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Biocomputers



When we are looking microbe above this text we might almost see the microchip on that microbe. The microchip will send the commands to the microbe. And then the system can turn to use neurotransmitters for connecting those cells. The idea is to make a cell-based quantum computer that uses chemical qubits. 

Another name for quantum computers that use chemical qubits and forms of living neurons is brains. The human brains use 25W electricity per day. Maybe artificial brains or biological microprocessors are not as powerful as human brains. But they can control things like drones and man-size robots and make them more independent than ever before. 

The microbe called choanoflagellate was the first of the organisms that started to form the nervous system of the ancient animals. The choanoflagellate could be acting as the body of the new type of half-organic microchips. The idea is that the microprocessor that controls the organic part of these microchips will be put on the choanoflagellate. 

And then that organism starts to communicate by using neural proteins. The idea is that the microchip-controlled neural network could be acting as the half organic biocomputer. That kind of biocomputer can be a very effective and powerful system. Biological computers are things that bases is on the living neurons or pre-neural organisms that can communicate by using neurotransmitters. 

The microchip is the tool that gives a mission to the neurons would give electric stress to living neurons. Then those neurons would start to operate with that problem. That kind of system can be slower than real quantum computers. But that system requires less power than inorganic quantum computers. And the living neurons can use to control robots like drones. 

The problem with those biocomputers is that they must not be too independent. The operator must have the ability to control those vehicles. But living neural structure that controls robots. Need the same food as other neurons. So the robot that uses the biological computer must eat the same food that we are eating. The biocomputers must not be complicated. And only a couple of neurons can control things like drones. 

Those neurons that the system needs, can be taken from the bugs. But the problem is how to decode their EEG so that those neurons can deliver control signals to the drones. The half-organic microchips are very powerful tools. The problem is that those microchips can be acting somehow surprisingly. One requirement for safe robotics is that controllers know precisely what robots are doing. 


Image:) https://www.quantamagazine.org/brain-signal-proteins-evolved-before-animals-did-20220603/


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