes in is a ...

- February 28th, 2019, 4:55 pm
- Forum: Other Cellular Automata
- Topic: Quantum Computer
- Replies:
**66** - Views:
**37425**

### Re: Quantum Computer

I noticed in this pattern, that in the random flicker when zoomed out, a figure-8 shape form in the dark random patterns form around the center, and the figure-8 is a string that travels to the center, and then rubs against itself in a gyrating pattern, then exits the center. x = 1764, y = 590, rule...

- July 30th, 2018, 12:04 pm
- Forum: Other Cellular Automata
- Topic: Quantum Computer
- Replies:
**66** - Views:
**37425**

### Re: Quantum Computer

cylinder.png The picture shows how in the previous post (the first pattern) a row of clockwise under a row of counterclockwise, starting from a single left starting point, they depart in distance from left to right. Since a square lattice like on graph paper, and this automata is like the usual squ...

- July 19th, 2018, 8:43 am
- Forum: Other Cellular Automata
- Topic: Lattice Gas Automata
- Replies:
**1** - Views:
**1127**

### Lattice Gas Automata

Does anybody know how they implemented the dark mixing pattern in the lower left: https://en.wikipedia.org/wiki/Lattice_g ... onal_grids

- July 9th, 2018, 4:45 pm
- Forum: Other Cellular Automata
- Topic: Quantum Computer
- Replies:
**66** - Views:
**37425**

### Re: Quantum Computer

Bottom line, I believe the clockwise and counterclockwise X's in the original post can be arranged to be a hyperplane cutting through the 5th dimension. The previous post shows how a row of clockwise under a row of counterclockwise, in the pattern upload in the previous post, the two rows start to s...

- July 2nd, 2018, 11:10 pm
- Forum: Other Cellular Automata
- Topic: Quantum Computer
- Replies:
**66** - Views:
**37425**

### Re: Quantum Computer

I didn't notice this before. When you make a row of the X's, and put the anti-X above it, due to their clockwise or counterclockwise nature, the two rows spread apart from each other (as you go from left to right, the distance between the two row of X's), and get further and further away from each o...

- June 25th, 2018, 3:36 pm
- Forum: Other Cellular Automata
- Topic: Quantum Computer
- Replies:
**66** - Views:
**37425**

### Re: Quantum Computer

I'm looking at this https://en.wikipedia.org/wiki/Minkowski_space#Lorentz_transformations_and_symmetry Momentarily co-moving intertial frame, the gif halfway down the page on the right. It looks exactly like one of the long arms extending from the central region in the X (within the flicker that is,...

- June 16th, 2018, 4:36 pm
- Forum: Other Cellular Automata
- Topic: Quantum Computer
- Replies:
**66** - Views:
**37425**

### Re: Quantum Computer

This is the hexagonal lattice: x = 3000, y = 2996, rule = B3/S12456 1565bo$1566bo584bo$1567bo582bo$1568bo580bo$1569bo578bo$1570bo576bo$ 1571bo574bo$1572bo572bo$1573bo570bo$1574bo568bo$1575bo566bo$1576bo564b o$1577bo562bo$1578bo560bo$1579bo558bo$1580bo556bo$1581bo554bo$1582bo 552bo$1583bo550bo$1584bo...

- June 7th, 2018, 5:04 pm
- Forum: Other Cellular Automata
- Topic: Quantum Computer
- Replies:
**66** - Views:
**37425**

### Re: Quantum Computer

I think it's pretty close to being made in the rule B3/S12456. This is the hexagonal lattice: x = 3000, y = 2996, rule = B3/S12456 1565bo$1566bo584bo$1567bo582bo$1568bo580bo$1569bo578bo$1570bo576bo$ 1571bo574bo$1572bo572bo$1573bo570bo$1574bo568bo$1575bo566bo$1576bo564b o$1577bo562bo$1578bo560bo$1579...

- June 1st, 2018, 12:03 pm
- Forum: Other Cellular Automata
- Topic: Quantum Computer
- Replies:
**66** - Views:
**37425**

### Re: Quantum Computer

You make a fractal arrangement of the large squares in the rule B35/S5678 (type of shrinking rule), as this picture shows: Untitled1.png The large squares are just completely filled squares (can make it with something similar to B123/S12345678 starting from a line of 7 or 8 on cells), but need to be...

- May 29th, 2018, 6:22 pm
- Forum: Other Cellular Automata
- Topic: Quantum Computer
- Replies:
**66** - Views:
**37425**

### Re: Quantum Computer

I copied and pasted a horizontal line from the hexagonal lattice into rule 90. The persistent pattern of a double circle and a line forming in the original pattern within the random flicker looks like it has something to do with fractals. x = 3140, y = 1, rule = w150 o2b2obobobob2ob4ob4obo2bo7b6o8bo...

