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Pallium. Everyone on earth knows it.
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Where is the physical storage of human memory? It mainly uses brain cells, the central nervous system of the brain, and the corpus callosum, which is composed of nerve fibers, is connected to make people have the function of storage. The human brain has more than 10 billion nerve cells, and it can record nearly 100 million pieces of information in life every day.
The human brain is the same as the computer hard disk, the memory is a zero memory, the hard disk has a number of tracks broken, the stored things will not disappear in a large area, only part of the text or documents will be lost. If a small part of the human brain is removed, it will lose or temporarily lose part of the memory, but the human brain storage is a biological cell, which will slowly repair itself over time, while the computer will not actively repair it, and the track will be permanently lost if it is broken.
This point is not conclusive, the loss of human memory will indeed be caused by changes in the brain, but the recovery ability of the brain will restore some physiological functions, that is, physical functions, but memory is often closed by the brain protectively, and some will be awakened again in the future, but if it is removed, we will never know what memory is in the removed piece.
Human memories are all within the memory cells of the brain! The human brain is like a super-sized trillion-digit smart memory card! Memories are also stored using micro-electrical signals! The whole human body also needs electricity! It's just that the voltage is low!
The human nervous system is transmitted using micro-electrical signals! If the information that can be developed into the human brain can be used, it will be a super high-capacity computer! But the human brain is too complex and sophisticated! With the current level of technology, it is impossible to unlock the code of the brain!
Of course, it is the whole two symmetrical brain bodies, and it cannot be said separately what the brain body does in this position, and what is the use of the brain body, it is the whole, and there have been many cases of heart replacement surgery that show that the thinking and personality of people after the heart change are obviously different, so the thinking operation of the human brain is greatly related to the whole body structure.
The human brain cell is the biological cell storage, in which the life growth program and the destiny operation program are stored. In the world, when the world has epilepsy, it is found that the seizures of epilepsy are related to the activity of a certain region of the brain.
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It's just stored on your hard drive.
Don't believe what scientists say, hippocampus, temporal lobe, left and right frontotemporal lobes, lobes, etc., remember, but what mortals understand can be made.
What wasn't made was hehe.
It's like knowing iron and steel, you can make it.
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Human memories are generally stored in the hippocampus of the human brain, and the memories stored by the seahorse's hooves are stored for a long time.
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Human memories are stored in the hippocampus, located in the frontal lobes of the brain, one on the left and one on the left.
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A person's brain stores information in the equivalent capacity of a library of 10 million books。The brain, also known as the terminal brain, is an advanced part of the vertebrate animal brain and is made up of two hemispheres, the left and right hemispheres. The largest part of the human brain is the advanced nerve center that controls movement, generates sensations, and enables advanced brain functions.
The terminal brain of vertebrates is the thin-walled part of the neural tube head in the embryo, which later develops into the two hemispheres of the brain, mainly including the cerebral cortex and the basal nucleus. The cerebral cortex is the gray substance that covers the surface of the terminal brain and is mainly made up of cells of neurons. The deep part of the cortex is made up of the medulla, or white matter, formed by nerve fibers.
There are also gray masses in the medulla, the basal nucleus, of which the striatal body is the main part. The brain in a broad sense refers to all brain structures above the tentorial of the cerebellum, i.e., the terminal brain, the diencephalon, and part of the brain.
The brain is made up of about 140 memory cells, weighs about 1,400 grams, the thickness of the cerebral cortex is about 2-3 mm, the total area is about 2,200 square centimeters, and it is estimated that about 100,000 brain cells will die every day. A person's brain stores information in a capacity equivalent to a library, with 10,000 books and 10 million books. The people who are the best at using their brains lose only 10% of their abilities in their lives.
The main component of the human brain is water, which accounts for 80%. Although it accounts for only 2% of the body's body weight, it consumes 25% of the body's oxygen and 15% of the blood output from the heart, with 2,000 liters of blood flowing through the brain in a day. If the brain consumes energy expressed in electricity about 25 watts.
