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Forbidden schematicMarzipugLSD 發佈

[–]Marzipug[S] -1 指標0 指標  (0 下層留言)

Think of the many worlds interpretation, just how observation creates two parallel timelines; one where either outcome occurs.

This is just the reverse, by manipulating a qubit to be in the same state on multiple parallel universes, it could fold those parallel universes onto one another as they are for all intents and purposes identical.

This is just the beginning of what could be accomplished by synchronizing timelines.

Forbidden schematicMarzipugLSD 發佈

[–]Marzipug[S] 15 指標16 指標  (0 下層留言)

It synchronizes a qubit across multiple parallel universes, simultaneously. This allows information to be transferred from adjacent dimensions.

My grandfather might die today...and I am on acid...what's real....ThroawayhaibhaiLSD 發佈

[–]Marzipug 11 指標12 指標  (0 下層留言)

They're probably just asleep, calm down. Besides, even if they are gone, that's something for you to face after the trip ends.

I gave each particle an evolving genome, and this happened.MarzipugSimulated 發佈

[–]Marzipug[S] 0 指標1 指標  (0 下層留言)

In this version of the sim, the particles represent 'genetic information' or a container of genetic information. This could somewhat analogous to a polypeptide chain.

The particles do not reproduce, but their genome does change. It also yes creates virtually infinitely many particle types on the fly, which adapt in their properties. The genomes also modify based on what other genomes they are interacting with.

I gave each particle an evolving genome, and this happened.MarzipugSimulated 發佈

[–]Marzipug[S] 1 指標2 指標  (0 下層留言)

Particle life usually has predefined types, this instead makes genomes the seed of the types and their properties.

I gave each particle an evolving genome, and this happened.MarzipugSimulated 發佈

[–]Marzipug[S] 1 指標2 指標  (0 下層留言)

Well actually it's a continual process of evolution happening. It just takes a long time.

I gave each particle an evolving genome, and this happened.MarzipugSimulated 發佈

[–]Marzipug[S] 5 指標6 指標  (0 下層留言)

Each particle begins with a random 6-dimensional genomic sequence. The rules are pretty simple. There is some short-range repulsion between particles with highly different genomes, creating segmentation. And similar genome particles physically attract while being repelled in genomic parameter space.

I set up a simulation where colored dots attract or repel each other, and they spontaneously formed into cell-like 'organisms'.Marzipuginterestingasfuck 發佈

[–]Marzipug[S] -15 指標-14 指標  (0 下層留言)

I’d like to see even one example from his works that is nearly as complex as mine. Good luck.

I set up a simulation where colored dots attract or repel each other, and they spontaneously formed into cell-like 'organisms'.Marzipuginterestingasfuck 發佈

[–]Marzipug[S] 9 指標10 指標  (0 下層留言)

Because I did, this is a code I wrote. There's a difference between making a simulation based on a topic and inventing the topic itself.

I set up a simulation where colored dots attract or repel each other, and they spontaneously formed into cell-like 'organisms'.Marzipuginterestingasfuck 發佈

[–]Marzipug[S] 39 指標40 指標  (0 下層留言)

I never claimed to have invented this type of simulation. But this is built from scratch using a custom engine.