Lan Ze spent an afternoon writing and drawing, but still couldn't decide what kind of nervous system he wanted to make.

When we were moving a while ago, Xiao Wang carried a large armful of drawing paper for Mo Mo to play with and loaded it into the truck. Lan Ze thought it was useless, but he didn't tell him anything.

Now Lan Ze is in his room. The drawing paper he has drawn on is spread all over the floor, and he still uses the last bit of fruit juice paint. When he gets excited about painting, he takes a sip of the red pen in his hand. There is no sugar in the paint, so it is really sour.

According to nature's existing nervous system, deducing the radiation-resistant version of the brain structure and nerve conduction structure is just a trivial task in comparison. This task has already started leisurely on Mahua. There are a lot of Mahua running at the same time.

For multi-cell deduction tasks, the performance is still sufficient. Lanze added a small task to it for running and fun.

If we just use the brain and neural network to form a nervous system, after all...it feels quite boring. Since he has planned to design the nervous system himself, it must be more usable. How can he still use nature's original solution?

Woolen cloth?

Lan Ze spent a long time drawing conceptual diagrams of the nervous system, and almost turned himself into a lunatic. He finally decided to give up the macro structure first... and do what he is good at first. Design intracellular structures.

So, he finally opened his portable Brick workstation.

This time, his mind opened up...

"Brother Lan, what kind of topological diagram did you draw?"

Xiao Jiang carefully stepped over from the drawing paper spread on the floor. He found a gap on the table and put down the thermos bottle in his hand.

"Hey, that's good. Do you recognize it? I thought you only knew how to fight."

"You only know how to fight!"

When he first met Xiao Jiang, Lan Ze thought he was smart and capable; after being together for a long time, he found that he was a little cute.

Xiao Jiang poured him tea: "Drink a cup?"

The tea soup was bright red in color. Lan Ze took it and took a sip, "It tastes like dates."

"Yeah, I put red dates in it."

Lan Ze was thirsty anyway, so he took a few sips to moisten his throat.

Then, he pulled out a piece of drawing paper from under the stack of drawing papers on the table:

"Brother, are you free? Help me deduce this."

"Must be available."

Xiao Jiang went out to get a chair, pushed the drawing paper on the ground a little, put down the chair and sat down.

In fact, Xiao Jiang's ability is pretty good, but his knowledge is not broad enough - especially in the field of mathematics.

Although Lan Ze himself has average abilities, when he first went to school, he had the energy to study for classes, monographs, and papers, which no one with a sound mind could possibly have. If he studied too much, he would become knowledgeable.

No matter what industry or profession, people with outstanding talents always flock together. The only way to widen the gap is actually to use physical strength. At that time, he didn't understand this truth, so he was doing it half-heartedly.

The nervous system requires many types of cells. The most important ones are neuron cells that discharge and are connected to each other by synapses.

Thinking is discharge.

Now that Lan Ze has dropped down to the cellular level to do conceptual design, there is no need to consider the nervous system at all. He only regards designing neuron cells as designing a computer.

In this way, cells that complete neuronal functions do not necessarily have to discharge.

The activities within cells are naturally at the quantum level. In the presence of radiation, it is easy to create quantum entanglement.

Just need to tidy it up... use the ribosome structure to do some planning...

Lanze designed a series of quantum computing units. Unfortunately, due to the molecular characteristics of ribosomes, he could not get 64 bits together, and he also needed to leave enough check digits.

He did some calculations and pieced together, and came up with a painful 38-bit quantum computing unit. At least in terms of cell energy consumption, this is the most cost-effective way.

In the future, we will use the eight-pronged deduction to see if there are any macromolecules more suitable than ribosomes... Let's survive this time.

Lanze put a membrane structure on top of the computing unit and encapsulated it.

After being wrapped, it looks like ultra-small mitochondria or chloroplasts.

A large number of such small things can be placed in one cell. Using 4096 as the base number (sixteen rows, sixteen columns, sixteen layers stacked), it is not a problem to put tens of thousands of them in a row.

Let’s put a few less and see, the integer 64 (100 in octal, no problem) can also be arranged in four rows, four columns and four layers.

... Put 64 sesame seeds in, and the cell immediately became a mess of sesame seeds. Lanze added a strong long peptide chain and hung all 64 sesame seeds on the vine.

If the communication between the 64 sesame seeds relies on peptide chains, the structure of the peptide chains needs to be modified, otherwise the vines may become brittle.

Lan Ze had a flash of inspiration. Anyway, the check bits were enough. Let's give up three bits for quantum communication... let's call it a communicator.

In the process of cells assembling small sesame seeds, the entangled electrons at the communicator position are separated. For each of the three qubits, just hand over one electron...

Lanze hung a small ball surrounded by a membrane structure on the peptide chain. It is specifically responsible for collecting the large number of electrons thrown out by the communicators in the sesame. This ball is therefore responsible for the communication between the sesame units in the cell.

By the way, inter-cell communication can also be done like this... just hang a bigger ball.

A 38-bit × 64-unit cell-level quantum computer with quantum communication functions. These cellular structures can all be developed with existing technology!

Information exchange between traditional neuron cells relies on synapses, which extend from cells and occupy physical space.

In this cell, information exchange relies on a ball. Well... let's name this ball watermelon.

A vine has a large watermelon for external communication at one end and a small watermelon for internal communication at the other end. Small sesame seeds for calculation are distributed on the vine. The main functions of neuron cells are completed.

After the company synthesizes it, you can use it to do a few sets of experiments first.

In the future, I will consider adding a few more groups of vines, or adding a few groups of branches on the vines... Even if it cannot be arranged into a cube, it can still be done by sticking a vine full of small sesame seeds. If you stick tens of thousands of 38-bit small sesame seeds, the computer performance will be improved.

.

You may encounter unexpected obstacles when increasing the number of sesame seeds. You can use the eight-pointed method to calculate where the quantity limit is, and then actually test it.

This special neuron cell should have a convenient name.

It is based on the 38-bit sesame unit, and the company's internal name is called the 38-bit neuron. In the future, it will be called the 38-bit brain... It is inexplicably full of perceptual beauty.

Lan Ze felt satisfied and his spirit was lifted.

"Brother Lang?"

"Um?"

"Are you hungry?" Xiao Jiang asked Lan Ze.

"You're not hungry, what are you doing?"

"I've finished the derivation, and I see you're busy. Would you like to take a rest?"

The underground apartment they live in now has no windows. I don't know whether it's dark on the ground or not.
Chapter completed!