If you look at the 7 second mark. In the top left corner you'll see a string of cells. Heading off to the lop left. These had a mutation where they always picked the same direction. Thus they were able to leave the highly populated area. However, they couldn't handle a broken cell being born in the line.
Each "pixel" is a "cell". Each "cell" has a list of instructions that it follows. I believe the initial program was something like: Pick a random direction, produce a new cell in that direction, send a copy of dna in that direction, and then kickstart the new cell.
Nothing interesting actually happened. While a few mutations did take hold, they were neutral, with no actual affect on the result.
If you look at the 7 second mark. In the top left corner you'll see a string of cells. Heading off to the lop left. These had a mutation where they always picked the same direction. Thus they were able to leave the highly populated area. However, they couldn't handle a broken cell being born in the line.
WinstonEwert 3 years ago
How exactly does this simulation work?
sevenclev 3 years ago
Each "pixel" is a "cell". Each "cell" has a list of instructions that it follows. I believe the initial program was something like: Pick a random direction, produce a new cell in that direction, send a copy of dna in that direction, and then kickstart the new cell.
Nothing interesting actually happened. While a few mutations did take hold, they were neutral, with no actual affect on the result.
WinstonEwert 3 years ago