Perhaps because computers are also complex systems with tremendous problem-solving abilities compared to computers. Both the brain and computers have a large number of basic units, such as the neurons of the brain and the transistors of the computer, which are connected to complex circuits to process important information transmitted by electrical signals. From a macro perspective, the structure of the brain and the computer is similar, and they are made up of most independent circuits, such as inputs, outputs, processing, and memory.
Given the rapid development of computer technology over the past few decades, you might think that computers are more advantageous and more efficient. In fact, a computer can easily beat humans in many aspects and in many complex games, but it is not designed by humans. However, it is undeniable that humans are still superior to computers in performing many tasks, such as recognizing bicycles or specific pedestrians on crowded city streets and smoothly saying a cup of tea, not to mention concepts and creativity.
We have to admit thatThe human brain is still more flexible, more pervasive, and learning than a computer。As neurologists understand the brain and discover more about its secrets, computer engineers can continue to be inspired to further improve and enhance the structure and performance of the brain. Regardless of who wins, interdisciplinary collaboration and research will advance neurolysis and computing.
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1000T, on average, each synapse can store about bits of data, and based on this, it is inferred that the storage capacity of the human brain can theoretically be as high as 1000T (Note: 1T is equal to 1024G, 1G is equal to 1024 megabytes). The brain is analogue; Computers are digital, and the superficial similarity with the numbers "1 and 0" obscures the various continuous and nonlinear processes of neuronal processing.
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The human brain is flexible, a person's brain can store information in a library with a capacity of 10 million volumes, the amount of information is still very large, the brain information is simulated by touch, and the computer is digital, the computer is a module and the brain is a large-scale running machine.
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The human brain can probably store thousands of pieces of information; The way of preserving information is more unique, there will be a relationship between relatives and distances, special memories will be made, and there will be these differences after the memory exists in the hierarchical computer
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From this question, I feel that there is an example that deserves our attention, and that is the storage of computers. Modern computers are mostly built on the von. Under the Neumann architecture, the core idea of the structure is the "binary programmable storage calculator".
One of the important reasons why computers are called computers and analogous to the human brain is that they can also store information just like the human brain. We noticed that in the computer, we save files or store other information, as long as we do the relevant saving operation. Usually this information is stored on some physical medium, such as a hard disk.
Most users know this, and it's worth noting that we only need to know this, that is, we know that the information has been stored, and as for how it is stored, we don't know. This kind of situation that exists but users can still use the computer without having to know it is called transparency in computer science. The memory (storage) of the human brain also seems to have this transparency, that is, we all need to know whether we remember something or not, and we don't need to know how this remembered thing is stored.
But the storage of the human brain obviously has some natural advantages over the storage of a computer. As we all know, when the computer retrieves its information, it uses some methods that are still very stupid, such as it is finding (comparing) one by one, proposing if it matches, and continuing to find the next one if it does not match, until it is finished. A slightly smarter approach is to use a half-fold lookup or a regular lookup based on a sorted storage structure.
Either way, these methods are well known to computer engineers and how to store them, and they all take a certain amount of time. But the human brain seems to be more direct in retrieving memories, if we remember something, we can extract it almost instantaneously when we need it, and the acquisition of information seems to be very straightforward, more like the direct storage of hash in the science of computing. However, to do hash storage in a computer, the problem must have a strong specificity.
And the human brain seems to be able to do this for all problems. Obviously, the human brain must have a structure for storing information, and it is this structure and a certain function attached to this structure that makes the memory and retrieval of the human brain far superior to that of today's computers. If we could really know, there would be a milestone in computer science.
If we really knew, maybe everyone would be able to remember it. If we can really know, everyone's childhood will no longer be troubled by exams.
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The human brain does not have such an ability, of course, if you give him enough time, you can also give it a try.
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No, your answer is too broad, can I simply understand that it is like this, can the human brain store everything known on Earth? Obviously not.
The human brain relies on cells for memory, for example, all the events that a person has experienced in his life can be counted as historical knowledge (which is known to mankind), and this person cannot even remember all the events of his own life, let alone such people on the earth.
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It depends on your own abilities or your own answers.
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