Since the creation of the very first computerTechnologies began to evolve as rapidly as no other industry developed. Now computers in the modern sense have already come to the peak of their development, and if we want to further develop technologies, we need something new. And, perhaps, scientists understood how to create a new type of computer.
Why are computers no longer effective?
In fact, modern “machines” are still capableon many things, but for this we need to improve them quantitatively, not qualitatively. That is, merge into huge clusters. And ultimately, we will come to what we started from: computers for processing tasks will be huge “cabinets” like the one shown in the illustration below.
In addition, the notorious "Moore's Law" statesthat the number of transistors in an integrated circuit doubles every two years. Increasing the number of transistors, we will increase the number of operations that they will perform 2 times. So they will process 2 times more information. In simple terms, it doubles the computing power.
However, in the end, the development of microelectronics has approached the threshold beyond which it is already impossible to increase the number of transistors. That is why you need to create a fundamentally new system.
See also: Who came up with computer passwords.
What is a molecular computer
The main difference between a molecular computer andThe classic is in the way of data processing. If in traditional systems, the unit of data is a bit, then in molecular computers it is any molecule. And if a bit has only 2 states - one and zero, then the molecule, unlike it, can be in these two states. When a bit can have information (unit) or not have it (zero), a molecule can have many such positions, since it can simultaneously interact with many other molecules and the result will be different within each interaction. Roughly speaking, a molecule can simultaneously have several “ones” or several “zeros”. This greatly speeds up the calculations. But there is one problem: heat transfer.
“Heat is a huge molecular problem.computers, because the interaction in such systems is a chain of atoms. When the molecule is heated, the atoms vibrate very quickly, and the chain can break, ”says one of the authors of the work, Professor at the University of Michigan Edgar Meyhofer.
How to create a molecular computer
Until now, heat transfer could not be measured, notto mention control it. But a group of scientists from the United States, Japan, Germany and South Korea managed to do this. During the experiments, scientists realized that the thermal conductivity at the molecular level does not change as much as in the macrocosm. If in “our world” it increases as the thickness of the material increases, and the electrical conductivity decreases, at the nanoscale as the thickness increases, the conductivity of electricity remains the same.
So you can create quite thick ones."Nanowires" to remove excess heat, which is formed during the molecular interaction. This will not allow molecules to break and will enable high-performance calculations. It remains only to confirm the data of experience and to assemble a molecular computer based on a new technology.
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