In my presentation today, I want to talk to you about qantum computers. There are dozens of quantum computers in the world. Quatum particles are able to compute in several dimensions simultaneously. The more qubits connected by entanglement at the atomic level in superposition, the faster we get the result, so it shrinks in a fraction of the time. The computing capacity of a qantum computer exponentially increases the number of problem solutions running on multiple threads at once. Some people can get the particles to work properly by cooling, the incoming microwave pulses affect the state of the particles, but the Chinese have overwhelmed that as well. Nanoscopic size The behavior of elementary particles at low temperatures, cooled to absolute zero, results in a myriad of macro-phenomena such as superfluidity and superconductivity. So parallel algorithms run simultaneously, reducing the time to a fraction. The amplitude of the results reveals the correct result, which is a quantity that changes over time. Complete separation of qubits is the key to the solution. The superposition outputs the result of each variation, but even the operation can be monitored by an algorithm running at the same time. Qutrites have appeared that set the photon beam to 3 states. We can say that exponential changes also change exponentially. There is already a huge competition between quantum computer development workshops around the world! The quantum supremacy of the Chinese is palpable. The optical quantum computer already operates at room temperature, photon trapping inorganic crystals contaminated with rare earth ions, where the computer is built with crystal defects. Those working on silicon-based electrons have reached a dead end. Chinese optical computers work with mirrors. There are 8 different ways in which research is stifled around the world. Photon trap quantum computers are already being tested in the cloud in the US. There is huge competition in the quantum market, the goal is to access the quantum internet. The Quantum Computing Control System (QCCS) systems, which are designed to control more than 100 superconductors and spin qubits, are emerging as overbidding. Quantum particles use a laser to get them to work properly, they can be in several states at the same time in the superposition, so an event takes all the possibilities into account at the same time. As the qubits merge, time decreases exponentially. Calculating the variations in parallel reduces the time spent on it to a fraction. Amplitude is a complex linear combination, it is likely that we will get a good result, of course they can knock each other out if they have opposite signs. Being close to 0 will be a good solution. The slightest change in the environment, heat, magnetism, can affect the result. The task of the running algorithm is to recognize the final result. They are still in their infancy, but the results so far are encouraging.
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