- May 24th, 2018, 1:41 pm
- Forum: Other Cellular Automata
- Topic: Quantum Computer
- Replies:
**66** - Views:
**37425**

### Re: Quantum Computer

It's possible that since that up/down and left/right long lines that meet at the corners of the large squares like in the clockwise/counterclockwise-- since they shouldn't touch or intersect any other large squares, that the hexagonal lattice from the center outward would have to spread out like in ...

- May 22nd, 2018, 2:55 pm
- Forum: Other Cellular Automata
- Topic: Quantum Computer
- Replies:
**66** - Views:
**37425**

### Re: Quantum Computer

You can look at the Osgood curve: Untitled.png In the previous post I mentioned a large filled square with the rule B35/S5678, a type of shrinking rule that transforms into an intermediate shape of a large square with four fat short diagonals at the corners. That's exactly like the original pattern,...

- May 15th, 2018, 12:57 am
- Forum: Other Cellular Automata
- Topic: Quantum Computer
- Replies:
**66** - Views:
**37425**

### Re: Quantum Computer

Actually look at this solid large square with the shrinking rule (B35/s5678): x = 265, y = 259, rule = B35/S5678 265o$265o$265o$265o$265o$265o$265o$265o$265o$265o$265o$265o$265o$265o$ 265o$265o$265o$265o$265o$265o$265o$265o$265o$265o$265o$265o$265o$265o$ 265o$265o$265o$265o$265o$265o$265o$265o$265o$...

- May 15th, 2018, 12:17 am
- Forum: Other Cellular Automata
- Topic: Quantum Computer
- Replies:
**66** - Views:
**37425**

### Re: Quantum Computer

I used this pattern: x = 1764, y = 590, rule = B3/S12456 1762bo$1174bobo584bo$586bobo584bo3bo582bo$o584bo3bo582bo5bo580bo$bo 582bo5bo580bo7bo578bo$2bo580bo7bo578bo9bo576bo$3bo578bo9bo576bo11bo 574bo$4bo576bo11bo574bo13bo572bo$5bo574bo13bo572bo15bo570bo$6bo572bo 15bo570bo17bo568bo$7bo570bo17bo568bo19...

- May 2nd, 2018, 12:50 pm
- Forum: Other Cellular Automata
- Topic: Quantum Computer
- Replies:
**66** - Views:
**37425**

### Re: Quantum Computer

In post 9, it's a file grid1111.zip, that shows the repeated clockwise and counterclockwise "squares" joined at the corner in a grid. You use the Sierpinski curve to generate a center clockwise "square", that's at the center of that .zip file, and surround at the 4 corners to make 5 "squares". You t...

- April 27th, 2018, 10:32 am
- Forum: Other Cellular Automata
- Topic: Quantum Computer
- Replies:
**66** - Views:
**37425**

### Re: Quantum Computer

If you look at this old video from UC Davis: https://www.youtube.com/watch?v=2e8QJBkCwvo At 20:23, he drew a white line, inside the Sierpinski Curve as it changes and becomes smaller. The white line as it moves continuously along the edge makes a snake like motion. But notice that a black line from ...

- April 17th, 2018, 6:43 pm
- Forum: Other Cellular Automata
- Topic: Quantum Computer
- Replies:
**66** - Views:
**37425**

### Re: Quantum Computer

I'll just give an update. I'm working on using the original clockwise/counterclockwise long diagonal pattern in the Sierpinski curve: https://en.wikipedia.org/wiki/Sierpi%C5%84ski_curve So it's a space filling curve. I noticed a while back that in a grid like this: Untitled.png There's a central osc...

- April 9th, 2018, 4:11 pm
- Forum: Other Cellular Automata
- Topic: Quantum Computer
- Replies:
**66** - Views:
**37425**

### Re: Quantum Computer

Can somebody make a plane grid of this pattern: x = 588, y = 588, rule = B3/S12456:P588,588 586bo$o584bo$bo582bo$2bo580bo$3bo578bo$4bo576bo$5bo574bo$6bo572bo$7bo 570bo$8bo568bo$9bo566bo$10bo564bo$11bo562bo$12bo560bo$13bo558bo$14bo 556bo$15bo554bo$16bo552bo$17bo550bo$18bo548bo$19bo546bo$20bo544bo$21b...

- April 3rd, 2018, 3:09 pm
- Forum: Other Cellular Automata
- Topic: Quantum Computer
- Replies:
**66** - Views:
**37425**

### Re: Quantum Computer

Sphere wrapping, hpp or gas automata: